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Biopsy instrument    
United States Patent5048538   
Link to this pagehttp://www.wikipatents.com/5048538.html
Inventor(s)Terwilliger; Richard A. (Alamo, CA); Hebert; Daniell (San Francisco, CA); Hall; Jack (Portola Valley, CA)
AbstractAn instrument for removing tissue samples from a tissue mass which automatically penetrates, severs, and removes a tissue portion for examination. The instrument is motor powered, preferably by self-contained rechargeable batteries, and employs electrically actuated stops to control the action of penetration into and retraction from the tissue mass. The tissue penetrating means and severing means includes an inner stylet which penetrates the tissue mass and a hollow outer tube or cannula which surrounds the stylet and serves to sever a sample of tissue. In a preferred form the tissue penetrating end of the stylet is notched so that when the stylet penetrates the tissue mass, a portion of the tissue relaxes in the notched area. After tissue penetration by the stylet, the cannula, having a cutting surface at its distal end, penetrates the tissue and cuts off the tissue portion residing in the notched area of the stylet. The tissue penetrating and severing means are operably connected to a motor powered rotary cam assembly by means of cam followers and the rotary motion of the cam is converted to sequential, linear motion in the tissue penetrating means and severing means.
   














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Patent Text Patent PDF Print Page Summary File History
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Drawing from US Patent 5048538
Biopsy instrument - US Patent 5048538 Drawing
Biopsy instrument
Inventor     Terwilliger; Richard A. (Alamo, CA); Hebert; Daniell (San Francisco, CA); Hall; Jack (Portola Valley, CA)
Owner/Assignee     Vance Products Incorporated (Spencer, IN)
Patent assignment
All assignments
Publication Date     * September 17, 1991
Application Number     07/521,259
PAIR File History     Application Data   Transaction History
Image File Wrapper   Patent Term   Fees
Litigation
Filing Date     May 9, 1990
US Classification     600/567 606/171
Int'l Classification     A61B 010/00
Examiner     Shay; Randy Citrin
Assistant Examiner    
Attorney/Law Firm    
Address
Parent Case     This application is a continuation of Ser. No. 441,776 filed Nov. 27, 1989, now U.S. Pat. No. 4,940,061.
Priority Data    
USPTO Field of Search     128/749 128/751 128/754 128/755 606/167 606/170 606/171
Patent Tags     biopsy instrument
   
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Market Share
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50% - 74.99%
25% - 49.99%
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25% - 49.99%
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What is claimed is:

1. A motor powered instrument for removing a tissue sample from a tissue mass comprising a housing, a tissue penetrating means and severing means disposed at one end of said housing, operating means positioned in said housing and operably connected to said tissue penetrating means and severing means for causing relative linear movement of said tissue penetrating means and said severing means in a sequential manner whereby said tissue penetrating means proceeds by linear movement from a retracted to an extended position followed by linear movement of said tissue severing means from a retracted to an extended position to effect a severing of a portion of said tissue mass, said operating means including motor means and means to convert rotary motion to sequential, reciprocating linear motion to said tissue penetrating means and severing means.

2. The instrument of claim 1 wherein said operating means includes cam means comprising a rotatable cylinder having a groove therein and cam follower means operably connected with said groove and said tissue penetrating means and severing means and drive means operably connecting said motor means to said cam means.

3. The instrument of claim 2 wherein said tissue penetrating means is positioned within said tissue severing means and moveable therein, and wherein said rotatable cylinder is hollow with said groove positioned in the wall thereof and wherein said groove is a continuous groove positioned in a generally spiral manner in said cylinder wall and wherein a portion of said cam follower means engages said groove from within said cylinder.

4. The instrument of claim 3 wherein said continuous groove is formed of a first groove section positioned near one end of said cylinder and substantially parallel thereto and extending around at least a portion of the circumference thereof, a second groove section positioned near the opposite end of said cylinder and substantially parallel thereto and extending around at least a portion of the circumference thereof, and a third groove section connecting said first and second groove sections in a generally diagonal manner.

5. The instrument of claim 4 wherein linear movement of said tissue penetrating means from a retracted to an extended position followed by linear movement of said tissue severing means from a retracted to an extended position is further followed by retraction of said tissue severing means to expose a tissue sample.

6. The instrument of claim 5 wherein a portion of said cam follower means is positioned within said rotatable cylinder in a manner such that rotation of said cylinder in a direction causes said tissue penetrating means to proceed by linear movement from a retracted to an extended position followed by linear movement of said tissue severing means from a retracted to an extended position and wherein rotation of said cylinder in an opposite direction causes said tissue severing means to proceed by linear movement from an extended to a retracted position.

7. The instrument of claim 6 wherein further rotation of said cylinder in said opposite direction causes said tissue penetrating means to proceed by linear movement from an extended to a retracted position.

8. The instrument of claim 7 wherein said cam follower means include drive rods operably connecting each of said tissue penetrating means and severing means with an end of each of said rods having a cam follower which is positioned in said groove.

9. The instrument of claim 8 wherein mounting means are provided operably connecting an end of each said drive rods with an end of each of said tissue penetrating means and severing means.

10. The instrument of claim 9 wherein said mounting means are mounting blocks positioned within guide means to provide proper alignment of said tissue penetrating means and severing means with said cam follower means and said rotatable cylinder.

11. The instrument of claim 10 wherein said mounting blocks are positioned immediately adjacent each other and slideably mounted within said guide means.

12. The instrument of claim 9 wherein an additional actuation of said other means causes linear movement of said tissue penetrating means from an extended to a retracted position.

13. The instrument of claim 2 wherein said operating means further includes means for controlling the sequential linear movement of said tissue penetrating means and severing means, said control means functioning to control the rotation of said cylinder in a clockwise or counterclockwise direction and to stop the rotation of said cylinder at prescribed locations.

14. The instrument of claim 13 wherein said control means comprises a toggle assembly and a limit switch assembly, said toggle assembly functioning to control the rotation of said cylinder and thereby control the linear movement of said tissue penetrating means and severing means in a prescribed direction, said limit switch assembly functioning to stop the rotation of said cylinder and thereby stop the linear movement of said tissue penetrating means and severing means at prescribed locations, and means to actuate said control means.

15. The instrument of claim 14 wherein said toggle assembly comprises a plate having electrically conductive contact means on a side thereof, a toggle board with a side thereof provided with electrically conductive circuit paths in contact with the contact means of said plate, and means for adjusting the relative positions of said toggle board and said plate to create different electrical circuits, and wherein said limit switch assembly comprises a plate having electrically conductive contact means on a face thereof and a rotatable limit switch board with a side thereof provided with electrically conductive circuit paths in contact with the contact means of said plate whereby rotation of said limit switch board creates different electrically conductive circuits.

16. The instrument of claim 15 wherein said limit switch assembly stops the rotation of said cylinder and thereby the linear movement of said tissue penetrating means and severing means at locations where both said tissue penetrating means and severing means are in an extended position, where the tissue severing means are retracted and where both the tissue penetrating means and severing means are retracted.

17. The instrument of claim 16 wherein said means for adjusting the relative positions of said toggle board and said plate is provided on said drive means whereby said toggle board is caused to rotate slightly either clockwise or counterclockwise.

18. The instrument of claim 16, wherein said actuation means comprises two actuation means whereby actuation of one of said means causes sequential linear movement of said tissue penetrating means and severing means from a retracted to an extended position and wherein initial actuation of the other of said means causes linear movement of said tissue severing means from an extended to a retracted position.

19. A motor powered instrument for removing a tissue sample from a tissue mass comprising a housing, tissue penetrating means and severing means disposed at one end of said housing, said tissue penetrating means positioned within said tissue severing means and moveable therein, operating means positioned in said housing and operably connected to said tissue penetrating means and severing means for causing linear movement of said tissue penetrating means and said severing means in a sequential manner whereby said tissue penetrating means proceed by linear movement from a retracted to an extended position followed by linear movement of said tissue severing means from a retracted to an extended position to effect a severing of a portion of said tissue mass, followed by retraction of said tissue severing means to expose a tissue sample, and followed further by retraction of said tissue penetrating means, said operating means comprising a motor, cam means to convert rotary motion to sequential, reciprocating, linear motion in said tissue penetrating means and severing means, said cam means comprising a rotatable hollow cylinder having a continuous groove positioned in a wall thereof, said continuous groove being formed of a first groove section positioned near one end of said cylinder and substantially parallel thereto and extending around at least a portion of the circumference thereof, a second groove section positioned near the opposite end of said cylinder and substantially parallel thereto and extending around at least a portion of the circumference thereof, and a third groove section connecting said first and second sections in a generally diagonal manner, and cam follower means operably connected to said groove and said tissue penetrating means and severing means, and guide means to maintain alignment of said cam follower means and said tissue penetrating means and severing means, drive means operably connecting said motor to said cam means, said drive means including a gear assembly connected to said motor, a drive shaft operably connected to said gear assembly and said rotatable hollow cylinder, and means for controlling the sequential linear movement of said tissue penetrating means and severing means, said control means comprising a toggle assembly and a limit switch assembly, said toggle assembly functioning to control the rotation of said cylinder and thereby control the linear movement of said tissue penetrating means and severing means in a prescribed direction, said limit switch assembly functioning to stop the rotation of said cylinder and thereby stop the linear movement of said tissue penetrating means and severing means at prescribed locations, said toggle assembly comprising a plate having electrically conductive contact means on a side thereof, a toggle board with a side thereof provided with electrically conductive circuit paths in contact with the contact means of said plate, said toggle board being rotatable in a clockwise or counterclockwise direction so as to adjust the relative position of said toggle board with respect to said plate to create different electrical circuits, and wherein said limit switch assembly comprises a plate having electrically conductive contact means on a face thereof and a limit switch board rotatable with said drive shaft with a side thereof provided with electrically conductive circuit paths in contact with the contact means of said plate whereby rotation of said limit switch board creates different electrically conductive circuits, and two actuation means to actuate said control means whereby actuation of one of said means causes sequential linear movement of said tissue penetrating means and severing means from a retracted to an extended position and wherein initial actuation of the other of said means causes linear movement of said tissue severing means from an extended to a retracted position and subsequent actuation of said other means causes linear movement of said tissue penetrating means from an extended to a retracted position.

20. The instrument of claim 19 wherein said tissue penetrating means is a stylet having a notch in the tissue penetrating end thereof and said tissue severing means is a cannula, said motor is DC powered, said gear assembly includes a central gear, a planetary gear assembly and an annulus gear, and wherein said drive shaft is provided with mean sin contact with means on said toggle board whereby rotation of said drive shaft either clockwise or counterclockwise results in rotation of said toggle board in a clockwise or counterclockwise direction.

21. A motor powered instrument for removing a tissue sample from a tissue mass comprising:

a housing;

penetrating means and associated severing means for severing tissue being movable with respect to said housing from a retracted position to an extended position followed by retraction of said severing means back to said retracted position;

an electric motor for driving said severing means from said retracted position to said extended position upon rotation of said motor in a first direction, and for retracting said severing means back to said retracted position upon rotation of said motor in an opposite, second direction;

control means for controlling the movement of said severing means, said control means comprising a rotation control assembly and a limit switch assembly, said rotation control assembly functioning to control the rotation of said motor and thereby control the movement of said severing means in a prescribed direction, said limit switch assembly functioning to stop the rotation of said motor and thereby stop the movement of said severing means at prescribed locations, said rotation control assembly having electrically conductive contact means on a side thereof and a rotating board with a side thereof provided with electrically conductive circuit paths in contact with the contact means of said rotation control assembly, said rotating board being rotatable in a clockwise or counterclockwise direction so as to adjust the relative position of said rotating board with respect to said rotation control assembly to create different electrical circuits, and wherein said limit switch assembly includes electrically conductive contact means on a face thereof and a limit switch board rotatable with said motor with a side thereof provided with electrically conductive circuit paths in contact with the contact means of said limit switch assembly whereby rotation of said limit switch board creates different electrically conductive circuits; and

actuation means to actuate said control means to energize said electric motor to cause movement of said severing means between said retracted position and said extended position.