Local control robotic surgical devices and related methods
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
B25J-017/02
A61B-019/00
출원번호
US-0834792
(2013-03-15)
등록번호
US-9010214
(2015-04-21)
발명자
/ 주소
Markvicka, Eric
Frederick, Tom
Mondry, Jack
Bartels, Joe
Farritor, Shane
출원인 / 주소
Board of Regents of the University of Nebraska
대리인 / 주소
Davis, Brown, Koehn, Shors & Roberts, P.C.
인용정보
피인용 횟수 :
9인용 특허 :
297
초록▼
The various robotic medical devices include robotic devices that are disposed within a body cavity and positioned using a support component disposed through an orifice or opening in the body cavity. Additional embodiments relate to devices having arms coupled to a device body wherein the device has
The various robotic medical devices include robotic devices that are disposed within a body cavity and positioned using a support component disposed through an orifice or opening in the body cavity. Additional embodiments relate to devices having arms coupled to a device body wherein the device has a minimal profile such that the device can be easily inserted through smaller incisions in comparison to other devices without such a small profile. Further embodiments relate to methods of operating the above devices.
대표청구항▼
1. A robotic device, comprising: (a) a device body configured to be positioned at least partially within a body cavity of a patient through an incision, the device body comprising: (i) a motor housing comprising a first motor and a second motor;(ii) a gear housing comprising: (A) a first gear positi
1. A robotic device, comprising: (a) a device body configured to be positioned at least partially within a body cavity of a patient through an incision, the device body comprising: (i) a motor housing comprising a first motor and a second motor;(ii) a gear housing comprising: (A) a first gear positioned at a distal end of the gear housing, the first gear operably coupled to the first motor; and(B) a second gear positioned at a distal end of the gear housing, the second gear operably coupled to the second motor;(b) a first arm operably coupled to the first gear, wherein the first arm is positioned substantially within a longitudinal cross-section of the device body when the first arm is extended in a straight configuration;(c) a second arm operably coupled to the second gear, wherein the second arm is positioned substantially within the longitudinal cross-section of the device body when the second arm is extended in a straight configuration; and(d) an elastic band operably coupled to the device body and the first and second arms, wherein the elastic band is configured to urge the first and second arms toward the straight configuration. 2. The robotic device of claim 1, wherein the gear housing comprises first, second, and third housing protrusions disposed at the distal end of the gear housing, wherein the first gear is disposed between the first and second housing protrusions and the second gear is disposed between the second and third housing protrusions. 3. The robotic device of claim 1, wherein the first arm is operably coupled to the first gear at a first shoulder joint, wherein the first shoulder joint is positioned substantially within the longitudinal cross-section of the device body. 4. The robotic device of claim 3, wherein the second arm is operably coupled to the second gear at a second shoulder joint, wherein the second shoulder joint is positioned substantially within the longitudinal cross-section of the device body. 5. The robotic device of claim 1, wherein the first gear is configured to rotate around a first axis parallel to a length of the device body. 6. The robotic device of claim 5, wherein the second gear is configured to rotate around a second axis parallel to the length of the device body. 7. The robotic device of claim 1, wherein the first arm comprises a first upper arm and a first forearm, wherein the first upper arm and the first forearm are collinear when the first arm is extended in the straight configuration. 8. The robotic device of claim 7, wherein the second arm comprises a second upper arm and a second forearm, wherein the second upper arm and the second forearm are collinear when the second arm is extended in the straight configuration. 9. The robotic device of claim 1, wherein the device body is operably coupled to a support rod. 10. The robotic device of claim 1, wherein the first and second arms each comprise at least one arm motor operably coupled to at least one local control board. 11. The robotic device of claim 1, wherein the first gear comprises a tooth-free portion and the second gear comprises a tooth-free portion. 12. A robotic device, comprising: (a) a device body configured to be positioned at least partially within a body cavity of a patient through an incision, the device body comprising: (i) a first gear positioned at a distal end of the device body, the first gear configured to rotate around a first axis parallel to a length of the device body;(ii) a second gear positioned at the distal end of the device body, the second gear configured to rotate around a second axis parallel to the length of the device body;(b) a first arm operably coupled to the first gear at a first shoulder joint, wherein the first shoulder joint is positioned substantially within a longitudinal cross-section of the device body;(c) a second arm operably coupled to the second gear at a second shoulder joint, wherein the second shoulder joint is positioned substantially within the longitudinal cross-section of the device body; and(d) an elastic band operably coupled to the device body and the first and second arms, wherein the elastic band is configured to urge the first and second arms toward the straight configuration. 13. The robotic device of claim 12, wherein the first arm is positioned substantially within the longitudinal cross-section of the device body when the first arm is extended in a straight configuration. 14. The robotic device of claim 12, wherein the second arm is positioned substantially within the longitudinal cross-section of the device body when the second arm is extended in a straight configuration. 15. The robotic device of claim 12, wherein the first arm comprises a first upper arm and a first forearm, wherein the first upper arm and the first forearm are collinear when the first arm is extended in a straight configuration. 16. The robotic device of claim 15, wherein the second arm comprises a second upper arm and a second forearm, wherein the second upper arm and the second forearm are collinear when the second arm is extended in a straight configuration. 17. The robotic device of claim 12, wherein the first gear comprises a tooth-free portion and the second gear comprises a tooth-free portion. 18. A robotic device, comprising: (a) a device body configured to be positioned at least partially within a body cavity of a patient through an incision, the device body comprising: (i) a motor housing comprising a first motor and a second motor;(ii) a gear housing comprising: (A) a first gear positioned at a distal end of the gear housing, the first gear operably coupled to the first motor, wherein the first gear is positioned to rotate around a first axis parallel to a length of the device body, wherein the first gear comprises a first tooth-free portion; and(B) a second gear positioned at a distal end of the gear housing, the second gear operably coupled to the second motor, wherein the second gear is positioned to rotate around a second axis parallel to the length of the device body, wherein the second gear comprises a second tooth-free portion;(b) a first arm operably coupled to the first gear, the first arm comprising a first upper arm and a first forearm, wherein the first arm is positioned substantially within a longitudinal cross-section of the device body when the first arm is extended in a straight configuration such that the first upper arm and the first forearm are collinear;(c) a second arm operably coupled to the second gear, the second arm comprising a second upper arm and a second forearm, wherein the second arm is positioned substantially within the longitudinal cross-section of the device body when the second arm is extended in a straight configuration such that the second upper arm and the second forearm are collinear; and(d) an elastic band operably coupled to the device body and the first and second arms, wherein the elastic band is configured to urge the first and second arms toward the straight configuration. 19. The robotic device of claim 18, wherein the first arm is operably coupled to the first gear at a first shoulder joint, wherein the first shoulder joint is positioned substantially within the longitudinal cross-section of the device body. 20. The robotic device of claim 19, wherein the second arm is operably coupled to the second gear at a second shoulder joint, wherein the second shoulder joint is positioned substantially within the longitudinal cross-section of the device body.
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Wang, Yulun; Uecker, Darrin R.; Laby, Keith Phillip; Wilson, Jeff; Jordan, Steve; Wright, James, Apparatus for performing minimally invasive cardiac procedures with a robotic arm that has a passive joint and system which can decouple the robotic arm from the input device.
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Madhani Akhil J. ; Salisbury J. Kenneth, Articulated surgical instrument for performing minimally invasive surgery with enhanced dexterity and sensitivity.
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Gunter D. Niemeyer ; Gary S. Guthart ; William C. Nowlin ; Nitish Swarup ; Gregory K. Toth ; Robert G. Younge, Camera referenced control in a minimally invasive surgical apparatus.
Niemeyer, Gunter D.; Guthart, Gary S.; Nowlin, William C.; Swarup, Nitish; Toth, Gregory K.; Younge, Robert G., Camera referenced control in a minimally invasive surgical apparatus.
Niemeyer,Gunter D.; Guthart,Gary S.; Nowlin,William C.; Swarup,Nitish; Toth,Gregory K; Younge,Robert G., Camera referenced control in a minimally invasive surgical apparatus.
Rosenberg Louis B. (Mountain View CA), Computer interface or control input device for laparoscopic surgical instrument and other elongated mechanical objects.
Moll, Frederic H.; Rosa, David J.; Ramans, Andris D.; Blumenkranz, Steven J.; Guthart, Gary S.; Niemeyer, Gunter D.; Nowlin, William C.; Salisbury, Jr., J. Kenneth; Tierney, Michael J., Cooperative minimally invasive telesurgical system.
Wiesman Richard M. (Wayland MA) Fischer Edward E. (Acton MA) Fontana Richard R. (Lexington MA) Gamble Bruce B. (Wellesley MA) Hsiung Robert T. (Brookline MA) Kozminski Steven J. (Rutland MA), Cornering pipe traveler.
Pomeranz Mark L. ; Chapman Troy J. ; Sherman Darren R. ; Tedder Scott ; Anderson Steven C., Deflectable loop design for a linear lesion ablation apparatus.
Salisbury, Jr., J. Kenneth; Niemeyer, Gunter D.; Younge, Robert G.; Guthart, Gary S.; Mintz, David S.; Cooper, Thomas G., Devices and methods for presenting and regulating auxiliary information on an image display of a telesurgical system to assist an operator in performing a surgical procedure.
Salisbury, Jr.,J. Kenneth; Niemeyer,Gunter D.; Younge,Robert G.; Guthart,Gary S.; Mintz,David S.; Cooper,Thomas G., Devices and methods for presenting and regulating auxiliary information on an image display of a telesurgical system to assist an operator in performing a surgical procedure.
Davison, Terry S.; Ormsby, Theodore C.; Woloszko, Jean; Dahla, Robert H., Electrosurgical ablation and aspiration apparatus having flow directing feature and methods related thereto.
Smith Kevin W. (Coral Gables FL) Kortenbach Juergen A. (Miami Springs FL) Slater Charles R. (Fort Lauderdale FL) Mazzeo Anthony I. (Fort Lauderdale FL) Slack ; Jr. Theodore C. (Miami FL) Bales Thomas, Endoscopic robotic surgical tools and methods.
Smith Kevin W. ; Kortenbach Juergen Andrew ; Slater Charles R. ; Mazzeo Anthony I. ; Slack ; Jr. Theodore C. ; Bales Thomas O., Endoscopic robotic surgical tools and methods.
Madhani Akhil J. ; Salisbury J. Kenneth, Force-reflecting surgical instrument and positioning mechanism for performing minimally invasive surgery with enhanced.
Nowlin, William C.; Guthart, Gary S.; Younge, Robert G.; Cooper, Thomas G.; Gerbi, Craig; Blumenkranz, Steven J.; Hoornaert, Dean F., Grip strength with tactile feedback for robotic surgery.
Nowlin, William C.; Guthart, Gary S.; Younge, Robert G.; Cooper, Thomas G.; Gerbi, Craig; Blumenkranz, Steven J.; Hoornaert, Dean F., Grip strength with tactile feedback for robotic surgery.
Kraus,Martin; G채rtner,Hartmut; Poxleitner,Martin; Wirth,Michael; Abele,Alfons; Brenner,Roland; Sporer,Norbert; H채hnle,Matthias, Holding arrangement having an apparatus for balancing a load torque.
Cooper, Thomas G.; Julian, Christopher A.; Ikeda, Michael; Wallace, Daniel T.; Rosa, David J.; Ramans, Andris D.; Moll, Frederic H.; Younge, Robert G., In vivo accessories for minimally invasive robotic surgery and methods.
Smith Jeffrey A. (Sunnyvale CA) Chin Albert K. (Palo Alto CA) Moll Frederic H. (San Francisco CA), Inflatable devices for separating layers of tissue, and methods of using.
Michael J. Tierney ; Thomas Cooper ; Chris Julian ; Stephen J. Blumenkranz ; Gary S. Guthart ; Robert G. Younge, Mechanical actuator interface system for robotic surgical tools.
Brosens Ivo,BEX ; Gordts Stefan,BEX ; Campo Rudi,BEX ; Muller Richard P. ; D'Amelio Frank ; Ainger ; III Raymond ; Konstorum Gregory S. ; Redler Michael H., Medical instrument system for piercing through tissue.
Wang,Yulun; Uecker,Darrin; Laby,Keith P.; Wilson,Jeff D.; Jordan,Charles S.; Wright,James W.; Ghodoussi,Modjtaba, Medical robotic arm that is attached to an operating table.
Wang, Gang; Hahn, Joseph F.; Mangaser, Amante; Roe, David B.; Steiner, Charles P.; Uecker, Darrin R., Method and apparatus for accessing medical data over a network.
Wang Yulun ; Uecker Darrin R. ; Jordan Charles S. ; Wright James W. ; Laby Keith Phillip ; Wilson Jeff D., Method and apparatus for performing minimally invasive cardiac procedures.
Wang Yulun ; Uecker Darrin R. ; Jordan Charles S. ; Wright James W. ; Laby Keith Phillip ; Wilson Jeff D. ; Ghoudoussi Modjtaba, Method and apparatus for performing minimally invasive cardiac procedures.
Wang Yulun ; Uecker Darrin R. ; Laby Keith Phillip ; Wilson Jeff ; Jordan Steve ; Wright James, Method and apparatus for performing minimally invasive cardiac procedures.
Wang Yulun ; Uecker Darrin R. ; Laby Keith Phillip ; Wilson Jeff ; Jordan Steve ; Wright James, Method and apparatus for performing minimally invasive cardiac procedures.
Wang Yulun ; Uecker Darrin R. ; Laby Keith Phillip ; Wilson Jeff ; Jordan Steve ; Wright James, Method and apparatus for performing minimally invasive cardiac procedures.
Wang Yulun ; Uecker Darrin R. ; Laby Keith P. ; Wilson Jeff D. ; Jordan Charles S. ; Ghodoussi Modjtaba ; Wright James W., Method and apparatus for performing minimally invasive surgical procedures.
Wang, Yulun; Uecker, Darrin; Laby, Keith P.; Wilson, Jeff D.; Jordan, Charles S.; Wright, James W.; Ghodoussi, Modjtaba, Method and apparatus for performing minimally invasive surgical procedures.
Wang, Yulun; Uecker, Darrin; Laby, Keith P.; Wilson, Jeff D.; Jordan, Charles S.; Wright, James W.; Ghodoussi, Modjtaba, Method and apparatus for performing minimally invasive surgical procedures.
Yulun Wang ; Darrin Uecker ; Keith Laby ; Jeff Wilson ; Charles Jordan ; James Wright ; Modjtaba Ghodoussi, Method and apparatus for performing minimally invasive surgical procedures.
Jacobus Charles J. ; Griffin Jennifer Lynn, Method and system for simulating medical procedures including virtual reality and control method and system for use the.
Hall Andrew F. ; Hastings Roger N. ; Ritter Rogers C., Method of magnetically navigating medical devices with magnetic fields and gradients, and medical devices adapted therefor.
Kim, Byungkyu; Lim, Young Mo; Lee, Young Jae; Hong, Yeh-Sun; Kim, Soo Hyun; Park, Jong-Oh, Micro-robot for colonoscope with motor locomotion and system for colonoscope using the same.
Papanikolopoulos, Nikolaos P.; Krantz, Donald G.; Voyles, Richard M.; Bushey, John A.; Johnson, Alan N.; Nelson, Bradley J.; Rybski, Paul E.; Griggs, Kathleen A.; Urban, II, Ellison C., Miniature robotic vehicles and methods of controlling same.
Edward Grant ; John F. Muth ; John Steven Cottle ; Brian Ellery Dessent ; Jason Alan Cox, Modular observation crawler and sensing instrument and method for operating same.
Mikkaichi, Takayasu; Suzuki, Keita, Over-tube, method of manufacturing over-tube, method of disposing over-tube, and method of treatment in abdominal cavity.
Evans, Philip C.; Moll, Frederic H.; Guthart, Gary S.; Nowlin, William C.; Pendleton, Rand P.; Wilson, Christopher P.; Ramans, Andris D.; Rosa, David J.; Falk, Volkmar; Younge, Robert G., Performing cardiac surgery without cardioplegia.
Philip C. Evans ; Frederic H. Moll ; Gary S. Guthart ; William C. Nowlin ; Rand P. Pendleton ; Christopher P. Wilson ; Andris D. Ramans ; David J. Rosa ; Volkmar Falk ; Robert G. Younge, Performing cardiac surgery without cardioplegia.
Ruch Ola (Flataasen NOX) Johansen Trond V. (Trondheim NOX) Naess Ludvig (Tiller NOX) Poerner Horst (Roettenbahn DEX) Gebhard Georg (Erlangen DEX) Weber Robert (Uttenreuth DEX) Heller Max (Uttenreuth , Pipeline vehicle.
McEwen James A. (10551 Bamberton Drive Richmond ; B.C. CAX V7A 1K6) Auchinleck Geoffrey F. (#5 - 1182 West 7th Ave. Vancouver ; B.C. CAX V6H 1B4) Bussani Carlo R. (3884 West 15th Avenue Vancouver ; B, Powered surgical retractor.
Bauer, James Alan; Dailey, George Franklin; Fischer, Mark William; Willaman, Dwight Owen; Metala, Michael J., Remote spray coating of nuclear cross-under piping.
Alfano Robert R. ; Alfano Scott ; Wang Quan-Zhen ; Ho Ping Pei, Remote-controllable, micro-scale device for use in in vivo medical diagnosis and/or treatment.
Nowlin,William C.; Guthart,Gary S.; Salisbury, Jr.,J. Kenneth; Niemeyer,Gunter D., Repositioning and reorientation of master/slave relationship in minimally invasive telesurgery.
William C. Nowlin ; Gary S. Guthart ; J. Kenneth Salisbury, Jr. ; Gunter D. Niemeyer, Repositioning and reorientation of master/slave relationship in minimally invasive telesurgery.
Farritor, Shane M.; Oleynikov, Dmitry; Platt, Stephen R.; Rentschler, Mark; Dumpert, Jason; Hadzialic, Adnan; Wood, Nathan A., Robotic devices with agent delivery components and related methods.
Farritor, Shane M.; Oleynikov, Dmitry; Platt, Stephen R.; Rentschler, Mark; Dumpert, Jason; Hadzialic, Adnan; Wood, Nathan A., Robotic devices with agent delivery components and related methods.
Farritor, Shane M.; Oleynikov, Dmitry; Platt, Stephen R.; Rentschler, Mark; Dumpert, Jason; Hadzialic, Adnan; Wood, Nathan A., Robotic devices with agent delivery components and related methods.
Ng Wan Sing,SGX ; Phee Soo Jay Louis,SGX ; Seow Choen Francis,SGX, Robotic endoscope and an autonomous pipe robot for performing endoscopic procedures.
Kim, Byungkyu; Lim, Young Mo; Lee, Jinhee; Park, Jisang; Kim, Soo Hyun; Park, Jong-Oh, Self-propelled endoscopic micro-robot and system for intestinal endoscopy using the same.
Scovil Brian (New Hope MN) Berg Todd A. (Lino Lakes MN) Klitz Kevin (Plymouth MN) Bachinski Thomas J. (Lakeville MN) Humphrey John W. (Eden Prairie MN) Thome Scott (Waite Park MN) Hastings Roger (Map, Shaft movement control apparatus and method.
Belson, Amir; Frey, Paul DeWitt; Mcelhaney, Christine Wei Hsien; Milroy, James Craig; Ohline, Robert Matthew; Tartaglia, Joseph M., Steerable segmented endoscope and method of insertion.
Tierney Michael J. ; Cooper Thomas G. ; Julian Chris A. ; Blumenkranz Stephen J. ; Guthart Gary S. ; Younge Robert G., Surgical robotic tools, data architecture, and use.
Tierney, Michael J.; Cooper, Thomas; Julian, Chris; Blumenkranz, Stephen J.; Guthart, Gary S.; Younge, Robert G., Surgical robotic tools, data architecture, and use.
Peterson,Alan W.; Manzo,Scott; Mestas,Frank; Ramans,Andris, Surgical tool having electrocautery energy supply conductor with inhibited current leakage.
Wallace, Daniel T.; Julian, Christopher A.; Morley, Tracey A.; Baron, David S., Surgical tools for use in minimally invasive telesurgical applications.
Flaherty, Christopher; Makower, Joshua; Evard, Philip; Macaulay, Patrick; Whitt, Jason; Colloton, Robert; MacFarlane, K. Angela, Systems and methods for delivering drugs to selected locations within the body.
Flaherty, J. Christopher; Makower, Joshua; Evard, Philip C.; MacAulay, Patrick E.; Whitt, Jason B.; Colloton, Robert C.; Macfarlane, K. Angela, Systems and methods for delivering drugs to selected locations within the body.
Wang Yulun (Goleta CA) Srinivasan Partha (Goleta CA), Three-dimensional vector co-processor having I, J, and K register files and I, J, and K execution units.
McCall, David F.; Logue, Leslie M.; Zelina, Francis J.; Sendak, Matthew V.; Hinson, Julie R.; Sanders, Ward L.; Belinski, Steve; Holtz, Brian E., Voice controlled surgical suite.
Madhani Akhil J. ; Salisbury J. Kenneth, Wrist mechanism for surgical instrument for performing minimally invasive surgery with enhanced dexterity and sensitiv.
Yeung, Chung Kwong, Robotic devices and systems for performing single incision procedures and natural orifice translumenal endoscopic surgical procedures, and methods of configuring robotic devices and systems.
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Yeung, Chung Kwong; Lam, Wing Fai; Cheng, Wai Leung William, Robotic devices and systems for performing single incision procedures and natural orifice translumenal endoscopic surgical procedures, and methods of configuring robotic devices and systems.
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