• 专利附录
  • 专利说明
  • 权利要求
  • 类似技术
  • 同族专利
  • 引用文献
  • 法律状态
  • 优先权
    • 专利摘要:
    ABSTRACT A Surgical instrument (1) is disclosed having a proximal end (2) and a distalend (3). The surgical instrument (1) comprises a hook portion (6) arranged atsaid distal end (3) for retracting tissue and/or organs during surgery. The sur-gical instrument (1) further comprises an elongate tube (4) adapted for suc-tion and/or irrigation, said tube (4) extending essentially along a length of saidsurgical instrument (1). Elected for publication: Fig. 1
    公开号:SE1350843A1
    申请号:SE1350843
    申请日:2013-07-05
    公开日:2015-01-06
    发明作者:Jan Persson
    申请人:Jan Persson;
    IPC主号:
    专利说明:

    AWAPATENT AB Kontor/HandläggareMalmö/Nina Milanov Vår referens SE-21063826 Ansökningsnr 1 SURGICAL INSTRUMENT Technical Field of the lnvention The present invention relates to a Surgical instrument having a proxi-mal end and a distal end, comprising a hook portion arranged at said distalend for retracting tissue and/or organs during surgery.
    Background ArtDuring surgery, it is generally necessary to be able to retract tissue or organs to provide access to areas of interest. To this end, hooks and retrac-tors of various types are used. An example of a retractor is the so called Kellyretractor.
    When performing keyhole surgery, such as laparoscopy, the surgicalinstruments used are introduced in the body of the patient via trocars insertedthrough the skin. ln order to be able to retract tissue and organs, hooks andretractors of a small diameter are used. Examples of laparoscopic retractorsmay be found, e.g., in WO 2008/068405. The diameter of the hook or retrac-tor is adapted to the inner diameter of the trocar. lf suction or irrigation isneeded, the retractor has to be removed, out through the trocar, and a suc-tion/irrigation tube inserted instead. When suction or irrigation has been fin-ished, the suction tube is removed through the trocar, and the retractor isonce more inserted. This takes time, and the tissue or organ that was earlierretracted has to be located again.
    Summary of the lnvention lt is an object of the invention to provide a surgical instrument that sim-plifies surgery as compared to prior art instruments.
    According to the invention, these and other objects are achieved, in fullor at least in part, by a surgical instrument having a proximal end and a distalend, comprising a hook portion arranged at said distal end for retracting tis-sue and/or organs during surgery, and further comprising an elongate tube adapted for suction and/or irrigation, said tube extending essentially along alength of said surgical instrument. With such an instrument, it is possible toretract tissue or organs also during suction and/or irrigation, without having toadd another instrument. ln the following, where reference is made to suction,irrigation is equally applicable. Such an instrument is particularly useful inconnection with keyhole surgery, such as laparoscopy or robot assistedlaparoscopy, where the site of the surgery is accessed via trocars insertedthrough the skin of the patient. The number of trocars has to be limited, forthe assistant surgeon ideally to just one. With current retractors, the retractorhas to be removed from the surgical site, out trough the trocar, to allow ac-cess with a suction tube when suction is needed. When suction has been per-formed, the suction tube is removed, and the retractor once more insertedthrough the trocar. However, the tissue or organ that was earlier retracted willthen have returned to its normal position, and the operator of the retractor hasto locate the correct spot again to resume retraction of the tissue or organ.Moreover, a simultaneous retraction and suction is often crucial for a goodresult and safe surgery. With the surgical instrument of the invention, it ispossible to perform suction, while a tissue or organ is still being retracted,thereby saving time and reducing the risk of injury from moving the retractoraround in search of the correct location, as well as enabling simultaneoussuction and irrigation in case of an ongoing bleeding, which is a potentiallydangerous situation. The elongated tube shape of the surgical instrument ofthe invention makes it useful for keyhole surgery, such as laparoscopy. Thesurgical instrument of the invention is particularly useful for robotic surgery,where a single assistant trocar is usually advocated. ln a preferred embodiment, the surgical instrument is straight. Thissimplifies insertion through a trocar. ln one embodiment, the tube extends from the proximal end to the dis-tal end of the surgical instrument, enabling suction in front of the retractedtissue and, if necessary. lf the distal end of the surgical end is formed with anatraumatic blunt shape, simultaneous compression of a bleeding vessel withthe proximal end is also enabled.
    The Surgical instrument may further comprise a coupling portion ar-ranged at the proximal end, for connection to a suction and/or irrigation de-vice, said tube forming a suction and/or irrigation tube. ln this manner, thesurgical instrument may be connected to a suction and/or irrigation deviceand used instead of a suction and/or irrigation tube that would otherwise beused with that suction and/or irrigation device.
    The coupling portion may comprise a rotary coupling for allowing rota-tion of the surgical instrument in relation to the suction and/or irrigation de-vice. Such a rotary coupling makes it possible to move the surgical instrumentaround freely, regardless of the orientation of a handle of the suction and/orirrigation device. ln an embodiment, the hook portion is arranged adjacent the distal endof the surgical instrument and the tube extends distally beyond said hook por-tion. With such an arrangement of the hook portion and the distal tube end,suction and/or irrigation may easily be performed while a tissue or organ isretracted. The length of the tube that extends distally beyond the hook portionmay be varied, such that, e.g., the entire hook portion is proximal of the distalend of the surgical instrument, or the hook portion may start from a positionon the tube proximally of the distal end of the surgical instrument and have asummit at the distal end of the surgical instrument. ln another embodiment, the tube extends from the proximal end of thesurgical instrument to a location adjacent the distal end. Thereby suctionand/or irrigation may be enabled at the end of the surgical instrument, butalso at positions immediately proximal or distal of the end, with simultaneousretraction.
    The hook portion may extend from an outer end of the tube to the distalend of the surgical instrument. With such an arrangement of the hook portion,it is possible to make the hook portion larger, without making the total diame-ter of the surgical instrument unnecessarily large, such that the surgical in-strument may fit in trocars of different diameters.
    The tube may be adapted for insertion of a suction and/or irrigationtube. ln this manner, the suction and/or irrigation tube of a conventional suc-tion and/or irrigation device may be inserted in the tube and used for suction and/or irrigation, while the hook portion of the Surgical instrument retracts atissue or organ.
    The hook portion may comprise an opening allowing passage of a suc-tion and/or irrigation end of the suction and/or irrigation tube. Thereby, thesuction and/or irrigation tube may gain easy access to a location where suc-tion and/or irrigation is needed, while the hook portion securely retracts a tis-sue or organ.
    The surgical instrument may further comprise a retaining device ar-ranged to fix a longitudinal position of said suction and/or irrigation tube insidesaid tube. This makes it possible to keep the suction and/or irrigation tubeinserted in the tube of the surgical instrument also when suction and/or irriga-tion is not needed. Once suction and/or irrigation is completed, the suctionand/or irrigation tube may simply be retreated a short distance into the tube ofthe surgical instrument and held in position there until suction and/or irrigationis once more needed.
    The surgical instrument may further comprise a sealing device for seal-ing said tube around said suction and/or irrigation tube. Thereby, the distalend of the surgical instrument may be isolated from the surrounding atmos-phere. ln this manner, the distal end of the surgical instrument may be in-serted without loss of the pneumoperitoneum, i.e. the increased gas pressureinside the abdomen that is applied in order to create space for surgery.
    The sealing device may be arranged to seal the tube of the surgical in-strument when the suction and/or irrigation tube is removed from the tube ofthe surgical instrument. ln this manner, sealing of the tube of the surgical in-strument may be ensured when the suction and/or irrigation tube is inserted,as well as when the suction and/or irrigation tube is removed.
    The sealing device may further be arranged to fix a longitudinal posi-tion of said suction and/or irrigation tube inside said tube. With this arrange-ment, sealing and fixing may be achieved by one and the same device.
    The hook portion may have a saddle shape. Such a shape is useful forensuring secure retraction, for safe application of pressure on bleeds, andmay present a safe, rounded contour reducing the risk of injury when the sur-gical instrument is inserted or moved around.
    The surgical instrument may comprise a measuring scale formed onsaid tube. This is particularly useful during keyhole surgery, where the surgi-cal site is viewed via camera. The image of the surgical site is generallyenlarged, in order to provide more detail to the surgeon. Depending on thelocation of the camera, the enlargement varies. However, with a variedenlargement, it is often difficult to retain a proper sense ofdistance. A meas-uring scale on the surgical instrument, which is visible in the image of the sur-gical site, may assist the surgeon in assessing distances. The measuringscale may, for instance be coated onto the surgical instrument or engraved inthe surface of the surgical instrument.
    The surgical instrument may be made of a medical grade metal mate-rial. Suitable metals are available that can easily be formed to the desiredshape and that have good structural strength and wear resistance properties The surgical instrument may be made of or be coated with an electri-cally non-conductive, medical grade material. This makes it possible to safelycauterize bleeding vessels electrically, or use electrodissection, even close tothe surgical instrument.
    Other objectives, features and advantages of the present invention willappear from the following detailed disclosure, from the attached claims, aswell as from the drawings. lt is noted that the invention relates to all possiblecombinations of features.
    Generally, all terms used in the claims are to be interpreted accordingto their ordinary meaning in the technical field, unless explicitly defined other-wise herein. All references to “a/an/the [element, device, component, means,step, etc.]” are to be interpreted openly as referring to at least one instance ofsaid element, device, component, means, step, etc., unless explicitly statedotherwise. The steps of any method disclosed herein do not have to be per-formed in the exact order disclosed, unless explicitly stated.
    As used herein, the term “comprising” and variations of that term arenot intended to exclude other additives, components, integers or steps.
    Brief Description of the Drawinqs The invention will be described in more detail with reference to the ap-pended schematic drawings, which show examples of currently preferred em-bodiments of the invention.
    Fig. 1 is a side view of a surgical instrument according to an embodi-ment.
    Fig. 2 is a side view of a surgical instrument according to another em-bodiment.
    Fig. 3a is a detail view of a distal end of the surgical instrument of Fig.
    Fig. 3b is a detail view of a proximal end of the surgical instrument ofFig. 1.Fig. 4a is a detail view of a distal end of the surgical instrument of Fig.
    Fig. 4b is a detail view of a proximal end of the surgical instrument ofFig. 2.
    Detailed Description of Preferred Embodiments of the lnvention ln Fig. 1, a surgical instrument 1 according to a first embodiment isshown. The surgical instrument 1 has a proximal end 2 and a distal end 3.The proximal end 2 is intended to be held by an operator during surgery,whereas the distal end 3 is intended to be inserted in a trocar or other surgicalincision. The surgical instrument 1 is generally made up of a tube 4, whichextends from the proximal end 2 of the surgical instrument 1 to the distal end3. An outer end 7 of the tube 4 thus coincides with the distal end 3 of the sur-gical instrument 1. ln the embodiment shown, the outer end 7 of the tube 4 isperpendicular to a longitudinal direction of the tube 4.
    As may be seen more clearly in Fig. 3a, a hook portion 6 is arrangedadjacent the distal end 3 of the surgical instrument 1. The hook portion 6 hasa saddle shape. The tube 4 extends distally beyond the hook portion 6. Anumber of transversal apertures 9 are formed in the tube 4 at the outer end 7.ln the embodiment shown, there are two lateral apertures 9 on each side ofthe tube 4, and two apertures 9 facing upwards and downwards, respectively.The diameter of the apertures 9 may be approximately 1-2 mm, and there may be apertures in an area extending approximately 0.5-1 cm from the outerend 7 of the tube 4.
    With reference to Fig. 3b, the surgical instrument 1 is, at the proximalend 2, provided with a coupling portion 10 for connection to a suction device.The suction device may be any suction device suitable for suction during sur-gery. The coupling portion 10 may be chosen from a set of exchangeabiecoupling portions, each adapted for a specific type of suction device. Whenthe surgical instrument 1 is connected to the suction device, the tube 4 formsa suction tube.
    As already mentioned above, the surgical instrument 1 may in additionto, or as an alternative to, suction be used for irrigation. For the sake of clarityof the following description, reference will only be made to suction, but ineach instance, irrigation is equally possible.
    The coupling portion 10 comprises a rotary coupling 11, such as aswivel, which is threadedly engageable with an outer thread 12 on the proxi-mal end 2 of the surgical instrument 1 in order to allow free rotation of thesurgical instrument 1 in relation to a handle of the suction device. The cou-pling portion 10 further comprises a gasket, such as an o-ring for sealing theconnection between the surgical instrument 1 and the suction device.
    During laparoscopic surgery, the distal end 3 of the surgical instrument1 is inserted in the body of a patient through a trocar to a surgical site. Thehook portion 6 is used for retracting tissue or an organ from the surgical sitewhere the surgeon performs the actual surgery, using, e.g., scissors, electro-surgical instruments, or grasping instruments. When suction is needed, thehook portion 6 may still be used for retracting the tissue or organ, and thesuction device connected to the proximal end 2 of the surgical instrument isactivated, such that suction is performed through the outer end 7 of the tube4. The transversal apertures 9 reduce the risk of getting the instrument stuck,since they allow air to be drawn in even if the outer end 7 of the tube 4 isblocked. When suction has been performed, the suction device is simply de-activated, and the instrument continues to act only as a hook or retractor.
    Fig. 2 shows a surgical instrument 101 according to a second embodi-ment. ln the same way as the surgical instrument 1 of the first embodiment, the surgical instrument 101 of the second embodiment has a proximal end102 and a distal end 103. A major part of the surgical instrument 101 is madeup of a tube 104, which extends from the proximal end 102 of the surgicalinstrument 101 to a location 105 adjacent the distal end 103. As may be seenmore clearly in Fig. 4a, a hook portion 106 extends from an outer end 107 ofthe tube 104 to the distal end 103 of the surgical instrument 101. The hookportion 106 has a narrow stem 108 attached to the outer end 107 of the tube104. ln the embodiment shown, the outer end 107 of the tube 104 is obliquein relation to a longitudinal direction of the tube 104. ln the hook portion 106,an opening 114 is formed. The opening is dimensioned to allow passage of asuction end of a suction tube inserted in the tube 104 of the surgical instru-ment 101. The opening 114 may be slightly conical to guide the suction tubeinto the opening 114. ln the same way as the surgical instrument 1 of the first embodiment,the surgical instrument 101 of the second embodiment may in addition to, oras an alternative to, suction be used for irrigation. Thus, the suction tube in-serted in the tube 104 may be used for irrigation as well as for suction. ln thesame way as above, reference will in the following only be made to suction,although irrigation is equally possible.
    At the proximal end 102 of the surgical instrument, a coupling portion110 is provided. The coupling portion 110 comprises an outer thread 112 ontowhich a sealing and fixing device 115 is threadable, as may be seen moreclearly in Fig. 4b. The tube 104 is adapted for insertion of a suction tube of asuction device, and the sealing and fixing device 115 is adapted to sealaround the suction tube, and to fix a longitudinal position of the suction tubeinside the tube 104 of the surgical instrument 101. The sealing and fixing de-vice 115 may include a slotted rubber body, through which the suction tube isinsertable through the slot. The elastic properties of the rubber body may en-sure sealing around the suction tube, and if the suction tube is removed fromthe tube 104 of the surgical instrument 101, the elasticity of the rubber allowsthe slot to close completely, thereby sealing off the surgical instrument to pre-vent loss of pneumoperitoneum. The sealing rubber body may also helpavoiding involuntary sliding of the suction tube once it is placed in the desired position or retracted to an inactive position inside the tube 104. Thus, re-peated insertions and retractions may be avoided. An orientation indicator116 in the form of a chamfered portion of the tube 104 is provided near theproximal end 102 of the surgical instrument 101 in order to easily provide theoperator with information on the orientation of the surgical instrument 101.The operator may feel the indicator with a tip of a finger to ascertain the orien-tation of the hook portion 106.
    During Iaparoscopic surgery, the distal end 103 of the surgical instru-ment 101 is inserted in the body of a patient through a trocar. The hook por-tion 106 is used for retracting tissue or an organ from the site where the sur-geon performs the actual surgery, using, e.g., scissors, electrosurgical in-struments or grasping instruments. When suction is needed, the hook portion106 may still be used for retracting the tissue or organ, and the suction tubeof the suction device is inserted in the tube 104, with a suction end of the suc-tion tube extending slightly distally through the opening 114 in the hook por-tion 106. The operator may choose the distance the suction tube extends dis-tally of the distal end 103 of the surgical instrument 101. The sealing and fix-ing device 115 may provide a slight resistance to longitudinal movement ofthe suction tube, such that involuntary movement is prevented. Preferably,the suction tube is inserted in the tube 104 at the start of the surgery, and notwithdrawn until the surgical instrument is withdrawn through the trocar. Whensuction is not needed, the suction tube may be retreated a short distance intothe tube 104, and kept in position there by the sealing and fixing device 115,until suction is once more needed, and the suction tube is again advanced,such that the suction end of the suction tube extends out through the opening114 in the hook portion 106. Suction may be performed at the distal end 103of the surgical instrument 101, or slightly distally or proximally of the distalend 103.
    As used herein the term saddle shape implies a three-dimensionalshape resembling a riding saddle. The saddle shape may be said to resemblea hyperbolic paraboloid.
    The skilled person realises that a number of modifications of the em-bodiments described herein are possible without departing from the scope ofthe invention, which is defined in the appended claims.
    For instance, although the surgical instrument of the invention hasbeen described in connection with Iaparoscopy, it is equally useful for othertypes of keyhole surgery, such as thoracoscopic surgery. The surgical instru-ment of the invention is particularly useful as an assistant's instrument in con-junction with robotic surgery. ln the context of robotic surgery, the surgicalinstrument of the invention may advantageously be used by a human assis-tant, but it may also be operated by a robot. The instrument may also be usedfor open surgery.
    For keyhole surgery, the length of the surgical instrument may, for in-stance be approximately 43 cm, and the overall outer diameter may beadapted to trocars of, e.g., 10 mm, 12 mm or 15 mm. The surgical instrumentmay also be shorter or longer, depending on the intended use. For open sur-gery, the length of the surgical instrument may be shorter, and the overallouter diameter may be adapted to the particular site of surgery, without beingrestricted to any trocar diameter. For either kind of surgery, the length of thetube 104 of the second embodiment may be adapted to the length of the suc-tion device of the particular suction device it is used with. ln the first embodiment, the length of the tube 4 that extends distallybeyond the hook portion 6 may be longer or shorter than shown in Fig. 3a.For instance, the hook portion may start at a position on the tube which ismore proximal than the one shown in Fig. 3a, with a longer length of the tubeextending beyond the hook portion. Alternatively, the hook portion may startfrom a position closer to the distal end of the surgical instrument with a sum-mit of the hook portion being at the distal end of the surgical instrument, suchthat the tube extends only distally beyond the start of the hook portion, andnot necessarily beyond the entire hook portion. ln the second embodiment, the length of the stem 108 may be chosendepending on the particular use for which the surgical instrument 101 is in-tended. 11 The Surgical instrument of the invention may be made from medicalgrade steel, or any other medical grade metal. The metal may advanta-geously be coated by an electrically non-conductive material, in order to makethe instrument safer to use in conjunction with electric cauterisation. lt is alsopossible to make the whole instrument from a medical grade, electrically non-conductive material, such as a suitable plastic material.
    The material chosen should be made from a material that can with-stand repeated sterilisations, in order to allow multiple use of the instrument.The material should be scratch-resistant and wear resistant. Alternatively, thesurgical instrument may be made for single use. ln such case, the materialneed only withstand a single sterilisation.
    The instrument may be made with smooth surfaces in order to simplifycleaning. Preferably, the inside of the tube is smooth, such that it is easy torinse through the tube.
    The surgical instrument of the invention may be made with a non-reflective surface, such that glare is avoided. This is particularly useful in key-hole surgery, such as laparoscopy.
    The tube may be provided with a measuring scale in an area close tothe distal end of the instrument. The measuring scale may be, for instance, 10cm long, divided into 0.5 and 1 cm intervals. Such a measuring scale is par-ticularly useful during keyhole surgery, where the varying enlargement of theimaging of the surgical site may distort the surgeon's sense of distance. Themeasuring scale may be printed onto or engraved in the surface of the surgi-cal instrument.
    Although an orientation indicator 116 has only been described in con-nection with the second embodiment, it is equally useful with the first em-bodiment. lnstead of a chamfered portion, the orientation indicator may beconstituted by any other tactile means, such as a ridge.
    Even though the outer end 107 of the tube 104 in the second embodi-ment is shown as oblique, it may also be perpendicular to the longitudinal di-rection of the tube 104. lnstead of a saddle shape as described above, the hook portion of ei-ther embodiment may instead have a T shape or a U shape. 12 ln the first embodiment, the transversal apertures 9 may be varied innumber and configuration. For instance, transversal apertures may be formedin the entire area from the distal end 3 to a position on the tube 4 where thehook portion 6 starts, or from the distal end 3 to a position on the tube 4where the hook portion 6 ends.
    权利要求:
    Claims (15)
    [1] 1. A surgical instrument having a proximal end (2; 102) and a distal end (3;103, comprising a hook portion (6; 106) arranged at said distal end (3; 103)for retracting tissue and/ororgans during surgery, c h a r a c t e r - i s e d b y further comprising an elongate tube (4; 104) adapted for suc-tion and/or irrigation, said tube (4; 104) extending essentially along a length of said surgical instrument.
    [2] 2. The surgical instrument as claimed in claim 1, wherein said tube (4; 104) isstraight.
    [3] 3. The surgical instrument as claimed in claim 1 or 2, wherein said tube (4)extends from said proximal end (2) to said distal end (3).
    [4] 4. The surgical instrument as claimed in claim 3, further comprising a couplingportion (10) arranged at said proximal end (2), for connection to a suction de-vice and/or irrigation device, said tube (4) forming a suction and/or irrigationtube.
    [5] 5. The surgical instrument as claimed in claim 4, wherein said coupling por-tion (10) comprises a rotary coupling (11) for allowing rotation of said surgicalinstrument (1) in relation to said suction device and/or irrigation device.
    [6] 6. The surgical instrument as claimed in any one of claims 3-5, wherein saidhook portion (6) is arranged adjacent said distal end (3), and wherein saidtube (4) extends distally beyond said hook portion (6).
    [7] 7. The surgical instrument as claimed in claim 1, wherein said tube (104) ex-tends from said proximal end (102) to a location (105) adjacent said distal end(103). 14
    [8] 8. The Surgical instrument as claimed in claim 7, wherein said hook portion(106) extends from an outer end (107) of said tube (104) to said distal end(103) of said surgical instrument (101).
    [9] 9. The surgical instrument as claimed in claim 7 or 8, wherein said tube (104)is adapted for insertion of a suction tube and/or irrigation tube.
    [10] 10. The surgical instrument as claimed in claim 9, wherein said hook portion(106) comprises an opening (114) allowing passage of a suction and/or irriga-tion end of said suction tube and/or irrigation tube.
    [11] 11. The surgical instrument as claimed in claim 9 or 10, further comprising aretaining device (115) arranged to fix a longitudinal position of said suctionand/or irrigation tube inside said tube (104).
    [12] 12. The surgical instrument as claimed in any one of claims 9-11, furthercomprising a sealing device (115) for sealing said tube (104) around said suc-tion and/or irrigation tube.
    [13] 13. The surgical instrument as claimed in claim 12, said sealing device (115)being arranged to seal said tube (104) when said suction and/or irrigationtube is removed from said tube (104).
    [14] 14. The surgical instrument as claimed in claim 12 or 13, wherein said sealingdevice (115) is further arranged to fix a longitudinal position of said suctionand/or irrigation tube inside said tube (104).
    [15] 15. The surgical instrument as claimed in any one of the preceding claims,wherein said hook portion (6; 106) has a saddle shape.
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    同族专利:
    公开号 | 公开日
    SE537885C2|2015-11-10|
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    EP3016597A1|2016-05-11|
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    法律状态:
    2020-03-03| NUG| Patent has lapsed|
    优先权:
    申请号 | 申请日 | 专利标题
    SE1350843A|SE537885C2|2013-07-05|2013-07-05|Surgical instrument|SE1350843A| SE537885C2|2013-07-05|2013-07-05|Surgical instrument|
    EP14728580.3A| EP3016597A1|2013-07-05|2014-06-09|Surgical instrument|
    PCT/EP2014/061932| WO2015000660A1|2013-07-05|2014-06-09|Surgical instrument|
    US14/897,382| US20160128721A1|2013-07-05|2014-07-09|Surgical instrument|
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