WO2004098686A1 - Systeme de drainage cyclique de la vessie a robinet electromagnetique et procede d'utilisation avec des catheters urinaires - Google Patents
Systeme de drainage cyclique de la vessie a robinet electromagnetique et procede d'utilisation avec des catheters urinaires Download PDFInfo
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- WO2004098686A1 WO2004098686A1 PCT/US2001/046329 US0146329W WO2004098686A1 WO 2004098686 A1 WO2004098686 A1 WO 2004098686A1 US 0146329 W US0146329 W US 0146329W WO 2004098686 A1 WO2004098686 A1 WO 2004098686A1
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- valve
- bladder
- pressure
- cycler
- catheter
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Classifications
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- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61F—FILTERS IMPLANTABLE INTO BLOOD VESSELS; PROSTHESES; DEVICES PROVIDING PATENCY TO, OR PREVENTING COLLAPSING OF, TUBULAR STRUCTURES OF THE BODY, e.g. STENTS; ORTHOPAEDIC, NURSING OR CONTRACEPTIVE DEVICES; FOMENTATION; TREATMENT OR PROTECTION OF EYES OR EARS; BANDAGES, DRESSINGS OR ABSORBENT PADS; FIRST-AID KITS
- A61F5/00—Orthopaedic methods or devices for non-surgical treatment of bones or joints; Nursing devices; Anti-rape devices
- A61F5/44—Devices worn by the patient for reception of urine, faeces, catamenial or other discharge; Portable urination aids; Colostomy devices
- A61F5/4404—Details or parts
- A61F5/4405—Valves or valve arrangements specially adapted therefor ; Fluid inlets or outlets
Definitions
- This invention relates to urinary catheters, and in particular to a method and apparatus for a pressure-activated, magnetic-force-controlled human (or animal) bladder drainage cycling valve system(Uro Cycler), for restoring normal body functions of bladder filling and emptying in cyclic manners of catheterized patients, and this invention claims the benefit of priority to U.S. Provisional Application 60/280,767, filed April 2, 2001, U.S. Provisional Application 60/280,768 filed April 2, 2001, and U.S. Provisional Application 60/324,601 filed September 25, 2001.
- Urinary catheters bypass the normal bladder process of storing urine, and only releasing the urine by using the bladder detrusor muscle. Catheters can be a necessary tool to open the bladder to allow urination when patients have trouble urinating. A catheter can be a lifesaving tool since an uncontrolled buildup of urine can cause serious medical problems including death. However, there are known problems with catheters.
- Struvite crystal encrustation is the effect of stagnated urine in the neck of the bladder when using a catheter.
- urine can pool at the neck of the bladder, and the pooled urine can shift from a normal pH factor to an abnormal pH level of 10 or more while it stagnates.
- Urine shifts to an ammonia state where struvite crystals can precipitate and enlarge on the indwelling catheter. This situation can occur as the bladder loses its natural ability to cyclically flush itself in the face of an indwelling catheter.
- Bladder wall thickening has also be observed in long-term catheterizations and may be a result of the increasing pH levels.
- Urinary tract infections can occur as the urine stagnates and shifts from its normal, acidic antibiotic property through the pH spectrum. Pooled urine that can occur in the neck of the bladder beneath the indwelling catheter can be a natural breeding ground for microbes which can migrate in the body.
- Bladder spasms can also occur with an indwelling catheter which causes the bladder to cease its normal cycle of filling and flushing.
- a dynamic functioning system is converted to a static state with a catheter, and painful bladder spasms can occur.
- Bladder atone can also occur where short term or more permanent loss of natural bladder functions occurs by using a catheter.
- wash-out It is also generally well known in medical circles that a human bodies primary defense mechanism against urinary track infections and the other problems listed above is the process l ⁇ iown as "wash-out", where it is advantageous to allow a bladder to normally fill up and be released at one time rather than in an uncontrolled drip fashion that would occur with using a catheter.
- U.S Pat. Nos. 2,602,448 and 2,860,636 which utilized a siphon in combination with a reservoir to provide cyclic draining of the bladder. Pressure release in these devices is controlled by raising the height of the device on a bedside tree. It is subject to distortion by shifting and turning of the patient and is unreliable (and can compromise safety) besides restricting the patient.
- U.S. Pat. No. 3,598,124 describes a siphon leg controlled by merely attaching a catheter to a bedside tree at predetermined adjusted height, which varies the pressure at which the bladder will drain and provides a flutter valve near the patient to break the siphon action of the system once the bladder has drained.
- 4,230,102 describes a device for the draining of a bladder in which a T-joint has been placed on a catheter and has a pressure membrane attached thereto in a large casing for actuating a pressure switch which in turn actuates an electric motor driving a gear train and cam.
- a cam follower is spring loaded to clamp the catheter for two minute cycles upon actuation by the pressure switch to drain the bladder.
- this type of device can be expensive and bulky and positions an electrical apparatus adjacent to the catheter.
- U.S. Pat. No. 4,424,058 describes a spring-return valve in conjunction with a siphon-release orifice to prevent excessive suction and to prevent urine from remaining in the system after drainage.
- a problem with this system was that the restoring force of the spring increased with distance of travel from a closed position. This valve was very unsatisfactory because it closed again as soon as the urine fluid pressure dropped off, thus causing fluid to remain trapped in the bladder to stagnate with further elapsed time. Only a full bladder would open it, sometimes at an uncomfortably high (and potentially unsafe) pressure, and only a relatively full bladder would keep it open to allow complete drainage unless overridden by the patient bearing down heavily on the lower abdomen. Also, positioning of tubes leading from it was parallel to the leg on which it was attached and provided a situation for retention of fluid in the system.
- the subject invention provides both consistent magnetic opening and closing of a valve seal with decreased rather than increased closing pressure when opened. As the bladder is emptied, decreasing head pressure against the valve can keep the valve open to establish complete and sterile drainage.
- the successfully-tested clinical embodiment of this invention provides simple and convenient manual override, when desired, to decrease or eliminate totally the magnetic closing pressure of the valve.
- a primary objective of the invention is to provide a low pressure magnetic valve for bladder management cyclic flow control having consistent opening and closing of the valve seal with decreasing head pressure against the valve as opposed to increasing pressure. As long as any fluid is coming through the line, the valve will remain open until a complete emptying of the bladder is achieved.
- a secondary objective of the invention is to provide a low pressure magnetic valve for bladder management cyclic flow control that establishes complete and sterile drainage as the bladder is being emptied.
- a third objective of the invention is to provide a low pressure magnetic valve for bladder management cyclic flow control that can be automatically run with a simple and convenient manual override that can be selectively engaged.
- a fourth objective of the invention is to provide a low pressure magnetic valve for bladder management cyclic flow control that helps restore normal body functions of bladder filling and emptying in a cyclic manner, with normal, healthy pressure sensations in spite of the presence of the catheter which typically inhibits "natural" bladder drainage.
- the fifth objective of the invention is to provide a low pressure magnetic valve for bladder management cyclic flow control for use with a catheter which can reduce and eliminate l ⁇ iown problems that occur with using a catheter such as urinary tract infections, struvite crystal encrustation, bladder spasms and bladder atone.
- the sixth objective of the invention is to allow a user wearing a catheter to use their bladder detrusor muscle to selectively turn on a valve in the catheter and complete an entire urination emptying cycle of their bladder.
- valve-closing pressure can decrease as a result of three important factors: (1) magnetic pull of a valve decreases as its open distance from magnetic attraction in the direction of the valve seat increases, (2) the gravity- enhanced fluid flow column in the drain down tube provides a slight negative pressure on the back side of the movable magnet (thus tending to hold the valve open until the drain tube empties completely), and (3) fluid passing through the system provides a partial mass flow insulation which tends to hold the moving magnet away from the fixed magnet, also decreasing the net magnetic attraction between the magnetic members. A small amount of air is allowed to leak through a micro-pore filter (which keeps out harmful micro-organisms from the closed system) in order to vent the down line for clean, dry emptying.
- the very low-pressure valve system of the invention for use in controlling the flow of most fluids utilizes magnetic forces to hold a smooth surface against an ultra low-durometer (soft) composite seal or valve seat material until such time as the fluid head pressure causes the magnets to separate and the valve to open, at a preset value, to allow maximum fluid flow rate and complete drainage of the system
- the use method described here is medical in nature, applying to bladder drainage of catheterized patients into a urine collection bag, as needed, in a normal, cyclic fashion. In other words, head pressure of urine building up in volume against the detrusor muscle of a bladder and in a catheter running from the bladder to the valve where it is positioned on a patient's leg or rests on the bed sheet, causes the valve to open away from the valve-port seat.
- valve magnetic member When the valve is opened, distance increases between the valve magnetic member and a member to which it is magnetically attracted in the direction of the valve-port wall, thereby allowing the valve to remain open with less pressure than that initially required to open it. Fluid passing between the open valve and the member to which it is attracted magnetically decreases further still the closing pressure to offset the head-pressure opening of the valve.
- siphon-release air-inlet orifice Downstream from the valve, there is a siphon-release air-inlet orifice that relieves siphon (negative pressure) to avoid siphon suction that would either cause collapse of the bladder walls or cause the valve to remain open after the bladder is emptied.
- An air inlet allowing only air flow through a micro-pore filter material to the siphon-release orifice, is positioned upstream and radially outward from an outlet to the valve in order to prevent passage of fluid from the valve where siphon pressure does not provide sufficient inward suction of air.
- the siphon-release orifice is provided with an antiseptic strainer (anti-bacterial/anti-viral filter) and can serve as a low-pressure one-way inlet valve.
- the entire valve system (in the embodiment of a small, streamlined, compact, integrated and durable device) also serves as an anti-reflux valve between the patient and the urine collection bag, thus preventing drained (and possibly old and unsterile, septic, contaminated) urine from ever re-entering the catheter, urethra, and bladder of the patient, and potentially causing infection or other problems.
- Additional embodiments of this invention provide for a manual override of the valve by selective distancing an externally positioned magnetic member from the valve member that is attracted to it. The override gives flexibility of pressure adjustment and provides the opportunity of assuring full drainage when desired by either physician or the patient. This could manifest itself, in the event of excessive discharge of viscous matter or other mode of lumen blockage, as a "safety" valve to relieve fluid pressure buildup.
- An additional swivelable attachment of the bladder cycler to a strap on a patient's leg can allow the cycler to be positioned comfortably at a slant with the outlet and tubes leading from it downward from the valve to further assure that fluid will not remain in the system between drainage cycles whether used in either a prone or vertical position of the leg.
- the patient also can more readily move about and not be confined or attached to the bed as long as the collection bag is kept attached for use as needed.
- the invention can be used as a hospital instrument whenever an indwelling catheter is required, or in clinics, or in physician's offices, or in homes for draining urine from bladders of patients automatically and safely after normal filling, thoroughly and antiseptically.
- UroCycler helps restore the more normal body function of bladder filling and emptying in a cyclic manner, with normal, healthy pressure sensations in spite of the presence of the catheter which here-to-fore prevented "natural" bladder drainage.
- FIG. 1 is a perspective view of a fully assembled, automatic drainage embodiment.
- FIG. 2 is an exploded perspective view showing the components comprising this passive magnetic bladder-cycling valve.
- FIG. 3 is a cutaway of the assembly showing the valve in the closed configuration
- FIG. 4 is a cutaway of the assembly with the valve open.
- FIG. 5 is a section view of the assembly showing the valve closed.
- FIGS 6A and 6B shows an added over-pressure safety release plug embodiment.
- FIG. 7A is a section view of assembly with the valve open.
- FIG. 7B is an enlarged view of an optional screw with magnet that can alter valve opening pressure.
- FIGS 8A, 8B, 8C, and 8D show embodiments of valve seal and valve seat combinations and useful configurations.
- Figures 9A, 9B, 9C and 9D shows a fluid pressure and flow time chart showing the invention system operation.
- FIG. 10 illustrates the bladder cycler being used with a connected clinician's (or physician's) self-sealing sampling port on the inlet end and a hydrodynamically- balanced outlet downline to a fluid collection bag on the outlet end.
- FIG. 11 is a side view of a patient's leg with the invention strapped to it. DESCRIPTION OF THE PREFERRED EMBODIMENTS
- FIG. 1 is a perspective view of the fully assembled bladder cycling passive magnetic valve invention 1.
- FIG. 2 is an exploded view of the internal components of the invention 1 of FIG. 1. Referring to FIGs 1 and 2, this exploded view shows the key components comprising the assembly.
- the inlet end, or upper non-magnetic housing 2 has female socket end 2.2 which mates with the male prong end 3.2 of outlet end, or lower housing non-magnetic 3, with a water-tight and air-tight bond.
- a moving magnetic valve member 8 is magnetically attracted in the direction of valve-port wall 4 where the resilient valve seal 9 contacts the valve seat at the outlet end of valve insert / orifice 4.
- the moving magnetic valve member 8 is attracted magnetically to the valve-port wall 4 due to the fixed upstream magnetic member 7.
- Inwardly protruding rails 3.6 in lower housing 3 form an internal chamber for allowing the moving magnet valve 8 to slide back and forth.
- Fixed magnetic member 7 is held in place by prongs 4.6 extending from wall 4 having openings/slots 4.3 therebetween.
- the openings/slots 4.3 are large enough to allow for fluid flow around the fixed magnetic member 7.
- Magnetic attraction can be provided by composition of either or both the moving valve member and the upstream magnetic member.
- the magnetic valve member 8 and the upstream magnetic member 7 both are inert, ceramic permanent magnets having high magnetic field saturation and high coercive magnetic force, and the valve-port wall 4 is non-magnetic. Opposite, attracting poles of each magnetic member 7, 8 are facing each other in the fully operational valve.
- a fully assembled "dummy" valve can be substituted with like magnetic poles facing each other, thus making a non-closing, constantly open, "placebo" unit.
- a preferred embodiment of the moveable magnet member 8 was measured at approximately 130 milligauss(mG) at a distance of approximately 7 millimeters(mm) from the sensing coil of a DC Magnetometer.
- the fixed magnet member 7 had a measurement of approximately 40 mG. Both magnet members 7, 8 were approximately 0.375 inches in diameter.
- the pressure needed to open the valve member 8 away from its seat was adjusted to be approximately 0.1 ounces per square feet(ounces/sq.ft), which correlated to approximately 15cm height of H2O, in the catheter line.
- channel ridges 17 at the inside periphery of non-magnetic housing 3 provide fluid passage linearly between them from side-to-side of first the magnetic base member 7 and then the magnetic valve member 8.
- stopper shoulders 18 are provided to arrest travel of the magnetic valve member 8 at a select distance of travel away from valve-port wall 3.4.
- valve-port wall is provided with a valve-seat ridge 9 for reduction of valve-seat area to reduce area for accumulation of particulates in fluid passing through the system and for providing a relatively smaller surface for tightly seating into the moving valve member 8.
- Moving valve member 8 can move in an interior chamber within housing section 3 in both directions as shown by arrows Ml and M2.
- a resilient non-magnetic valve surface 9 can be provided for increased seating pressure and for selectively decreased magnetic attraction in the direction of the valve-port wall 19.2.
- Alternative valve seat / seal configurations are illustrated in FIGs 8B, 8C, and 8D.
- the low-durometer, soft, resilient seal 4.2 can be built into the insert 4 member and its sealing ridge 19, and a smooth surface of magnet 8 can press firmly enough to make a suitable urine flow seal.
- an FDA-approved material eg: silicone
- an FDA-approved material eg: silicone
- inside corners of magnetic valve member 8, inside corner edges of housing inlets 2, inside corner edges of housing outlets 3 and all other corners possible can be rounded to facilitate flow through the system and to prevent accumulation of particulates in fluid passing through the system.
- outside surfaces of inlet housing 2 and outside surface of outlet housing 3 also can be rounded to prevent scraping action that would tend to accumulate particles at the outside and decrease cleanliness.
- inside corners of the housing outlets can be angled from the basically symmetrical barbed inlet and outlet connectors 11 which can be selectively tapered, ribbed or otherwise designed to receive and to hold medical tubing.
- an optional soft elastic plug 12 may be inserted into a vent line 13.2/13.4 to serve as a safety pressure release valve (perhaps if blockage in the system caused urine pressure in the bladder to build up past some potentially hazardous number like 80 - 120 cm/H2O column) which would pop out to avoid renal or other physiological damage. Details are shown in FIGs 6A and 6B. In addition, this feature could allow medicine to be injected into the urinary tract on the bladder side, if desired, to control or prevent infection.
- FIG. 6A has a blunt edge plug 12.2, which fits within a uniform diameter vent line 13.2, and an alternative version FIG. 6B has an expanded tip 13.4 which fits within and catches against an interior surface about narrowing vent line 13.4
- FIG 7B another (threaded) hole 2.5 could be used to position a screw 29 / magnet 30 mechanism so as to position a third permanent magnet 30 in close proximity to the back of the "fixed” magnet member 7, in order to alter the net magnetic field strength and thus control the valve opening pressure.
- the present magnet-holding insert 4 can be molded in a soft plastic material in order to make a good seal against the moving magnet face on component 8.
- the South Pole of the moving magnet 8 faces the valve seat 19 at its left. This South Pole is attracted to the North Pole of the fixed magnet 7 behind the seat 19 to its left.
- the manual external rotational adjustment of externally adjustable screw 30 controls the magnet 30 South pole separation from the magnet 7 South pole which would allow a significant degree of valve pressure opening adjustment , or variable pressure setting, which can be desirable in certain situations.
- magnet 30 Conversely, when the screw 29 is backed off so that magnet 30 is farther apart from magnet 7, then magnet 30 has less effect in canceling some of the strength of magnet 7, and the opening pressure is higher.
- bladder detrusor muscle atony has occurred, or when therapeutic bladder retraining is called for, lowered position of magnet 30 toward magnet 7(screwing the magnet 30 in closer), or graduated pressure settings can provide substantial additional benefits.
- the opening pressure setting can be determined by the insert dimensions (assuming a consistent magnet gauss reading) and each unit can acquire a fixed pressure value during the manufacturing process. While the normal opening range is approximately 15 to approximately 30 cm/H2O, individual units can be made to operate at higher or lower pressures, within practical limits.
- Head pressure to open the valve can be decreased by pressing the button inwardly and sliding the magnetic base member in the direction of the housing inlet.
- the valve can be totally released without any magnetic pressure to hold the valve shut when the magnetic base is slid to the extreme housing-inlet end of travel of the button stem in the stem channels.
- Closing pressure of the valve is increased by sliding the magnetic base member in a downstream direction toward the housing outlet.
- a siphon air vent micro-port filter 6 and cover 5 can be provided to effect a very low-pressure siphon, suction, or negative pressure from fluid passing through the housing outlets 11.2 and down the drain line 22 into the collection bag 27.
- the filter material within filter 6 either woven or non-woven attaches by an adhesive and is packed around the housing vent hole 10. This feature of the invention assists in holding the valve 8 open until all the fluid is emptied out of the system as well as allowing the system tubing to drain clean and dry, thus preventing moist surfaces within the system for potential bacterial growth.
- the vent filter 6 allows for a stream of air bubbles to enter line 22 to aid in allowing complete drainage of all fluid through line 22, since in a gravity directed flow system an upper located vent enhances fluid flow therethrough.
- the vent valve 10 can be positioned at the outside periphery of a valve-port wall 3.6 and the vent aperture 10 can be positioned in the outside periphery of an outlet housing member 3 that is created during plastic injection molding process or in the construction assembly process.
- the assembly can be either glued, chemically welded, ultrasonically welded, or press-fit snugly enough to remain assembled without glue.
- the magnetic base member 7 can be either glued or otherwise fixed in seats 4.6 in a position at a select distance from the valve-port wall (seat) to achieve a pre-determined pressure requirement for opening of the valve 8 in opposition to magnetic attraction of the base member 7 and the valve 8.
- the magnetic base member 7 in FIG 2 can be moved by an automatic, but very weak, drainage spring or other weakly resilient member.
- pressure from the weight of fluid in the bladder 23 (shown in Fig. 10) and in the column from the bladder 23 to the bladder cycler invention 1 cause the valve 8 to open in opposition to the magnetic attraction, the spring action will cause the base member 7 to move upstream away from the moving valve member 8 and thereby decrease further the attraction between the two magnets 7, 8. This allows more complete emptying of the bladder contents 23.5.
- this invention provides some features of the controllable embodiment at a lower cost of construction.
- a springy material in this working relationship functions in the opposite direction as springs used to close valves in prior-art practices. It decreases rather than increases opening pressure of the valve when pressure in the bladder is low from being partially emptied. This configuration would require a very careful design and implementation in order to balance the static and dynamic forces precisely for operation, both in the opening pressure and to assure valve closing, sealing without leaking during urine pressure buildup to the opening threshold.
- this diagram traces out the cycler invention use method as the key component of a hydrodynamically-balanced cyclic urinary drainage system.
- the human (or animal) bladder 23 and bladder contents 23.5 with its two ureter inputs has its attached urethra 24 invaded by an indwelling catheter (such as a balloon- anchored Foley type) 25.
- this catheter can be connected to a clinician's (physician's) sampling port 26, from which a urine sample can be drawn by either a conventional syringe needle or by a safety plastic canula probe.
- valve 8 is in a closed position to inhibit fluid flow therethrough.
- Arrow 14A of Fig. 3 shows the direction of fluid flow which stops by closed seated valve 8.
- a patient can use their bladder detrusor muscle 23.7 about the bladder 23 to cause a small amount of pressure in the catheter line 25, 22 to cause the valve 8 in cycler 1 to pass to an open position(in the direction of arrow Ml) to allow fluid flow therethrough.
- Arrows 14B and 14C of Fig. 4 show fluid passing through cycler 1. Fluid running down line 22 assists in maintaining the valve 8 in an open position by causing a hydrodynamic pulling on the valve 8 so that all fluid flow passes therethrough.
- valve 8 The hydrodynamic pulling on the valve 8 causes by the fluid flowing through line 22 is stronger than the attractive forces between magnet valve 8 and member 7. After all fluid passes through line 22, no further hydrodynamic forces exist to keep the valve 8 in the open position so now valve 8 is free to move in the direction of arrow M2 to a closed position since the attractive power of the magnets 7 and 8 causes valve 8 to move in the direction of arrow M2.
- the subject invention valve 8 does not function in an equivalent manner.
- the greater the opening in a valve the greater the resistance is from the compressed spring to cause a closure of the valve.
- a patient exerting fluid pressure to open a spring biased-backed valve has greater resistance that occurs as they try to increase urination pressure.
- magnetic valve 8 more pressure from the bladder causes less resistance against the valve 8, and helps fluid flow therethrough.
- spring biased-backed valves have been known to cause a premature closing in a catheter line which can cause any of the medical problems referred to in the background section of the invention.
- the subject invention magnetic valve 8 does not prematurely close since the hydrodynamic gravity enhanced pulling of fluid downline is enough to overcome the magnetic attraction to keep the valve open. When downline fluid flow ceases, the hydrodynamic gravity enhanced pulling of fluid ceases and the magnetic attraction is enough to close off valve 8.
- the subject invention allows a person to use their bladder detrusor muscle to cause pressure selectively turn on and complete urination emptying cycle of the contents of the bladder while wearing a catheter.
- the cycler 1 can be an alternative to using dangerous clamps on a catheter line, since clamps left on a catheter line for extended periods of time can be hazardous to a patient's life.
- the cycler 1 allows for a fluid samples to accumulate about port 26 so that an adequate sample can be retrieved when needed.
- the cycler invention 1 with magnetic moving valve 8 can be connected between the sampling port 26 and the specially-sized downline tubing 22, thus forming a hydrodynamically-balanced drainage system, terminated by the collection bag 27 and its clamped-off emptying tube 28.
- a preferred embodiment incorporates the connections from the catheter be made as shown, and that the downline from the outlet end of the bladder cycler valve consist of approximately 0.1875 inch inside diameter tubing, preferably of polyethylene construction.
- the surface tension of the watery urine fluid 23.5, combined with the lumen of the catheter and the fluid pressure, fluid flow rate, viscosity, and gravitational forces have shown that these dimensions, including the length of the drainage line, can be critical parameters for proper and safe, reliable operation as a listed Class II, U. S.
- the pressure needed to open the valve member 8 away from its seat was adjusted to be approximately 0.1 ounces per square feet(ounces/sq.ft), which correlated to approximately 15cm height of H2O, in the catheter line.
- a leg strap 20 can be provided about a human leg 20.5 with a swivel connection 21 that allows the bladder cycler invention 1 to be positioned when desired at a downward angle with respect to a leg 20.5 to which it attached.
- This allows a catheter or outlet drainage tubing 22 to be positioned at a slant that provides downward flow of fluid that otherwise could remain in the system between drainage cycles.
- FIGs 9A, 9B, 9C and 9D show the time relationship between pressure buildup on a test stand, such as in the configuration diagrammed in FIGs 10-11, the valve opening pressure drop, the initiation of fluid flow, the constant flow rate until the point of emptying, the valve closing again, and the cycling period to the next pressure fill and open sequence.
- This period is normally approximately two to approximately four hours for the average adult, depending on amount of fluid beverages consumed, physical activity, and physiological factors such as bladder size, general health, pressure sensitivity, and the like.
- FIG. 9 A the commencement of urine flow is indicated at point 60.
- the flow is quite consistent throughout the time period ending at point 61, about 60 seconds.
- the flow charted from point 62 to 63 represents another bladder emptying cycle.
- FIG. 9B illustrates the bladder pressure buildup cycle from 17cm of water column pressure at point 70 to the valve opening threshold pressure of 21cm at point 71, dropping to zero at point 72.
- the chart stops and a new partial cycle from point 74 at 16cm of H2O to the opening point 75 at 22cm of H2O.
- Figures 9C and 9D shows charts that indicate that the flow rates and urine volumes are in the "normal" range(e.g. approximately 250cc over 60 minutes.
- a manual override embodiment can allow for selectively keeping valve 8 in an open position.
- an extra outside magnet 50 can be positioned adjacent filter 6 to have South pole S, that attracts North pole N, of moving valve 8 in an open position.
- the manual override of the valve can occur by selective distancing of an externally positioned magnetic 50 from the valve 8 that is attracted to it.
- the override gives flexibility of pressure adjustment and provides the opportunity of assuring full drainage when desired by either physician or the patient. This could manifest itself, in the event of excessive discharge of viscous matter or other mode of lumen blockage, as a welcome "safety" valve to relieve fluid pressure buildup in the line and system upstream from the cycler 1.
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Abstract
Priority Applications (5)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
AU2002227205A AU2002227205B2 (en) | 2001-04-02 | 2003-04-22 | Magnetic valve bladder cycler drainage system and use method with urinary catheters |
JP2004571607A JP2005531392A (ja) | 2003-04-22 | 2003-04-22 | 磁気バルブ式膀胱用サイクラー排液システム、及び尿道カテーテルとの使用方法 |
CNA018232698A CN1845764A (zh) | 2003-04-22 | 2003-04-22 | 带有导尿管的磁性阀膀胱循环器排液系统和使用方法 |
PCT/US2001/046329 WO2004098686A1 (fr) | 2003-04-22 | 2003-04-22 | Systeme de drainage cyclique de la vessie a robinet electromagnetique et procede d'utilisation avec des catheters urinaires |
BRPI0318687-3A BR0318687A (pt) | 2003-04-22 | 2003-04-22 | dispositivo de ciclo de bexiga para uso com cateteres e método para ativar seletivamente um ciclo de esvaziamento de bexiga com cateteres |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
PCT/US2001/046329 WO2004098686A1 (fr) | 2003-04-22 | 2003-04-22 | Systeme de drainage cyclique de la vessie a robinet electromagnetique et procede d'utilisation avec des catheters urinaires |
Publications (1)
Publication Number | Publication Date |
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WO2004098686A1 true WO2004098686A1 (fr) | 2004-11-18 |
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Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
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PCT/US2001/046329 WO2004098686A1 (fr) | 2001-04-02 | 2003-04-22 | Systeme de drainage cyclique de la vessie a robinet electromagnetique et procede d'utilisation avec des catheters urinaires |
Country Status (4)
Country | Link |
---|---|
JP (1) | JP2005531392A (fr) |
CN (1) | CN1845764A (fr) |
BR (1) | BR0318687A (fr) |
WO (1) | WO2004098686A1 (fr) |
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
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EP2707640A1 (fr) * | 2011-05-11 | 2014-03-19 | Bioflo, LLC | Robinet de régulation de l'écoulement d'un liquide |
WO2014113595A1 (fr) * | 2013-01-16 | 2014-07-24 | Mcdaniel Michael R | Vanne magnétique à commande de pression destinée à un cathéter |
Families Citing this family (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN102715898B (zh) * | 2012-06-06 | 2015-06-17 | 苏州达维生物医药有限公司 | 膀胱功能恢复装置 |
EP3407956B1 (fr) * | 2016-03-03 | 2022-02-09 | Esculon, LLC | Dispositifs et procédés de prise en charge du drainage thoracique |
CN106924832A (zh) * | 2017-04-06 | 2017-07-07 | 台州市温岭中医医疗中心(集团) | 一种压力感受型单向阀留置尿管开放控制器 |
CN107551336B (zh) * | 2017-10-21 | 2019-12-24 | 吴昱晔 | 一种泌尿科导尿套件 |
Citations (1)
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US20020143318A1 (en) * | 2001-04-02 | 2002-10-03 | Flinchbaugh David E. | Magnetic valve bladder cycler drainage system and use method with urinary catheters |
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2003
- 2003-04-22 JP JP2004571607A patent/JP2005531392A/ja active Pending
- 2003-04-22 CN CNA018232698A patent/CN1845764A/zh active Pending
- 2003-04-22 WO PCT/US2001/046329 patent/WO2004098686A1/fr active Application Filing
- 2003-04-22 BR BRPI0318687-3A patent/BR0318687A/pt not_active IP Right Cessation
Patent Citations (1)
Publication number | Priority date | Publication date | Assignee | Title |
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US20020143318A1 (en) * | 2001-04-02 | 2002-10-03 | Flinchbaugh David E. | Magnetic valve bladder cycler drainage system and use method with urinary catheters |
Cited By (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
EP2707640A1 (fr) * | 2011-05-11 | 2014-03-19 | Bioflo, LLC | Robinet de régulation de l'écoulement d'un liquide |
EP2707640A4 (fr) * | 2011-05-11 | 2014-12-03 | Bioflo Llc | Robinet de régulation de l'écoulement d'un liquide |
WO2014113595A1 (fr) * | 2013-01-16 | 2014-07-24 | Mcdaniel Michael R | Vanne magnétique à commande de pression destinée à un cathéter |
US9320882B2 (en) | 2013-01-16 | 2016-04-26 | Infinity Medical Engineering, Llc | Pressure controlled magnetic valve for a catheter |
Also Published As
Publication number | Publication date |
---|---|
CN1845764A (zh) | 2006-10-11 |
JP2005531392A (ja) | 2005-10-20 |
BR0318687A (pt) | 2008-04-01 |
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