Handheld biopsy device with needle firing
Abstract
A biopsy device includes a body, a needle, and a cutter. A motor is operable to both move the cutter relative to the needle and actuate a needle firing assembly to retract and fire the needle relative to the body. The biopsy device also includes a needle rotation assembly that is configured to substantially prevent rotation of the needle about the longitudinal axis when the needle is in a proximal position yet permit rotation of the needle about the longitudinal axis when the needle is in a distal position. A valve assembly of the biopsy device includes a slider that selectively couples a secondary lumen in the needle with either atmospheric air or saline based on the longitudinal position of the slider. The cutter passes through the slider.
Claims
exact text as granted — not AI-modifiedWe claim:
1. A biopsy device, comprising:
(a) a body;
(b) a needle, the needle including a tip and a transverse aperture proximal to the tip, wherein the needle defines a longitudinal axis, wherein the needle is movable relative to the body along the longitudinal axis;
(c) a cutter movable within the needle to sever tissue protruding through the transverse aperture, wherein the cutter comprises a first member fixedly secured to the cutter;
(d) a motor operable to move the cutter relative to the needle;
(e) a needle firing assembly comprising a second member, wherein the motor is further operable to actuate the needle firing assembly to retract and fire the needle relative to the body along the longitudinal axis, wherein the second member of the needle firing assembly is configured to engage the first member of the cutter, wherein the needle firing assembly is operable to retract the needle relative to the body along the longitudinal axis when at least the following two conditions are met:
(i) the second member is engaged with the first member, and
(ii) the motor is activated to retract the cutter proximally relative to the body.
2. The biopsy device of claim 1 , wherein the needle firing assembly is configured to engage the cutter to retract the needle proximally with the cutter as the cutter is retracted from a first distal position to a first proximal position.
3. The biopsy device of claim 2 , wherein the needle firing assembly is configured to fire the needle distally when the cutter is advanced from the first proximal position to a second distal position, wherein the second distal position is proximal to the first distal position.
4. The biopsy device of claim 3 , wherein the cutter is further movable from the second distal position to a second proximal position after the needle is fired distally, wherein the second proximal position is proximal to the first proximal position.
5. The biopsy device of claim 1 , wherein the second member comprises an elongate member resiliently biased to assume a bent configuration, wherein the second member is disengaged from the first member when the elongate member is in the bent configuration, wherein the second member is engaged with the first member when the elongate member is moved toward a straight configuration, the needle firing assembly further comprising a trigger member operable to move the elongate member from the bent configuration toward the straight configuration.
6. The biopsy device of claim 1 , wherein the body includes a track, wherein the second member comprises a pin disposed in the track, wherein the track is configured to maintain engagement between the first member and the second member as the pin moves along a first portion of the track, wherein the track is configured to permit disengagement of the first member from the second member as the pin moves along a second portion of the track.
7. The biopsy device of claim 1 , wherein the first member includes an outwardly extending flange, wherein the second member includes an inwardly extending catch configured to selectively engage the flange.
8. The biopsy device of claim 1 , wherein the longitudinal axis defined by the needle passes through the body.
9. The biopsy device of claim 1 , wherein the motor is positioned within the body.
10. A biopsy device, comprising:
(a) a body;
(b) a needle extending distally from the body, the needle including a tip and a transverse aperture proximal to the tip, wherein the needle defines a longitudinal axis, wherein the needle is translatable relative to the body along the longitudinal axis, wherein the needle is selectively rotatable relative to the body about the longitudinal axis;
(c) a cutter movable relative to the needle to sever tissue protruding through the transverse aperture; and
(d) a needle rotation assembly, wherein the needle rotation assembly comprises a locking portion, wherein the needle rotation assembly is configured to prevent rotation of the needle about the longitudinal axis when the needle locking portion is in a first longitudinal position relative to the body, wherein the needle rotation assembly is further configured to permit rotation of the needle about the longitudinal axis when the needle locking portion is in a second longitudinal position relative to the body.
11. The biopsy device of claim 10 , wherein the needle rotation assembly comprises a resilient member resiliently biasing the needle locking portion to the first longitudinal position, wherein the first longitudinal position is proximal to the second longitudinal position.
12. The biopsy device of claim 10 , wherein the needle rotation assembly further comprises a needle rotation member unitarily secured to the needle, wherein the body comprises a needle engagement feature configured and positioned to engage the needle rotation member locking portion when the needle locking portion is in the first longitudinal position to substantially prevent rotation of the needle about the longitudinal axis, wherein the needle engagement feature is configured and positioned to disengage the needle rotation member locking portion when the needle locking portion is in the second longitudinal position to permit rotation of the needle about the longitudinal axis.
13. The biopsy device of claim 12 , wherein the needle engagement feature comprises a protrusion projecting from an interior surface of the body, wherein the needle rotation member locking portion comprises a plurality of recesses circumferentially arrayed about an outer perimeter of the needle rotation member locking portion, wherein each of the recesses is configured to receive part of the protrusion based on the angular position of the recesses about the longitudinal axis when the needle locking portion is in the first longitudinal position.
14. A biopsy device, comprising:
(a) a body;
(b) a needle, the needle including a tip and a transverse aperture proximal to the tip, wherein the needle defines a longitudinal axis, wherein the needle is movable relative to the body along the longitudinal axis;
(c) a cutter movable within the needle to sever tissue protruding through the transverse aperture;
(d) a first member, wherein the first member is fixedly secured to the cutter;
(e) a needle firing assembly, wherein the needle firing assembly is operable to retract and fire the needle relative to the body along the longitudinal axis, the needle firing assembly comprising a second member, wherein the second member is configured to selectively engage the first member; and
(f) a motor operable to move the cutter relative to the needle, wherein the motor is further operable to actuate the needle firing assembly to retract and fire the needle relative to the body along the longitudinal axis, wherein the needle firing assembly is operable to retract the needle relative to the body along the longitudinal axis when at least the following two conditions are met:
(i) the second member is engaged with the first member, and
(ii) the motor is activated to retract the cutter proximally relative to the body.
15. The biopsy device of claim 14 , wherein the second member comprises an elongate member resiliently biased to assume a bent configuration, wherein the second member is disengaged from the first member when the elongate member is in the bent configuration, wherein the second member is engaged with the first member when the elongate member is in a substantially straight configuration, the needle firing assembly further comprising a trigger member operable to move the elongate member from the bent configuration to the substantially straight configuration.
16. The biopsy device of claim 14 , wherein the body includes a track, wherein the second member comprises a pin disposed in the track, wherein the track is configured to maintain engagement between the first member and the second member as the pin moves along a first portion of the track, wherein the track is configured to permit disengagement of the first member from the second member as the pin moves along a second portion of the track.
17. The biopsy device of claim 14 , wherein the first member includes an outwardly extending flange, wherein the second member includes an inwardly extending catch configured to selectively engage the flange.
18. The biopsy device of claim 14 , wherein the longitudinal axis defined by the needle passes through the body.
19. The biopsy device of claim 14 , wherein the motor is positioned within the body.
20. The biopsy device of claim 14 , wherein the motor is positioned outside of the body.
21. The biopsy device of claim 10, wherein the needle rotation assembly further comprises a rotation knob, wherein the locking portion comprises a rotation hub.
22. The biopsy device of claim 21, wherein the rotation hub and rotation knob are configured to rotate and translate together unitarily relative to the longitudinal axis defined by the needle.
23. The biopsy device of claim 22, wherein the rotation hub and the rotation knob are resiliently biased toward the first longitudinal position.
24. The biopsy device of claim 21, further comprising a needle overmold, wherein the needle overmold is unitarily secured to the needle.
25. The biopsy device of claim 24, wherein the needle overmold is engaged with the rotation hub such that the rotation hub is operable to rotate the needle overmold to thereby rotate the needle.
26. The biopsy device of claim 24, wherein the rotation hub is configured to translate relative to the needle overmold.
27. The biopsy device of claim 24, wherein the needle overmold is slidably disposed coaxially within the rotation hub.
28. A biopsy device, comprising:
(a) a body; (b) a needle extending distally from the body, the needle including a tip and a transverse aperture proximal to the tip, wherein the needle defines a longitudinal axis, wherein the needle is rotatable relative to the body about the longitudinal axis; (c) a cutter movable relative to the needle to sever tissue protruding through the transverse aperture; and (d) a needle hub, wherein the needle hub is movable longitudinally relative to the body between a first longitudinal position and a second longitudinal position, wherein the needle hub is configured to prevent rotational movement of the needle when the needle hub is in the first longitudinal position relative to the body, wherein the needle hub is further configured to permit rotational movement of the needle when the needle hub is in the second longitudinal position relative to the body.
29. The biopsy device of claim 28, further comprising a resilient member and a rotation knob engaged with the needle hub, wherein the rotation knob is operable to drive rotation of the needle hub.
30. The biopsy device of claim 29, wherein the rotation knob is configured to translate unitarily with the needle hub, wherein the resilient member is configured to resiliently bias the rotation knob and the needle hub to the first longitudinal position.
31. The biopsy device of claim 28, wherein the needle hub comprises a proximal flange, wherein the proximal flange includes a plurality of locking features, wherein at least one locking feature of the plurality of locking features is configured to engage a portion of the body in response to the needle hub being located in the first longitudinal position.
32. The biopsy device of claim 28, wherein the at least one locking feature of the plurality of locking features is configured to disengage the portion of the body in response to the needle hub being located in the second longitudinal position.
33. The biopsy device of claim 28, wherein the first longitudinal position is proximal to the second longitudinal position.
34. The biopsy device of claim 28, wherein the needle hub is configured to translate relative to the needle between the first and second longitudinal positions.
35. The biopsy device of claim 28, wherein the needle is configured to rotate with the needle hub about the longitudinal axis when the needle hub is in the second longitudinal position.Cited by (0)
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