Source: http://www.google.com/patents/US5476473?dq=6981235
Timestamp: 2015-05-30 03:54:13
Document Index: 669091953

Matched Legal Cases: ['art 11', 'art 11', 'art 11', 'art 29', 'art 29', 'art 29']

Patent US5476473 - Instrument for surgically cutting tissue - Google PatentsSearch Images Maps Play YouTube News Gmail Drive More »Sign inAdvanced Patent SearchPatentsA tissue punch for surgically cutting tissue is provided with an inner shaft having an opening with a cutting edge at its distal end, which collaborates with a counter cutting edge at the distal end of an outer shaft, so that during operation of the tissue punch tissue, which extends through the opening...http://www.google.com/patents/US5476473?utm_source=gb-gplus-sharePatent US5476473 - Instrument for surgically cutting tissueAdvanced Patent SearchPublication numberUS5476473 APublication typeGrantApplication numberUS 08/177,835Publication dateDec 19, 1995Filing dateJan 5, 1994Priority dateJan 5, 1993Fee statusLapsedAlso published asDE4300064A1, EP0605763A1, EP0605763B1Publication number08177835, 177835, US 5476473 A, US 5476473A, US-A-5476473, US5476473 A, US5476473AInventorsHelmut HeckeleOriginal AssigneeRichard Wolf GmbhExport CitationBiBTeX, EndNote, RefManPatent Citations (20), Referenced by (16), Classifications (11), Legal Events (8) External Links: USPTO, USPTO Assignment, EspacenetInstrument for surgically cutting tissue
US 5476473 AAbstract
A tissue punch for surgically cutting tissue is provided with an inner shaft having an opening with a cutting edge at its distal end, which collaborates with a counter cutting edge at the distal end of an outer shaft, so that during operation of the tissue punch tissue, which extends through the opening into the inner shaft, is separated by the two cutting edges moving against each other. The inner shaft is rigid and is straight in its proximal region but changes distally into a curved shape. The outer shaft, which moves axially on the inner shaft, is flexible at least in the area of the curve of the inner shaft.
1. A tissue punch for surgically cutting tissue, comprising an outer shaft (4) overlying an inner shaft (3), said outer and inner shafts having respective proximal and distal ends, said inner shaft (3) having an opening (2) with a first cutting edge (5) at a distal end region thereof, said outer shaft (4) having a second cutting edge (6) which is located at a distal end region thereof and which faces and collaborates with said first cutting edge (5), actuation means for causing relative axial movement between said inner and outer shafts, whereby during operation of said actuation means tissue which extends through the said opening (2) into the inner shaft (3) is separated by said first and second cutting edges (5, 6) moving against each other, said inner shaft being rigid, being straight in a proximal region thereof, and being axially curved in a distal region thereof, and said outer shaft (4) being flexible at least in the curved region of the inner shaft said outer shaft (4) having opposing laterally opening recesses (19, 20) in opposing faces thereof, said opposing recesses lying along radiuses of the curved region of the inner shaft, said inner shaft (3) having an axial inner bore which forms a free lumen (7) connected with the opening (2), and further comprising a connection nozzle (9) having an axial inner bore and being connected to the proximal end of the inner shaft (3), whereby the free lumen (7) is in alignment with the axial inner bore of the connection nozzle (9).
2. A tissue punch according to claim 1, wherein the opening (2) faces laterally of the inner shaft (3) and a proximally directed portion of the opening comprises said first cutting edge (5), and the second cutting edge (6) forms the distal end of the outer shaft (4).
3. A tissue punch according to claim 1, wherein said outer shaft (4) has an elastically deformable cutting part (29), in which the second-cutting edge (6) is located and which is a continuation of the distal end of the outer shaft (4), and the distal end of the inner shaft (3) has guides (30) through which said cutting part (29) is axially movable along a portion of the curved region of the inner shaft.
4. A tissue punch according to claim 3, wherein the cutting edges in both shafts (3, 4) comprise rims of holes (28, 27), said holes being alignable with each other in overlying relationship.
5. A tissue punch according to claim 4 wherein the hole (27) in the outer shaft (4) is located in the cutting part (29).
6. A tissue punch according to claim 4 wherein the hole (28) in the inner shaft (3) is located at the distal end thereof.
7. A tissue punch according to the claim 1, wherein said actuation means comprises a handle part (8) located at proximal end regions of the outer shaft (4) and the inner shaft (3), said handle part (8) comprising scissor legs (13, 13a), one of which is respectively attached to each of the outer shaft (4) and the inner shaft (3) to cause relative axial movement between said shafts.
8. A tissue punch according to claim 7, further comprising a pressure spring (17) attached to the scissor legs (13, 13a), said pressure spring in its non-compressed state holding the inner shaft (3) in relationship to the outer shaft (4) in such a position that the opening (2) of the inner shaft (3) extends distally completely out of the outer shaft (4).
9. A tissue punch according to claim 1, further comprising a motor (21) coupled to one of the shafts (3, 4) for causing oscillating movements of said one shaft relative to the other shaft (4, 3).
10. A tissue punch according to claim 9, wherein the motor (21) is mounted in a housing (22) which forms a handle for the punch.
The present invention relates to a surgical cutting instrument, particularly a tissue punch, which has an outer shaft and an inner shaft having an opening with a cutting edge at its distal end. The cutting edge collaborates with a counter cutting edge at the distal end of the outer shaft, so that upon actuation of the tissue punch tissue, which reaches through the said opening into the inner shaft, is separated by the two cutting edges moving against each other.
Such a tissue punch is known, for example, from DE-GM 7 817 220. This instrument is equipped with a receiving part, in which the separated tissue particles are caught and which can be screwed off the instrument for emptying.
DE-PS 3 630 203 shows a surgical tissue punch, which is equipped with a suction apparatus for removal of the separated tissue pieces. This instrument essentially comprises an outer tube and an inner tube axially movable therein. The inner tube is provided at its distal end with a laterally opening hollow chamber, bordered by a cutting edge facing the outer tube. The cutting edge is applied to the tissue to be treated by having tissue pieces reach into the hollow chamber. By movement of the inner tube, by means of a corresponding actuation device, against the outer tube, which has a counter cutting edge corresponding to the cutting edge of the inner tube, the tissue pieces extending into the hollow chamber can then be cut. With the suction apparatus the tissue pieces can be sucked through the inner tube and out of the operation area. Suction occurs by applying a vacuum impulse to the inner tube when the two above-mentioned cutting edges touch or overlap each other. The separated tissue piece moves in this manner from the instrument to the collecting basin.
The above-cited tissue punches are constructed as straight, rigid instruments and are therefore poorly or not at all suited for many operations, for example in the thorax, since it is often necessary to carry out operations in areas which are difficult to reach.
This is possible with a flexible instrument shaft according to DE-AS 1 019 048 for surgical instruments, which can also be used in connection with tissue punches. This instrument shaft essentially comprises a spring wire helix with a slide guide slipping thereinto and is equipped at its distal end with a connection piece for the connection of different operating mechanisms. The wire helix surrounds a thin-walled and flexible tube, which stiffens the wire helix. In this way the entire instrument shaft is flexible and can be brought into the needed shape prior to usage.
However, using this instrument shaft as a carrier of a tissue punch mechanism it is necessary to extract the instrument shaft with the punching mechanism from the operation area for removal of the separated tissue pieces.
There are also tissue punches according to EP-OS 0 445 918 and U.S. Pat. No. 4,646,738 where the outer shaft is rigid and extends from a proximal straight region to a distal curved region, while the inner shaft is flexible so that it can conform to the outer shaft at its curved region. The motorized rotating inner shaft can be axially adjusted in the outer shaft and with a cutting edge at its end can be brought in contact with the tissue to be separated. The tissue extends through an opening of the outer shaft into its inner area, and the separated tissue is siphoned off through the inner shaft.
Apart from the fact that longitudinal movements of cutting parts are generally more effective than rotational movements due to a longer "open phase," such cutting instruments have some further disadvantages. The means necessary to make the inner shaft flexible, for example material cutouts, give rise to an irregular surface of the shaft canal with the consequence that the separated tissue cannot be sucked hindrance-free and with low friction through the inner shaft. In addition, problems develop with the cleaning and hygienic treatment of the instrumentation. Furthermore, an eventual breakage of the inner shaft cannot be visually noticed, and it also creates problems to remove a distal fragment of the inner shaft from the outer shaft. Finally, the operator cannot observe the instantaneous position of the cutting tool due to its covered location.
The invention involves a tissue punch which is free of such disadvantages. In particular, the cutting instrument should guarantee complete and problem-free suctioning of the separated tissue and give the operator the possibility of examining the position and function of the cutting edges, as well as the treatment result, for example through an endoscope.
For achieving these objects the foregoing tissue punch is constructed according to the invention in such a way that the inner shaft is rigid, runs straight in the proximal area and changes distally to a curved path, and that the outer shaft is deformable at least in this area of the curve.
The inner shaft is constructed as a tube which has a canal with a smooth, low friction surface, through which tissue can be easily siphoned off and which can be easily cleaned. Damage that might occur to the relatively heavily stressed outer shaft by frequent bending changes will be readily apparent to the naked eye. Since the cutting edges are freely visible from the outside, the operator has the further possibility of continuously optically viewing the treatment location, as well as the location and functioning of the cutting edges, such as through use of an endoscope in a separate tube.
In one embodiment, the laterally directed opening of the inner shaft can have a proximally directed cutting edge, while a ring-shaped counter cutting edge is formed from the distal end of the outer shaft.
The counter cutting edge, working together with the cutting edge of the inner shaft, can also be constructed on an elastically deformable cutting part, which is provided at the distal end of the outer shaft and can be moved on a curved course, which is determined by guides and the distal form of the inner shaft. Such an embodiment ensures the possibility that the related opening of the inner shaft can be arranged not only toward the side, but also directed distally. The cutting edges on both shafts can also be formed from edges of holes, which can be brought into alignment.
In order to achieve an easy deformability of the outer shaft, it is provided with recesses, which lie opposed to one another on the radiuses of the curve of the inner shaft.
The inner shaft has a free lumen, which connects with its environment through its opening. Proximally the inner shaft is connected with a connection nozzle such that the inner bore which forms the free lumen of the inner shaft aligns with the inner bore of the connection nozzle, so that a vacuum apparatus connectable to the connection nozzle can siphon off the separated tissue without problems and without complications.
The foregoing summary, as well as the following detailed description of preferred embodiments of the invention, will be better understood when read in conjunction with the appended drawings. For the purpose of illustrating the invention, there is shown in the drawings embodiments which are presently preferred. It should be understood, however, that the invention is not limited to the precise arrangements and instrumentalities shown. In the drawings, like numerals are used to indicate like elements throughout.
FIG. 1 is a side view of a tissue punch of the invention, partially displayed in cross-section;
FIG. 2 is an embodiment of the distal end of the outer shaft;
FIG. 3 is a further embodiment of the distal end of the outer shaft;
FIG. 4 is a cross-sectional side view of a motor-activated tissue punch according to the invention;
FIG. 5 is the distal end of a tissue punch in side view with a special form and arrangement of the cutting edges;
FIG. 6 is a top view of the distal end of the embodiment shown in FIG. 5; and
FIG. 7 is a cross section along line VII--VII in FIG. 5.
The tissue punch according to FIG. 1 comprises an inner shaft 3 with a lateral opening 2 at its distal end, on which an outer shaft 4 is axially movable. The opening 2 has a cutting edge 5, which during the punching or cutting process operates together with a cutting edge 6 on the distal end of the of the outer shaft 4. The cutting edge 6 is formed by the sharp end of the outer shaft 4. The inner shaft 3 has a free lumen in connection with the opening 2, and is provided proximally with a connection nozzle 9 onto which a suction hose 10 can be connected. The arrangement of the connection nozzle 9 is such that its inner bore aligns with the free lumen of inner shaft 3, so that a suction canal is thereby formed extending from the lateral opening 2 to the proximal end of the instrument. The suction hose leads to a suction apparatus (not shown).
The hand piece 8 comprises a shell 11, which is connected on the one side with the outer shaft 4 and on the other side through a reinforcing part 11a with a scissor leg 13a of the hand piece. Proximally to the shell 11 the inner shaft 3 and the connection nozzle 9 are fastened to a second shell 12, which is connected with a second scissor leg 13. The two scissor legs 13 and 13a terminate in scissor grips 14 and 15 and are pivotably connected to one another by a screw 16. A pressure spring 17, shaped as a two-sided volute spring, holds the scissor legs 13 and 13a apart, so that the opening 2 of the inner shaft 3 extends completely out of the distal end of outer shaft 4 of the tissue punch. In this position, the shell 11 with its reinforcing part 11a lies against the distal end of the shell 12, which has a greater diameter than the shell 11, and therefore serves as a limit stop for the reinforcing part 11a of the shell 11.
The tissue punch 1 has a curved region 18 in its distal section. The curve arises from the correspondingly curved inner shaft 3, on which the outer shaft 4 is supported. The outer shaft can conform to the curve of the inner shaft 3 by having opposing recesses 19 in the form of radial cuts, which merely leave a narrow material bridge in between. The flexibility of this bendable region 18 of the outer shaft 4 can be established by the number, arrangement and geometry of the recesses 19.
FIG. 2 displays a first embodiment of this bending area, wherein the recesses 19 are made by simple sawing or milling cuts with angular profile.
FIG. 3 displays a further embodiment in which the recesses 20 have at their ends a shape, which is indeed expensive to manufacture, but can endure very tight bends. The number of achievable bending changes with this embodiment is higher than with the embodiment in FIG. 2, since this embodiment is free of stress concentration.
For cutting of tissue or tissue pieces the tissue punch, is laid against the tissue to be removed, so that pieces thereof extend into the opening 2 of the inner shaft 3. By actuation of the scissor grips 13 and 13a against the pressure spring 17, the outer shaft 4 with its cutting edge 6 is pushed toward the opening 2 until the cutting edge 5 of the opening 2 and the cutting edge 6 of the outer shaft shear, so that the tissue piece to be removed is separated. The tissue piece thus falls into the free lumen 7 in the inner shaft 3 and can be sucked out of the inner shaft 3 through the vacuum hose 10 into the vacuum apparatus.
The inner shaft 3 and also the outer shaft 4 are preferably made of metal, so that the cutting edges 5 and 6, can be formed directly on these parts. However, it is also possible for the outer shaft 4 to be made of plastic, whereby the cutting edge 6 can then be formed by a separate insert of metal.
FIG. 4 shows in a simplified embodiment a motorized tissue punch with an electric motor 21 in a housing 22, which forms a hand grip to hold the tissue punch. A peg 24, which fits into a bore of a connecting rod 25, sits eccentric to the rotation axis on a disc 23, which is rotatably driven by the motor. A driving pin 26, which is attached to the inner shaft 3, extends into a further bore of this rod.
The inner shaft 3 is set into oscillating movements, relative to the stationary or fixed outer shaft 4 by the so formed eccentric drive of the running motor 21; whereby in corresponding manner to the hand actuation as previously described in connection with FIG. 1, the cutting edges of the tissue punch are moved for separation of the tissue.
The embodiment shown in FIGS. 5 through 7 has components, which are provided with the same reference numerals as corresponding components shown in the other Figures. This tissue punch accordingly also has a rigid inner shaft curved at its distal end, and an outer shaft 4, which is deformable at least in the area where it must follow the curve of the inner shaft during axial movements.
The previously designated counter cutting edge of the outer shaft 4 and the cutting edge of the inner shaft 3 are in this case rims of holes 27, 28, which for free access to the opening 2 (see FIG. 5) can be brought into alignment, namely through corresponding relative movement of both shafts.
The hole 27 of the outer shaft 4 is located in an elastically bendable cutting part 29, which is a distal continuation of the outer shaft and according to the embodiment in FIG. 5 is movable on a curved course, namely by axial movement of the outer shaft relative to the inner shaft, in order to allow the cutting rims of the holes 27, 28 to shear and to separate the tissue extending through the opening 2 into the inner shaft.
The course of movement of the cutting part 29 is directed by the neighboring contour of the inner shaft 3 and guides 30 at its distal end, whereby the guides grip laterally over the cutting part 29 and hold it in overlying position with the inner shaft.
Practically, the cutting part shown in FIG. 5 is obviously so shaped that during actuation of the tissue punch comparatively little elastic strain or, mechanical stress is placed on the cutting part. This solution also has the advantage that the opening 2 does not have to be laterally directed, as shown in FIG. 1, but can also be directed distally or at least with distal components.
Patent CitationsCited PatentFiling datePublication dateApplicantTitleUS3902498 *Mar 4, 1974Sep 2, 1975Minnesota Mining & MfgSurgical cutting instrumentUS4340046 *Dec 8, 1980Jul 20, 1982Cox Everard FStatic tracheostomy tubeUS4603694 *Mar 8, 1983Aug 5, 1986Richards Medical CompanyArthroscopic shaverUS4644951 *Sep 16, 1985Feb 24, 1987Concept, Inc.Vacuum sleeve for a surgical applianceUS4646738 *Dec 5, 1985Mar 3, 1987Concept, Inc.Rotary surgical toolUS4674502 *Sep 27, 1985Jun 23, 1987Coopervision, Inc.Intraocular surgical instrumentUS5106364 *Jun 29, 1990Apr 21, 1992Kabushiki Kaisha TopconSurgical cutterUS5285795 *Sep 12, 1991Feb 15, 1994Surgical Dynamics, Inc.Percutaneous discectomy system having a bendable discectomy probe and a steerable cannulaUS5346503 *Jan 6, 1993Sep 13, 1994Chow James CCutting instruments for endoscopic surgeryUSRE33258 *Nov 30, 1987Jul 10, 1990Surgical Dynamics Inc.Irrigating, cutting and aspirating system for percutaneous surgeryDE1019048B *Dec 20, 1955Nov 7, 1957Paul Hilzinger IiiBiegbarer Instrumentenschaft fuer chirurgische InstrumenteDE3630203A1 *Sep 4, 1986Mar 17, 1988Wisap GmbhGewebestanzeDE3716764A1 *May 19, 1987Dec 8, 1988Ewald HenslerMedical, especially surgical, instrument with a suction pipeDE3828478A1 *Aug 22, 1988May 18, 1989Olympus Optical CoSurgical resection instrumentDE7817220U1 *Richard Wolf Gmbh, 7134 KnittlingenTitle not availableDE8712835U1 *Sep 23, 1987Nov 19, 1987Weba Medizinmechanik Gmbh U. Co, 7208 Spaichingen, DeTitle not availableEP0150245A1 *Jan 30, 1984Aug 7, 1985Storz, Karl, Dr.med. h.c.Endoscope for contact-viewingEP0347170A1 *Jun 13, 1989Dec 20, 1989Indianapolis Center for Advanced Research Inc.Catheter systemEP0445918A1 *Feb 5, 1991Sep 11, 1991SMITH &amp; NEPHEW DYONICS INCSurgical cutting instrumentEP0530595A1 *Aug 20, 1992Mar 10, 1993Richard Wolf GmbHTrocar sleeve* Cited by examinerReferenced byCiting PatentFiling datePublication dateApplicantTitleUS5833643 *Nov 18, 1997Nov 10, 1998Scieran Technologies, Inc.Apparatus for performing ophthalmic proceduresUS5873886 *Feb 18, 1997Feb 23, 1999United States Surgical CorporationSurgical cutting apparatusUS5879365 *Oct 13, 1995Mar 9, 1999United States Surgical CorporationSurgical cutting apparatusUS6258111Aug 5, 1999Jul 10, 2001Scieran Technologies, Inc.Apparatus and method for performing ophthalmic proceduresUS6500189May 1, 2000Dec 31, 2002Karl Storz Gmbh & Co. KgMedical instrument for dissecting tissueUS7093603 *Sep 12, 2002Aug 22, 2006Oxyvac Medical Instrument Co., Ltd.Hand piece for removing the calluses of the skinUS7229456Jul 16, 2002Jun 12, 2007Karl Storz Gmbh & Co. KgMedical instrument for dissecting tissueUS7988704 *Jan 22, 2008Aug 2, 2011Biosense Webster, Inc.Safe septal needle and method for its useUS8092536Sep 3, 2008Jan 10, 2012Disc Dynamics, Inc.Retention structure for in situ formation of an intervertebral prosthesisUS8162891Nov 20, 2009Apr 24, 2012Revascular Therapeutics, Inc.Delivery and exchange catheter for storing guidewireUS8657821Nov 14, 2008Feb 25, 2014Revascular Therapeutics Inc.Method and system for reversibly controlled drilling of luminal occlusionsUS8801691Apr 23, 2012Aug 12, 2014Revascular Therapeutics, Inc.Delivery and exchange catheter for storing guidewireUS20120204865 *Jun 24, 2010Aug 16, 2012Filipi Charles JSystems and techniques for performing gastrointestinal proceduresCN100515349CJul 28, 2005Jul 22, 2009伊西康内外科公司Surgical instrument adopting an electric actuated joint mechanismEP0832605A1 *Sep 29, 1997Apr 1, 1998Ethicon Endo-SurgeryArticulation assembly for surgical instrumentsWO1997046164A1 *Jun 5, 1997Dec 11, 1997Scieran Technologies IncAn apparatus and method for performing ophthalmic procedures* Cited by examinerClassifications U.S. Classification606/171, 604/22International ClassificationA61B17/28, A61B17/32Cooperative ClassificationA61B2017/32004, A61B2017/2905, A61B2017/2904, A61B17/1604, A61B17/1611European ClassificationA61B17/16C2E2, A61B17/16CLegal EventsDateCodeEventDescriptionFeb 5, 2008FPExpired due to failure to pay maintenance feeEffective date: 20071219Dec 19, 2007LAPSLapse for failure to pay maintenance feesJun 27, 2007REMIMaintenance fee reminder mailedJul 10, 2003FPAYFee paymentYear of fee payment: 8Jul 10, 2003SULPSurcharge for late paymentYear of fee payment: 7Jul 9, 2003REMIMaintenance fee reminder mailedJun 1, 1999FPAYFee paymentYear of fee payment: 4Mar 14, 1994ASAssignmentOwner name: RICHARD WOLF GMBH, GERMANYFree format text: ASSIGNMENT OF ASSIGNORS INTEREST;ASSIGNOR:HECKELE, HELMUT;REEL/FRAME:006899/0510Effective date: 19940110RotateOriginal ImageGoogle Home - Sitemap - USPTO Bulk Downloads - Privacy Policy - Terms of Service - About Google Patents - Send FeedbackData provided by IFI CLAIMS Patent Services