US20200230376A1 - Balloon catheter with adjustable sheath - Google Patents
Balloon catheter with adjustable sheath Download PDFInfo
- Publication number
- US20200230376A1 US20200230376A1 US16/841,809 US202016841809A US2020230376A1 US 20200230376 A1 US20200230376 A1 US 20200230376A1 US 202016841809 A US202016841809 A US 202016841809A US 2020230376 A1 US2020230376 A1 US 2020230376A1
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- Prior art keywords
- balloon
- sheath
- outer member
- clamp
- catheter assembly
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Images
Classifications
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- A61M2025/0004—Catheters; Hollow probes having two or more concentrically arranged tubes for forming a concentric catheter system
- A61M2025/0006—Catheters; Hollow probes having two or more concentrically arranged tubes for forming a concentric catheter system which can be secured against axial movement, e.g. by using a locking cuff
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- A61M2025/1081—Balloon catheters with special features or adapted for special applications having sheaths or the like for covering the balloon but not forming a permanent part of the balloon, e.g. retractable, dissolvable or tearable sheaths
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- A61M2025/1043—Balloon catheters with special features or adapted for special applications
- A61M2025/109—Balloon catheters with special features or adapted for special applications having balloons for removing solid matters, e.g. by grasping or scraping plaque, thrombus or other matters that obstruct the flow
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- A61M2205/00—General characteristics of the apparatus
- A61M2205/02—General characteristics of the apparatus characterised by a particular materials
- A61M2205/0222—Materials for reducing friction
Definitions
- Exemplary embodiments generally relate to balloon catheters used in surgical procedures.
- This invention relates in general to balloon catheters that are used in surgical procedures.
- this invention relates to an improved structure for such a balloon catheter having a retractable sheath that can quickly and easily adjust the length of the inflated portion of the balloon and a locking mechanism for selectively retaining the sheath in the desired position for use.
- a catheter having a selectively inflatable portion provided thereon (commonly referred to as a balloon catheter) is used to open a blockage and/or place a stent in a blood vessel.
- a user must select one of various sized balloons to match the blood vessel structure and the length of the treatment area.
- the balloon of the catheter is initially positioned at a desired zone of attention within the blood vessel. Then, the balloon of the catheter is inflated so as to expand into engagement with an inner surface of the blood vessel, thereby expanding the blockage.
- an expandable stent can be disposed about the balloon of the catheter such that when the balloon is inflated, the stent is expanded into engagement with the inner surface of the blood vessel.
- the balloon and/or the stent is often treated with medication that is delivered by contact with the surface of the blood vessel when the balloon and/or stent is deployed. In either event, the balloon is subsequently deflated after use.
- the balloon be properly sized to the treatment area. If a balloon catheter is too long, the balloon may damage the surrounding tissue. If a balloon is too short, the treatment may be ineffective or require time-consuming repetition. Therefore, care facilities are forced to stock many different size balloon catheters and medical care providers must spend time carefully selecting the properly sized balloon catheter. What is needed is a variable length balloon catheter. Therefore, it would be desirable to provide an improved structure for such a balloon catheter having a retractable sheath that can quickly and easily adjust the length of the portion of the balloon to be inflated and a locking mechanism for selectively retaining said sheath in the desired position for use.
- a partially exposed balloon catheter would have a natural tendency to escape the retractable sheath when inflated. This is much like how a partially protruding watermelon seed has a natural tendency to entirely escape a person's lips, due to the watermelon seed's shape and texture.
- the same phenomenon applies to a partially exposed balloon catheter from a sheath, though the situation is further complicated by the internal pressure of the balloon. Therefore, it would be desirable to additionally provide a mechanical stop in conjunction with the device where said mechanical stop serves to prevent the balloon from entirely escaping the retractable sheath when the balloon is inflated. Further, the mechanical stop can be used to adjust the effective area of the balloon catheter by controlling the length of the balloon permitted to extend from the sheath.
- drug coatings may be applied to the outer surface of the intravascular balloons to increase the effectiveness of medical treatment.
- drug coated balloons are exposed to blood and other intravascular fluids upon being inserted into a person's vascular system. This may result in the premature activation, elution, dilution, and loss of the drug coating on the way to the treatment zone. Therefore, it would be desirable to provide a watertight seal between the balloon and the sheath such that the medicated balloon is not exposed to intravascular fluids until the balloon reaches the treatment zone.
- the balloon catheter assembly includes an inner member and an outer member that is disposed about the inner member.
- the outer member includes an inflatable balloon.
- a sheath is disposed about the outer member for movement relative to the balloon so as to selectively expose some or all of the balloon for inflation.
- the balloon catheter assembly includes a clamp for selectively securing the sheath at a desired position relative to the balloon.
- the inner member may comprise a series of indentations or protrusions that engage the clamp such that the user may selectively control the location of the retractable sheath relative to the balloon.
- the assembly may further include a mechanical stop that is configured to selectively secure the balloon and prevents it from entirely escaping the sheath when the balloon is inflated.
- the assembly may comprise a series of graduated markers, such as radiopaque markers, that indicate the position of the balloon relative to the retractable sheath.
- the balloon may further comprise a strength collar, such as an annulus, located on the distal end of the retractable sheath.
- the balloon and the sheath may form a substantially watertight engagement with one another. This seal may prevent the medicated coating from being prematurely removed, eluted, or activated prior to the assembly being properly located at the treatment site.
- the assembly may further comprise a cap that provides a substantially watertight engagement between said cap and the sheath when the balloon is in a retracted position such that the cap abuts the sheath.
- the balloon may further comprise a lubricious coating between the outer surface of the balloon and the inner surface of the sheath which allows the balloon to move relative to the sheath without disturbing the medicated coating.
- Balloons are often neatly folded and tightly packed into the smallest possible size sheath because the devices are required to enter and negotiate the patient's oftentimes narrow and winding vascular system. Once the balloon is deployed it is difficult to recover the balloon without wear or damage to the balloon. Regardless, it is also difficult to repackage the balloon in as neat and tidy a manner as it was originally packed. Therefore, what is needed is a variable length balloon having a balloon recapture element to facilitate incremental adjustment and/or protected and efficient repacking of the balloon.
- a variable length balloon with a balloon recapture element that facilitates incremental adjustment to the length of exposed balloon as well as protected and efficient repacking of the balloon is also provided.
- the recapture elements may include rifling along the inner surface of the sheath, a smoothed edge at the distal end of the sheath, a tapered edge at the distal end of the sheath, a funnel-shaped tip at the distal end of the sheath, or some combination thereof. These recapture elements may prevent wear to the balloon during re-sheathing. These recapture elements may also facilitate neat and tidy refolding and repackaging of the balloon in the sheath. Coupled with the variable length nature of the balloon, the recapture elements may facilitate multiple deployments of the balloon at the same or different treatment sites.
- a proximal portion of the balloon may be more compliant than a distal portion of the balloon. This may permit the proximal portion to inflate against an inner surface of the sheath and secure the relative position of the balloon.
- more than one balloon may be utilized.
- a first balloon may be placed proximal to a second balloon, for example without limitation.
- the first balloon may be configured to secure the relative position of the second balloon within the sheath and the second balloon may be used to compress the atherosclerotic material.
- the first and second balloons may be configured for simultaneous inflation.
- a high friction material may be located on the outer surface of the first balloon.
- the first balloon may be more compliant than the second balloon.
- the first balloon may be configured for inflation to a larger maximum diameter as compared to the second balloon.
- a monorail type system might sometimes permit positioning of the catheter device or exchange the current catheter device with another device.
- Such a system may require a smaller length guidewire as compared to a traditional system.
- a balloon having a proximal portion which is relatively compliant as compared to a distal portion.
- the increased compliance of the proximal portion may permit the proximal portion to expand against the inner wall of the sheath, thereby preventing a portion of the balloon from escaping the sheath.
- the proximal portion may be larger or smaller than the distal portion.
- a plurality of balloons may be utilized where a first balloon may be more compliant than a second balloon. The first balloon may be positioned over top of at least a portion of the second balloon.
- FIG. 1 is a side elevation view of a first end of a balloon catheter assembly
- FIG. 2 is an enlarged sectional elevation view of a second end of the balloon catheter assembly illustrated in FIG. 1 ;
- FIG. 3 is a perspective view of a clamp of the balloon catheter assembly illustrated in FIG. 1 ;
- FIG. 4 is an enlarged sectional elevation view showing the clamp of the balloon catheter assembly illustrated in FIG. 1 in a locked condition
- FIG. 5 is an enlarged sectional elevation view similar to FIG. 4 showing the clamp of the balloon catheter assembly in an unlocked condition
- FIG. 6 is a further enlarged sectional elevation view of a second end of a balloon catheter assembly
- FIG. 7 is an enlarged sectional elevation view similar to FIG. 4 , wherein a series of spaced indentations/protrusions are provided on one side of the movable sheath;
- FIG. 8 is an enlarged sectional elevation view similar to FIG. 7 , wherein a series of annular spaced indentations/protrusions are provided about the circumference of the movable sheath;
- FIG. 9 is a sectional elevation view similar to FIG. 2 showing the end of the sheath in sealing engagement with a tapered insertion tip and indicating Detail A;
- FIG. 10 is an enlarged view of the tapered insertion tip illustrated in Detail A of FIG. 9 ;
- FIG. 11 is an enlarged view similar to FIG. 10 showing the sheath partially retracted to expose the balloon;
- FIG. 12 is a sectional elevation view similar to FIG. 9 showing an exemplary embodiment of a mechanical stop
- FIG. 13 is a sectional elevation view similar to FIG. 12 showing another exemplary embodiment of the mechanical stop
- FIG. 14 is a sectional elevation view similar to FIG. 12 showing another exemplary embodiment of the mechanical stop
- FIG. 15 is a sectional elevation view similar to FIG. 12 showing another exemplary embodiment of the mechanical stop
- FIG. 16 is a sectional elevation view similar to FIG. 12 showing another exemplary embodiment of the mechanical stop
- FIG. 17 is a sectional elevation view similar to FIG. 12 showing another exemplary embodiment of the mechanical stop
- FIG. 18 is an enlarged, side, sectional view of the sheath with the balloon removed to illustrate an exemplary embodiment of a balloon recapture element
- FIG. 19 is an enlarged, side, sectional view similar to FIG. 18 illustrating another exemplary embodiment of the balloon recapture element
- FIG. 19B is a side view of an exemplary pleated balloon for use with the device of FIG. 19 , also illustrating section line 1 - 1 ;
- FIG. 19C is a front, sectional view of the exemplary pleated balloon taken along section line 1 - 1 of FIG. 19B ;
- FIG. 20 is an enlarged, side, sectional view similar to FIG. 18 illustrating another exemplary embodiment of the balloon recapture element.
- FIG. 20B is an enlarged, side, sectional view similar to FIG. 18 illustrating another exemplary embodiment of the balloon recapture element
- FIG. 21 is a sectional elevation view similar to FIG. 12 showing another exemplary embodiment of the second end of the balloon catheter assembly
- FIG. 22 is a sectional elevation view similar to FIG. 12 showing another exemplary embodiment of the second end of the balloon catheter assembly
- FIG. 23 is a sectional elevation view similar to FIG. 12 showing another exemplary embodiment of the second end of the balloon catheter assembly
- FIG. 24 is a sectional elevation view similar to FIG. 12 showing another exemplary embodiment of the second end of the balloon catheter assembly
- FIG. 25 is a sectional elevation view similar to FIG. 12 showing another exemplary embodiment of the second end of the balloon catheter assembly
- FIG. 26 is a top plan view of another exemplary embodiment of the handle assembly also indicating section line 2 - 2 ;
- FIG. 27 is a side sectional view taken along section line 2 - 2 of FIG. 26 ;
- FIG. 28 is an enlarged top perspective view of the handle assembly of FIG. 27 with certain portions rendered partially transparent so as to illustrate additional components;
- FIG. 29 is a side sectional view of the handle assembly of FIG. 28 with a clamp in a clamped position
- FIG. 30 is a side sectional view similar to FIG. 29 with the clamp in an unclamped position.
- FIG. 31 is a side sectional view of another exemplary embodiment of the second end of the balloon catheter assembly.
- Embodiments of the invention are described herein with reference to illustrations that are schematic illustrations of idealized embodiments (and intermediate structures) of the invention. As such, variations from the shapes of the illustrations as a result, for example, of manufacturing techniques and/or tolerances, are to be expected. Thus, embodiments of the invention should not be construed as limited to the particular shapes of regions illustrated herein but are to include deviations in shapes that result, for example, from manufacturing.
- FIG. 1 and FIG. 2 illustrate a balloon catheter assembly, indicated generally at 10 .
- the balloon catheter assembly is comprised of a first end, illustrated in FIG. 1 , and a second end, illustrated in FIG. 2 .
- the balloon catheter assembly 10 has an elongated shaft portion that includes an outer member 11 and an inner member 12 .
- the outer member 11 and the inner member 12 may both be tubular in shape, although such is not required.
- the inner member 12 is disposed within the outer member 11 .
- an annular outer lumen is defined between the inner surface of the outer tubular member 11 and the outer surface of the inner tubular member 12 .
- a cylindrical inner lumen is defined within the inner tubular member 12 . The purpose for the outer and inner lumens will be explained below.
- one or more radiopaque markers 12 a may be provided on the inner tubular member 12 .
- the radiopaque markers 12 a are conventional in the art and are provided to facilitate the determination of the location of the inner tubular member 12 during a procedure using conventional fluoroscopy techniques.
- the radiopaque markers 12 a may be spaced in regular intervals.
- one or more radiopaque markers 22 b may be provided on the expanded portion 22 a of the sheath 22 to facilitate the determination of the location of the sheath 22 using conventional fluoroscopy techniques during use.
- the radiopaque markers 12 a and 22 b may be monitored by the user to determine how far the inner member 12 a , and thus the balloon 15 , is extended from the sheath 22 thereby permitting the user to monitor how much of the balloon 15 is exposed for treatment of the affected area.
- An adapter 13 may be connected to a first end of the elongated shaft portion of the balloon catheter assembly 10 .
- the adapter 13 is conventional in the art and is provided to facilitate access to both the outer and inner lumens during use of the balloon catheter assembly 10 .
- a guide wire 14 can be inserted into the inner lumen via the adapter 13 and through a second end of the elongated shaft portion of the balloon catheter assembly 10 , as shown in FIG. 2 .
- the guide wire 14 is conventional in the art and is provided to facilitate the positioning of the balloon catheter assembly 10 at a desired location for use, such as within a blood vessel as described above.
- the adapter 13 may comprise a luer lock or similar device configured to facilitate the introduction of a fluid into the balloon catheter assembly 10 .
- the fluid may be used to flush the balloon catheter assembly 10 prior to use.
- the fluid may be used to remove any air from the balloon catheter assembly 10 prior to inserting any portion of the balloon catheter assembly 10 into the patient's vascular system.
- the fluid may be any kind of biocompatible fluid including, but not limited to, saline, carbon dioxide, and the like.
- the luer lock and/or the adapter 13 may be configured to accept a carbon dioxide cartridge for flushing the balloon catheter assembly 10 .
- the outer tubular member 11 includes an inflatable balloon 15 .
- the balloon 15 is conventional in the art and may be connected to the outer tubular member 11 such that at least a portion of the inflatable balloon 15 extends about an end portion of the inner tubular member 12 .
- the interior of the balloon 15 communicates with the outer lumen of the balloon catheter assembly 10 .
- an inflation fluid can be selectively introduced into the adapter 13 and through the outer lumen to the interior of the balloon 15 , causing it to inflate in a known manner.
- the interior of the balloon 15 can be vented through the outer lumen and the adapter 13 to the atmosphere, allowing it to deflate after use.
- the balloon catheter assembly 10 includes an adjustable sheath assembly, indicated generally at 20 .
- the adjustable sheath assembly 20 is provided to selectively define a portion of the balloon 15 that is desired to be inflated during use.
- the balloon catheter assembly 10 includes a clamp, indicated generally at 21 , and a sheath 22 .
- the clamp 21 is disposed about the outer member 11 adjacent to the adapter 13 and the first end of the elongated shaft portion of the balloon catheter assembly 10 . The structure and operation of the clamp 21 will be explained in detail below.
- the sheath 22 may extend from the clamp 21 about the outer member 11 toward the second end of the elongated shaft portion of the balloon catheter assembly 10 .
- the sheath 22 includes an expanded portion 22 a that is located adjacent to the second end of the elongated shaft portion of the balloon catheter assembly 10 .
- One or more optional radiopaque markers 22 b may be provided on the expanded portion 22 a of the sheath 22 to facilitate the determination of the location of the sheath 22 using conventional fluoroscopy techniques during use.
- the expanded portion 22 a of the sheath 22 may have an elastically expandable distal tip provided thereon that is expanded in a conventional manner when the balloon 15 is inflated. The structure and operation of the optional elastically expandable distal tip will be explained in detail below.
- Treatments to various size vascular zones of attention may be provided utilizing the systems and methods disclosed herein.
- a user may first provide an intravascular catheter device consistent with these disclosures.
- the user may direct the catheter to a pre-determined zone of attention within a person's vascular system.
- the user may move the sheath relative to the balloon so to selectively expose a portion of the balloon for inflation.
- the user may next temporarily secure the sheath relative to the balloon.
- the user may then inflate the balloon.
- these steps may include providing a medical treatment device, such as but not limited to a stent, in conjunction with the other steps and processes described herein.
- the medical treatment device may be deployed when the balloon is inflated, or it may be deployed as another step. In either case, the balloon may then be deflated and removed.
- these disclosures may also provide a method for minimizing or all together eliminating premature activation, elution, dilution, or removal of a drug coating on the balloon and the medical treatment device.
- the user may provide an intravascular catheter device consistent with the present disclosures.
- the user may direct the catheter to the pre-determined zone of attention within the person's vascular system.
- the user may move the sheath relative to the balloon so to selectively expose a portion of the drug coated balloon or the medical treatment device for activation.
- the balloon may be inflated to place the outer surface of the balloon and the medical treatment device in contact with the surrounding blood vessel wall.
- the balloon may be deflated and removed. It is notable that while the aforementioned method is described with the medical treatment device, such is not required.
- FIG. 3 illustrates the external structure of an exemplary embodiment of the clamp 21 .
- the clamp 21 includes a housing 30 through which the outer member 11 of the elongated shaft portion of the balloon catheter assembly 10 extends.
- the housing 30 includes a push button 31 and a tip 30 a .
- the tip 30 a may include a protective member 25 that permits the passage of the sheath 22 .
- the sheath 22 is connected directly to the tip 30 a .
- the housing 30 of the clamp 21 is connected to the sheath 22 for movement therewith, as will be explained in detail below.
- FIG. 4 and FIG. 5 illustrate the internal structure of an embodiment of the clamp 21 .
- the housing 30 of the clamp 21 also includes a pair of button supports 30 b , within which respective manually operable push buttons 31 are supported for inward and outward movement relative to the housing 30 .
- each of the button supports 30 b is generally hollow and cylindrical in shape
- each of the push buttons 31 is generally cylindrical in shape.
- the button supports 30 b and the push buttons 31 may have any desired shape or combination of shapes. The purpose for the push buttons 31 will be explained below.
- the housing 30 of the clamp 21 further includes a pair of actuator arm supports 30 c , upon which respective actuator arms 32 are supported for pivoting movement relative to the housing 30 .
- each of the actuator arm supports 30 c is a generally cylindrical protrusion that extends inwardly within the housing 30 .
- the actuator arm supports 30 c may have any desired shape or combination of shapes.
- Each of the illustrated actuator arms 32 is provided with a pair of legs 32 a that define a pocket.
- the actuator arm supports 30 c of the actuator arms 32 are respectively received within the pockets defined by the pairs of legs 32 a of the actuator arms 32 .
- the actuator arms 32 are respectively supported on the actuator arm supports 30 c of the housing 30 for independent pivoting movement relative thereto.
- the first ends of the actuator arms 32 are respectively disposed adjacent to the inner ends of the push buttons 31 .
- the actuator arms 32 also include respective second ends that are disposed remotely from the first ends.
- respective engagement pads 33 are secured to the inner surfaces of the second ends of the actuator arms 32 .
- the engagement pads 33 may be formed from any desired material or combination of materials and may, if desired, be omitted entirely. However, it is preferred that the engagements pads 33 be formed from a material having a relatively high coefficient of friction, such as rubber. The purpose for the engagement pads 33 will be explained below.
- the housing 30 of the clamp 21 may include a pair of springs 34 that independently bias the two actuator arms 32 toward each other.
- each of the springs 34 is formed from a flat piece of resilient material, such as a metallic material, that has been deformed to achieve a desired shape and bias.
- the springs 34 may be formed from any desired material or combination of materials and take any shape.
- the springs 34 may have first ends that are received within respective spring supports 30 d provided on the inner surface of the housing 30 .
- the springs 34 also may have second ends that bear inwardly upon respective outer surfaces of the second ends of the actuator arms 32 . The purpose for the springs 34 will be explained below.
- FIG. 4 illustrates the clamp 21 of the balloon catheter assembly 10 in a locked condition.
- the second ends of the springs 34 bear inwardly upon respective outer surfaces of the second ends of the actuator arms 32 .
- the engagements pads 33 are urged inwardly toward one another, as shown at 35 , so as to engage and may exert a force on opposed portions of the outer surface of the outer member 11 of the balloon catheter assembly 10 , which extends through the interior of the housing 30 of the clamp 21 .
- the engagements pads 33 are preferably formed from a material having a relatively high coefficient of friction.
- the outer member 11 of the balloon catheter assembly 10 is hindered or wholly prevented from moving axially relative to the housing 30 of the clamp 21 .
- the housing 30 of the clamp 21 is connected at the tip 30 a to the sheath 22 for movement therewith. Accordingly, when the clamp 21 of the balloon catheter assembly 10 is in the locked condition, the outer member 11 of the balloon catheter assembly 10 is also prevented from moving axially relative to the sheath 22 .
- FIG. 5 illustrates the clamp 21 of the balloon catheter assembly 10 in an unlocked condition.
- a user of the balloon catheter assembly 10 may apply inwardly directed forces, as shown at 36 , against the manually operable push buttons 31 . These forces overcome the forces exerted by the springs 34 and cause the actuator arms 32 to pivot such that the engagements pads 33 are moved out of engagement, as shown at 37 , with the opposed portions of the outer surface of the outer member 11 of the balloon catheter assembly 10 .
- the outer member 11 of the balloon catheter assembly 10 is permitted to move axially relative to the housing 30 of the clamp 21 .
- the housing 30 of the clamp 21 may be connected at the tip 30 a to the sheath 22 for movement therewith, when the clamp 21 of the balloon catheter assembly 10 is in the unlocked condition, the outer member 11 of the balloon catheter assembly 10 is also permitted to move axially relative to the sheath 22 .
- FIG. 6 illustrates a second end of the balloon catheter assembly, indicated generally at 10 ′, in accordance with this invention.
- the second end of the modified balloon catheter assembly 10 ′ has a collar 40 provided thereon.
- the purpose of the collar 40 is to prevent the sheath 22 from splitting or otherwise being deformed or damaged as a result of the pressure force exerted by the balloon 15 when it is inflated.
- the illustrated collar 40 is tubular in shape and extends completely about the end of the sheath 22 where the balloon 15 is located. However, it will be appreciated that the collar 40 may have any desired shape and may be located at any desired position on the sheath 22 or cover any desired portion of the sheath 22 .
- the collar 40 may be formed from any desired material, such as a metallic material, a high strength aramid fiber material (such as is commercially available under the Kevlar@ brand name), a high durometer plastic material, or the like. If desired, the collar 40 may be formed from a radiopaque material, allowing it to function as a marker for the distal tip of the sheath 22 . If desired, the distal tip of the sheath 22 may be provided with a smooth edge (not shown) so as not to present a sharp edge toward the balloon 15 .
- the tip of the balloon 15 may fit snugly into the end of the sheath 22 so as to provide a watertight engagement therebetween.
- a watertight engagement would maintain the integrity of the interior compartment of the balloon catheter assembly 10 during its insertion within a blood vessel or other portion of a body and during travel to the treatment site. This may be utilized to maintain a dry interior. Maintaining the interior compartment of the balloon catheter assembly 10 dry facilitates the use of conventional drug-coated balloons, stents, and other devices.
- the coatings provided on such devices are, in some instances, activated by contact with blood and water.
- a significant amount of the drugs provided on the balloons, stents, and other devices can be eluted during the initial insertion of the catheter assembly through blood vessels having flowing blood.
- the watertight engagement of this invention allows for minimal elution of the drugs during the initial insertion of the balloon catheter assembly 10 and maximal delivery of the drugs to the desired site.
- a sealed engagement may alternatively be obtained by the use of a tapered insertion tip 60 .
- a lubricious coating may be provided between the sheath 22 and the outer surface of the balloon 15 , such that the lubricious coating may reduce or eliminate disturbance to the drug coating when the balloon 15 is moved relative to the sheath 22 .
- the sheath 22 may protect the various components of the adjustable sheath assembly 20 when moving through the persons' vascular system.
- the sheath 22 may also protect any drug coating provided on the outer surface of the balloon 15 from being prematurely scraped off, eluted, or activated such as, without limitation, by contact with the persons' bodily fluids or vascular structures.
- the sheath 22 may protect the adjustable sheath assembly 20 and/or any drug coating provided on the balloon 15 from contact with the procedural sheath that may be used over the adjustable sheath assembly 20 .
- the sheath 22 may also protect the adjustable sheath assembly 20 and/or any drug coating provided on the balloon 15 from contact with vascular walls of the person, particularly when navigating sinuous or narrow passages.
- the sheath 22 may also protect the adjustable sheath assembly 20 and/or any drug coating provided on the balloon 15 from contact with other objects in the persons' vascular system, such as but not limited to, blockages. While the sheath 22 is described as protecting the components of the adjustable sheath assembly 20 , it should be appreciated that the sheath 22 may similarly protect the persons' vascular system from the various components of the adjustable sheath assembly 20 .
- FIG. 7 illustrates one side of the outer member 11 provided with a plurality of spaced indentations or protrusions, indicated generally at 50 .
- the indentations or protrusions 50 may have any desired shape or size (or combination of shapes and sizes) and may be provided at any desired location(s) on the one side of the outer member 11 . Any number of indentations or protrusions 50 is contemplated.
- the indentations or protrusions 50 are adapted to cooperate with one or more inwardly extending portions 32 b provided on either or both of the actuator arms 32 .
- the inwardly extending portions 32 b provided on either or both of the actuator arms 32 engage one or more of the indentations or protrusions 50 .
- the outer member 11 of the balloon catheter assembly 10 is prevented from moving axially relative to the housing 30 of the clamp 21 .
- the inwardly extending portions 32 b provided on either or both of the actuator arms 32 do not engage one or more of the indentations or protrusions 50 .
- the outer member 11 of the balloon catheter assembly 10 is permitted to move axially relative to the housing 30 of the clamp 21 .
- FIG. 8 illustrates a series of annular spaced indentations or protrusions, indicated generally at 55 .
- the indentations or protrusions 55 may have any desired shape or size (or combination of shapes and sizes) and may be provided at any desired location(s) on the outer member 11 . Any number of indentations or protrusions 55 is contemplated.
- the indentations or protrusions 55 are adapted to cooperate with one or more of the inwardly extending portions 32 b provided on either or both of the actuator arms 32 .
- the inwardly extending portions 32 b provided on either or both of the actuator arms 32 engage one or more of the indentations or protrusions 55 .
- the outer member 11 of the balloon catheter assembly 10 is prevented from moving axially relative to the housing 30 of the clamp 21 .
- the inwardly extending portions 32 b provided on either or both of the actuator arms 32 do not engage one or more of the indentations or protrusions 55 .
- the outer member 11 of the balloon catheter assembly 10 is permitted to move axially relative to the housing 30 of the clamp 21 .
- the annular spaced indentations or protrusions 55 may be a series of identical annular spaced indentations or protrusions 55 .
- Each section of the annular spaced indentations or protrusions 55 may be defined by a tubular section with an outer diameter smaller than the outer diameter of the outer member 11 , a conical section with an initial outer diameter equal to the smaller outer diameter of the previous section, transitioning to an outer diameter substantially equal to the outer diameter of the outer member 11 , and finally, a second tubular section with an outer diameter substantially equal to the outer diameter of the outer member.
- This design allows for the inwardly extending portions 32 b to ratchet as each section of the annular spaced indentation or protrusion 55 passes the inwardly extending portions 32 b .
- This may provide the user with tactile and audible feedback as each section passes through the inwardly extending portion 32 b . In the illustrated embodiment this would prevent the clamp 21 from moving distally relative to the balloon catheter assembly 10 .
- the annular spaced indentations or protrusions 55 may be reversed such that the indentations or protrusions 55 prevent the clamp 21 from moving proximally relative to the balloon catheter assembly 10 .
- FIG. 9 , FIG. 10 , and FIG. 11 illustrate a modified end of the adjustable sheath assembly 20 ′ with the tapered insertion tip 60 .
- the end of the adjustable sheath assembly 20 ′ is in sealing engagement with the tapered insertion tip 60 .
- FIG. 11 is similar to FIG. 10 but shows the end of the adjustable sheath assembly 20 ′ partially retracted to expose the balloon 15 in the manner described above.
- One or more radiopaque markers may be placed on the tapered insertion tip 60 and monitored using conventional fluoroscopy techniques such that the user may determine the distance, shown in FIG. 11 as “D”, between the sheath 22 a and the tapered insertion tip 60 . This also permits the user to determine the exposed length of the balloon 15 .
- the sheath 22 and tapered insertion tip 60 may protect the drug coating or drug coated devices such that the drug coating is not activated, eluted, diluted, or removed when the balloon catheter assembly 10 is placed into the blood vessel.
- the balloon 15 alone may provide a sealing engagement with the sheath 22 .
- the balloon catheter assembly 10 may additionally comprise a lubricious coating provided between the sheath 22 and the balloon 15 to facilitate the movement of the balloon 15 relative to the sheath 22 by reducing or eliminating disturbance to the drug coating.
- the lubricious coating may additionally or alternatively be combined with or placed over the top of the medicated coating.
- FIG. 12 illustrates the adjustable sheath assembly 20 of the balloon catheter assembly 10 , further comprising a mechanical stop.
- the mechanical stop may comprise an annulus 23 and a block 38 .
- a sheath lumen may be defined as the opening between the outer surface of balloon 15 and the expanded portion 22 a . In exemplary embodiments, there may be no sheath lumen, as the sheath 22 substantially fits the curvature of the balloon 15 .
- the annulus 23 may be located on the distal end of the expanded portion 22 a .
- the annulus 23 may comprise an annual member located on the inner surface of the expanded portion 22 a having a thickness such that it protrudes inwardly, thereby restricting the sheath lumen.
- the stop 38 may comprise a corresponding annual member 38 located on the outer diameter of the balloon 15 , though any shape capable of frictionally engaging the annulus 23 is contemplated.
- the outer dimension of the stop 38 has an outer diameter larger that the lumen created by the annulus 23 .
- the outer diameter of the corresponding stop 38 is configured such that it frictionally engages annulus 23 , thereby preventing the balloon 15 from extending beyond the annulus 23 .
- FIG. 13 illustrates another exemplary embodiment in which the assembly 10 further comprises one or more ridges 28 located on the outer surface of the balloon 15 that extend vertically therefrom.
- the mechanical stop may comprise an annular shaped pointed member 23 b that it protrudes inwardly from the inner surface of the distal end of the expanded portion 22 a , thereby restricting the sheath lumen, and the ridges 28 .
- the pointed shape of the pointed member 23 b may be complementary to the shape of each of the ridges 28 .
- the pointed member 23 b may selectively secure the balloon 15 by frictionally engaging each of the ridges 28 .
- the ridges 28 are formed as part of the balloon 15 .
- the ridges 28 may be separately formed and attached to the outer diameter of balloon 15 . Any number of ridges 28 is contemplated. Additionally, the ridges 28 may be equally spaced apart along balloon 15 , though any spacing is contemplated.
- the series of ridges 28 may be comprised of a sufficiently rigid material such that each ridge 28 may not pass through the lumen created by the pointed member 23 b without the user exerting a force on the assembly 10 such that the ridge 28 or the pointed member 23 b may be sufficiently deformed to pass though the lumen created by pointed member 23 b . This force may be exerted by the user directly on the outer member 11 . Alternatively, this force may be exerted by the user on the outer member by use of the clamp 21 .
- FIG. 14 illustrates another exemplary embodiment wherein the balloon 15 comprises a series of valleys 28 b located on the outer diameter of the balloon 15 .
- the valleys 28 b reduce the thickness of the balloon 15 such that outer diameter of the balloon 15 is reduced. Any number of valleys 28 b is contemplated. Said valleys 28 b may be equally spaced apart along the balloon 15 , though any spacing is contemplated.
- a pointed member 23 c may selectively secure movement of the balloon 15 relative to the sheath 22 by frictionally engaging each of the valleys 28 b as they move through the lumen created by the pointed member 23 c .
- the shape of the pointed member 23 b may be formed complementary to the void created by each of the valleys 28 b .
- the pointed member 23 c may be comprised of a sufficiently flexible material such that each of the valleys 28 b may not pass through the lumen created by the pointed member 23 c until the user exerts force on the assembly such that the pointed member 23 c or the balloon 15 is sufficiently deformed to permit each of the series of valleys 28 b to pass through the lumen created by the pointed member 23 c .
- This force may be exerted by the user directly on the outer member 11 . Alternatively, this force may be exerted by the user on the outer member by use of the clamp 21 .
- FIG. 15 illustrates another exemplary embodiment wherein the mechanical stop comprises a block 24 , which may be attached to the balloon 15 .
- the block 24 may be attached to the outer diameter of the balloon 15 .
- the block 24 may be in the shape of a “T” such that the vertical section of the “T” extends vertically from the outer surface of balloon 15 and the horizontal portion of the “T” is curved and secured to the outer surface of the balloon 15 , though any shape is contemplated.
- the block 24 frictionally engages the mechanical stop 23 .
- the block of any shape may be used in place of the block 24 .
- FIG. 16 illustrates another exemplary embodiment of the mechanical stop comprising a circumferential slot 29 located on the inner surface of the expanded portion 22 a .
- the slot 29 may be configured to accommodate and frictionally engage a collapsible block 24 b such that as the balloon 15 is extended from the expanded portion 22 a , the collapsible block 24 b expands and enters the slot 29 , thereby preventing the balloon 15 from further extending relative to the expanded portion 22 a .
- a collapsible orthotope, column, “T”, or other shape collapsible device may be used.
- the collapsible block 24 b or the portion of the collapsible block 24 b extending into the slot 29 , may be spring loaded or otherwise biased into an expanded position.
- FIG. 17 illustrates another exemplary embodiment in which the mechanical stop comprises a first and second portion 26 and 23 d .
- the first and second portion 26 and 23 d may be located on the outer surface of the balloon 15 and the inner surface of the sheath 22 , respectively, and may comprise a surface or a coating with a relatively high coefficient of friction.
- the remainder of the balloon 15 and the sheath 22 may further comprise a surface or a coating with a relatively low coefficient of friction such as a polymer, silicone, any kind of lubricant, or the like.
- the first and second portions 26 and 23 d may comprise a rubber, polymer, or the like.
- first and second portions 26 and 23 d may be comprised of a surface, a coating, or a surface texture to increase the coefficient of friction such as bumps or the like.
- the first portion 26 may be located towards the proximal end of the balloon 15 relative to the clamp 21 , though any location is contemplated.
- the second portion 23 d may be located towards the distal end of the sheath 22 relative to the clamp 21 , though any location is contemplated.
- the balloon 15 may extend relative to the sheath 22 until the first portion 26 encounters and frictionally engages the second portion 23 d , thereby preventing the balloon 15 from traveling beyond.
- FIG. 18 is an enlarged, side, sectional view of the adjustable sheath assembly 20 with the balloon 15 removed to better illustrate an exemplary balloon recapture element.
- the balloon recapture element may be a rounded or smoothed distal end 70 of the sheath 22 . Additionally, or in the alternative, the balloon recapture element may be a tapered or angled distal end 70 of the sheath. The rounded, smoothed, tapered, or angled distal end 70 may provide less frictional resistance and reduce the potential for wear and/or tearing of the balloon 15 when the balloon is being placed back into the sheath 22 and/or the exposed length of the balloon 15 from the sheath 22 is being adjusted.
- FIG. 19 illustrates another exemplary embodiment of the balloon recapture element.
- the balloon recapture element may comprise rifling 74 located on the inner surface of the sheath 22 .
- the rifling 74 is spiral shaped and extends along at least a portion of the sheath 22 .
- the rifling 74 may be in any configuration, including but not limited to, any slope angled between 0 degrees and 90 degrees.
- FIG. 19B and FIG. 19C illustrate an exemplary pleated balloon 15 ′ for use with the rifling 74 of FIG. 19 .
- the rifling 74 may be configured to mate with a number of pleats 72 located on the outer surface of the balloon 15 ′. Any size, number, shape, or configuration of the pleats 72 is contemplated.
- the pleats 72 may be configured to fit into the rifling 74 such that the distance the balloon 15 ′ protrudes from the sheath 22 may be incrementally and predictably increased or decreased by advancing or retracting the balloon 15 ′ along the rifling 74 relative to the sheath 22 .
- the rifling 74 may mate and interact with the ridges 28 , blocks 24 , collapsible blocks 24 b , valleys 28 b , stop 38 , or other stop mechanism. Additionally, the rifling 74 may permit the balloon 15 ′ to be neatly folded and repackaged upon retraction into the sheath 22 .
- the rifling 74 may be patterned such that the balloon 15 ′ is forced along a track that encourages or forces the balloon 15 ′ to be folded in a desired manner for efficient packing. Such folding and packing may be further facilitated by preexisting creases in the balloon 15 ′.
- the rifling 74 may reduce or prevent the potential for wear, tearing, or premature failure of the balloon 15 ′, thus permitting the balloon 15 ′ to be successively redeployed at the same or other treatment sites.
- FIG. 20 and FIG. 20B illustrate another embodiment of the balloon recapture element where the sheath 22 may be formed with a funnel-shaped tip.
- the funnel-shaped tip may take the form of an enlarged section 76 whereby the diameter is increased over a length of the sheath 22 and then the diameter is held constant over a second length of the sheath 22 .
- the funnel-shaped tip may take the form of a diametrically increasing length 78 of the sheath 22 .
- the balloon 15 may be gradually forced to reduce in size as it travels back into the sheath 22 , resulting in a more easily recaptured balloon 15 . This may reduce or prevent the potential for wear, tearing, or premature failure of the balloon 15 , thus permitting the balloon 15 to be successively redeployed at the same or other treatment sites.
- FIG. 21 is a sectional elevation view similar to FIG. 12 showing another exemplary embodiment of the balloon 15 .
- the balloon 15 may comprise a proximal portion 15 A and a distal portion 15 B. While the proximal portion 15 A is illustrated as having a larger outer diameter as compared to the distal portion 15 B, it is contemplated that the proximal portion 15 A and the distal portion 15 B may have the same size outer diameter. It is further contemplated that the proximal portion 15 A may have a smaller outer diameter as compared to the distal portion 15 B.
- the proximal portion 15 A may be located proximal to the clamp 21 relative to the distal portion 15 B.
- the proximal portion 15 A may be relatively compliant compared to the distal portion 15 B. This may permit the proximal portion 15 A to expand against the inner surface of the sheath 22 , such as the expanded portion 22 a . This may prevent the proximal portion 15 A of the balloon 15 from escaping the sheath 22 .
- the distal portion 15 B may be relatively compliant compared to the proximal portion 15 A. This may permit the distal portion 15 B to expand to a larger size before the proximal portion 15 A contacts the inner surface of the sheath 22 .
- the proximal portion 15 A may comprise the first portion 26 or a similar area having a relatively high coefficient of friction.
- the expanded portion 22 a of the sheath 22 may comprise the second portion 23 d or similar area having a relatively high coefficient of friction.
- the first and second portions 26 and 23 d may be comprised of a rubber, a material having a high degree of texture, or the like. In this way, when the proximal portion 15 A is expanded, the first portion 26 is placed into contact with the second portion 23 d . As the pressure of the balloon 15 increases, the normal forces between the first and second portions 26 and 23 d may increase, thereby increasing the associated frictional forces. Any number of first and second portions 26 and 23 d may be located on the balloon 15 at any location. It is further contemplated that the entire proximal portion 15 A may be comprised of a material having a relatively high coefficient of friction.
- the proximal portion 15 A and the distal portion 15 B may have different size outer diameters.
- the proximal portion 15 A may be larger than the distal portion 15 B such that the proximal portion 15 A first comes into contact with the inner surface of the sheath 22 .
- the distal portion 15 B is larger than the proximal portion 15 A. In this way, the balloon 15 may be permitted to expand into a larger size before the proximal portion 15 A contacts the inner surface of the sheath 22 .
- the balloon 15 may be any size or shape and comprise any number of characteristics (compliance, strength, pressure rating, etc.) and may contain any number of portions having different sizes and shapes and comprise any number of characteristics. It is contemplated that the proximal portion 15 A and the distal portion 15 B may have the same size outer diameter. While the proximal portion 15 A is illustrated as having a larger diametric size as compared to the distal portion 15 B, the reverse is contemplated.
- FIG. 22 illustrates another exemplary embodiment of the sheath assembly 20 .
- the sheath assembly may comprise an attachment device 42 .
- the attachment device 42 may be located on the outer surface of the sheath 22 .
- the attachment device 42 may extend along the outer surface of the expanded portion 22 a .
- the attachment device 42 may be configured to accommodate the guide wire 14 .
- the attachment device 42 forms a tube, slit, or channel configured to accommodate the guide wire 14 .
- the tube, slit, or channel for example without limitation, may be tubular in shape, U-shaped, V-shaped, or the like.
- the attachment device 42 may facilitate the use of a guide wire 14 to position the balloon catheter assembly 10 .
- the attachment device 42 may further facilitate the exchange of the balloon catheter assembly 10 with other medical devices.
- FIG. 23 illustrates another exemplary embodiment of an attachment device 42 b .
- the attachment device 42 b may be a pass-through device.
- the attachment device 42 b may be a tube, slit, or channel that permits the guide wire 14 to exit through the sheath 22 , the balloon 15 , and into the inner member 12 closer to the distal end of the adjustable sheath assembly 20 .
- this approach requires a shorter guide wire 14 .
- the attachment device 42 b may be located anywhere along the catheter assembly 10 .
- the attachment device 42 b may be located proximal to the balloon 15 such that the attachment device 42 b permits the guide wire 14 to pass through the sheath 22 and into the inner member 12 .
- the guide wire 14 may enter through the attachment device 42 b , pass through the inner member 12 , and exit the distal end of the catheter assembly 10 .
- the attachment device 42 b may be configured to permit the guide wire 14 to extend through the sheath but not into the inner member 12 .
- FIG. 24 and FIG. 25 illustrate other exemplary embodiments of an attachment device 42 c .
- the attachment device 42 c may comprise a first slit 43 located along the sheath 22 .
- the first slit 43 may be located along the expanded portion 22 a , however any location is contemplated.
- the first slit 43 may be located along the portion of the sheath 22 between the expanded portion 22 a and the clamp 21 . Stated another way, the first slit 43 may be located on the portion of the sheath 22 not housing the balloon 15 .
- the first slit 43 may be any size or shape.
- the first slit 43 is sized to substantially match the length of the balloon 15 . In this way, the guide wire 14 will not get trapped or kinked when the balloon 15 is moved relative to the sheath 22 .
- the first slit 43 is sized to accommodate the guide wire 14 .
- additional guide wire 14 may be fed into or out of the attachment device 42 c to accommodate movement of the balloon 15 relative to the sheath 22 .
- the first slit 43 may be shaped as a circle, though any shape is contemplated.
- the first slit 43 may also extend into the balloon 15 , however such is not required.
- a second slit 45 may be located in the inner member 12 , though such is not required.
- the second slit 45 may also be sized to substantially match the length of the balloon 15 .
- the first slit 43 is sized to substantially match the length of the balloon 15 . In this way, the guide wire 14 will not get trapped or kinked when the balloon 15 is moved relative to the sheath 22 .
- the second slit 45 may be sized to accommodate the guide wire 14 .
- additional guide wire 14 may be fed into or out of the attachment device 42 c to accommodate movement of the balloon 15 relative to the sheath 22 .
- the first slit 43 may be shaped as a circle, though any shape is contemplated.
- the second slit 45 may be the same or a different size and shape than the first slit 43 .
- a channel 44 may extend between the first slit 43 and the second slit 45 , however such is not required.
- the channel 44 may be configured to accommodate the guide wire 14 .
- the channel 44 may also be sized to substantially match the length of the balloon 15 .
- the channel 44 may be sized to accommodate the guide wire 14 .
- the channel 44 may be the same or a different size than the first slit 43 and/or the second slit 45 .
- the channel 44 may be formed by side walls extending between the first slit 43 and the second slit 45 .
- the channel 44 is defined by the space between the first slit 43 and the second slit 45 .
- the guide wire 14 may enter the adjustable sheath assembly 20 through the distal end thereof and may exit the adjustable sheath assembly 20 through one or more of the first slit 43 , the channel 44 , and the second slit 45 .
- the attachment device 42 , 42 b , or 42 c may permit a shorter guide wire 14 to be used. Normally, the guide wire 14 must extend from the treatment site all the way back to the clamp 21 or the entrance/exit point into the persons' vascular system. Particularly in below the knee applications, which are contemplated, this may require a long guide wire 14 . Such guide wires 14 may not be commercially available or may be expensive. Additionally, such guide wires may be cumbersome to use and difficult to control.
- the use of the attachment device 42 , 42 b , or 42 c may provide an exit point for the guide wire 14 closer to the distal end of the adjustable sheath assembly 20 such that a shorter guide wire 14 may be used. This may permit use with shorter guide wires 14 which may be cheaper, more readily available, and easier to control.
- FIG. 26 is a top plan view of another exemplary embodiment of the handle assembly 21 also indicating section line 2 - 2 .
- the handle assembly 21 may comprise a body 30 .
- the handle assembly 21 may further comprise one or more buttons 31 .
- the outer member 11 may extend through the body 30 such that the out remember 11 travels from the balloon assembly 10 , to the handle assembly 21 , through the body 30 , and extends therebeyond.
- the body 30 may define a hollow space which may accommodate the outer member 11 , among other components.
- the outer member 11 may extend from the adapter 13 , though the handle assembly 21 , and within the sheath 22 to the balloon assembly 10 .
- a flush port 46 may be in fluid communication with the handle assembly 21 .
- the sheath 22 may extend from the handle assembly 21 to the balloon assembly 10 .
- the sheath 22 may extend within the protective member 25 .
- FIG. 27 is a side sectional view of the handle assembly 21 taken along section line 2 - 2 of FIG. 26 .
- FIG. 28 through FIG. 30 illustrate various additional views of the handle assembly 21 .
- the button 31 may be associated with a clamp 56 .
- a portion of the button 31 may be secured to, or may rest against, a portion of the clamp 56 .
- Portions of the clamp 56 may be connected to one or more portions of the body 30 .
- the clamp 56 may be substantially ribbon shaped and may be formed of a resilient metal, though any material, type, shape, and configuration of the clamp 56 is contemplated.
- the clamp 56 may act as a spring and may normally provide upward forces against the button 31 .
- the button 31 may be secured against the body 30 .
- a lip 54 may be secured against a corresponding protrusion in the button 31 .
- the lip 54 may be located at a distal end of the button 31 , though any location is contemplated.
- a proximal portion 50 of the button 31 may be secured to a hinge 51 .
- the hinge 51 may facilitate rotational movement of the button 31 .
- the proximal portion 50 of the button 31 may be configured to, additionally or alternatively, frictionally engage a corresponding portion of the body 30 .
- the proximal portion 50 may extend within a hollow space defined by the body 30 such that an upper surface 50 of the proximal portion 50 frictionally interacts with an inner surface of the body 30 .
- the button 31 may comprise various protrusions or other features configured to interact with the body 30 and/or the clamp 56 .
- a portion of the button 31 and/or the body 30 may serve as a stop which prevents the button 31 from being moved beyond a certain point.
- the clamp 56 may be secured to a lower portion of the body 30 as well as a portion of the button 31 .
- the clamp 56 may have a first end and a second end which may each define an opening 57 .
- the openings 57 may be curved in shape.
- the openings 57 may extend from side edges of the clamp 56 .
- the opening 57 in the first end of the clamp 56 may define a substantially semi-circular shape and the opening 57 in the second end of the clamp 56 may define a curved shape with a larger opening in an upper portion as compared to a lower portion.
- the openings 57 may overlap such that the outer member 11 may extend through the openings 57 .
- the clamp 56 may be biased in a clamped position. Depression of the button 31 may be configured to cause the first end of the clamp 56 to move vertically downward relative to the second end of the clamp 56 such that a larger opening is created by the alignment of the openings 57 to allow the outer member 11 to be extended or retracted therethrough and/or relieving forces otherwise exerted on the outer member 11 . Removal of force from the button 31 may be configured to cause the first end of the clamp 56 to move vertically upwards relative to the second end of the clamp 56 such that the outer member 11 is frictionally engaged and prevented from being extended or retracted under normal conditions.
- the outer member 11 may be comprised of a braided material configured to frictionally engage the clamp 56 when the clamp 56 is in the clamped position.
- the second end of the clamp 56 may be configured for movement while the first end of the clamp 56 may be fixed.
- movement may be permitted when the button is not depressed and movement may be prevented when the button is depressed in other exemplary embodiments.
- the clamp 56 may be biased in an unclamped position.
- the clamp 56 may form a substantially triangular shape.
- the clamp 56 may comprise a second opening 59 which is configured to accept a tube 52 .
- the tube 52 may be configured to accommodate the outer member 11 .
- the tube 52 may be configured to protect the outer tube 11 as it extends through at least a portion of the handle assembly 21 .
- the tube 52 may comprise one or more flared ends for accepting the outer member 11 .
- a substantially vertical and/or an angled force illustrated as FA 1
- the application of a substantially vertical and/or an angled force, illustrated as FA 1 , at the button 31 may cause the distal portion of the button 31 to rotate downward about the hinge 51 .
- the downward rotation may exert forces on the second end of the clamp 56 , causing the second end of the clamp to move vertically downward, thereby enlarging the opening 57 and/or relieving forces otherwise exerted on the outer member 11 .
- a substantially horizontal pushing or pulling forces illustrated as FA 2
- FA 2 may be applied to the portion of the outer member 11 extending from the rear of the handle assembly 21 . This may cause the outer member 11 , and therefore the balloon 15 , to be extended or retracted relative to the sheath 22 . This may result in a variable length of the balloon 15 being exposed for inflation to a maximum diameter.
- An adapter 48 may be located within the body 30 .
- the adapter 48 may be configured to permit the outer member 11 to pass therethrough.
- the adapter 48 may be attached to the body 30 at one or more places.
- the adapter 48 may be further configured to accept the flush port 46 and place it in fluid communication with the balloon 15 .
- the adapter 48 may be further configured to secure the protective member 25 to the body 30 .
- FIG. 31 is a side sectional view of another exemplary embodiment of the second end of the balloon catheter assembly 10 .
- the illustrated second end may be used in conjunction with the previously described adjustable sheath assembly 20 , though such is not required.
- a first balloon 15 A may be placed proximal to a second balloon 15 B.
- the first balloon 15 A may be more compliant relative to the second balloon 15 B.
- the second balloon 15 B may be semi-compliant or non-compliant.
- the first balloon 15 A may be configured for inflation to a larger maximum inflation diameter compared to the second balloon 15 B.
- the first balloon 15 A may have a larger maximum diameter than the second balloon 15 B.
- the second balloon 15 B may have a greater overall length as compared to the first balloon 15 A.
- the first balloon 15 A and the second balloon 15 B may each be in fluid communication with one or more inflation ports 58 .
- the inflation ports 58 may be in fluid communication with an inflation device, such as but not limited to a pump, by way of the inner member 12 .
- the inner member 12 may comprise an inner lumen for the transportation of an inflation fluid from the inflation device to the first and second balloons 15 A and 15 B.
- the inner member 12 may be tubular.
- a first end of the inner member 12 may extend to an adapter 13 in fluid communication with an inflation device, or may extend directly to the inflation device.
- the adapter 13 and/or inflation device may be located beyond the handle assembly 21 .
- a second end of the inner member 12 may comprise an opening 62 configured to accommodate the guide wire 14 .
- the inflation ports 58 for the first balloon 15 A and the inflation ports 58 for the second balloon 15 B may be in fluid communication with one another. Stated a different way, the first balloon 15 A and the second balloon 15 B may be inflated at the same time. Stated yet another way, the same pressure of inflation may be applied to both the first balloon 15 A and the second balloon 15 B. In other exemplary embodiments, the first balloon 15 A may be configured for separate inflation from the second balloon 15 B.
- the first balloon may be configured to inflate to a larger diameter than the second balloon 15 B under the same pressure. In this way, the first balloon 15 A may be inflated to contact the surrounding sheath 22 and secure the position of the second balloon 15 B relative to the sheath 22 .
- the second balloon 15 B may be inflated to compress atherosclerotic material located within the blood vessel.
- the first balloon 15 A may have a smaller length than the second balloon 15 B.
- the first balloon 15 A may comprise a material 64 having a relatively high coefficient of friction compared to some or all of the remainder of the balloon 15 A.
- this material 64 may be located on some or all of the outer surfaces of the first balloon 15 A.
- the material 64 may comprise a roughened surface, a textured surface, a sticky substance, a tacky substance, some combination thereof, or the like.
- the material 64 may be comprised of rubber.
- the material 65 may be configured to secure the first balloon 15 A against the inner surface of the sheath 22 when the first balloon 15 A is inflated.
- any embodiment of the present invention may include any of the optional or preferred features of the other embodiments of the present invention.
- the exemplary embodiments herein disclosed are not intended to be exhaustive or to unnecessarily limit the scope of the invention.
- the exemplary embodiments were chosen and described in order to explain the principles of the present invention so that others skilled in the art may practice the invention. Having shown and described exemplary embodiments of the present invention, those skilled in the art will realize that many variations and modifications may be made to the described invention. Many of those variations and modifications will provide the same result and fall within the spirit of the claimed invention. It is the intention, therefore, to limit the invention only as indicated by the scope of the claims.
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Abstract
An intravascular balloon catheter device for treating various size stenosed regions within a blood vessel is provided. A clamp located within a body of a handle assembly is movable between a clamped and unclamped position by way of a button. When clamped, an outer member is secured relative to a sheath to as to expose a portion of a balloon located on a distal end of the outer member. The portion of the balloon remaining within the sheath is restricted from inflation beyond the sheath.
Description
- This application is a continuation of U.S. application Ser. No. 16/570,170 filed Sep. 13, 2019, which is a continuation-in-part of U.S. application Ser. No. 16/033,874 filed Jul. 12, 2018, which is a continuation-in-part of U.S. application Ser. No. 15/241,606 filed Aug. 19, 2016, which is a continuation-in-part of U.S. application Ser. No. 14/990,477 filed Jan. 7, 2016, which claims the benefit of U.S. Application No. 62/102,770, filed Jan. 13, 2015, and International Application No. PCT/US2014/046616, filed Jul. 15, 2014, which claims the benefit of U.S. Provisional Application No. 62/012,382, filed Jun. 15, 2014 and U.S. Provisional Application No. 61/846,095, filed Jul. 15, 2013. The disclosures of all of which are incorporated herein by reference as if restated in their entirety.
- Exemplary embodiments generally relate to balloon catheters used in surgical procedures.
- This invention relates in general to balloon catheters that are used in surgical procedures. In particular, this invention relates to an improved structure for such a balloon catheter having a retractable sheath that can quickly and easily adjust the length of the inflated portion of the balloon and a locking mechanism for selectively retaining the sheath in the desired position for use.
- In many surgical procedures, such as but not limited to percutaneous transluminal angioplasty procedures, a catheter having a selectively inflatable portion provided thereon (commonly referred to as a balloon catheter) is used to open a blockage and/or place a stent in a blood vessel. To accomplish this, a user must select one of various sized balloons to match the blood vessel structure and the length of the treatment area. The balloon of the catheter is initially positioned at a desired zone of attention within the blood vessel. Then, the balloon of the catheter is inflated so as to expand into engagement with an inner surface of the blood vessel, thereby expanding the blockage. If desired, an expandable stent can be disposed about the balloon of the catheter such that when the balloon is inflated, the stent is expanded into engagement with the inner surface of the blood vessel. The balloon and/or the stent is often treated with medication that is delivered by contact with the surface of the blood vessel when the balloon and/or stent is deployed. In either event, the balloon is subsequently deflated after use.
- It is important that the balloon be properly sized to the treatment area. If a balloon catheter is too long, the balloon may damage the surrounding tissue. If a balloon is too short, the treatment may be ineffective or require time-consuming repetition. Therefore, care facilities are forced to stock many different size balloon catheters and medical care providers must spend time carefully selecting the properly sized balloon catheter. What is needed is a variable length balloon catheter. Therefore, it would be desirable to provide an improved structure for such a balloon catheter having a retractable sheath that can quickly and easily adjust the length of the portion of the balloon to be inflated and a locking mechanism for selectively retaining said sheath in the desired position for use.
- Due to internal pressure, shape, and texture, a partially exposed balloon catheter would have a natural tendency to escape the retractable sheath when inflated. This is much like how a partially protruding watermelon seed has a natural tendency to entirely escape a person's lips, due to the watermelon seed's shape and texture. Here, the same phenomenon applies to a partially exposed balloon catheter from a sheath, though the situation is further complicated by the internal pressure of the balloon. Therefore, it would be desirable to additionally provide a mechanical stop in conjunction with the device where said mechanical stop serves to prevent the balloon from entirely escaping the retractable sheath when the balloon is inflated. Further, the mechanical stop can be used to adjust the effective area of the balloon catheter by controlling the length of the balloon permitted to extend from the sheath.
- Recently, medical practitioners have realized that drug coatings may be applied to the outer surface of the intravascular balloons to increase the effectiveness of medical treatment. These so called “drug coated balloons” are exposed to blood and other intravascular fluids upon being inserted into a person's vascular system. This may result in the premature activation, elution, dilution, and loss of the drug coating on the way to the treatment zone. Therefore, it would be desirable to provide a watertight seal between the balloon and the sheath such that the medicated balloon is not exposed to intravascular fluids until the balloon reaches the treatment zone.
- These disclosures provide an improved structure for a balloon catheter having a retractable sheath that can quickly and easily adjust the length of the inflated portion of the balloon and a locking mechanism for selectively retaining the sheath in the desired position for use. The balloon catheter assembly includes an inner member and an outer member that is disposed about the inner member. The outer member includes an inflatable balloon. A sheath is disposed about the outer member for movement relative to the balloon so as to selectively expose some or all of the balloon for inflation. The balloon catheter assembly includes a clamp for selectively securing the sheath at a desired position relative to the balloon. The inner member may comprise a series of indentations or protrusions that engage the clamp such that the user may selectively control the location of the retractable sheath relative to the balloon.
- The assembly may further include a mechanical stop that is configured to selectively secure the balloon and prevents it from entirely escaping the sheath when the balloon is inflated. The assembly may comprise a series of graduated markers, such as radiopaque markers, that indicate the position of the balloon relative to the retractable sheath. The balloon may further comprise a strength collar, such as an annulus, located on the distal end of the retractable sheath.
- Additionally, the balloon and the sheath may form a substantially watertight engagement with one another. This seal may prevent the medicated coating from being prematurely removed, eluted, or activated prior to the assembly being properly located at the treatment site. In exemplary embodiments, the assembly may further comprise a cap that provides a substantially watertight engagement between said cap and the sheath when the balloon is in a retracted position such that the cap abuts the sheath. The balloon may further comprise a lubricious coating between the outer surface of the balloon and the inner surface of the sheath which allows the balloon to move relative to the sheath without disturbing the medicated coating.
- It may be advantageous to facilitate incremental adjustments to the exposed portion of the balloon. Additionally, or in the alternative, it may be advantageous to permit recapture and redeployment of the balloon. Balloons are often neatly folded and tightly packed into the smallest possible size sheath because the devices are required to enter and negotiate the patient's oftentimes narrow and winding vascular system. Once the balloon is deployed it is difficult to recover the balloon without wear or damage to the balloon. Regardless, it is also difficult to repackage the balloon in as neat and tidy a manner as it was originally packed. Therefore, what is needed is a variable length balloon having a balloon recapture element to facilitate incremental adjustment and/or protected and efficient repacking of the balloon.
- A variable length balloon with a balloon recapture element that facilitates incremental adjustment to the length of exposed balloon as well as protected and efficient repacking of the balloon is also provided. The recapture elements may include rifling along the inner surface of the sheath, a smoothed edge at the distal end of the sheath, a tapered edge at the distal end of the sheath, a funnel-shaped tip at the distal end of the sheath, or some combination thereof. These recapture elements may prevent wear to the balloon during re-sheathing. These recapture elements may also facilitate neat and tidy refolding and repackaging of the balloon in the sheath. Coupled with the variable length nature of the balloon, the recapture elements may facilitate multiple deployments of the balloon at the same or different treatment sites.
- Alternatively, or in addition, it may be advantageous to use various balloon sizes and configurations to prevent portions of the balloon from escaping the sheath. For example, without limitation, a proximal portion of the balloon may be more compliant than a distal portion of the balloon. This may permit the proximal portion to inflate against an inner surface of the sheath and secure the relative position of the balloon. In other exemplary embodiments, more than one balloon may be utilized. A first balloon may be placed proximal to a second balloon, for example without limitation. The first balloon may be configured to secure the relative position of the second balloon within the sheath and the second balloon may be used to compress the atherosclerotic material. The first and second balloons may be configured for simultaneous inflation. A high friction material may be located on the outer surface of the first balloon. The first balloon may be more compliant than the second balloon. Alternatively, or additionally, the first balloon may be configured for inflation to a larger maximum diameter as compared to the second balloon.
- When utilizing such catheter devices, it is sometimes desirable to initially flush the catheter with saline or another liquid to ensure that there is no air present in the catheter device. This is sometimes referred to as “de-airing” the device. Air otherwise in the catheter device could inadvertently be introduced into the patient's vascular system and result in complications. In some cases, it would be advantageous to instead use another biocompatible fluid for flushing the catheter device such as, without limitation, carbon dioxide. Carbon dioxide may be more readily available and cheaper as compared to saline in some situations.
- Additionally, sometimes it would be advantageous to use alternative positioning and exchanging systems with the catheter device. For example, a monorail type system might sometimes permit positioning of the catheter device or exchange the current catheter device with another device. Such a system may require a smaller length guidewire as compared to a traditional system.
- These disclosures further provide a balloon having a proximal portion which is relatively compliant as compared to a distal portion. The increased compliance of the proximal portion may permit the proximal portion to expand against the inner wall of the sheath, thereby preventing a portion of the balloon from escaping the sheath. Alternatively, or in addition, the proximal portion may be larger or smaller than the distal portion. In other exemplary embodiments, a plurality of balloons may be utilized where a first balloon may be more compliant than a second balloon. The first balloon may be positioned over top of at least a portion of the second balloon.
- Various aspects of this invention will become apparent to those skilled in the art from the following detailed description of the preferred embodiments, when read in light of the accompanying drawings.
- In addition to the features mentioned above, other aspects of the present invention will be readily apparent from the following descriptions of the drawings and exemplary embodiments, wherein like reference numerals across the several views refer to identical or equivalent features, and wherein:
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FIG. 1 is a side elevation view of a first end of a balloon catheter assembly; -
FIG. 2 is an enlarged sectional elevation view of a second end of the balloon catheter assembly illustrated inFIG. 1 ; -
FIG. 3 is a perspective view of a clamp of the balloon catheter assembly illustrated inFIG. 1 ; -
FIG. 4 is an enlarged sectional elevation view showing the clamp of the balloon catheter assembly illustrated inFIG. 1 in a locked condition; -
FIG. 5 is an enlarged sectional elevation view similar toFIG. 4 showing the clamp of the balloon catheter assembly in an unlocked condition; -
FIG. 6 is a further enlarged sectional elevation view of a second end of a balloon catheter assembly; -
FIG. 7 is an enlarged sectional elevation view similar toFIG. 4 , wherein a series of spaced indentations/protrusions are provided on one side of the movable sheath; -
FIG. 8 is an enlarged sectional elevation view similar toFIG. 7 , wherein a series of annular spaced indentations/protrusions are provided about the circumference of the movable sheath; -
FIG. 9 is a sectional elevation view similar toFIG. 2 showing the end of the sheath in sealing engagement with a tapered insertion tip and indicating Detail A; -
FIG. 10 is an enlarged view of the tapered insertion tip illustrated in Detail A ofFIG. 9 ; -
FIG. 11 is an enlarged view similar toFIG. 10 showing the sheath partially retracted to expose the balloon; -
FIG. 12 is a sectional elevation view similar toFIG. 9 showing an exemplary embodiment of a mechanical stop; -
FIG. 13 is a sectional elevation view similar toFIG. 12 showing another exemplary embodiment of the mechanical stop; -
FIG. 14 is a sectional elevation view similar toFIG. 12 showing another exemplary embodiment of the mechanical stop; -
FIG. 15 is a sectional elevation view similar toFIG. 12 showing another exemplary embodiment of the mechanical stop; -
FIG. 16 is a sectional elevation view similar toFIG. 12 showing another exemplary embodiment of the mechanical stop; -
FIG. 17 is a sectional elevation view similar toFIG. 12 showing another exemplary embodiment of the mechanical stop; -
FIG. 18 is an enlarged, side, sectional view of the sheath with the balloon removed to illustrate an exemplary embodiment of a balloon recapture element; -
FIG. 19 is an enlarged, side, sectional view similar toFIG. 18 illustrating another exemplary embodiment of the balloon recapture element; -
FIG. 19B is a side view of an exemplary pleated balloon for use with the device ofFIG. 19 , also illustrating section line 1-1; -
FIG. 19C is a front, sectional view of the exemplary pleated balloon taken along section line 1-1 ofFIG. 19B ; -
FIG. 20 is an enlarged, side, sectional view similar toFIG. 18 illustrating another exemplary embodiment of the balloon recapture element; and -
FIG. 20B is an enlarged, side, sectional view similar toFIG. 18 illustrating another exemplary embodiment of the balloon recapture element; -
FIG. 21 is a sectional elevation view similar toFIG. 12 showing another exemplary embodiment of the second end of the balloon catheter assembly; -
FIG. 22 is a sectional elevation view similar toFIG. 12 showing another exemplary embodiment of the second end of the balloon catheter assembly; -
FIG. 23 is a sectional elevation view similar toFIG. 12 showing another exemplary embodiment of the second end of the balloon catheter assembly; -
FIG. 24 is a sectional elevation view similar toFIG. 12 showing another exemplary embodiment of the second end of the balloon catheter assembly; -
FIG. 25 is a sectional elevation view similar toFIG. 12 showing another exemplary embodiment of the second end of the balloon catheter assembly; -
FIG. 26 is a top plan view of another exemplary embodiment of the handle assembly also indicating section line 2-2; -
FIG. 27 is a side sectional view taken along section line 2-2 ofFIG. 26 ; -
FIG. 28 is an enlarged top perspective view of the handle assembly ofFIG. 27 with certain portions rendered partially transparent so as to illustrate additional components; -
FIG. 29 is a side sectional view of the handle assembly ofFIG. 28 with a clamp in a clamped position; -
FIG. 30 is a side sectional view similar toFIG. 29 with the clamp in an unclamped position; and -
FIG. 31 is a side sectional view of another exemplary embodiment of the second end of the balloon catheter assembly. - Various embodiments of the present invention will now be described in detail with reference to the accompanying drawings. In the following description, specific details such as detailed configuration and components are merely provided to assist the overall understanding of these embodiments of the present invention. Therefore, it should be apparent to those skilled in the art that various changes and modifications of the embodiments described herein can be made without departing from the scope and spirit of the present invention. In addition, descriptions of well-known functions and constructions are omitted for clarity and conciseness.
- The invention is described more fully hereinafter with reference to the accompanying drawings, in which exemplary embodiments of the invention are shown. This invention may, however, be embodied in many different forms and should not be construed as limited to the exemplary embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete, and will fully convey the scope of the invention to those skilled in the art. In the drawings, the size and relative sizes of layers and regions may be exaggerated for clarity.
- The terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. As used herein, the singular forms “a”, “an” and “the” are intended to include the plural forms as well, unless the context clearly indicates otherwise. It will be further understood that the terms “comprises” and/or “comprising,” when used in this specification, specify the presence of stated features, integers, steps, operations, elements, and/or components, but do not preclude the presence or addition of one or more other features, integers, steps, operations, elements, components, and/or groups thereof.
- Embodiments of the invention are described herein with reference to illustrations that are schematic illustrations of idealized embodiments (and intermediate structures) of the invention. As such, variations from the shapes of the illustrations as a result, for example, of manufacturing techniques and/or tolerances, are to be expected. Thus, embodiments of the invention should not be construed as limited to the particular shapes of regions illustrated herein but are to include deviations in shapes that result, for example, from manufacturing.
- Unless otherwise defined, all terms (including technical and scientific terms) used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. It will be further understood that terms, such as those defined in commonly used dictionaries, should be interpreted as having a meaning that is consistent with their meaning in the context of the relevant art and will not be interpreted in an idealized or overly formal sense unless expressly so defined herein.
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FIG. 1 andFIG. 2 illustrate a balloon catheter assembly, indicated generally at 10. The balloon catheter assembly is comprised of a first end, illustrated inFIG. 1 , and a second end, illustrated inFIG. 2 . Theballoon catheter assembly 10 has an elongated shaft portion that includes anouter member 11 and aninner member 12. Theouter member 11 and theinner member 12 may both be tubular in shape, although such is not required. Theinner member 12 is disposed within theouter member 11. Thus, an annular outer lumen is defined between the inner surface of the outertubular member 11 and the outer surface of theinner tubular member 12. Similarly, a cylindrical inner lumen is defined within theinner tubular member 12. The purpose for the outer and inner lumens will be explained below. - In exemplary embodiments, one or more
radiopaque markers 12 a may be provided on theinner tubular member 12. Theradiopaque markers 12 a are conventional in the art and are provided to facilitate the determination of the location of theinner tubular member 12 during a procedure using conventional fluoroscopy techniques. Theradiopaque markers 12 a may be spaced in regular intervals. Further, one or moreradiopaque markers 22 b may be provided on the expandedportion 22 a of thesheath 22 to facilitate the determination of the location of thesheath 22 using conventional fluoroscopy techniques during use. Theradiopaque markers inner member 12 a, and thus theballoon 15, is extended from thesheath 22 thereby permitting the user to monitor how much of theballoon 15 is exposed for treatment of the affected area. - An
adapter 13 may be connected to a first end of the elongated shaft portion of theballoon catheter assembly 10. Theadapter 13 is conventional in the art and is provided to facilitate access to both the outer and inner lumens during use of theballoon catheter assembly 10. For example, aguide wire 14 can be inserted into the inner lumen via theadapter 13 and through a second end of the elongated shaft portion of theballoon catheter assembly 10, as shown inFIG. 2 . Theguide wire 14 is conventional in the art and is provided to facilitate the positioning of theballoon catheter assembly 10 at a desired location for use, such as within a blood vessel as described above. - The
adapter 13 may comprise a luer lock or similar device configured to facilitate the introduction of a fluid into theballoon catheter assembly 10. The fluid may be used to flush theballoon catheter assembly 10 prior to use. For example, without limitation, the fluid may be used to remove any air from theballoon catheter assembly 10 prior to inserting any portion of theballoon catheter assembly 10 into the patient's vascular system. The fluid may be any kind of biocompatible fluid including, but not limited to, saline, carbon dioxide, and the like. In exemplary embodiments, the luer lock and/or theadapter 13 may be configured to accept a carbon dioxide cartridge for flushing theballoon catheter assembly 10. - The outer
tubular member 11 includes aninflatable balloon 15. Theballoon 15 is conventional in the art and may be connected to the outertubular member 11 such that at least a portion of theinflatable balloon 15 extends about an end portion of theinner tubular member 12. The interior of theballoon 15 communicates with the outer lumen of theballoon catheter assembly 10. As a result, an inflation fluid can be selectively introduced into theadapter 13 and through the outer lumen to the interior of theballoon 15, causing it to inflate in a known manner. Additionally, the interior of theballoon 15 can be vented through the outer lumen and theadapter 13 to the atmosphere, allowing it to deflate after use. - The
balloon catheter assembly 10 includes an adjustable sheath assembly, indicated generally at 20. As will be explained in detail below, theadjustable sheath assembly 20 is provided to selectively define a portion of theballoon 15 that is desired to be inflated during use. To accomplish this, theballoon catheter assembly 10 includes a clamp, indicated generally at 21, and asheath 22. Theclamp 21 is disposed about theouter member 11 adjacent to theadapter 13 and the first end of the elongated shaft portion of theballoon catheter assembly 10. The structure and operation of theclamp 21 will be explained in detail below. - The
sheath 22 may extend from theclamp 21 about theouter member 11 toward the second end of the elongated shaft portion of theballoon catheter assembly 10. In the illustrated embodiment, thesheath 22 includes an expandedportion 22 a that is located adjacent to the second end of the elongated shaft portion of theballoon catheter assembly 10. One or more optionalradiopaque markers 22 b may be provided on the expandedportion 22 a of thesheath 22 to facilitate the determination of the location of thesheath 22 using conventional fluoroscopy techniques during use. Also, the expandedportion 22 a of thesheath 22 may have an elastically expandable distal tip provided thereon that is expanded in a conventional manner when theballoon 15 is inflated. The structure and operation of the optional elastically expandable distal tip will be explained in detail below. - Treatments to various size vascular zones of attention may be provided utilizing the systems and methods disclosed herein. To perform such treatments, a user may first provide an intravascular catheter device consistent with these disclosures. Next, the user may direct the catheter to a pre-determined zone of attention within a person's vascular system. Then the user may move the sheath relative to the balloon so to selectively expose a portion of the balloon for inflation. The user may next temporarily secure the sheath relative to the balloon. The user may then inflate the balloon. In exemplary embodiments, these steps may include providing a medical treatment device, such as but not limited to a stent, in conjunction with the other steps and processes described herein. The medical treatment device may be deployed when the balloon is inflated, or it may be deployed as another step. In either case, the balloon may then be deflated and removed.
- These disclosures may also provide a method for minimizing or all together eliminating premature activation, elution, dilution, or removal of a drug coating on the balloon and the medical treatment device. To do so, first the user may provide an intravascular catheter device consistent with the present disclosures. Next, the user may direct the catheter to the pre-determined zone of attention within the person's vascular system. Then the user may move the sheath relative to the balloon so to selectively expose a portion of the drug coated balloon or the medical treatment device for activation. The balloon may be inflated to place the outer surface of the balloon and the medical treatment device in contact with the surrounding blood vessel wall. The balloon may be deflated and removed. It is notable that while the aforementioned method is described with the medical treatment device, such is not required.
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FIG. 3 illustrates the external structure of an exemplary embodiment of theclamp 21. As further illustrated inFIG. 4 andFIG. 5 , theclamp 21 includes ahousing 30 through which theouter member 11 of the elongated shaft portion of theballoon catheter assembly 10 extends. Thehousing 30 includes apush button 31 and atip 30 a. Thetip 30 a may include aprotective member 25 that permits the passage of thesheath 22. In exemplary embodiments, thesheath 22 is connected directly to thetip 30 a. Thus, thehousing 30 of theclamp 21 is connected to thesheath 22 for movement therewith, as will be explained in detail below. -
FIG. 4 andFIG. 5 illustrate the internal structure of an embodiment of theclamp 21. Thehousing 30 of theclamp 21 also includes a pair of button supports 30 b, within which respective manuallyoperable push buttons 31 are supported for inward and outward movement relative to thehousing 30. In the illustrated embodiment, each of the button supports 30 b is generally hollow and cylindrical in shape, and each of thepush buttons 31 is generally cylindrical in shape. However, the button supports 30 b and thepush buttons 31 may have any desired shape or combination of shapes. The purpose for thepush buttons 31 will be explained below. - The
housing 30 of theclamp 21 further includes a pair of actuator arm supports 30 c, upon whichrespective actuator arms 32 are supported for pivoting movement relative to thehousing 30. In the illustrated embodiment, each of the actuator arm supports 30 c is a generally cylindrical protrusion that extends inwardly within thehousing 30. However, the actuator arm supports 30 c may have any desired shape or combination of shapes. Each of the illustratedactuator arms 32 is provided with a pair oflegs 32 a that define a pocket. The actuator arm supports 30 c of theactuator arms 32 are respectively received within the pockets defined by the pairs oflegs 32 a of theactuator arms 32. Thus, as will be explained in detail below, theactuator arms 32 are respectively supported on the actuator arm supports 30 c of thehousing 30 for independent pivoting movement relative thereto. - The first ends of the
actuator arms 32 are respectively disposed adjacent to the inner ends of thepush buttons 31. Theactuator arms 32 also include respective second ends that are disposed remotely from the first ends. In the illustrated embodiment,respective engagement pads 33 are secured to the inner surfaces of the second ends of theactuator arms 32. Theengagement pads 33 may be formed from any desired material or combination of materials and may, if desired, be omitted entirely. However, it is preferred that theengagements pads 33 be formed from a material having a relatively high coefficient of friction, such as rubber. The purpose for theengagement pads 33 will be explained below. - Lastly, the
housing 30 of theclamp 21 may include a pair ofsprings 34 that independently bias the twoactuator arms 32 toward each other. In the illustrated embodiment, each of thesprings 34 is formed from a flat piece of resilient material, such as a metallic material, that has been deformed to achieve a desired shape and bias. However, thesprings 34 may be formed from any desired material or combination of materials and take any shape. Thesprings 34 may have first ends that are received within respective spring supports 30 d provided on the inner surface of thehousing 30. Thesprings 34 also may have second ends that bear inwardly upon respective outer surfaces of the second ends of theactuator arms 32. The purpose for thesprings 34 will be explained below. -
FIG. 4 illustrates theclamp 21 of theballoon catheter assembly 10 in a locked condition. In this locked condition, the second ends of thesprings 34 bear inwardly upon respective outer surfaces of the second ends of theactuator arms 32. As a result, theengagements pads 33 are urged inwardly toward one another, as shown at 35, so as to engage and may exert a force on opposed portions of the outer surface of theouter member 11 of theballoon catheter assembly 10, which extends through the interior of thehousing 30 of theclamp 21. As mentioned above, theengagements pads 33 are preferably formed from a material having a relatively high coefficient of friction. Thus, when theclamp 21 of theballoon catheter assembly 10 is in the locked condition, theouter member 11 of theballoon catheter assembly 10 is hindered or wholly prevented from moving axially relative to thehousing 30 of theclamp 21. As mentioned above, thehousing 30 of theclamp 21 is connected at thetip 30 a to thesheath 22 for movement therewith. Accordingly, when theclamp 21 of theballoon catheter assembly 10 is in the locked condition, theouter member 11 of theballoon catheter assembly 10 is also prevented from moving axially relative to thesheath 22. -
FIG. 5 illustrates theclamp 21 of theballoon catheter assembly 10 in an unlocked condition. To achieve this unlocked condition, a user of theballoon catheter assembly 10 may apply inwardly directed forces, as shown at 36, against the manuallyoperable push buttons 31. These forces overcome the forces exerted by thesprings 34 and cause theactuator arms 32 to pivot such that theengagements pads 33 are moved out of engagement, as shown at 37, with the opposed portions of the outer surface of theouter member 11 of theballoon catheter assembly 10. Thus, when theclamp 21 of theballoon catheter assembly 10 is in the unlocked condition, theouter member 11 of theballoon catheter assembly 10 is permitted to move axially relative to thehousing 30 of theclamp 21. As mentioned above, as thehousing 30 of theclamp 21 may be connected at thetip 30 a to thesheath 22 for movement therewith, when theclamp 21 of theballoon catheter assembly 10 is in the unlocked condition, theouter member 11 of theballoon catheter assembly 10 is also permitted to move axially relative to thesheath 22. - Although this invention has been described in the context of the illustrated
clamp 21, it will be appreciated that this invention may be practiced with any other desired structure for preventing theballoon 15 from slipping in relation to thesheath 22. For example, a variety of known structures may be used for this purpose. Some of such known structures include a duckbill pinch, a spring-activated clamp, a screw mechanism onto catheter, a Tuohy-Borst type of valve, and the like. Furthermore, it is possible to practice this invention without anyclamp 21. -
FIG. 6 illustrates a second end of the balloon catheter assembly, indicated generally at 10′, in accordance with this invention. Like reference numbers are used to indicate components that are the same as described above. As shown therein, the second end of the modifiedballoon catheter assembly 10′ has acollar 40 provided thereon. The purpose of thecollar 40 is to prevent thesheath 22 from splitting or otherwise being deformed or damaged as a result of the pressure force exerted by theballoon 15 when it is inflated. The illustratedcollar 40 is tubular in shape and extends completely about the end of thesheath 22 where theballoon 15 is located. However, it will be appreciated that thecollar 40 may have any desired shape and may be located at any desired position on thesheath 22 or cover any desired portion of thesheath 22. Thecollar 40 may be formed from any desired material, such as a metallic material, a high strength aramid fiber material (such as is commercially available under the Kevlar@ brand name), a high durometer plastic material, or the like. If desired, thecollar 40 may be formed from a radiopaque material, allowing it to function as a marker for the distal tip of thesheath 22. If desired, the distal tip of thesheath 22 may be provided with a smooth edge (not shown) so as not to present a sharp edge toward theballoon 15. - The tip of the
balloon 15 may fit snugly into the end of thesheath 22 so as to provide a watertight engagement therebetween. Such a watertight engagement would maintain the integrity of the interior compartment of theballoon catheter assembly 10 during its insertion within a blood vessel or other portion of a body and during travel to the treatment site. This may be utilized to maintain a dry interior. Maintaining the interior compartment of theballoon catheter assembly 10 dry facilitates the use of conventional drug-coated balloons, stents, and other devices. The coatings provided on such devices are, in some instances, activated by contact with blood and water. In known catheter assemblies, a significant amount of the drugs provided on the balloons, stents, and other devices can be eluted during the initial insertion of the catheter assembly through blood vessels having flowing blood. The watertight engagement of this invention allows for minimal elution of the drugs during the initial insertion of theballoon catheter assembly 10 and maximal delivery of the drugs to the desired site. As will be explained in greater detail in subsequent figures, a sealed engagement may alternatively be obtained by the use of a taperedinsertion tip 60. A lubricious coating may be provided between thesheath 22 and the outer surface of theballoon 15, such that the lubricious coating may reduce or eliminate disturbance to the drug coating when theballoon 15 is moved relative to thesheath 22. - The
sheath 22 may protect the various components of theadjustable sheath assembly 20 when moving through the persons' vascular system. Thesheath 22 may also protect any drug coating provided on the outer surface of theballoon 15 from being prematurely scraped off, eluted, or activated such as, without limitation, by contact with the persons' bodily fluids or vascular structures. Furthermore, thesheath 22 may protect theadjustable sheath assembly 20 and/or any drug coating provided on theballoon 15 from contact with the procedural sheath that may be used over theadjustable sheath assembly 20. Thesheath 22 may also protect theadjustable sheath assembly 20 and/or any drug coating provided on theballoon 15 from contact with vascular walls of the person, particularly when navigating sinuous or narrow passages. Thesheath 22 may also protect theadjustable sheath assembly 20 and/or any drug coating provided on theballoon 15 from contact with other objects in the persons' vascular system, such as but not limited to, blockages. While thesheath 22 is described as protecting the components of theadjustable sheath assembly 20, it should be appreciated that thesheath 22 may similarly protect the persons' vascular system from the various components of theadjustable sheath assembly 20. -
FIG. 7 illustrates one side of theouter member 11 provided with a plurality of spaced indentations or protrusions, indicated generally at 50. The indentations orprotrusions 50 may have any desired shape or size (or combination of shapes and sizes) and may be provided at any desired location(s) on the one side of theouter member 11. Any number of indentations orprotrusions 50 is contemplated. The indentations orprotrusions 50 are adapted to cooperate with one or more inwardly extendingportions 32 b provided on either or both of theactuator arms 32. Thus, when theclamp 21 of theballoon catheter assembly 10 is in the locked condition, the inwardly extendingportions 32 b provided on either or both of theactuator arms 32 engage one or more of the indentations orprotrusions 50. As a result, theouter member 11 of theballoon catheter assembly 10 is prevented from moving axially relative to thehousing 30 of theclamp 21. Conversely, when theclamp 21 of theballoon catheter assembly 10 is in the unlocked condition, the inwardly extendingportions 32 b provided on either or both of theactuator arms 32 do not engage one or more of the indentations orprotrusions 50. As a result, theouter member 11 of theballoon catheter assembly 10 is permitted to move axially relative to thehousing 30 of theclamp 21. -
FIG. 8 illustrates a series of annular spaced indentations or protrusions, indicated generally at 55. The indentations orprotrusions 55 may have any desired shape or size (or combination of shapes and sizes) and may be provided at any desired location(s) on theouter member 11. Any number of indentations orprotrusions 55 is contemplated. The indentations orprotrusions 55 are adapted to cooperate with one or more of the inwardly extendingportions 32 b provided on either or both of theactuator arms 32. Thus, when theclamp 21 of theballoon catheter assembly 10 is in the locked condition, the inwardly extendingportions 32 b provided on either or both of theactuator arms 32 engage one or more of the indentations orprotrusions 55. As a result, theouter member 11 of theballoon catheter assembly 10 is prevented from moving axially relative to thehousing 30 of theclamp 21. Conversely, when theclamp 21 of theballoon catheter assembly 10 is in the unlocked condition, the inwardly extendingportions 32 b provided on either or both of theactuator arms 32 do not engage one or more of the indentations orprotrusions 55. As a result, theouter member 11 of theballoon catheter assembly 10 is permitted to move axially relative to thehousing 30 of theclamp 21. - The annular spaced indentations or
protrusions 55 may be a series of identical annular spaced indentations orprotrusions 55. Each section of the annular spaced indentations orprotrusions 55 may be defined by a tubular section with an outer diameter smaller than the outer diameter of theouter member 11, a conical section with an initial outer diameter equal to the smaller outer diameter of the previous section, transitioning to an outer diameter substantially equal to the outer diameter of theouter member 11, and finally, a second tubular section with an outer diameter substantially equal to the outer diameter of the outer member. This design allows for the inwardly extendingportions 32 b to ratchet as each section of the annular spaced indentation orprotrusion 55 passes the inwardly extendingportions 32 b. This may provide the user with tactile and audible feedback as each section passes through the inwardly extendingportion 32 b. In the illustrated embodiment this would prevent theclamp 21 from moving distally relative to theballoon catheter assembly 10. It is contemplated that the annular spaced indentations orprotrusions 55 may be reversed such that the indentations orprotrusions 55 prevent theclamp 21 from moving proximally relative to theballoon catheter assembly 10. -
FIG. 9 ,FIG. 10 , andFIG. 11 illustrate a modified end of theadjustable sheath assembly 20′ with the taperedinsertion tip 60. InFIG. 9 andFIG. 10 , the end of theadjustable sheath assembly 20′ is in sealing engagement with the taperedinsertion tip 60.FIG. 11 is similar toFIG. 10 but shows the end of theadjustable sheath assembly 20′ partially retracted to expose theballoon 15 in the manner described above. One or more radiopaque markers (not shown) may be placed on the taperedinsertion tip 60 and monitored using conventional fluoroscopy techniques such that the user may determine the distance, shown inFIG. 11 as “D”, between thesheath 22 a and the taperedinsertion tip 60. This also permits the user to determine the exposed length of theballoon 15. - The
sheath 22 and taperedinsertion tip 60 may protect the drug coating or drug coated devices such that the drug coating is not activated, eluted, diluted, or removed when theballoon catheter assembly 10 is placed into the blood vessel. In exemplary embodiments, theballoon 15 alone may provide a sealing engagement with thesheath 22. Theballoon catheter assembly 10 may additionally comprise a lubricious coating provided between thesheath 22 and theballoon 15 to facilitate the movement of theballoon 15 relative to thesheath 22 by reducing or eliminating disturbance to the drug coating. In exemplary embodiments, the lubricious coating may additionally or alternatively be combined with or placed over the top of the medicated coating. -
FIG. 12 illustrates theadjustable sheath assembly 20 of theballoon catheter assembly 10, further comprising a mechanical stop. The mechanical stop may comprise anannulus 23 and ablock 38. A sheath lumen may be defined as the opening between the outer surface ofballoon 15 and the expandedportion 22 a. In exemplary embodiments, there may be no sheath lumen, as thesheath 22 substantially fits the curvature of theballoon 15. Theannulus 23 may be located on the distal end of the expandedportion 22 a. Theannulus 23 may comprise an annual member located on the inner surface of the expandedportion 22 a having a thickness such that it protrudes inwardly, thereby restricting the sheath lumen. Thestop 38 may comprise a correspondingannual member 38 located on the outer diameter of theballoon 15, though any shape capable of frictionally engaging theannulus 23 is contemplated. The outer dimension of thestop 38 has an outer diameter larger that the lumen created by theannulus 23. In such an embodiment, the outer diameter of thecorresponding stop 38 is configured such that it frictionally engagesannulus 23, thereby preventing theballoon 15 from extending beyond theannulus 23. -
FIG. 13 illustrates another exemplary embodiment in which theassembly 10 further comprises one ormore ridges 28 located on the outer surface of theballoon 15 that extend vertically therefrom. The mechanical stop may comprise an annular shaped pointedmember 23 b that it protrudes inwardly from the inner surface of the distal end of the expandedportion 22 a, thereby restricting the sheath lumen, and theridges 28. Further, the pointed shape of the pointedmember 23 b may be complementary to the shape of each of theridges 28. As theballoon 15 is advanced relative to thesheath 22, the pointedmember 23 b may selectively secure theballoon 15 by frictionally engaging each of theridges 28. In exemplary embodiments, theridges 28 are formed as part of theballoon 15. Alternatively, theridges 28 may be separately formed and attached to the outer diameter ofballoon 15. Any number ofridges 28 is contemplated. Additionally, theridges 28 may be equally spaced apart alongballoon 15, though any spacing is contemplated. The series ofridges 28 may be comprised of a sufficiently rigid material such that eachridge 28 may not pass through the lumen created by the pointedmember 23 b without the user exerting a force on theassembly 10 such that theridge 28 or the pointedmember 23 b may be sufficiently deformed to pass though the lumen created bypointed member 23 b. This force may be exerted by the user directly on theouter member 11. Alternatively, this force may be exerted by the user on the outer member by use of theclamp 21. -
FIG. 14 illustrates another exemplary embodiment wherein theballoon 15 comprises a series ofvalleys 28 b located on the outer diameter of theballoon 15. Thevalleys 28 b reduce the thickness of theballoon 15 such that outer diameter of theballoon 15 is reduced. Any number ofvalleys 28 b is contemplated. Saidvalleys 28 b may be equally spaced apart along theballoon 15, though any spacing is contemplated. A pointedmember 23 c may selectively secure movement of theballoon 15 relative to thesheath 22 by frictionally engaging each of thevalleys 28 b as they move through the lumen created by the pointedmember 23 c. The shape of the pointedmember 23 b may be formed complementary to the void created by each of thevalleys 28 b. The pointedmember 23 c may be comprised of a sufficiently flexible material such that each of thevalleys 28 b may not pass through the lumen created by the pointedmember 23 c until the user exerts force on the assembly such that the pointedmember 23 c or theballoon 15 is sufficiently deformed to permit each of the series ofvalleys 28 b to pass through the lumen created by the pointedmember 23 c. This force may be exerted by the user directly on theouter member 11. Alternatively, this force may be exerted by the user on the outer member by use of theclamp 21. -
FIG. 15 illustrates another exemplary embodiment wherein the mechanical stop comprises ablock 24, which may be attached to theballoon 15. Theblock 24 may be attached to the outer diameter of theballoon 15. Theblock 24 may be in the shape of a “T” such that the vertical section of the “T” extends vertically from the outer surface ofballoon 15 and the horizontal portion of the “T” is curved and secured to the outer surface of theballoon 15, though any shape is contemplated. As theballoon 15 is extended from the expandedportion 22 a, theblock 24 frictionally engages themechanical stop 23. In other exemplary embodiments, the block of any shape may be used in place of theblock 24. -
FIG. 16 illustrates another exemplary embodiment of the mechanical stop comprising acircumferential slot 29 located on the inner surface of the expandedportion 22 a. Theslot 29 may be configured to accommodate and frictionally engage acollapsible block 24 b such that as theballoon 15 is extended from the expandedportion 22 a, thecollapsible block 24 b expands and enters theslot 29, thereby preventing theballoon 15 from further extending relative to the expandedportion 22 a. In exemplary embodiments, a collapsible orthotope, column, “T”, or other shape collapsible device may be used. Thecollapsible block 24 b, or the portion of thecollapsible block 24 b extending into theslot 29, may be spring loaded or otherwise biased into an expanded position. -
FIG. 17 illustrates another exemplary embodiment in which the mechanical stop comprises a first andsecond portion second portion balloon 15 and the inner surface of thesheath 22, respectively, and may comprise a surface or a coating with a relatively high coefficient of friction. The remainder of theballoon 15 and thesheath 22 may further comprise a surface or a coating with a relatively low coefficient of friction such as a polymer, silicone, any kind of lubricant, or the like. The first andsecond portions second portions first portion 26 may be located towards the proximal end of theballoon 15 relative to theclamp 21, though any location is contemplated. Thesecond portion 23 d may be located towards the distal end of thesheath 22 relative to theclamp 21, though any location is contemplated. Theballoon 15 may extend relative to thesheath 22 until thefirst portion 26 encounters and frictionally engages thesecond portion 23 d, thereby preventing theballoon 15 from traveling beyond. - Those having skills in the art will realize that these embodiments are merely exemplary and that any device may be utilized to prevent a section of
balloon 15 from extending from thesheath 22. As such, any shape or design of mechanical stop capable of preventing a portion ofballoon 15 from escaping thesheath 22 is contemplated. Further, those skilled in the art will recognize that a combination of the aforementioned embodiments may be utilized. -
FIG. 18 is an enlarged, side, sectional view of theadjustable sheath assembly 20 with theballoon 15 removed to better illustrate an exemplary balloon recapture element. The balloon recapture element may be a rounded or smootheddistal end 70 of thesheath 22. Additionally, or in the alternative, the balloon recapture element may be a tapered or angleddistal end 70 of the sheath. The rounded, smoothed, tapered, or angleddistal end 70 may provide less frictional resistance and reduce the potential for wear and/or tearing of theballoon 15 when the balloon is being placed back into thesheath 22 and/or the exposed length of theballoon 15 from thesheath 22 is being adjusted. -
FIG. 19 illustrates another exemplary embodiment of the balloon recapture element. The balloon recapture element may comprise rifling 74 located on the inner surface of thesheath 22. In exemplary embodiments, the rifling 74 is spiral shaped and extends along at least a portion of thesheath 22. However, there may be any number ofrifles 74, along any length of thesheath 22. Further, the rifling 74 may be in any configuration, including but not limited to, any slope angled between 0 degrees and 90 degrees. -
FIG. 19B andFIG. 19C illustrate an exemplarypleated balloon 15′ for use with the rifling 74 ofFIG. 19 . In exemplary embodiments, the rifling 74 may be configured to mate with a number ofpleats 72 located on the outer surface of theballoon 15′. Any size, number, shape, or configuration of thepleats 72 is contemplated. Thepleats 72 may be configured to fit into the rifling 74 such that the distance theballoon 15′ protrudes from thesheath 22 may be incrementally and predictably increased or decreased by advancing or retracting theballoon 15′ along the rifling 74 relative to thesheath 22. In other exemplary embodiments, the rifling 74 may mate and interact with theridges 28, blocks 24,collapsible blocks 24 b,valleys 28 b, stop 38, or other stop mechanism. Additionally, the rifling 74 may permit theballoon 15′ to be neatly folded and repackaged upon retraction into thesheath 22. For example, without limitation, the rifling 74 may be patterned such that theballoon 15′ is forced along a track that encourages or forces theballoon 15′ to be folded in a desired manner for efficient packing. Such folding and packing may be further facilitated by preexisting creases in theballoon 15′. Regardless, the rifling 74 may reduce or prevent the potential for wear, tearing, or premature failure of theballoon 15′, thus permitting theballoon 15′ to be successively redeployed at the same or other treatment sites. -
FIG. 20 andFIG. 20B illustrate another embodiment of the balloon recapture element where thesheath 22 may be formed with a funnel-shaped tip. The funnel-shaped tip may take the form of anenlarged section 76 whereby the diameter is increased over a length of thesheath 22 and then the diameter is held constant over a second length of thesheath 22. Alternatively, the funnel-shaped tip may take the form of a diametrically increasinglength 78 of thesheath 22. In this way theballoon 15 may be gradually forced to reduce in size as it travels back into thesheath 22, resulting in a more easily recapturedballoon 15. This may reduce or prevent the potential for wear, tearing, or premature failure of theballoon 15, thus permitting theballoon 15 to be successively redeployed at the same or other treatment sites. -
FIG. 21 is a sectional elevation view similar toFIG. 12 showing another exemplary embodiment of theballoon 15. In particular, theballoon 15 may comprise aproximal portion 15A and adistal portion 15B. While theproximal portion 15A is illustrated as having a larger outer diameter as compared to thedistal portion 15B, it is contemplated that theproximal portion 15A and thedistal portion 15B may have the same size outer diameter. It is further contemplated that theproximal portion 15A may have a smaller outer diameter as compared to thedistal portion 15B. - The
proximal portion 15A may be located proximal to theclamp 21 relative to thedistal portion 15B. In exemplary embodiments, theproximal portion 15A may be relatively compliant compared to thedistal portion 15B. This may permit theproximal portion 15A to expand against the inner surface of thesheath 22, such as the expandedportion 22 a. This may prevent theproximal portion 15A of theballoon 15 from escaping thesheath 22. In other exemplary embodiments, thedistal portion 15B may be relatively compliant compared to theproximal portion 15A. This may permit thedistal portion 15B to expand to a larger size before theproximal portion 15A contacts the inner surface of thesheath 22. - The
proximal portion 15A may comprise thefirst portion 26 or a similar area having a relatively high coefficient of friction. Likewise, the expandedportion 22 a of thesheath 22 may comprise thesecond portion 23 d or similar area having a relatively high coefficient of friction. For example, without limitation, the first andsecond portions proximal portion 15A is expanded, thefirst portion 26 is placed into contact with thesecond portion 23 d. As the pressure of theballoon 15 increases, the normal forces between the first andsecond portions second portions balloon 15 at any location. It is further contemplated that the entireproximal portion 15A may be comprised of a material having a relatively high coefficient of friction. - Alternatively, or in addition, the
proximal portion 15A and thedistal portion 15B may have different size outer diameters. In one exemplary embodiment, theproximal portion 15A may be larger than thedistal portion 15B such that theproximal portion 15A first comes into contact with the inner surface of thesheath 22. In another exemplary embodiment, thedistal portion 15B is larger than theproximal portion 15A. In this way, theballoon 15 may be permitted to expand into a larger size before theproximal portion 15A contacts the inner surface of thesheath 22. These are merely examples and are not intended to be limiting. It is contemplated that theballoon 15 may be any size or shape and comprise any number of characteristics (compliance, strength, pressure rating, etc.) and may contain any number of portions having different sizes and shapes and comprise any number of characteristics. It is contemplated that theproximal portion 15A and thedistal portion 15B may have the same size outer diameter. While theproximal portion 15A is illustrated as having a larger diametric size as compared to thedistal portion 15B, the reverse is contemplated. -
FIG. 22 illustrates another exemplary embodiment of thesheath assembly 20. The sheath assembly may comprise anattachment device 42. Theattachment device 42 may be located on the outer surface of thesheath 22. In exemplary embodiments, theattachment device 42 may extend along the outer surface of the expandedportion 22 a. Theattachment device 42 may be configured to accommodate theguide wire 14. In particular, theattachment device 42 forms a tube, slit, or channel configured to accommodate theguide wire 14. The tube, slit, or channel, for example without limitation, may be tubular in shape, U-shaped, V-shaped, or the like. Theattachment device 42 may facilitate the use of aguide wire 14 to position theballoon catheter assembly 10. Theattachment device 42 may further facilitate the exchange of theballoon catheter assembly 10 with other medical devices. -
FIG. 23 illustrates another exemplary embodiment of anattachment device 42 b. In exemplary embodiments, theattachment device 42 b may be a pass-through device. Theattachment device 42 b may be a tube, slit, or channel that permits theguide wire 14 to exit through thesheath 22, theballoon 15, and into theinner member 12 closer to the distal end of theadjustable sheath assembly 20. Advantageously, this approach requires ashorter guide wire 14. This stands in contrast to the over-the-wire approach (also contemplated), where theguide wire 14 exits near theclamp 21. It is contemplated that theattachment device 42 b may be located anywhere along thecatheter assembly 10. For example, without limitation, theattachment device 42 b may be located proximal to theballoon 15 such that theattachment device 42 b permits theguide wire 14 to pass through thesheath 22 and into theinner member 12. In exemplary embodiments, theguide wire 14 may enter through theattachment device 42 b, pass through theinner member 12, and exit the distal end of thecatheter assembly 10. In still other exemplary embodiments, theattachment device 42 b may be configured to permit theguide wire 14 to extend through the sheath but not into theinner member 12. -
FIG. 24 andFIG. 25 illustrate other exemplary embodiments of anattachment device 42 c. In exemplary embodiments, theattachment device 42 c may comprise afirst slit 43 located along thesheath 22. Thefirst slit 43 may be located along the expandedportion 22 a, however any location is contemplated. In other exemplary embodiments, thefirst slit 43 may be located along the portion of thesheath 22 between the expandedportion 22 a and theclamp 21. Stated another way, thefirst slit 43 may be located on the portion of thesheath 22 not housing theballoon 15. - The
first slit 43 may be any size or shape. In exemplary embodiments, thefirst slit 43 is sized to substantially match the length of theballoon 15. In this way, theguide wire 14 will not get trapped or kinked when theballoon 15 is moved relative to thesheath 22. In other exemplary embodiments, thefirst slit 43 is sized to accommodate theguide wire 14. In such embodiments,additional guide wire 14 may be fed into or out of theattachment device 42 c to accommodate movement of theballoon 15 relative to thesheath 22. In such embodiments, thefirst slit 43 may be shaped as a circle, though any shape is contemplated. - The
first slit 43 may also extend into theballoon 15, however such is not required. Asecond slit 45 may be located in theinner member 12, though such is not required. Thesecond slit 45 may also be sized to substantially match the length of theballoon 15. In exemplary embodiments, thefirst slit 43 is sized to substantially match the length of theballoon 15. In this way, theguide wire 14 will not get trapped or kinked when theballoon 15 is moved relative to thesheath 22. In other exemplary embodiments, thesecond slit 45 may be sized to accommodate theguide wire 14. In such embodiments,additional guide wire 14 may be fed into or out of theattachment device 42 c to accommodate movement of theballoon 15 relative to thesheath 22. In such embodiments, thefirst slit 43 may be shaped as a circle, though any shape is contemplated. Thesecond slit 45 may be the same or a different size and shape than thefirst slit 43. - A
channel 44 may extend between thefirst slit 43 and thesecond slit 45, however such is not required. Thechannel 44 may be configured to accommodate theguide wire 14. Thechannel 44 may also be sized to substantially match the length of theballoon 15. In other exemplary embodiments, thechannel 44 may be sized to accommodate theguide wire 14. Thechannel 44 may be the same or a different size than thefirst slit 43 and/or thesecond slit 45. Thechannel 44 may be formed by side walls extending between thefirst slit 43 and thesecond slit 45. However, in other exemplary embodiments, thechannel 44 is defined by the space between thefirst slit 43 and thesecond slit 45. - The
guide wire 14 may enter theadjustable sheath assembly 20 through the distal end thereof and may exit theadjustable sheath assembly 20 through one or more of thefirst slit 43, thechannel 44, and thesecond slit 45. - The
attachment device shorter guide wire 14 to be used. Normally, theguide wire 14 must extend from the treatment site all the way back to theclamp 21 or the entrance/exit point into the persons' vascular system. Particularly in below the knee applications, which are contemplated, this may require along guide wire 14.Such guide wires 14 may not be commercially available or may be expensive. Additionally, such guide wires may be cumbersome to use and difficult to control. The use of theattachment device guide wire 14 closer to the distal end of theadjustable sheath assembly 20 such that ashorter guide wire 14 may be used. This may permit use withshorter guide wires 14 which may be cheaper, more readily available, and easier to control. - It is notable that any of the aforementioned balloon recapture elements illustrated and described with respect to
FIGS. 18-23 may be used in combination with one another and in combination with any or all of the embodiments described herein. -
FIG. 26 is a top plan view of another exemplary embodiment of thehandle assembly 21 also indicating section line 2-2. Thehandle assembly 21 may comprise abody 30. Thehandle assembly 21 may further comprise one ormore buttons 31. Theouter member 11 may extend through thebody 30 such that the out remember 11 travels from theballoon assembly 10, to thehandle assembly 21, through thebody 30, and extends therebeyond. In exemplary embodiments, thebody 30 may define a hollow space which may accommodate theouter member 11, among other components. Theouter member 11 may extend from theadapter 13, though thehandle assembly 21, and within thesheath 22 to theballoon assembly 10. Aflush port 46 may be in fluid communication with thehandle assembly 21. Thesheath 22 may extend from thehandle assembly 21 to theballoon assembly 10. Thesheath 22 may extend within theprotective member 25. -
FIG. 27 is a side sectional view of thehandle assembly 21 taken along section line 2-2 ofFIG. 26 .FIG. 28 throughFIG. 30 illustrate various additional views of thehandle assembly 21. Thebutton 31 may be associated with aclamp 56. In exemplary embodiments, a portion of thebutton 31 may be secured to, or may rest against, a portion of theclamp 56. Portions of theclamp 56 may be connected to one or more portions of thebody 30. In exemplary embodiments, theclamp 56 may be substantially ribbon shaped and may be formed of a resilient metal, though any material, type, shape, and configuration of theclamp 56 is contemplated. Theclamp 56 may act as a spring and may normally provide upward forces against thebutton 31. In this way, thebutton 31 may be secured against thebody 30. In exemplary embodiments, alip 54 may be secured against a corresponding protrusion in thebutton 31. Thelip 54 may be located at a distal end of thebutton 31, though any location is contemplated. Aproximal portion 50 of thebutton 31 may be secured to ahinge 51. Thehinge 51 may facilitate rotational movement of thebutton 31. In exemplary embodiments, theproximal portion 50 of thebutton 31 may be configured to, additionally or alternatively, frictionally engage a corresponding portion of thebody 30. For example, theproximal portion 50 may extend within a hollow space defined by thebody 30 such that anupper surface 50 of theproximal portion 50 frictionally interacts with an inner surface of thebody 30. Thebutton 31 may comprise various protrusions or other features configured to interact with thebody 30 and/or theclamp 56. For example, without limitation, a portion of thebutton 31 and/or thebody 30 may serve as a stop which prevents thebutton 31 from being moved beyond a certain point. - The
clamp 56 may be secured to a lower portion of thebody 30 as well as a portion of thebutton 31. Theclamp 56 may have a first end and a second end which may each define anopening 57. Theopenings 57 may be curved in shape. Theopenings 57 may extend from side edges of theclamp 56. In exemplary embodiments, theopening 57 in the first end of theclamp 56 may define a substantially semi-circular shape and theopening 57 in the second end of theclamp 56 may define a curved shape with a larger opening in an upper portion as compared to a lower portion. - When positioned, the
openings 57 may overlap such that theouter member 11 may extend through theopenings 57. Theclamp 56 may be biased in a clamped position. Depression of thebutton 31 may be configured to cause the first end of theclamp 56 to move vertically downward relative to the second end of theclamp 56 such that a larger opening is created by the alignment of theopenings 57 to allow theouter member 11 to be extended or retracted therethrough and/or relieving forces otherwise exerted on theouter member 11. Removal of force from thebutton 31 may be configured to cause the first end of theclamp 56 to move vertically upwards relative to the second end of theclamp 56 such that theouter member 11 is frictionally engaged and prevented from being extended or retracted under normal conditions. In exemplary embodiments, theouter member 11 may be comprised of a braided material configured to frictionally engage theclamp 56 when theclamp 56 is in the clamped position. Alternatively, or additionally, the second end of theclamp 56 may be configured for movement while the first end of theclamp 56 may be fixed. Furthermore, movement may be permitted when the button is not depressed and movement may be prevented when the button is depressed in other exemplary embodiments. In such embodiments, theclamp 56 may be biased in an unclamped position. - In exemplary embodiments, the
clamp 56 may form a substantially triangular shape. Theclamp 56 may comprise asecond opening 59 which is configured to accept atube 52. Thetube 52 may be configured to accommodate theouter member 11. Thetube 52 may be configured to protect theouter tube 11 as it extends through at least a portion of thehandle assembly 21. Thetube 52 may comprise one or more flared ends for accepting theouter member 11. - The application of a substantially vertical and/or an angled force, illustrated as FA1, at the
button 31 may cause the distal portion of thebutton 31 to rotate downward about thehinge 51. The downward rotation may exert forces on the second end of theclamp 56, causing the second end of the clamp to move vertically downward, thereby enlarging theopening 57 and/or relieving forces otherwise exerted on theouter member 11. A substantially horizontal pushing or pulling forces, illustrated as FA2, may be applied to the portion of theouter member 11 extending from the rear of thehandle assembly 21. This may cause theouter member 11, and therefore theballoon 15, to be extended or retracted relative to thesheath 22. This may result in a variable length of theballoon 15 being exposed for inflation to a maximum diameter. - An
adapter 48 may be located within thebody 30. Theadapter 48 may be configured to permit theouter member 11 to pass therethrough. Theadapter 48 may be attached to thebody 30 at one or more places. Theadapter 48 may be further configured to accept theflush port 46 and place it in fluid communication with theballoon 15. Theadapter 48 may be further configured to secure theprotective member 25 to thebody 30. -
FIG. 31 is a side sectional view of another exemplary embodiment of the second end of theballoon catheter assembly 10. The illustrated second end may be used in conjunction with the previously describedadjustable sheath assembly 20, though such is not required. Afirst balloon 15A may be placed proximal to asecond balloon 15B. Thefirst balloon 15A may be more compliant relative to thesecond balloon 15B. Thesecond balloon 15B may be semi-compliant or non-compliant. Alternatively, or additionally, thefirst balloon 15A may be configured for inflation to a larger maximum inflation diameter compared to thesecond balloon 15B. Thefirst balloon 15A may have a larger maximum diameter than thesecond balloon 15B. Thesecond balloon 15B may have a greater overall length as compared to thefirst balloon 15A. Thefirst balloon 15A and thesecond balloon 15B may each be in fluid communication with one ormore inflation ports 58. Theinflation ports 58 may be in fluid communication with an inflation device, such as but not limited to a pump, by way of theinner member 12. Theinner member 12 may comprise an inner lumen for the transportation of an inflation fluid from the inflation device to the first andsecond balloons inner member 12 may be tubular. - A first end of the
inner member 12 may extend to anadapter 13 in fluid communication with an inflation device, or may extend directly to the inflation device. Theadapter 13 and/or inflation device may be located beyond thehandle assembly 21. A second end of theinner member 12 may comprise anopening 62 configured to accommodate theguide wire 14. - The
inflation ports 58 for thefirst balloon 15A and theinflation ports 58 for thesecond balloon 15B may be in fluid communication with one another. Stated a different way, thefirst balloon 15A and thesecond balloon 15B may be inflated at the same time. Stated yet another way, the same pressure of inflation may be applied to both thefirst balloon 15A and thesecond balloon 15B. In other exemplary embodiments, thefirst balloon 15A may be configured for separate inflation from thesecond balloon 15B. - The first balloon may be configured to inflate to a larger diameter than the
second balloon 15B under the same pressure. In this way, thefirst balloon 15A may be inflated to contact the surroundingsheath 22 and secure the position of thesecond balloon 15B relative to thesheath 22. Thesecond balloon 15B may be inflated to compress atherosclerotic material located within the blood vessel. In exemplary embodiments, thefirst balloon 15A may have a smaller length than thesecond balloon 15B. - The
first balloon 15A may comprise a material 64 having a relatively high coefficient of friction compared to some or all of the remainder of theballoon 15A. In exemplary embodiments, thismaterial 64 may be located on some or all of the outer surfaces of thefirst balloon 15A. Thematerial 64 may comprise a roughened surface, a textured surface, a sticky substance, a tacky substance, some combination thereof, or the like. For example, without limitation, thematerial 64 may be comprised of rubber. The material 65 may be configured to secure thefirst balloon 15A against the inner surface of thesheath 22 when thefirst balloon 15A is inflated. - Any embodiment of the present invention may include any of the optional or preferred features of the other embodiments of the present invention. The exemplary embodiments herein disclosed are not intended to be exhaustive or to unnecessarily limit the scope of the invention. The exemplary embodiments were chosen and described in order to explain the principles of the present invention so that others skilled in the art may practice the invention. Having shown and described exemplary embodiments of the present invention, those skilled in the art will realize that many variations and modifications may be made to the described invention. Many of those variations and modifications will provide the same result and fall within the spirit of the claimed invention. It is the intention, therefore, to limit the invention only as indicated by the scope of the claims.
Claims (20)
1. A balloon catheter assembly comprising:
an inner member;
an outer member disposed about the inner member;
a balloon located at a distal portion of said outer member, said balloon having a first end and a second end, wherein the first end of the balloon is connected to the outer member and the second end of the balloon is connected to the inner member;
a sheath disposed about the outer member and configured for movement relative to the balloon, wherein the sheath is configured to prevent a retained portion of the balloon from expanding beyond the sheath; and
an adjustment structure for securing the sheath at a desired position relative to the balloon to selectively expose an extending portion of the balloon for inflation such that the retained portion remains within the sheath.
2. The balloon catheter assembly of claim 1 further comprising:
a housing for the adjustment structure, wherein said sheath is connected to said housing, and wherein said outer member extends through said housing.
3. The balloon catheter assembly of claim 2 further comprising:
a first actuator arm; and
a second actuator arm, wherein said first actuator arm and said second actuator arm form at least a portion of said adjustment structure, and wherein said first actuator arm and said second actuator arm are supported within the housing and are selectively movable into engagement with the outer member.
4. The balloon catheter assembly of claim 3 further comprising:
first and second actuator arm supports provided at said housing, wherein the first and second actuator arms are respectively supported on the first and second actuator arm supports; and
first and second engagement pads located at said first and second actuator arms, respectively, wherein said first and second engagement pads are selectively movable into engagement with the outer member.
5. The balloon catheter assembly of claim 3 further comprising:
first and second springs supported at the housing and configured to bias said first and second actuator arms, respectively, into engagement with the outer member.
6. The balloon catheter assembly of claim 3 further comprising:
first and second push buttons that are operable to move the first and second actuator arms, respectively, out of engagement with the outer member.
7. The balloon catheter assembly of claim 1 further comprising:
a drug coating provided at an outer surface of the balloon, and
a tip member located at a distal end of the balloon and configured to provide a watertight engagement between the sheath and the tip member when the tip member is positioned adjacent to a distal end of the sheath.
8. The balloon catheter assembly of claim 1 further comprising:
a collar provided about an end of the sheath and configured to provide additional strength to the sheath.
9. The balloon catheter assembly of claim 1 further comprising:
a plurality of spaced indentations provided at said outer member, wherein each of said plurality of spaced indentations is configured for selective engagement with the adjustment structure.
10. The balloon catheter assembly of claim 1 further comprising:
a plurality of spaced annular protrusions provided at said outer member, wherein each of said plurality of spaced annular protrusions is configured for selective engagement with the adjustment structure.
11. The balloon catheter assembly defined in claim 1 further comprising:
a series of radiopaque marker bands located at select intervals on the inner member; and
a series of radiopaque marker bands located at select intervals on the sheath.
12. An intravascular catheter device for treating various length zones of attention, said device comprising:
a handle assembly;
a sheath extending from said handle assembly;
an outer member extending through said handle assembly;
a balloon located at a distal portion of said outer member;
an inner member extending within said outer member; and
a clamp located at said handle assembly, wherein said clamp is configured for movement between a clamped position where a portion of said clamp engages the outer member to prevent movement of the outer member and an unclamped position where the clamp disengages the outer member to permit axial movement of the outer member and inner member through the handle assembly so as to expose a variable length portion of said balloon for inflation.
13. The intravascular catheter device of claim 12 further comprising:
a housing for the clamp; and
a first and second actuator arm located within the housing and forming at least a portion of said clamp.
14. The intravascular catheter device of claim 13 further comprising
first and second actuator arm supports provided at said housing, wherein the first and second actuator arms are respectively supported on the first and second actuator arm supports; and
first and second engagement pads located at distal ends of said first and second actuator arms, respectively, wherein said first and second engagement pads are configured to contact said outer member when the clamp is placed in the clamped position.
15. The intravascular catheter device of claim 13 further comprising:
first and second actuator arm supports provided at said housing, wherein the first and second actuator arms are respectively supported on the first and second actuator arm supports; and
a plurality of spaced indentations or protrusions provided at said outer member, wherein said plurality of spaced indentations or protrusions are configured to be engaged by the first and second actuator arms when the clamp is placed in the clamped position.
16. A method for treating various length zones of attention comprising the steps of:
providing an intravascular catheter device comprising an inner member, an outer member disposed about the inner member, a balloon located at a distal portion of said outer member, a sheath, and a clamp;
sheathing the balloon;
directing the sheathed balloon to a zone of attention within a person's vascular system;
placing the clamp in a disengaged position;
moving the sheath relative to the balloon while the clamp is in the disengaged position to expose a distal portion of the balloon for inflation and keeping a proximal portion of the balloon sheathed;
placing the clamp in an engaged position to secure the sheath relative to the balloon; and
inflating the balloon such that the distal portion of the balloon expands to a diameter larger than an outer diameter of the sheath and the proximal portion inflates to contact an inner surface of the sheath.
17. The method of claim 16 wherein:
the sheath is secured relative to the balloon such that a length of the distal portion of the balloon exposed for inflation is sized to match a length of the zone of attention.
18. The method of claim 17 further comprising the steps of:
providing a series of radiopaque markers located at select intervals on the inner member; and
providing a sheath radiopaque marker at a distal end of the sheath, wherein the location of the sheath relative to the balloon is observed by the location of the sheath radiopaque marker relative to one or more of the series of radiopaque markers.
19. The method of claim 16 wherein:
movement of the clamp between the engaged and disengaged positions is accomplished by depressing or releasing one or more buttons at a housing for said clamp; and
depression of said one or more buttons is configured to move one or more actuator arms supported within said housing into or out of contact with said outer member.
20. The method of claim 19 wherein:
the step of moving the sheath relative to the balloon is accomplished by axially extending or retracting the outer member and the inner member through the housing.
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US201562102770P | 2015-01-13 | 2015-01-13 | |
US14/990,477 US10130798B2 (en) | 2013-07-15 | 2016-01-07 | Balloon catheter having a retractable sheath and locking mechanism |
US15/241,606 US10315014B2 (en) | 2013-07-15 | 2016-08-19 | Balloon catheter having a retractable sheath and locking mechanism with balloon recapture element |
US16/033,874 US10828471B2 (en) | 2013-07-15 | 2018-07-12 | Balloon catheter having a retractable sheath |
US16/570,170 US11202892B2 (en) | 2013-07-15 | 2019-09-13 | Balloon catheter having a retractable sheath |
US16/841,809 US20200230376A1 (en) | 2013-07-15 | 2020-04-07 | Balloon catheter with adjustable sheath |
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