JP6818864B2 - Needle handle - Google Patents

Description

The present invention relates to a needle aspiration device used for tissue sampling.

The statements in this section merely provide background information regarding the disclosure and may not constitute prior art.

Samples are collected from target tissues such as tumors and nodules for analysis using needle aspiration devices such as transbronchial needle aspiration (TBNA) devices.

Some needle aspiration handle designs use simple cantilever springs, friction fits, or O-rings. Traditional O-ring designs provide several "locking" capabilities with grooves for fitting the O-ring. However, these grooves are generally shallow and can inadvertently advance the needle without user input, which can lead to potential safety issues or damage to the scope.

The present invention provides an example of a medical device for sampling tissue. The medical device of this example includes a handle that controls the force required by the user to actuate the needle, providing a greater force for actuating first and a smaller force for continuing to slide. The groove at either working end acts as a locking element that provides feedback with a "pop" at either running end. The handle also assists in the "one-way" manufacture of the handle assembly with an O-ring that does not take into account larger diameter shafts during initial assembly and thus prevents disassembly. The O-ring and groove interface is also designed not to provide fluid encapsulation (as usual for O-rings) to assist in sterilization methods.

Activating first with greater force provides safety from unintended actuation. The change in tilting of the outer diameter of the needle actuator shaft provides a better feel when retracting the needle. A popping sound at either end of the needle actuator provides tactile and audible feedback to the user.

Further features, advantages, and areas of application will become apparent from the description provided herein. It should be understood that the description and specific examples are intended for illustrative purposes only and are not intended to limit the scope of this disclosure.

The drawings described herein are for illustrative purposes only and are by no means intended to limit the scope of this disclosure. The components in the drawings are not necessarily at a constant scale and the emphasis is on exemplifying the principles of the invention.

The side view of the inspiration device in a non-operating state according to the principle of this invention is shown. A cross-sectional view of the inspiration device of FIG. 1-1 is shown. A side view of the inspiration device of FIG. 1-1 in an operating state according to the principle of the present invention is shown. A side view of the needle actuator of the inspiration device of FIG. 1-1 according to the principle of the present invention is shown. An enlarged view of a part of the needle actuator of FIG. 2-1 is shown. A side view of the handle body of the inspiration device of FIG. 1-1 according to the principle of the present invention is shown. A cross-sectional view of the handle body of FIG. 3-1 is shown. A cross-sectional view of a part of the handle body of FIGS. 3-1 and 3-2 is shown.

The following description is merely exemplary in nature and is not intended to limit this disclosure, application, or use.

FIGS. 1-1 and 1-2 show an example of a needle aspiration device 20 (for example, a transbronchial needle aspiration (TBNA) device) in a non-actuated position, and FIGS. 1-3 show a device in an activated position. 20 is shown. The device 20 includes a handle body 26, a needle actuator 28, a stylet knob 30, and a Luer element 32. The handle body 26 is attached to the proximal end of the sheath 34. The needle actuator 28 includes a shaft portion 36 connected to the handle portion 38. The needle actuator 28 receives and attaches to the proximal end of the needle 40. The stylet knob 30 is attached to the proximal end of the stylet 46. The stylet knob 30 rotatably attaches to the proximal end of the Luer element 32. The distal end of the Luer element 32 is attached to the cavity of the handle portion 38 of the needle actuator 28.

In the non-actuated position, the distal end of the needle 40 is retracted into the sheath 34 (FIG. 1-2). In the working position, the distal end of the needle 40 is exposed beyond the distal end of the sheath 34 (FIG. 1-3).

As shown in FIG. 1-2, the shaft portion 36 is slidably accepted into the cavity (ie, the cavity) of the handle body 26. At the proximal end of the cavity of the handle body 26 is an annular groove 52 that receives at least a portion of the O-ring 50. The O-ring 50 prevents the shaft portion 36 from easily coming off the handle body 26. The coordinated operation of the components of the device 20 will be described in more detail below.

As shown in FIGS. 2-1 and 2-2, the shaft portion 36 of the needle actuator 28 includes a distal section 58, an intermediate section 62, and a proximal section 60. The distal section 58 and the intermediate section 62 are separated by a distal annular groove 54. The intermediate section 62 and the proximal section 60 are separated by a proximal annular groove 56. The distal section 58 has an outer diameter substantially the same as the inner diameter of the cavity of the handle body 26. As part of the assembly, the shaft portion 36 is fitted into the cavity of the handle body 26. Push the distal section 58 over the O-ring 50 until the O-ring 50 fits into the distal annular groove 54. At this position, the device 20 is ready for operation as the distal end of the needle 40 approaches the distal end of the sheath 34. The O-ring 50 prevents the distal section 58 of the needle actuator 28 from being completely pulled out of the handle body 26.

The user initiates the operation of the needle by applying a distal force to the handle portion 38 of the needle actuator 28, whereby the O-ring 50 pops out of the distal annular groove 54 and the O-ring 50 " It slides along the shaft portion 36 until it "pops" and is located within the end (eg, proximal annular groove 56), at which point the needle extends sufficiently from the sheath 34 (eg, about 20 mm). doing.

The inclined surface 66 is located from the proximal edge of the distal annular groove 54 to a predetermined location on the proximal side along the shaft portion 36. The outer diameter 64 of the inclined surface 66 decreases from the proximal edge of the distal annular groove 54 toward the proximal end of the inclined surface 66. The shaft portion 36 located between the proximal end of the inclined surface 66 and the proximal annular groove 56 has an almost constant diameter value. The diameter value of the distal end of the inclined surface 66 is selected to give the operator audible and / or tactile feedback when the operator applies a distal activation force to the needle actuator 28. The inclined surface 66 defines an asymmetric force difference between a relatively steep and prominent working force and a pulling force that is smoother and weaker than the working force.

The distal section 60 may have a larger diameter value than the non-inclined portion of the intermediate section 62. The O-ring 50 fitted in the proximal annular groove 56 helps keep the needle actuator 28 in a sufficiently distal position. The device 20 may be implemented without the distal compartment 60 or the distal annular groove 54.

In one embodiment, the distal annular groove 54 is slightly deeper than the proximal annular groove 56. This helps the needle 40 remain anchored in the retracted position until a physician-initiated actuation is performed. The distal annular groove 54 may be flanked by a proximal slope and a sharp, wide end on the distal side. The wider side in contact with the O-ring 50 prevents the actuator from being completely pulled out of the handle body 26.

Other shapes and dimensions for the device 20 including an intermediate sloping surface or divot can be used to change the working force and feel in use. For example, a notch or bump at the midpoint between zero and full operation can be used to give the physician feedback about the location of the waypoint.

As shown in FIGS. 3-1 and 3-2, and FIG. 3-3, the barb 44 is located at the distal end of the handle body 26. The barb 44 includes a distal cavity 70 and a proximal cavity 72. The proximal cavity 72 has an inner diameter smaller than that of the distal cavity 70, but is still large enough to slide and accept the needle 40. The distal cavity 70 is sized to accommodate the proximal end of the sheath 34 up to the shelf formed by the difference in diameter between the distal cavity 70 and the proximal cavity 72. The barb 44 includes a tapered distal end extending proximally to near the middle of the length of the barb 44 on which the flange 74 is formed. The shaft of the barb 44 has a constant outer diameter from the tapered distal end to the distal end of the handle body 26. The flange 74 allows for stronger adhesion to the strain relief flyer 42.

After the sheath 34 is fitted into the distal cavity 70, the strain relief flyer 42 is stretched or applied over the sheath 34 and barb 44. If the strain relief flyer 42 is at least partially formed of a heat shrinkable material, it is heated to shrink and exert a radial force on the sheath 34 and barb 44. The heat shrinkable material may include an adhesive that is placed on its inner surface to allow for stronger adhesion between the parts. The adhesive may also be thermally activated.

A. A needle having a distal end and a proximal end, a needle actuator, an actuator compartment located at the proximal end of the needle actuator, a shaft compartment having a distal end and a proximal end, proximal to the shaft compartment. The end is connected to the actuator compartment, and the shaft compartment has an outer diameter that transitions distally from the first compartment, the second outer diameter value to the third outer diameter value, which has the first outer diameter value. The first and third outer diameter values, including some, are larger than the second outer diameter value, the second division, and the position between the first and second divisions. A lumen located within one of the shaft compartments and the actuator compartments or shaft compartments, including the first annular groove to be made, which is configured to secure and accept the proximal end of the needle. A handle having a sheath and a distal end and a proximal end, including a needle actuator including a lumen and a sheath having a distal end and a proximal end, comprising a lumen configured to receive the needle. A medical device comprising a body, wherein the distal end of the handle body is connected to the proximal end of the sheath and the handle body includes a lumen.

B. The medical device of A, wherein the handle body further comprises an annular groove inside the lumen of the handle body and an O-ring that is at least partially accepted by the annular groove of the handle body.

C. A medical device of B in which the inner diameter of the O-ring is smaller than the first outer diameter value.

D. The medical device according to any one of A to C, wherein the shaft section further comprises a second annular groove located between the second section and the actuator section.

E. D's medical device in which the first annular groove is deeper than the second annular groove.

F. The shaft section further includes a third section located between the second annular groove and the actuator section, the third section has a fourth outer diameter value, and the fourth outer diameter value is a second. The medical device according to D or E, which is larger than the outer diameter value of.

G. The medical device according to any one of B to F, wherein the O-ring is fitted inside the first annular groove when the medical device is inactive.

H. The medical device according to D or E, wherein the O-ring is fitted inside the second annular groove when the medical device is in operation.

I. The handle body further includes a port configured to accept the proximal end of the sheath into the cavity, the port projecting distally from the handle body, and the inner diameter of the cavity is greater than the inner diameter of the cavity of the handle body. The large medical device according to any one of A to H.

J. I's medical device further comprising a mounting device configured to exert a mounting force between the port and the sheath.

K. An L medical device in which the mounting device comprises a heat shrinkable material.

L. A needle actuator, an actuator section located at the proximal end of the needle actuator, a shaft section having a distal end and a proximal end, the proximal end of the shaft section being connected to the actuator section, and the shaft section. The first category having the first outer diameter value, the first outer diameter value and the third outer diameter value including a part of the outer diameter transitioning distally from the second outer diameter value to the third outer diameter value. Shaft compartments, including a second compartment in which the outer diameter value of is greater than the second outer diameter value, and a first annular groove located between the first and second compartments, and A needle actuator and a distal end, including a lumen located within one of the actuator compartments or shaft compartments, which is configured to hold and accept the proximal end of the needle. A handle device comprising a handle body having a proximal end, wherein the distal end of the handle body is connected to the distal end of the sheath and the handle body comprises a lumen.

M. An L handle device in which the handle body further comprises an annular groove inside the cavity of the handle body and an O-ring that is at least partially accepted by the annular groove of the handle body.

N. M handle device in which the inner diameter of the O-ring is smaller than the first outer diameter value.

O. The handle device according to any one of L to N, wherein the shaft section further comprises a second annular groove located between the second section and the actuator section.

P. O handle device in which the first annular groove is deeper than the second annular groove.

Q. The handle device according to any one of L to P, wherein the O-ring is fitted inside the first annular groove when the medical device is inactive.

R. The handle device according to O or P, wherein the O-ring is fitted inside the second annular groove when the medical device is in operation.

S. The shaft section further includes a third section located between the second annular groove and the actuator section, the third section has a fourth outer diameter value, and the fourth outer diameter value is a second. The handle device according to O or P, which is larger than the outer diameter value of.

T. The stylet knob is configured to receive the proximal end of the stylet, further including a mounting device coupled to the proximal end of the actuator compartment and a stylet knob rotatably accepted by the mounting device. , L to S.

The description of the present invention is merely exemplary in nature, and it is intended that modifications that do not deviate from the gist of the present invention are within the scope of the present invention. Such modifications are not considered to deviate from the gist and scope of the invention.

20 Needle Aspiration Device 26 Handle Body 28 Needle Actuator 30 Stylet Knob 32 Luer Element 34 Sheath 36 Shaft Part 38 Handle Part 40 Needle 42 Strain Lily Flyer 44 Barb 46 Stylet 50 Ring 52 Circular Groove 54 Distal Circular Groove 56 Proximal Circular groove 58 Distal division 60 Proximal division 62 Intermediate division 64 Outer diameter 66 Inclined surface 70 Distal cavity 72 Proximal cavity 74 Flange

Claims (10)

A needle that has a distal end and a proximal end and is a continuum of single elements ,
It ’s a needle actuator,
Actuator compartment located at the proximal end of the needle actuator,
A shaft section having a distal end and a proximal end, wherein the proximal end of the shaft section is connected to the actuator section and the shaft section is
The first category having the first outer diameter value,
A second section proximal to the first section, including a portion having an outer diameter that transitions distally from a second outer diameter value to a third outer diameter value, the first section. The second category, in which the outer diameter value and the third outer diameter value are larger than the second outer diameter value, and the first outer diameter value is larger than the third outer diameter value, and A shaft section comprising a first annular groove located between the first section and the second section, and a lumen located within one of the actuator section or the shaft section. And a needle actuator, including a lumen, which is configured to secure and accept the proximal end of the needle.
A sheath having a distal end and a proximal end, including a lumen that is configured to receive the needle, and a sheath,
A handle body having a distal end and a proximal end, comprising a handle body, wherein the distal end of the handle body is connected to the proximal end of the sheath.
The handle body
The lumen and
An annular groove inside the cavity of the handle body and
A medical device further comprising an O-ring, which is at least partially accepted by the annular groove of the handle body. The medical device according to claim 1, wherein the inner diameter of the O-ring is smaller than the first outer diameter value. The medical device according to any one of claims 1 to 2, wherein the shaft section further includes a second annular groove located between the second section and the actuator section. The medical device according to claim 3, wherein the first annular groove is deeper than the second annular groove. The shaft section further includes a third section located between the second annular groove and the actuator section, the third section having a fourth outer diameter value and the fourth outer. The medical device according to claim 3 or 4, wherein the diameter value is larger than the second outer diameter value. The medical device according to any one of claims 1 to 5, wherein the O-ring is fitted inside the first annular groove when the medical device is in an inactive state. The medical device according to claim 3 or 4, wherein the O-ring is fitted inside the second annular groove when the medical device is in an operating state. The handle body further comprises a port in which the configured proximal end to receive the inner cavity of the sheath, the port protrudes distally from the handle body, any one of claims 1 to 7, The medical device according to paragraph 1. The medical device according to claim 8, further comprising a mounting device configured to apply a mounting force between the port and the sheath. The medical device according to claim 9, wherein the mounting device includes a heat shrinkable material.

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