Intuitive Surgical, Inc. Patent applications |
Patent application number | Title | Published |
20150250548 | OPTIC FIBER CONNECTION FOR A FORCE SENSING INSTRUMENT - In one embodiment, a surgical instrument includes a housing linkable with a manipulator arm of a robotic surgical system, a shaft operably coupled to the housing, a force transducer on a distal end of the shaft, and a plurality of fiber optic strain gauges on the force transducer. In one example, the plurality of strain gauges are operably coupled to a fiber optic splitter or an arrayed waveguide grating (AWG) multiplexer. A fiber optic connector is operably coupled to the fiber optic splitter or the AWG multiplexer. A wrist joint is operably coupled to a distal end of the force transducer, and an end effector is operably coupled to the wrist joint. In another embodiment, a robotic surgical manipulator includes a base link operably coupled to a distal end of a manipulator positioning system, and a distal link movably coupled to the base link, wherein the distal link includes an instrument interface and a fiber optic connector optically linkable to a surgical instrument. A method of passing data between an instrument and a manipulator via optical connectors is also provided. | 09-10-2015 |
20140051922 | REAL-TIME GENERATION OF THREE- DIMENSIONAL ULTRASOUND IMAGE USING A TWO-DIMENSIONAL ULTRASOUND TRANSDUCER IN A ROBOTIC SYSTEM - Systems and methods for performing robotically-assisted surgical procedures on a patient enable an image display device to provide an operator with auxiliary information related to the surgical procedure, in addition to providing an image of the surgical site itself. The systems and methods allow an operator to selectively access and reference auxiliary information on the image display device during the performance of a surgical procedure. | 02-20-2014 |
20130331650 | Optic Fiber Connection for a Force Sensing Instrument - A surgical instrument that includes a housing linkable with a manipulator arm of a robotic surgical system, a shaft coupled to the housing, a force transducer on a distal end of the shaft, and a plurality of fiber optic strain gauges on the force transducer is disclosed. The plurality of strain gauges are coupled to a fiber optic splitter or an arrayed waveguide grating (AWG) multiplexer, which can be coupled to a fiber optic connector. A wrist joint coupled to an end effector is coupled to a distal end of the force transducer. A robotic surgical manipulator that includes a base link coupled to a distal end of a manipulator positioning system, and a distal link with an instrument interface, and a fiber optic connector optically linkable to a surgical instrument. A method of passing data between an instrument and a manipulator via optical connectors is also provided. | 12-12-2013 |
20130090598 | SHAPE-TRANSFERRING CANNULA SYSTEM AND METHOD OF USE - The present invention is directed to a novel shape-transferring cannula system, which provides access to tortuous and unsupported paths. The shape-transferring cannula system and method enables exploration of hollow body structures, and creates a custom-contoured access port for insertion and removal of, for example, diagnostic, surgical, or interventional instruments to and from a site within the body to which the physician does not have line-of-sight access. | 04-11-2013 |
20130046318 | Surgical Instrument With Commonly Actuated Robotic and Manual Features - An instrument including an end effector at a distal end; an actuator mechanism at a proximal end, the actuator mechanism including a first valve, a robotic control coupled to the first valve, and a manual control coupled to the first valve is provided. The instrument may further include a transport shaft between the actuator mechanism and the end effector, the transport shaft including a cavity, coupled to the first valve, facilitating material transport along the transport shaft, the first valve having an actuating axis perpendicular to a rotational axis of the robotic control. A method for using an instrument as above is also provided. | 02-21-2013 |
20130023898 | MINIMALLY INVASIVE SURGICAL TRAINING USING ROBOTICS AND TELECOLLABORATION - A medical system that allows a mentor to teach a pupil how to use a robotically controlled medical instrument. The system may include a first handle that can be controlled by a mentor to move the medical instrument. The system may further have a second handle that can be moved by a pupil to control the same instrument. Deviations between movement of the handles by the mentor and the pupil can be provided as force feedback to the pupil and mentor handles. The force feedback pushes the pupil's hand to correspond with the mentor's handle movement. The force feedback will also push the mentor's hand to provide information to the mentor on pupil's movements. The mentor is thus able to guide the pupil's hands through force feedback of the pupil handles to teach the pupil how to use the system. | 01-24-2013 |
20120247489 | STERILE SURGICAL ADAPTOR - A sterile drape with integrated sterile adaptor, a telerobotic surgical system, and method of use are provided for draping portions of a telerobotic surgical system to maintain a sterile barrier between the sterile surgical field and the non-sterile robotic system while also providing an interface for transferring mechanical and electrical energy and signals. | 10-04-2012 |
20120209305 | COMBINATIONAL SCISSOR-GRASPER FOR USE IN LAPAROSCOPY - Disclosed is a four-jawed combinational scissor-grasper surgical tool for use in laparoscopy. Cutting and grasping functionalities are respectively enabled via movement of a pair of such specially contoured jaw members sliding against or splaying apart from the other pair. Also disclosed are means for achieving selectable interlocking of jaw members and mechanical linkage for their actuation by human user. | 08-16-2012 |
20120197182 | Robotic Surgical Systems With Fluid Flow Control For Irrigation, Aspiration, and Blowing - In one embodiment of the invention, a robotic surgical system is provided including a master control console and a surgical manipulator. The master control console generates control signals to cause one or more fluids to flow into or out of a surgical site. The surgical manipulator is coupled to the console to receive the control signals and includes at least one robotic arm and a surgical instrument coupled thereto. The surgical manipulator controls the surgical instrument in response to the control signals to control the flow of the one or more fluids into or out of the surgical site. The surgical instrument has a first robotically controlled valve that is responsive to the surgical manipulator and a hollow tube having a first end coupled to the first robotically controlled valve with an opening at a second end to direct the flow of one or more fluids. | 08-02-2012 |
20120083801 | TOOL GRIP CALIBRATION FOR ROBOTIC SURGERY - Telerobotic, telesurgical, and surgical robotic devices, systems, and methods selectively calibrate end effector jaws by bringing the jaw elements into engagement with each other. Commanded torque signals may bring the end effector elements into engagement while monitoring the resulting position of a drive system, optionally using a second derivative of the torque/position relationship so as to identify an end effector engagement position. Calibration can allow the end effector engagement position to correspond to a nominal closed position of an input handle by compensating for wear on the end effector, the end effector drive system, then manipulator, the manipulator drive system, the manipulator/end effector interfacing, and manufacturing tolerances. | 04-05-2012 |
20120059390 | INDICATOR FOR TOOL STATE AND COMMUNICATION IN MULTIARM TELESURGERY - Medical and/or robotic devices, systems and methods can provide an indicator associated with each manipulator assembly of a multi-arm telerobotic or telesurgical system. The exemplary indicator comprises a multi-color light emitting diode (LED) mounted to a manipulator moving an associated surgical instrument, allowing the indicator to display any of a wide variety of signals. The invention may provide an additional user interface to facilitate communications between the telesurgical system and/or members of a telesurgical team. | 03-08-2012 |
20120039162 | Synchronous Data Communication - A data packet is provided that includes a synchronization field and an acknowledgement field indicative of an acknowledgement of receipt of a prior data packet. The data packet also includes a response field that includes information indicative of a system fault, a header field, and a sequence number field that includes a number assigned to the data packet. The data packet further includes a data field, an end of packet field, and an error-checking field. Methods and computer program products are provided that, in some implementations, include retransmitting packets if the acknowledgement field in a received data packet is a no acknowledgement (NAK) and/or placing a node into a safe state in response to a fault signal that is included in the received data packet. | 02-16-2012 |
20110276059 | Software Center and Highly Configurable Robotic Systems for Surgery and Other Uses - Telerobotic, telesurgical, and/or surgical robotic devices, systems, and methods employ surgical robotic linkages that may have more degrees of freedom than an associated surgical end effector n space. A processor can calculate a tool motion that includes pivoting of the tool about an aperture site. Linkages movable along a range of configurations for a given end effector position may be driven toward configurations which inhibit collisions. Refined robotic linkages and method for their use are also provided. | 11-10-2011 |
20110270271 | Software Center and Highly Configurable Robotic Systems for Surgery and Other Uses - Telerobotic, telesurgical, and/or surgical robotic devices, systems, and methods employ surgical robotic linkages that may have more degrees of freedom than an associated surgical end effector n space. A processor can calculate a tool motion that includes pivoting of the tool about an aperture site. Linkages movable along a range of configurations for a given end effector position may be driven toward configurations which inhibit collisions. Refined robotic linkages and method for their use are also provided. | 11-03-2011 |
20110264112 | Software Center and Highly Configurable Robotic Systems for Surgery and Other Uses - Telerobotic, telesurgical, and/or surgical robotic devices, systems, and methods employ surgical robotic linkages that may have more degrees of freedom than an associated surgical end effector n space. A processor can calculate a tool motion that includes pivoting of the tool about an aperture site. Linkages movable along a range of configurations for a given end effector position may be driven toward configurations which inhibit collisions. Refined robotic linkages and method for their use are also provided. | 10-27-2011 |
20110264111 | Software Center and Highly Configurable Robotic Systems for Surgery and Other Uses - Telerobotic, telesurgical, and/or surgical robotic devices, systems, and methods employ surgical robotic linkages that may have more degrees of freedom than an associated surgical end effector n space. A processor can calculate a tool motion that includes pivoting of the tool about an aperture site. Linkages movable along a range of configurations for a given end effector position may be driven toward configurations which inhibit collisions. Refined robotic linkages and method for their use are also provided. | 10-27-2011 |
20110264110 | Software Center and Highly Configurable Robotic Systems for Surgery and Other Uses - Telerobotic, telesurgical, and/or surgical robotic devices, systems, and methods employ surgical robotic linkages that may have more degrees of freedom than an associated surgical end effector n space. A processor can calculate a tool motion that includes pivoting of the tool about an aperture site. Linkages movable along a range of configurations for a given end effector position may be driven toward configurations which inhibit collisions. Refined robotic linkages and method for their use are also provided. | 10-27-2011 |
20110264109 | Software Center and Highly Configurable Robotic Systems for Surgery and Other Uses - Telerobotic, telesurgical, and/or surgical robotic devices, systems, and methods employ surgical robotic linkages that may have more degrees of freedom than an associated surgical end effector n space. A processor can calculate a tool motion that includes pivoting of the tool about an aperture site. Linkages movable along a range of configurations for a given end effector position may be driven toward configurations which inhibit collisions. Refined robotic linkages and method for their use are also provided. | 10-27-2011 |
20110264108 | Software Center and Highly Configurable Robotic Systems for Surgery and Other Uses - Telerobotic, telesurgical, and/or surgical robotic devices, systems, and methods employ surgical robotic linkages that may have more degrees of freedom than an associated surgical end effector n space. A processor can calculate a tool motion that includes pivoting of the tool about an aperture site. Linkages movable along a range of configurations for a given end effector position may be driven toward configurations which inhibit collisions. Refined robotic linkages and method for their use are also provided. | 10-27-2011 |
20110196419 | Direct Pull Surgical Gripper - A surgical end effector includes a clevis and two jaws pivotally coupled to the clevis. A wire is coupled to each jaw and extended through a guide way in the other jaw and through an end of the clevis. The jaws may be opened and closed by pushing and pulling on the two cables. Pulling on each wire creates a closing force in both jaws. A rocking pin may be pivotally supported by the clevis and pivotally coupled to the jaws to constrain the jaws to have opposite motions. The clevis may be coupled to an elongate shaft and the wires extended through the shaft to provide an endoscopic instrument. A wire guide may support the wires in the shaft such that they are able to transmit a compressive force without buckling. The wires may carry electricity to the jaws for electrocautery. | 08-11-2011 |
20110166706 | MEDICAL ROBOTIC SYSTEM WITH SLIDING MODE CONTROL - A medical robotic system has a joint coupled to medical device or a slave manipulator or robotic arm adapted to hold and/or move the medical device for performing a medical procedure, and a control system for controlling movement of the joint according to user manipulation of a master manipulator. The control system includes at least one joint controller having a sliding mode control for reducing stick-slip behavior on its controlled joint during fine motions of the joint. The sliding mode control computes a distance to a sliding surface, computes a reaching law gain, and processes the distance and reaching law gain to generate a sliding mode control action that is in absolute value less that a maximum desired feedback control action. The sliding mode control action is then further processed to generate a feedback torque command for the joint motor. | 07-07-2011 |
20110160904 | MEDICAL ROBOTIC SYSTEM WITH SLIDING MODE CONTROL - A medical robotic system has a joint coupled to medical device or a slave manipulator or robotic arm adapted to hold and/or move the medical device for performing a medical procedure, and a control system for controlling movement of the joint according to user manipulation of a master manipulator. The control system includes at least one joint controller having a sliding mode control for reducing stick-slip behavior on its controlled joint during fine motions of the joint. The sliding mode control computes a distance to a sliding surface, computes a reaching law gain, and processes the distance and reaching law gain to generate a sliding mode control action that is in absolute value less that a maximum desired feedback control action. The sliding mode control action is then further processed to generate a feedback torque command for the joint motor. | 06-30-2011 |
20110119023 | METHOD AND SYSTEM TO SENSE RELATIVE PARTIAL-POSE INFORMATION USING A SHAPE SENSOR - A shape-sensing segment traverses through at least a portion of a kinematic chain of a tele-operated slave surgical instrument in a tele-operated minimally-invasive surgical system. The shape-sensing segment includes a pre-set perturbation. Shape information from the pre-set perturbation allows determination of relative partial-pose information for at least one link in the kinematic chain. | 05-19-2011 |
20110118749 | METHOD AND SYSTEM TO SENSE RELATIVE PARTIAL-POSE INFORMATION USING A SHAPE SENSOR - A shape-sensing segment traverses through at least a portion of a kinematic chain of a tele-operated slave surgical instrument in a tele-operated minimally-invasive surgical system. The shape-sensing segment includes a pre-set perturbation. Shape information from the pre-set perturbation allows determination of relative partial-pose information for at least one link in the kinematic chain. | 05-19-2011 |
20110118748 | PATIENT-SIDE SURGEON INTERFACE FOR A MINIMALLY INVASIVE, TELEOPERATED SURGICAL INSTRUMENT - A patient-side surgeon interface provides enhanced capabilities in using a minimally invasive, teleoperated surgical system. The patient-side surgeon interface has components within the sterile surgical field of the surgery. The components allow a surgeon to control teleoperated slave surgical instruments from within the sterile surgical field. The patient-side surgeon interface permits a surgeon to be in the sterile surgical field adjacent a patient undergoing surgery. Controlling minimally invasive slave surgical instruments from within the sterile surgical field permits minimally invasive surgery combined with direct visualization by the surgeon. The proximity to the patient allows the surgeon to control a teleoperated slave surgical instrument in tandem with controlling manually controlled instruments such as a laparoscopic instrument. Also, the surgeon, from within the sterile surgical field, can use the patient-side surgeon interface to control at least one proxy visual in proctoring another surgeon. | 05-19-2011 |
20110113852 | OPTICAL FIBER SHAPE SENSOR CALIBRATION - Calibration methods and apparatuses for a shape sensing optical fiber are disclosed. Strain is sensed in an optical fiber that is associated with a kinematic chain, and information derived from the sensed strain is used to determine a calibration relationship between the fiber and the kinematic chain. The strain may be sensed at a plurality of angles between two links in the kinematic chain. The strain may be sensed in a segment of the optical fiber that is associated with a joint in the kinematic chain as the joint sweeps through an arc. The strain may be sensed for the optical fiber in a known, predefined bend shape. The calibration information is stored in memory for later use during operation of the kinematic chain, so that shape information from the optical fiber can be used to accurately indicate the shape or pose of the kinematic chain. | 05-19-2011 |
20110082369 | METHODS AND APPARATUS FOR DISPLAYING ENHANCED IMAGING DATA ON A CLINICAL IMAGE - In one embodiment of the invention, an apparatus includes a display device. The display device displays a desaturated image of tissue captured in the visible electro-magnetic (EM) spectrum from a body cavity; and a first color enhanced image combined with the desaturated image. The first color enhanced image represents the first data captured from the body cavity outside the visible electromagnetic spectrum. The relative brightness between the desaturated image and the first color enhanced image is set to emphasize the first data over the tissue captured in the visible electromagnetic spectrum to provide improved information content. | 04-07-2011 |
20110082365 | LATERALLY FENESTRATED CANNULA - A cannula provides access to a surgical site for a camera instrument and one or more minimally invasive surgical instruments. The cannula may include a curved or flexible section when used with flexible surgical instruments. A service port is defined in a sidewall between proximal and distal ends of the cannula, the service port being large enough to allow an object to be transferred between the instruments and a location outside the cannula. An end effector of the surgical instrument may be positioned within the cannula adjacent the service port. The camera instrument may be positioned to place the end effector within a field of view of the camera. An object may be transferred between a service instrument and the surgical instrument within the field of view of the camera. | 04-07-2011 |
20110071544 | CURVED CANNULA INSTRUMENT - A robotic surgical system is configured with rigid, curved cannulas that extend through the same opening into a patient's body. Surgical instruments with passively flexible shafts extend through the curved cannulas. Force isolation elements within the flexible shafts prevent shaft bending from affecting end effector actuation elements that extends through the shafts. The cannulas are oriented to direct the instruments towards a surgical site. Various port features that support the curved cannulas within the single opening are disclosed. Cannula support fixtures that support the cannulas during insertion into the single opening and mounting to robotic manipulators are disclosed. A teleoperation control system that moves the curved cannulas and their associated instruments in a manner that allows a surgeon to experience intuitive control is disclosed. | 03-24-2011 |
20110071543 | CURVED CANNULA SURGICAL SYSTEM CONTROL - A robotic surgical system is configured with rigid, curved cannulas that extend through the same opening into a patient's body. Surgical instruments with passively flexible shafts extend through the curved cannulas. The cannulas are oriented to direct the instruments towards a surgical site. A teleoperation control system that moves the curved cannulas and their associated instruments in a manner that allows a surgeon to experience intuitive control is disclosed. The flexible shaft instruments are controlled as if extending along a virtual straight line insertion and withdrawal axis. Various port features that support the curved cannulas within the single opening are disclosed. Cannula support fixtures that support the cannulas during insertion into the single opening and mounting to robotic manipulators are disclosed. | 03-24-2011 |
20110071542 | CURVED CANNULA SURGICAL SYSTEM - A robotic surgical system is configured with rigid, curved cannulas that extend through the same opening into a patient's body. Surgical instruments with passively flexible shafts extend through the curved cannulas. The cannulas are oriented to direct the instruments towards a surgical site. Various port features that support the curved cannulas within the single opening are disclosed. Cannula support fixtures that support the cannulas during insertion into the single opening and mounting to robotic manipulators are disclosed. A teleoperation control system that moves the curved cannulas and their associated instruments in a manner that allows a surgeon to experience intuitive control is disclosed. | 03-24-2011 |
20110071541 | CURVED CANNULA - A robotic surgical system is configured with rigid, curved cannulas that extend through the same opening into a patient's body. Surgical instruments with passively flexible shafts extend through the curved cannulas. The cannulas are oriented to direct the instruments towards a surgical site. Various port features that support the curved cannulas within the single opening are disclosed. Cannula support fixtures that support the cannulas during insertion into the single opening and mounting to robotic manipulators are disclosed. A teleoperation control system that moves the curved cannulas and their associated instruments in a manner that allows a surgeon to experience intuitive control is disclosed. | 03-24-2011 |
20110071473 | SURGICAL PORT FEATURE - A robotic surgical system is configured with rigid, curved cannulas that extend through the same opening into a patient's body. Surgical instruments with passively flexible shafts extend through the curved cannulas. The cannulas are oriented to direct the instruments towards a surgical site. Various port features that support the curved cannulas within the single opening are disclosed. In one aspect, surgical instrument channels extend at different angles between top and bottom surfaces of a port feature. In another aspect, a funnel portion and a tongue portion are separated by a waist portion, and surgical instrument channels extend from the funnel portion through the waist portion. Cannula support fixtures that support the cannulas during insertion into the single opening and mounting to robotic manipulators are disclosed. A teleoperation control system that moves the curved cannulas and their associated instruments in a manner that allows a surgeon to experience intuitive control is disclosed. | 03-24-2011 |
20110071347 | CANNULA MOUNTING FIXTURE - A robotic surgical system is configured with rigid, curved cannulas that extend through the same opening into a patient's body. Surgical instruments with passively flexible shafts extend through the curved cannulas. The cannulas are oriented to direct the instruments towards a surgical site. Various port features that support the curved cannulas within the single opening are disclosed. Cannula support fixtures that support the cannulas during insertion into the single opening and mounting to robotic manipulators are disclosed. The support fixtures include arms that swing in an arc to insert a curved cannula, repositionable arms coupled to a stable cannula base, and an insertion cap that holds a cannula. A teleoperation control system that moves the curved cannulas and their associated instruments in a manner that allows a surgeon to experience intuitive control is disclosed. | 03-24-2011 |
20110040404 | SMOOTH CONTROL OF AN ARTICULATED INSTRUMENT ACROSS AREAS WITH DIFFERENT WORK SPACE CONDITIONS - An articulated instrument is controllably movable between areas of different work space limits, such as when it is extendable out of and retractable into a guide tube. To avoid abrupt transitions in joint actuations as the joint moves between areas of different work space limits, a controller limits error feedback used to control its movement. To provide smooth joint control as the instrument moves between areas of different work space limits, the controller imposes barrier and ratcheting constraints on each directly actuatable joint of the instrument when the joint is commanded to cross between areas of different work space limits. | 02-17-2011 |
20110040305 | CONTROLLER ASSISTED RECONFIGURATION OF AN ARTICULATED INSTRUMENT DURING MOVEMENT INTO AND OUT OF AN ENTRY GUIDE - To perform a tool exchange in a medical robotic system, tool is retracted back into an entry guide from a deployed position and pose so that an assistant in the operating room may replace it with a different tool. While the tool is being retracted back towards the entry guide by user action, its configuration is changed to an entry pose while avoiding collisions with other objects so that it may fit in the entry guide. After the tool exchange is completed, a new tool is inserted in the entry guide and extended out of the guide by user action to the original position of the old tool prior to its retraction into the entry guide while the tool's controller assists the user by reconfiguring the new tool so as to resemble the original deployed pose of the old tool prior to its retraction into the entry guide. | 02-17-2011 |
20100332033 | CONTROL OF MEDICAL ROBOTIC SYSTEM MANIPULATOR ABOUT KINEMATIC SINGULARITIES - A medical robotic system includes an entry guide with articulatable instruments extending out of its distal end, an entry guide manipulator providing controllable four degrees-of-freedom movement of the entry guide relative to a remote center, and a controller configured to manage operation of the entry guide manipulator in response to operator manipulation of one or more input devices. As the entry guide manipulator approaches a yaw/roll singularity, the controller modifies its operation to allow continued movement of the entry guide manipulator without commanding excessive joint velocities while maintaining proper orientation of the entry guide. | 12-30-2010 |
20100332031 | RATCHETING FOR MASTER ALIGNMENT OF A TELEOPERATED MINIMALLY-INVASIVE SURGICAL INSTRUMENT - A minimally-invasive surgical system includes a slave surgical instrument having a slave surgical instrument tip and a master grip. The slave surgical instrument tip has an alignment in a common frame of reference and the master grip, which is coupled to the slave surgical instrument, has an alignment in the common frame of reference. An alignment error, in the common frame of reference, is a difference in alignment between the alignment of the slave surgical instrument tip and the alignment of the master grip. A ratcheting system (i) coupled to the master grip to receive the alignment of the master grip and (ii) coupled to the slave surgical instrument, to control motion of the slave by continuously reducing the alignment error, as the master grip moves, without autonomous motion of the slave surgical instrument tip and without autonomous motion of the master grip. | 12-30-2010 |
20100332030 | ARM WITH A COMBINED SHAPE AND FORCE SENSOR - A bend sensor is used to determine force applied to a robotic arm. The force may be an external force applied to the arm, an internal actuation force, or both. In some aspects, a stiffening element is used to restore the arm to a minimum kinematic energy state. In other aspects, the stiffening element is eliminated, and the arm is fully actuated. | 12-30-2010 |
20100331855 | Efficient Vision and Kinematic Data Fusion For Robotic Surgical Instruments and Other Applications - Robotic devices, systems, and methods for use in telesurgical therapies through minimally invasive apertures make use of joint-based data throughout much of the robotic kinematic chain, but selectively rely on information from an image capture device to determine location and orientation along the linkage adjacent a pivotal center at which a shaft of the robotic surgical tool enters the patient. A bias offset may be applied to a pose (including both an orientation and a location) at the pivotal center to enhance accuracy. The bias offset may be applied as a simple rigid transformation from the image-based pivotal center pose to a joint-based pivotal center pose. | 12-30-2010 |
20100331820 | COMPLIANT SURGICAL DEVICE - A compliant surgical device such as a flexible entry guide employs tendons to operate or steer the device and attaches asymmetric or constant force spring systems to control tension in the tendons. As a result, the surgical device can be compliant and respond to external forces during a surgical procedure without rapidly springing back or otherwise causing a reaction that damages tissue. The compliance also permits manual positioning or shaping of the device during or before insertion for a surgical procedure without damaging the tendons or connections of the tendons within the device or to a backend mechanism | 12-30-2010 |
20100318099 | VIRTUAL MEASUREMENT TOOL FOR MINIMALLY INVASIVE SURGERY - Robotic and/or measurement devices, systems, and methods for telesurgical and other applications employ input devices operatively coupled to tools so as to allow a system user to manipulate tissues and other structures being measured. The system may make use of three dimensional position information from stereoscopic images. Two or more discrete points can be designated in three dimensions so as to provide a cumulative length along a straight or curving structure, an area measurement, a volume measurement, or the like. The discrete points may be identified by a single surgical tool or by distances separating two or more surgical tools, with the user optionally measuring a structure longer than a field of view of the stereoscopic image capture device by walking a pair of tools “hand-over-hand” along the structure. By allowing the system user to interact with the tissues while designating the tissue locations, and by employing imaging data to determine the measurements, the measurement accuracy and ease of measurement may be enhanced. | 12-16-2010 |
20100317965 | VIRTUAL MEASUREMENT TOOL FOR MINIMALLY INVASIVE SURGERY - Robotic and/or measurement devices, systems, and methods for telesurgical and other applications employ input devices operatively coupled to tools so as to allow a system user to manipulate tissues and other structures being measured. The system may make use of three dimensional position information from stereoscopic images. Two or more discrete points can be designated in three dimensions so as to provide a cumulative length along a straight or curving structure, an area measurement, a volume measurement, or the like. The discrete points may be identified by a single surgical tool or by distances separating two or more surgical tools, with the user optionally measuring a structure longer than a field of view of the stereoscopic image capture device by walking a pair of tools “hand-over-hand” along the structure. By allowing the system user to interact with the tissues while designating the tissue locations, and by employing imaging data to determine the measurements, the measurement accuracy and ease of measurement may be enhanced. | 12-16-2010 |
20100298843 | CLEANING OF A SURGICAL INSTRUMENT FORCE SENSOR - In one embodiment, a force sensing robotic surgical instrument includes a proximal housing linkable with a surgical robot arm, a shaft having a proximal portion and a distal portion, the proximal portion operably coupled to the housing, and a force transducer operably coupled to the distal portion of the shaft, the force transducer having a proximal portion, a distal portion, a plurality of radial ribs, and a strain gauge positioned over each of the plurality of radial ribs, the radial ribs forming a plurality of through passages. The instrument further includes a wrist mechanism coupled to the distal portion of the force transducer, an end effector coupled to the wrist mechanism, and a flush manifold that receives a liquid from the proximal portion of the shaft and directs the liquid along a first subset of through passages of the force transducer toward the distal portion of the force transducer. A plenum at the distal portion of the force transducer collects the liquid from the first subset of through passages and redirects the liquid back toward the proximal portion of the shaft along a second subset of through passages different from the first subset of through passages. | 11-25-2010 |
20100251514 | CASTER - A caster assembly includes a primary wheel and a secondary wheel. As the caster assembly is rolled against and over an obstacle threshold, the secondary wheel is positioned to contact the obstacle threshold first. As the caster assembly begins to roll over the threshold, the secondary wheel lifts the caster assembly part way. As the caster assembly continues to roll over the threshold, the primary wheel contacts the threshold and lifts the caster assembly over the obstacle threshold. One or more secondary or primary wheels may be used. The secondary wheel or wheels may be positioned to remain within a sweep volume of the primary wheel as the caster assembly swivels around a caster swivel axis. | 10-07-2010 |
20100250000 | OPTIC FIBER CONNECTION FOR A FORCE SENSING INSTRUMENT - In one embodiment, a surgical instrument includes a housing linkable with a manipulator arm of a robotic surgical system, a shaft operably coupled to the housing, a force transducer on a distal end of the shaft, and a plurality of fiber optic strain gauges on the force transducer. In one example, the plurality of strain gauges are operably coupled to a fiber optic splitter or an arrayed waveguide grating (AWG) multiplexer. A fiber optic connector is operably coupled to the fiber optic splitter or the AWG multiplexer. A wrist joint is operably coupled to a distal end of the force transducer, and an end effector is operably coupled to the wrist joint. In another embodiment, a robotic surgical manipulator includes a base link operably coupled to a distal end of a manipulator positioning system, and a distal link movably coupled to the base link, wherein the distal link includes an instrument interface and a fiber optic connector optically linkable to a surgical instrument. A method of passing data between an instrument and a manipulator via optical connectors is also provided. | 09-30-2010 |
20100249507 | METHOD AND SYSTEM FOR PROVIDING VISUAL GUIDANCE TO AN OPERATOR FOR STEERING A TIP OF AN ENDOSCOPIC DEVICE TOWARD ONE OR MORE LANDMARKS IN A PATIENT - Landmark directional guidance is provided to an operator of an endoscopic device by displaying graphical representations of vectors adjacent a current image captured by an image capturing device disposed at a tip of the endoscopic device and being displayed at the time on a display screen, wherein the graphical representations of the vectors point in directions that the endoscope tip is to be steered in order to move towards associated landmarks such as anatomic structures in a patient. | 09-30-2010 |
20100249506 | METHOD AND SYSTEM FOR ASSISTING AN OPERATOR IN ENDOSCOPIC NAVIGATION - Navigation guidance is provided to an operator of an endoscope by determining a current position and shape of the endoscope relative to a reference frame, generating an endoscope computer model according to the determined position and shape, and displaying the endoscope computer model along with a patient computer model referenced to the reference frame so as to be viewable by the operator while steering the endoscope within the patient. | 09-30-2010 |
20100245541 | TARGETS, FIXTURES, AND WORKFLOWS FOR CALIBRATING AN ENDOSCOPIC CAMERA - The present disclosure relates to calibration assemblies and methods for use with an imaging system, such as an endoscopic imaging system. A calibration assembly includes: an interface for constraining engagement with an endoscopic imaging system; a target coupled with the interface so as to be within the field of view of the imaging system, the target including multiple of markers having calibration features that include identification features; and a processor configured to identify from first and second images obtained at first and second relative spatial arrangements between the imaging system and the target, respectively, at least some of the markers from the identification features, and using the identified markers and calibration feature positions within the images to generate calibration data. | 09-30-2010 |
20100228266 | Master Controller Having Redundant Degrees of Freedom and Added Forces to Create Internal Motion - An input device includes a handle coupled to a base by a linkage. The handle is manually movable relative to the base to provide a position input. The linkage has a plurality of links including a redundant link that permits internal motion of the linkage such that the linkage can move without moving the handle relative to the base. When a distance between the handle and a handle stop position is less than a threshold distance, a handle stop applies a first load to the handle. A drive system applies a second load to the redundant link responsive to the first load to create internal motion of the linkage that increases a distance between the handle and a handle stop position. The second load may be proportional to a cosine of an angle between a handle axis of motion and a redundant link axis of motion. | 09-09-2010 |
20100228265 | Operator Input Device for a Robotic Surgical System - A robotic surgical system includes a master controller with an input handle and robotic manipulator assemblies including a surgical end effector and an endoscopic camera. The input handle is translatable to provide a position and rotatable to provide an orientation. A control system couples the master controller to the first and second manipulator assemblies. The control system moves the surgical end effector in response to the position and orientation of the input handle. The control system moves the input handle to orient the input handle to correspond to an orientation of the surgical end effector from a viewpoint of the endoscopic camera during the repositioning of at least one of the input handle position, the end effector, or the endoscopic camera. The control system may move the surgical end effector only in a first mode and orients the input handle only in a second mode. | 09-09-2010 |
20100228249 | USER INTERFACES FOR ELECTROSURGICAL TOOLS IN ROBOTIC SURGICAL SYSTEMS - A method for a minimally invasive surgical system is disclosed including capturing camera images of a surgical site; generating a graphical user interface (GUI) including a first colored border portion in a first side and a second colored border in a second side opposite the first side; and overlaying the GUI onto the captured camera images of the surgical site for display on a display device of a surgeon console. The GUI provides information to a user regarding the first electrosurgical tool and the second tool in the surgical site that is concurrently displayed by the captured camera images. The first colored border portion in the GUI indicates that the first electrosurgical tool is controlled by a first master grip of the surgeon console and the second colored border portion indicates the tool type of the second tool controlled by a second master grip of the surgeon console. | 09-09-2010 |
20100225209 | ERGONOMIC SURGEON CONTROL CONSOLE IN ROBOTIC SURGICAL SYSTEMS - A control console to remotely control medical equipment is disclosed having a base with an ergonomically adjustable pedal system. The base further has an opening to receive the pedal system. The pedal system includes a moveable pedal tray with a pedal base. The tray includes a first left pedal assembly and a first right pedal assembly, and an upper tier having a second left pedal assembly and a second right pedal assembly respectively in alignment with and elevated above the first left pedal assembly and the first right pedal assembly. Rollers are rotatable coupled to the moveable pedal tray to allow it roll over a floor. A drive assembly is coupled between the moveable pedal tray and the base. The drive assembly applies a force to the to roll the moveable pedal tray over the floor within the opening of the base. | 09-09-2010 |
20100198215 | IN VIVO ACCESSORIES FOR MINIMALLY INVASIVE ROBOTIC SURGERY - Surgical accessories are presented in vivo and used by surgical tools in the surgical site to perform additional tasks without the need to remove the tools from the surgical site for tool change or instrument loading. Examples of in vivo accessories include fastening accessories such as surgical clips for use with a clip applier, single working member accessories such as a blade which can be grasped and manipulated by a grasping tool for cutting, sheath accessories that fit over working members of a tool, flow tubes for providing suction or introducing a fluid into the surgical site, and a retraction member resiliently biased to retract a tissue to expose an area in the surgical site for treatment. The accessories can be introduced into the surgical site by a dedicated accessory introducer, or can be supported on the body of a surgical tool inserted into the surgical site and be manipulated using another surgical tool in the surgical site. The accessory introducer can be resiliently biased to bias the accessories toward a predetermined position in the surgical site. | 08-05-2010 |
20100174293 | STERILE SURGICAL ADAPTOR - A sterile drape with integrated sterile adaptor, a telerobotic surgical system, and method of use are provided for draping portions of a telerobotic surgical system to maintain a sterile barrier between the sterile surgical field and the non-sterile robotic system while also providing an interface for transferring mechanical and electrical energy and signals. | 07-08-2010 |
20100169815 | VISUAL FORCE FEEDBACK IN A MINIMALLY INVASIVE SURGICAL PROCEDURE - Methods of and a system for providing a visual representation of force information in a robotic surgical system. A real position of a surgical end effector is determined. A projected position of the surgical end effector if no force were applied against the end effector is also determined. Images representing the real and projected positions are output superimposed on a display. The offset between the two images provides a visual indication of a force applied to the end effector or to the kinematic chain that supports the end effector. In addition, tissue deformation information is determined and displayed. | 07-01-2010 |
20100168918 | OBTAINING FORCE INFORMATION IN A MINIMALLY INVASIVE SURGICAL PROCEDURE - Methods of and a system for providing force information for a robotic surgical system. The method includes storing first kinematic position information and first actual position information for a first position of an end effector; moving the end effector via the robotic surgical system from the first position to a second position; storing second kinematic position information and second actual position information for the second position; and providing force information regarding force applied to the end effector at the second position utilizing the first actual position information, the second actual position information, the first kinematic position information, and the second kinematic position information. Visual force feedback is also provided via superimposing an estimated position of an end effector without force over an image of the actual position of the end effector. Similarly, tissue elasticity visual displays may be shown. | 07-01-2010 |
20100168763 | CONFIGURATION MARKER DESIGN AND DETECTION FOR INSTRUMENT TRACKING - The present disclosure relates to systems, methods, and tools for tool tracking using image-derived data from one or more tool located reference features. A method includes: directing illuminating light from a light source onto a robotic surgical tool within a patient body, wherein the tool includes a plurality of primitive features having known positions on the tool, and wherein each feature includes a spherical reflective surface; capturing stereo images of the plurality of primitive features when the tool is within the patient body, wherein the stereo images are captured by an image capture device adjacent the illumination source so that the illumination light reflected from the imaged primitive features toward the image capture device substantially aligns with spherical centers of the surfaces of the imaged primitive features, and determining a position for the tool by processing the stereo images so as to locate the spherical centers of the imaged primitive features by using the reflected light. | 07-01-2010 |
20100168721 | LUBRICATING TENDONS IN A TENDON-ACTUATED SURGICAL INSTRUMENT - A flexible surgical instrument employs sheaths around tendons that actuate an end effector or other mechanisms in the instrument. A liquid lubricant can be introduced in the sheaths to reduce friction. Disclosed combinations of tendon, sheath, and lubricant compositions reduce friction to suitable levels for operation of a minimally invasive instrument and are not harmful or toxic to a patient. | 07-01-2010 |
20100168562 | FIDUCIAL MARKER DESIGN AND DETECTION FOR LOCATING SURGICAL INSTRUMENT IN IMAGES - The present disclosure relates to systems, methods, and tools for tool tracking using image-derived data from one or more tool-located reference features. A method includes: capturing a first image of a tool that includes multiple features that define a first marker, where at least one of the features of the first marker includes an identification feature; determining a position for the first marker by processing the first image; determining an identification for the first marker by using the at least one identification feature by processing the first image; and determining a tool state for the tool by using the position and the identification of the first marker. | 07-01-2010 |
20100168510 | SURGICAL INSTRUMENTS WITH SHEATHED TENDONS - A flexible surgical instrument employs sheaths around tendons that actuate an end effector or other mechanisms in a distal tip of the instrument. A liquid lubricant can be introduced in the sheaths to reduce friction, and the sheaths can be porous or non-porous. The lubricant can be confined, for example, with an o-ring or a bellow seal, to keep lubricant from leaking where the tendons extend out of the sheaths. More generally, the distal end of the instrument is sealed to prevent leakage of lubricant into a patient. To further reduce risks, a non-toxic water-based lubricant can be used. | 07-01-2010 |
20100166323 | ROBUST SPARSE IMAGE MATCHING FOR ROBOTIC SURGERY - Systems, methods, and devices are used to match images. Points of interest from a first image are identified for matching to a second image. In response to the identified points of interest, regions and features can be identified and used to match the points of interest to a corresponding second image or second series of images. Regions can be used to match the points of interest when regions of the first image are matched to the second image with high confidence scores, for example above a threshold. Features of the first image can be matched to the second image, and these matched features may be used to match the points of interest to the second image, for example when the confidence scores for the regions are below the threshold value. Constraint can be used to evaluate the matched points of interest, for example by excluding bad points. | 07-01-2010 |
20100164950 | EFFICIENT 3-D TELESTRATION FOR LOCAL ROBOTIC PROCTORING - An apparatus is configured to show telestration in 3-D to a surgeon in real time. A proctor is shown one side of a stereo image pair, such that the proctor can draw a telestration line on the one side with an input device. Points of interest are identified for matching to the other side of the stereo image pair. In response to the identified points of interest, regions and features are identified and used to match the points of interest to the other side. Regions can be used to match the points of interest. Features of the first image can be matched to the second image and used to match the points of interest to the second image, for example when the confidence scores for the regions are below a threshold value. Constraints can be used to evaluate the matched points of interest, for example by excluding bad points. | 07-01-2010 |
20100163057 | STERILE SURGICAL ADAPTOR - A sterile adaptor, a sterile drape with the integrated sterile adaptor, and a telerobotic surgical system including the sterile drape with a drape interface are provided. The adaptor, drape, and system allow for draping portions of a telerobotic surgical system to maintain a sterile barrier between the sterile surgical field and the non-sterile robotic system while also providing an interface for transferring mechanical and electrical energy and signals between a robotic arm and a surgical instrument in the sterile field. | 07-01-2010 |
20100161129 | SYSTEM AND METHOD FOR ADJUSTING AN IMAGE CAPTURING DEVICE ATTRIBUTE USING AN UNUSED DEGREE-OF-FREEDOM OF A MASTER CONTROL DEVICE - An image capturing device is robotically positioned and oriented in response to operator manipulation of a master control device. An unused degree-of-freedom of the master control device is used to adjust an attribute such as focusing of the image capturing device relative to a continually updated set-point. A deadband is provided to avoid inadvertent adjusting of the image capturing device attribute and haptic feedback is provided back to the master control device so that the operator is notified when adjusting of the attribute is initiated. | 06-24-2010 |
20100160724 | FLEXIBLE SURGICAL INSTRUMENT WITH LINKS UNDERGOING SOLID-STATE TRANSITIONS - A surgical instrument has a tip section with several degrees of freedom of articulation and at least one link that may be too long for insertion through an entry guide that follows a curved path. Each long link is made of a shape memory alloy or another material having a state in which the link is sufficiently flexible to bend as needed to pass through the entry guide. Once through the entry guide, the material of the link makes a transition to a state in which the link returns to a desired shape and is sufficiently rigid for precise controlled movement against external forces and for actuation using tendons. | 06-24-2010 |
20100154578 | METHOD AND APPARATUS FOR REDUCING AT LEAST ONE FRICTION FORCE OPPOSING AN AXIAL FORCE EXERTED THROUGH AN ACTUATOR ELEMENT - Actuator elements such as cables or push rods in an instrument are used for manipulating an end effector or distal end of the instrument. Each actuator element extends within a tubular housing and either the tubular housing is axially rotated about the actuator element or the actuator element is axially rotated within the tubular housing to reduce at least one force opposing an axial force exerted through or movement of the actuator element. | 06-24-2010 |
20100145521 | ROBOTIC SURGICAL SYSTEM WITH JOINT MOTION CONTROLLER ADAPTED TO REDUCE INSTRUMENT TIP VIBRATIONS - A robotic surgical system has a robot arm holding an instrument for performing a surgical procedure, and a control system for controlling movement of the arm and its instrument according to user manipulation of a master manipulator. The control system includes a filter in its forward path to attenuate master input commands that may cause instrument tip vibrations, and an inverse filter in a feedback path to the master manipulator configured so as to compensate for delay introduced by the forward path filter. To enhance control, master command and slave joint observers are also inserted in the control system to estimate slave joint position, velocity and acceleration commands using received slave joint position commands and torque feedbacks, and estimate actual slave joint positions, velocities and accelerations using sensed slave joint positions and commanded slave joint motor torques. | 06-10-2010 |
20100121151 | METHOD AND SYSTEM FOR STEERABLE MEDICAL DEVICE PATH DEFINITION AND FOLLOWING DURING INSERTION AND RETRACTION - Waypoints for a steerable medical device are stored as the steerable medical device is moved within a patient. The stored waypoints are an ordered sequence of locations. The ordered sequence of locations defines a safe path within the patient for moving an articulatable portion of the steerable medical device. The articulatable portion of the steerable medical device is constrained to follow the safe path as the articulatable portion moves within the patient. For example, the articulatable portion of the steerable medical device is constrained to remain within a boundary region enclosing the safe path as the articulatable portion of the steerable medical device follows the safe path. | 05-13-2010 |
20100121148 | METHOD AND SYSTEM FOR STEERABLE MEDICAL DEVICE PATH DEFINITION AND FOLLOWING DURING INSERTION AND RETRACTION - Waypoints for a steerable medical device are stored as the steerable medical device is moved within a patient. The stored waypoints are an ordered sequence of locations. The ordered sequence of locations defines a safe path within the patient for moving an articulatable portion of the steerable medical device. The articulatable portion of the steerable medical device is constrained to follow the safe path as the articulatable portion moves within the patient. For example, the articulatable portion of the steerable medical device is constrained to remain within a boundary region enclosing the safe path as the articulatable portion of the steerable medical device follows the safe path. | 05-13-2010 |
20100116082 | Multiaxis Counterbalance and Positioning System Using a Spatial Linkage - A spatial linkage including an inboard gimbal plate that provides a ground for the spatial linkage, an outboard gimbal plate, and at least three links that couple the outboard gimbal plate to the inboard gimbal plate. Each link has a longitudinal axis and two pivotal couplings disposed at opposite ends of the longitudinal axis. Each link is pivotally coupled to the outboard gimbal plate at a first end of the longitudinal axis and pivotally coupled to the inboard gimbal plate at a second end of the longitudinal axis opposite the first end. The pivotal couplings allow the outboard gimbal plate to move relative to the inboard gimbal plate and preventing relative rotation between the outboard gimbal plate and the inboard gimbal plate. Counterweight is coupled to at least one of the links on the opposite side of the inboard gimbal plate from the outboard gimbal plate. | 05-13-2010 |
20100116081 | ROBOTIC LINKAGE - Methods and apparatus for manufacturing and controlling an elongate robotic instrument, or robotic endoscope, are provided which may include any number of features. One feature is a robotic link that can be easily manufactured and can withstand the forces related to use within a robotic instrument. Another feature is a joint on the link that increases compressive strength and minimizes stress between links. Yet another feature is an elongate robotic instrument that is constructed from a single type of link. | 05-13-2010 |
20100116080 | ROBOTIC LINKAGE - Methods and apparatus for manufacturing and controlling an elongate robotic instrument, or robotic endoscope, are provided which may include any number of features. One feature is a robotic link that can be easily manufactured and can withstand the forces related to use within a robotic instrument. Another feature is a joint on the link that increases compressive strength and minimizes stress between links. Yet another feature is an elongate robotic instrument that is constructed from a single type of link. | 05-13-2010 |
20100082039 | METHOD FOR GRAPHICALLY PROVIDING CONTINUOUS CHANGE OF STATE DIRECTIONS TO A USER OF A MEDICAL ROBOTIC SYSTEM - Continuous change of state directions are graphically provided on a display screen to assist a user in performing necessary action(s) for transitioning between operating modes in a medical robotic system or performing corrective action. A graphical representation of a target state of an element of the medical robotic system is displayed on a display screen viewable by the user. Current states of the element and indications directing the user to manipulate the element towards the target state are continuously determined and graphical representations of the continuously determined current states and indications are displayed on the display screen along with that of the target state. | 04-01-2010 |
20100080669 | Operator Input Device for a Robotic Surgical System - An input device for a robotic surgical instrument includes an operator input on a handle that is rotatably supported by a supporting link structure. A primary winding of a rotary transformer is fixed to the supporting link structure and connected to an electric power source. A secondary winding is fixed to the handle. An axial passage extends through the primary and secondary windings. An optical data transmitter is connected to the operator input to transmit data from the operator input through the axial passage. The secondary transformer winding provides power to the optical data transmitter without physical contact. An optical data receiver fixed to the supporting link structure receives data from the optical data transmitter transmitted through the axial passage in the rotary transformer without physical contact. The transmission of power and data without physical contact allows the handle to rotate continuously. | 04-01-2010 |
20100026456 | Identification of Surgical Instrument Attached to Surgical Robot - A radio frequency identification (RFID) tag is embedded on a surgical instrument and a radio frequency identification (RFID) reader is provided on a surgical robot to allow identification of the attached surgical instrument. The RFID tag includes an RFID circuit assembly, a first pot core half, and a first toroidal wire coil that fits within the first pot core half and is electrically coupled to the RFID circuit assembly to modulate received radio frequency (RF) energy. The RFID reader includes an RFID transceiver circuit, a second pot core half, and a second toroidal wire coil that fits within the second pot core half and is electrically coupled to the transceiver circuit to transmit RF energy and receive modulated RF energy from the first wire coil only when the first pot core half is substantially aligned with and proximate to the second pot core half. | 02-04-2010 |
20100016853 | BIPOLAR CAUTERY INSTRUMENT - A cautery instrument includes a brush-type contact providing a sliding electrical connection to a jaw of the instrument. To provide isolation, the jaws may have ends in cavities in a clevis made of an insulating material. Non-conducting drive cables can be attached to the jaws using high friction paths that prevent or resist slippage of the cables relative to the jaws. | 01-21-2010 |
20100016852 | MEDICAL INSTRUMENT ELECTRONICALLY ENERGIZED USING DRIVE CABLES - An electrically energized medical instrument uses one or more drive cables to both actuate mechanical components of a wrist mechanism or an effector and to electrically energize the effector. Electrical isolation can be achieved using an insulating main tube through which drive cables extend from a backend mechanism to the effector, an insulating end cover that leaves only the desired portions of the effector exposed, and one or more seals to prevent electrically conductive liquid from entering the main tube. Component count and cost may be further reduced using a pair of pulleys that are shared by four drive cables. | 01-21-2010 |
20100011901 | FOUR-CABLE WRIST WITH SOLID SURFACE CABLE CHANNELS - A wrist mechanism for an instrument used in minimally invasive medical procedures employs only four drive cables for control of the pitch, yaw, and grip of an effector. To reduce part count, no pulleys are used. Instead, solid surfaces of devises in the wrist mechanism cradle the drive cables and are curved in multiple directions to maintain a fixed moment arm for cable torques and eliminate the need for large cable wrap angles. Further, the stiffness of each of the four drive cables can be controlled for improved clinical performance. In particular, the stiffness of the two drive cables that cause grips to close can be greater than the stiffness of the remaining two drive cables that cause the grips to open. The arrangement can minimize cable slack, improving fidelity of motion. | 01-21-2010 |
20100011900 | BACKEND MECHANISM FOR FOUR-CABLE WRIST - A transmission or backend mechanism for a medical instrument connects four cables to three motorized degrees of freedom. The transmission employs a first drive mechanism attached to first and second cables and a second drive mechanism attached to third and fourth cables, where each mechanism can include a capstan or a lever system that pulls in one cable while simultaneously feeding out another cables. A third drive mechanism has a first pivot about which a portion of the first drive mechanism rotates, a second pivot about which a portion of the second drive mechanism rotates, and a third pivot about which the third drive mechanism rotates. Rotation of the third drive mechanism about the third pivot pulls in at least one of the first and second cables and feeds out at least one of the third and fourth cables. | 01-21-2010 |
20100004663 | SURGICAL INSTRUMENT WRIST - A link is positioned to pivot at the distal end of a surgical instrument shaft. The link includes a pulley portion. A first control cable that pivots the link in one direction extends out of the surgical instrument shaft and crosses the width of the instrument in a first crossing direction. The first control cable is then routed around the pulley portion of the link in a first circumferential direction. Similarly, a second control cable that pivots the link in the opposite direction extends out of the surgical instrument shaft and crosses the width of the instrument in a second crossing direction. The second control cable is then routed around the pulley portion of the link in a second circumferential direction that is opposite the first circumferential direction. | 01-07-2010 |
20090326557 | FRICTION COMPENSATION IN A MINIMALLY INVASIVE SURGICAL APPARATUS - Devices, systems, and methods for compensate for friction within powered automatic systems, particularly for telesurgery and other telepresence applications. Dynamic friction compensation may comprise applying a continuous load in the direction of movement of a joint, and static friction compensation may comprise applying alternating loads in positive and negative joint actuation directions whenever the joint velocity reading falls within a low velocity range. | 12-31-2009 |
20090326556 | MEDICAL ROBOTIC SYSTEM PROVIDING COMPUTER GENERATED AUXILIARY VIEWS OF A CAMERA INSTRUMENT FOR CONTROLLING THE POSITIONING AND ORIENTING OF ITS TIP - A medical robotic system includes an entry guide with surgical tools and a camera extending out of its distal end. To supplement the view provided by an image captured by the camera, an auxiliary view including articulatable arms of the surgical tools and/or camera is generated from sensed or otherwise determined information about their positions and orientations and displayed on a display screen from the perspective of a specified viewing point. Intuitive control is provided to an operator with respect to the auxiliary view while the operator controls the positioning and orienting of the camera. | 12-31-2009 |
20090326553 | MEDICAL ROBOTIC SYSTEM PROVIDING AN AUXILIARY VIEW OF ARTICULATABLE INSTRUMENTS EXTENDING OUT OF A DISTAL END OF AN ENTRY GUIDE - A medical robotic system includes an entry guide with surgical tools and a camera extending out of its distal end. To supplement the view provided by an image captured by the camera, an auxiliary view including articulatable arms of the surgical tools and/or camera is generated from sensed or otherwise determined information about their positions and orientations and displayed on a display screen from the perspective of a specified viewing point. | 12-31-2009 |
20090326552 | MEDICAL ROBOTIC SYSTEM HAVING ENTRY GUIDE CONTROLLER WITH INSTRUMENT TIP VELOCITY LIMITING - A medical robotic system includes an entry guide with articulatable instruments extending out of its distal end, an entry guide manipulator providing controllable four degrees-of-freedom movement of the entry guide, and a controller configured to limit joint velocities in the entry guide manipulator so as to prevent movement of tips of the articulatable instruments from exceeding a maximum allowable linear velocity when the entry guide manipulator is being used to move the entry guide. | 12-31-2009 |
20090326530 | VESSEL SEALING INSTRUMENT WITH STEPPED JAW - A vessel sealer has a stepped jaw that allows the jaw to have an overall shape and a width that provides desired strength, shape, and functionality while permitting a smaller raised portion to apply the sealing pressure. The smaller area applying the sealing pressure allows an actuating mechanism to apply a clinically desired sealing pressure without exceeding the force or torque limitations of the actuating mechanism and can limit thermal spread during a sealing procedure. | 12-31-2009 |
20090326322 | MEDICAL ROBOTIC SYSTEM WITH IMAGE REFERENCED CAMERA CONTROL USING PARTITIONABLE ORIENTATIONAL AND TRANSLATIONAL MODES - A medical robotic system includes an entry guide with articulatable instruments such as surgical tools and a camera extending out of its distal end. The camera instrument is manipulatable by a camera manipulator, which has a first mechanism for pivoting a focal point of the camera instrument about a pivot of the camera instrument and a second mechanism for positioning the pivot within a three-dimensional space in response to translational commands received from one or a coupled pair of input devices. The system also includes a controller which is configured to receive sensed movement of the input devices, and cause actuation of the first mechanism in response to the sensed movement if the system is in an orientational mode and cause actuation of the second mechanism in response to the sensed movement if the system is in a translational mode. | 12-31-2009 |
20090326318 | MEDICAL ROBOTIC SYSTEM PROVIDING AN AUXILARY VIEW INCLUDING RANGE OF MOTION LIMITATIONS FOR ARTICULATABLE INSTRUMENTS EXTENDING OUT OF A DISTAL END OF AN ENTRY GUIDE - A medical robotic system includes an entry guide with surgical tools and a camera extending out of its distal end. To supplement the view provided by an image captured by the camera, an auxiliary view including articulatable arms of the surgical tools and/or camera is generated from sensed or otherwise determined information about their positions and orientations are displayed along with indications of range of motion limitations on a display screen from the perspective of a specified viewing point. | 12-31-2009 |
20090324161 | FIBER OPTIC SHAPE SENSOR - A shape sensing system to determine the position and orientation of one link with respect to another link in a kinematic chain. An optical fiber is coupled to two or more links in a kinematic chain. A shape sensing segment is defined to start at a proximal link and to end at a distal link, crossing one or more joints. A reference frame is defined at the start of the shape sensing segment. As the joints move, an interrogator senses strain in the shape sensing segment. The sensed strain is used to output a Cartesian position and orientation of the end of the shape sensing segment with respect to the reference frame defined at the start of the shape sensing segment. The pose of the kinematic chain is determined from the Cartesian positions and orientations of one or more shape sensing segments defined for the kinematic chain and from an a priori model and constraints of the kinematic chain. | 12-31-2009 |
20090324160 | FIXTURE FOR SHAPE-SENSING OPTICAL FIBER IN A KINEMATIC CHAIN - Localized strain is effectively eliminated in a shape sensing optical fiber where the fiber exits a link in a kinematic chain. In one aspect, the fiber is positioned in a channel within a fiber fixture portion of the link, and a surface of a lip of the channel is curved. The curved surface of the lip begins tangent to a wall of the channel and has a maximum radius of curvature that is less than the minimum bend radius that the fiber will experience during shape sensing. In another aspect the fiber is positioned within a shape memory alloy tube that extends from the link. | 12-31-2009 |
20090322001 | Spring Counterbalance with Failure Detection - A spring counterbalance mechanism balances a load with a spring. A cable has a protrusion fixed to the cable midway between two ends of the cable. The two free ends of the cable are fixedly coupled to one of the load or the spring, and a cable attachment is coupled to the remaining member. The cable passes through the cable attachment such that the protrusion is captive in the cable attachment and is movable between two stops in the cable attachment. The cable forms two segments each of which couples the spring to the load. The two segments of the cable pass over a pulley. A sensor coupled to the pulley senses rotation of the pulley allowing cable breakage to be detected by the anomalous rotation of the pulley. | 12-31-2009 |
20090314131 | Spring Counterbalance for Rotating Load - A counterbalance mechanism counterbalances an eccentric mass on a rotating shaft supported by a frame. A first pulley is coupled to and concentric with the shaft. An arm is coupled to the shaft to rotatably support a second at a first distance from the first pulley. A third pulley is fixedly coupled to the frame at a second distance from the first pulley. A fourth pulley is rotatably coupled to and concentric with the third pulley. A spring is fixed at a first end to the frame and has a second end that is coupled to the fourth pulley such that the spring provides a restoring force as the fourth pulley is rotated. A first cable has a first end that is coupled to the fourth pulley and a second end that is coupled to the frame through the third pulley after passing over the first and second pulleys. | 12-24-2009 |
20090299343 | STIFFENING ASSEMBLY - A stiffenable structure is made of longitudinal beams that are positioned around a longitudinal axis. In one state, the longitudinal beams are bendable so that the structure is bendable. As the structure bends, the longitudinal beams slide longitudinally with reference to one another. In a second state, the beams are clamped in a fixed position relative to one another so that the structure is stiffened. In some aspects the longitudinal beams are made of two or more longitudinal laminar elements. As each beam bends, the laminar elements slide longitudinally with reference to one another. Each beam, and accordingly the structure, is stiffened by preventing the laminar elements from sliding longitudinally relative to one another. | 12-03-2009 |
20090292299 | OFFSET REMOTE CENTER MANIPULATOR FOR ROBOTIC SURGERY - Medical, surgical, and/or robotic devices and systems often including offset remote center parallelogram manipulator linkage assemblies which constrains a position of a surgical instrument during minimally invasive robotic surgery are disclosed. The improved remote center manipulator linkage assembly advantageously enhances the range of instrument motion while at the same time reduces the overall complexity, size, and physical weight of the robotic surgical system. | 11-26-2009 |
20090270683 | ENDOSCOPE - Improved optical devices and methods transmit optical images along elongate optical paths with relatively limited cross-sectional dimensions using an improved objective, relay, and ocular systems. In a first aspect, at least one intermediate image formed within an optical component, rather than being formed in a gap between optical components. In a preferred embodiment, a first intermediate image is formed within glass of the most proximal objective lens, with the first intermediate image extending axially along a curved image location within the glass. The last intermediate image may similarly be disposed within a distal lens of the ocular system. By making use of a first and/or last intermediate image disposed in this manner within a lens, endoscopes can exhibit a significantly larger Numerical Aperture than known endoscopes having similar cross-sectional dimensions. In a second aspect, the ocular system allows independent adjustment of diopters, magnification, X-Y positioning, and rotation orientation of the captured image while introducing minimal aberrations. | 10-29-2009 |
20090270678 | AUGMENTED STEREOSCOPIC VISUALIZATION FOR A SURGICAL ROBOT USING TIME DUPLEXING - An endoscope with a stereoscopic optical channel is again held and positioned by a robotic surgical system. A capture unit captures (1) at a first time, a first image from light from the channel; and (2) at a second time different from the first time, a second image from the light. Only one of the first image and the second image includes a combination of a fluorescence image and a visible image. The other of the first image and the second image is a visible image. An intelligent image processing system generates an artificial fluorescence image using the captured fluorescence image. An augmented stereoscopic display system outputs an augmented stereoscopic image of at least a portion of the tissue comprising the artificial fluorescence image. | 10-29-2009 |
20090268015 | AUGMENTED STEREOSCOPIC VISUALIZATION FOR A SURGICAL ROBOT - A robotic surgical system positions and holds an endoscope. A visible imaging system is coupled to the endoscope. The visible imaging system captures a visible image of tissue. An alternate imaging system is also coupled to the endoscope. The alternate imaging system captures a fluorescence image of at least a portion of the tissue. A stereoscopic video display system is coupled to the visible imaging system and to the alternate imaging system. The stereoscopic video display system outputs a real-time stereoscopic image comprising a three-dimensional presentation of a blend of a fluorescence image associated with the captured fluorescence image, and the visible image. | 10-29-2009 |
20090268012 | AUGMENTED STEREOSCOPIC VISUALIZATION FOR A SURGICAL ROBOT USING A CAPTURED VISIBLE IMAGE COMBINED WITH A FLUORESCENCE IMAGE AND A CAPTURED VISIBLE IMAGE - An endoscope with a stereoscopic optical channel is held and positioned by a robotic surgical system. A capture unit captures (1) a visible first image and (2) a visible second image combined with a fluorescence second image from the light. An intelligent image processing system receives (1) the visible first image and (2) the visible second image combined with the fluorescence second image and generates at least one fluorescence image of a stereoscopic pair of fluorescence images and a visible second image. An augmented stereoscopic display system outputs a real-time stereoscopic image including a three-dimensional presentation including in one eye, a blend of the at least one fluorescence image of a stereoscopic pair of fluorescence images and one of the visible first and second images; and in the other eye, the other of the visible first and second images. | 10-29-2009 |
20090268011 | AUGMENTED STEREOSCOPIC VISUALIZATION FOR A SURGICAL ROBOT USING A CAMERA UNIT WITH A MODIFIED PRISM - An endoscope with a stereoscopic optical channel is held and positioned by a robotic surgical system. A first capture unit captures: a visible first color component of a visible left image combined with a fluorescence left image from first light from one channel in the endoscope; a visible second color component of the visible left image from the first light; and a visible third color component of the visible left image from the first light. A second capture unit captures: a visible first color component of a visible right image combined with a fluorescence right image from second light from the other channel in the endoscope; a visible second color component of the visible right image from the second light; and a visible third color component of the visible right image from the second light. An augmented stereoscopic outputs a real-time stereoscopic image including a three-dimensional presentation including the visible left and right images and the fluorescence left and right images. | 10-29-2009 |
20090268010 | AUGMENTED STEREOSCOPIC VISUALIZATION FOR A SURGICAL ROBOT USING A CAPTURED FLUORESCENCE IMAGE AND CAPTURED STEREOSCOPIC VISIBLE IMAGES - An illumination channel, a stereoscopic optical channel and another optical channel are held and positioned by a robotic surgical system. A first capture unit captures a stereoscopic visible image from the first light from the stereoscopic optical channel while a second capture unit captures a fluorescence image from the second light from the other optical channel. An intelligent image processing system receives the captured stereoscopic visible image and the captured fluorescence image and generates a stereoscopic pair of fluorescence images. An augmented stereoscopic display system outputs a real-time stereoscopic image comprising a three-dimensional presentation of a blend of the stereoscopic visible image and the stereoscopic pair of fluorescence images. | 10-29-2009 |
20090248043 | MECHANICAL ACTUATOR INTERFACE SYSTEM FOR ROBOTIC SURGICAL TOOLS - Robotic surgical tools, systems, and methods for preparing for and performing robotic surgery include a memory mounted on the tool. The memory can perform a number of functions when the tool is loaded on the tool manipulator: first, the memory can provide a signal verifying that the tool is compatible with that particular robotic system. Secondly, the tool memory may identify the tool-type to the robotic system so that the robotic system can reconfigure its programming. Thirdly, the memory of the tool may indicate tool-specific information, including measured calibration offsets indicating misalignment of the tool drive system, tool life data, or the like. This information may be stored in a read only memory (ROM), or in a nonvolatile memory which can be written to only a single time. The invention further provides improved engagement structures for coupling robotic surgical tools with manipulator structures. | 10-01-2009 |
20090248041 | ROBOTIC SURGICAL TOOLS FOR LASER MARKING AND LASER CUTTING - In one embodiment of the invention, a robotic surgical system includes a combined laser imaging robotic surgical tool, a control console, and a laser generator/controller. The tool is mounted to a first robotic arm of a patient side cart. The tool has a wristed joint and an end effector coupled together. The end effector has a laser-emitting device to direct a laser beam onto tissue in a surgical site and an image-capturing device to capture images of the tissue in the surgical site. The control console, in communication with the tool, receives the captured images of tissue in the surgical site and displays the captured images on a display device to a user. The laser generator/controller is coupled to the tool and the control console to control the emission of the laser beam onto tissue of the surgical site. | 10-01-2009 |
20090248040 | Coupler to Transfer Controller Motion from a Robotic Manipulator to an Attached Instrument - A coupler to provide controller motion from a robotic manipulator includes a pin having a tip with a spherical bearing surface and a plate supported on the spherical bearing surface of the pin with two degrees of rotational freedom about the center of the spherical bearing surface. The plate has a back surface and an opposing driving surface that bears against a first surface of an inner gimbal of a gimbal assembly of a driven device. The plate includes a pin receiving portion that extends outwardly from the driving surface and away from the back surface. The pin receiving portion includes a spherical receiving surface to receive the spherical bearing surface of the pin. The spherical bearing surface is located at a distance above the driving surface such that the center of the spherical bearing surface coincides with an intersection of the gimbal assembly axes of the driven device. | 10-01-2009 |
20090248039 | Sterile Drape Interface for Robotic Surgical Instrument - A robotic surgical system includes a sterile surgical instrument, a robotic surgical manipulator, and a sterile drape covering at least a portion of the robotic surgical manipulator. The surgical instrument has a proximal interface and a distal end effector. The proximal interface includes a gimbal assembly with two intersecting rotational axes coupled to the distal end effector. The robotic surgical manipulator has a drive plate that bears against the gimbal assembly. The drive plate has two degrees of rotational freedom about a center of motion that is coincident with an intersection of the axes of the gimbal assembly. The sterile drape includes a sterile sheet covers at least a portion of the robotic surgical manipulator, a frame bonded to the sterile sheet, an instrument interface that covers the drive plate of the robotic surgical manipulator, and a diaphragm that connects the instrument interface to the frame. | 10-01-2009 |
20090248037 | MEDICAL ROBOTIC SYSTEM ADAPTED TO INHIBIT MOTIONS RESULTING IN EXCESSIVE END EFFECTOR FORCES - A medical robotic system includes a surgical instrument, a robotic arm assembly, an input device, and a processor. The surgical instrument has an end effector and a sensor for sensing a force exerted by the end effector, and is operatively mounted on the robotic arm assembly. The processor is configured to receive commanded movement of the end effector from the input device, receive information of the force from the sensor, determine a reduced velocity of the commanded movement that would inhibit damage causing motion of the end effector, and control robotic manipulation of the surgical instrument in response to the commanded movement of the end effector while restricting the velocity of the commanded movement to the reduced velocity. | 10-01-2009 |
20090248036 | CONTROLLING A ROBOTIC SURGICAL TOOL WITH A DISPLAY MONITOR - In one embodiment of the invention, a method for controlling a robotic surgical tool is disclosed. The method for controlling a robotic surgical tool includes moving a monitor displaying an image of a robotic surgical tool; sensing motion of the monitor; and translating the sensed motion of the monitor into motion of the robotic surgical tool. | 10-01-2009 |
20090245600 | AUTOMATED PANNING AND DIGITAL ZOOMING FOR ROBOTIC SURGICAL SYSTEMS - In one embodiment of the invention, a digital zoom and panning system for digital video is disclosed including an image acquisition device to capture digital video images; an image buffer to store one or more frames of digital video images as source pixels; a display device having first pixels to display images; a user interface to accept user input including a source rectangle to select source pixels within frames of the digital video images, a destination rectangle to select target pixels within the display device to display images, and a region of interest within the digital video images to display in the destination rectangle; and a digital mapping and filtering device to selectively map and filter source pixels in the region of interest from the image buffer into target pixels of the display device in response to the user input. | 10-01-2009 |
20090200092 | METHODS OF STEERING HEAVY MOBILE MEDICAL EQUIPMENT - Methods for steering mobile medical equipment are disclosed. In one embodiment, the method includes supporting medical equipment with a base above a floor over which a left steerable wheel, a right steerable wheel, and a pair of front wheels roll; receiving an input steering angle other than zero; linearly sweeping a long link in response to the input steering angle, pivoting a pair of short links in response to the linearly sweeping of the long link; pivoting a pair of cam plates in response to the pivoting of the pair of short links; transferring the pivoting of one of the pair of cam plates to a left wheel assembly to position the left steerable wheel at a left wheel angle; and transferring the pivoting of another one of the pair of cam plates to a right wheel assembly to position the right steerable wheel at a right wheel angle. | 08-13-2009 |
20090199674 | STEERING SYSTEM WITH PARALLELOGRAM LINKAGE FOR HEAVY MOBILE MEDICAL EQUIPMENT - In one embodiment of the invention, a steering system for mobile medical equipment includes left and right steerable wheel assemblies respectively with left and right steerable wheels. A left parallelogram linkage couples to the left steerable wheel assembly to transfer a left wheel angle to the left steerable wheel assembly. A right parallelogram linkage couples to the right steerable wheel assembly to transfer a right wheel angle to the right steerable wheel assembly. A steering function generator couples to the left parallelogram linkage and the right parallelogram linkage. The steering function generator generates the left wheel angle of the left steerable wheel and the right wheel angle of the right steerable wheel. A steering tiller couples to the steering function generator and receives an input steering angle from an operator to generate the left and right wheel angles to control the direction of the mobile medical equipment around flooring. | 08-13-2009 |
20090192524 | SYNTHETIC REPRESENTATION OF A SURGICAL ROBOT - A synthetic representation of a robot tool for display on a user interface of a robotic system. The synthetic representation may be used to show the position of a view volume of an image capture device with respect to the robot. The synthetic representation may also be used to find a tool that is outside of the field of view, to display range of motion limits for a tool, to remotely communicate information about the robot, and to detect collisions. | 07-30-2009 |
20090192523 | SYNTHETIC REPRESENTATION OF A SURGICAL INSTRUMENT - A synthetic representation of a tool for display on a user interface of a robotic system. The synthetic representation may be used to show force on the tool, an actual position of the tool, or to show the location of the tool when out of a field of view. A three-dimensional pointer is also provided for a viewer in the surgeon console of a telesurgical system. | 07-30-2009 |
20090192522 | FORCE SENSOR TEMPERATURE COMPENSATION - In one embodiment, a force sensor apparatus is provided including a tube portion having a plurality of radial ribs and at least one fiber optic strain gauge positioned over each rib of the plurality of radial ribs. The strain gauges are comprised of a negative thermo-optic coefficient optical fiber material in one embodiment. A proximal end of the tube portion is operably couplable to a shaft of a surgical instrument that is operably couplable to a manipulator arm of a robotic surgical system, and a distal end of the tube portion is proximally couplable to a wrist joint coupled to an end effector. In another embodiment, adjacent fiber optic strain gauges with differing thermal responses are used to solve simultaneous equations in strain and temperature to derive strain while rejecting thermal effects. In yet another embodiment, a thermal shunt shell is over an outer surface of the tube portion. An advantageous surgical instrument having improved temperature compensation is also provided. | 07-30-2009 |
20090171372 | MEDICAL DEVICE WITH ORIENTABLE TIP FOR ROBOTICALLY DIRECTED LASER CUTTING AND BIOMATERIAL APPLICATION - A medical device used in a medical robotic system has a conduit and an orientable tip. An optical fiber coupled to a laser source and/or a catheter coupled to one or more biomaterial sources extends through the conduit and tip so that the tip of the medical device may be robotically directed towards a target tissue for laser and/or biomaterial application as part of a medical procedure performed at a surgical site within a patient. A protective sheath covers the fiber as it extends through the conduit and tip. A first coupler adjustably secures at least the sheath to the medical device and a second coupler adjustably secures the fiber to at least the sheath. A similar dual coupler mechanism may be used to secure the sheathed catheter to the medical device. | 07-02-2009 |
20090171371 | MEDICAL ROBOTIC SYSTEM WITH FUNCTIONALITY TO DETERMINE AND DISPLAY A DISTANCE INDICATED BY MOVEMENT OF A TOOL ROBOTICALLY MANIPULATED BY AN OPERATOR - A medical robotic system has functionality to determine and display information of a distance indicated by movement of one or more tools being robotically manipulated by an operator. The distance is determined using sensed robotic manipulation of the one or more tools. Information of the distance is displayed on the monitor so as to be visually associated with the movement and/or positions of the tools, such as a virtual tape measure that extends along with or between images of the one or more tools on the monitor or as a virtual ruler with the distance being indicated by a pointer. Alternatively, information of the distance may simply be indicated on a digital read-out shown on the monitor that is displayed and continually updated with the movement of the one or more tools. | 07-02-2009 |
20090171332 | MEDICAL DEVICE WITH ORIENTABLE TIP FOR ROBOTICALLY DIRECTED LASER CUTTING AND BIOMATERIAL APPLICATION - A medical device used in a medical robotic system has a conduit and an orientable tip. An optical fiber coupled to a laser source and/or a catheter coupled to one or more biomaterial sources extends through the conduit and tip so that the tip of the medical device may be robotically directed towards a target tissue for laser and/or biomaterial application as part of a medical procedure performed at a surgical site within a patient. A protective sheath covers the fiber as it extends through the conduit and tip. A first coupler adjustably secures at least the sheath to the medical device and a second coupler adjustably secures the fiber to at least the sheath. A similar dual coupler mechanism may be used to secure the sheathed catheter to the medical device. | 07-02-2009 |
20090099692 | MEDICAL ROBOTIC SYSTEM WITH SLIDING MODE CONTROL - A medical robotic system has a joint coupled to medical device or a slave manipulator or robotic arm adapted to hold and/or move the medical device for performing a medical procedure, and a control system for controlling movement of the joint according to user manipulation of a master manipulator. The control system includes at least one joint controller having a sliding mode control for reducing stick-slip behavior on its controlled joint during fine motions of the joint. The sliding mode control computes a distance to a sliding surface, computes a reaching law gain, and processes the distance and reaching law gain to generate a sliding mode control action that is in absolute value less that a maximum desired feedback control action. The sliding mode control action is then further processed to generate a feedback torque command for the joint motor. | 04-16-2009 |
20090099576 | MINIMALLY INVASIVE SURGICAL TRAINING USING ROBOTICS AND TELECOLLABORATION - A medical system that allows a mentor to teach a pupil how to use a robotically controlled medical instrument. The system may include a first handle that can be controlled by a mentor to move the medical instrument. The system may further have a second handle that can be moved by a pupil to control the same instrument. Deviations between movement of the handles by the mentor and the pupil can be provided as force feedback to the pupil and mentor handles. The force feedback pushes the pupil's hand to correspond with the mentor's handle movement. The force feedback will also push the mentor's hand to provide information to the mentor on pupil's movements. The mentor is thus able to guide the pupil's hands through force feedback of the pupil handles to teach the pupil how to use the system. | 04-16-2009 |
20090099520 | Methods of fluid flow control with robotic surgical instruments for irrigation, aspiration, and blowing - In one embodiment of the invention, a first control signal is generated to control a robotic surgical instrument. The first control signal is then coupled into the robotic surgical instrument. In response to the first control signal, a first valve in the robotic surgical instrument is opened to flow a first fluid over a surgical site. | 04-16-2009 |
20090088897 | METHODS AND SYSTEMS FOR ROBOTIC INSTRUMENT TOOL TRACKING - In one embodiment of the invention, a method for a robotic system is disclosed to track one or more robotic instruments. The method includes generating kinematics information for the robotic instrument within a field of view of a camera; capturing image information in the field of view of the camera; and adaptively fusing the kinematics information and the image information together to determine pose information of the robotic instrument. Additionally disclosed is a robotic medical system with a tool tracking sub-system. The tool tracking sub-system receives raw kinematics information and video image information of the robotic instrument to generate corrected kinematics information for the robotic instrument by adaptively fusing the raw kinematics information and the video image information together. | 04-02-2009 |
20090088773 | METHODS OF LOCATING AND TRACKING ROBOTIC INSTRUMENTS IN ROBOTIC SURGICAL SYSTEMS - In one embodiment of the invention, a method is disclosed to locate a robotic instrument in the field of view of a camera. The method includes capturing sequential images in a field of view of a camera. The sequential images are correlated between successive views. The method further includes receiving a kinematic datum to provide an approximate location of the robotic instrument and then analyzing the sequential images in response to the approximate location of the robotic instrument. An additional method for robotic systems is disclosed. Further disclosed is a method for indicating tool entrance into the field of view of a camera. | 04-02-2009 |
20090088634 | TOOL TRACKING SYSTEMS AND METHODS FOR IMAGE GUIDED SURGERY - In one embodiment of the invention, a tool tracking system is disclosed including a computer usable medium having computer readable program code to receive images of video frames from at least one camera and to perform image matching of a robotic instrument to determine video pose information of the robotic instrument within the images. The tool tracking system further includes computer readable program code to provide a state-space model of a sequence of states of corrected kinematics information for accurate pose information of the robotic instrument. The state-space model receives raw kinematics information of mechanical pose information and adaptively fuses the mechanical pose information and the video pose information together to generate the sequence of states of the corrected kinematics information for the robotic instrument. Additionally disclosed are methods for image guided surgery. | 04-02-2009 |
20090084216 | Multiaxis Counterbalance and Positioning System Using a Spatial Linkage - A spatial linkage including an inboard gimbal plate that provides a ground for the spatial linkage, an outboard gimbal plate, and three links that couple the outboard gimbal plate to the inboard gimbal plate. Each link has a longitudinal axis and two pivotal couplings disposed at opposite ends of the longitudinal axis. Each link is pivotally coupled to the outboard gimbal plate at a first end of the longitudinal axis and pivotally coupled to the inboard gimbal plate at a second end of the longitudinal axis opposite the first end. The pivotal couplings allow the outboard gimbal plate to move relative to the inboard gimbal plate and preventing relative rotation between the outboard gimbal plate and the inboard gimbal plate. | 04-02-2009 |
20090062813 | MEDICAL ROBOTIC SYSTEM WITH DYNAMICALLY ADJUSTABLE SLAVE MANIPULATOR CHARACTERISTICS - A slave manipulator manipulates a medical device in response to operator manipulation of an input device through joint control systems. The stiffness and strength of the slave manipulator are adjustable according to criteria such as the mode of operation of the slave manipulator, the functional type of the medical device currently being held by the slave manipulator, and the current phase of a medical procedure being performed using the slave manipulator by changing corresponding parameters of the control system. For safety purposes, such changes are not made until it is determined that it can be done in a smooth manner without causing jerking of the medical device. Further, an excessive force warning may be provided to surgery staff when excessive forces are being commanded on the slave manipulator for more than a specified period of time. | 03-05-2009 |
20090036902 | INTERACTIVE USER INTERFACES FOR ROBOTIC MINIMALLY INVASIVE SURGICAL SYSTEMS - In one embodiment of the invention, a method for a minimally invasive surgical system is disclosed. The method includes capturing and displaying camera images of a surgical site on at least one display device at a surgeon console; switching out of a following mode and into a masters-as-mice (MaM) mode; overlaying a graphical user interface (GUI) including an interactive graphical object onto the camera images; and rendering a pointer within the camera images for user interactive control. In the following mode, the input devices of the surgeon console may couple motion into surgical instruments. In the MaM mode, the input devices interact with the GUI and interactive graphical objects. The pointer is manipulated in three dimensions by input devices having at least three degrees of freedom. Interactive graphical objects are related to physical objects in the surgical site or a function thereof and are manipulatable by the input devices. | 02-05-2009 |
20080312668 | RIGIDLY-LINKED ARTICULATING WRIST WITH DECOUPLED MOTION TRANSMISSION - The present invention is a device having a rigidly linked jaw that is decoupled from an articulating wrist. The device provides for articulating motion as well as actuation that may be used in grasping, cutting, suturing or the like. | 12-18-2008 |
20080255585 | Resiliently deformable tool guide for use in minimally invasive telesurgical system - A tool guide for guiding an end effector of a robotically controlled surgical instrument from a position outside a patient body to a position in close proximity to an internal surgical site within the patient body is provided. The tool guide typically comprises a body, a seat formation on the body, the seat formation being arranged to seat in an aperture leading into the patient body so as to mount the tool guide on the patient body, and a sheath formation on the body. The sheath formation typically defines a longitudinally extending internal passage, an inlet leading into the passage and an outlet leading from the passage. The sheath formation is arranged to cooperate with the seat formation such that when the seat formation is seated in the aperture, the outlet of the sheath formation can be positioned in close proximity to the internal surgical site thereby to enable the end effector to be guided to a position in close proximity to the surgical site by passing it through the inlet, along the passage and out from the outlet, so as to emerge from the outlet at the position in close proximity to the internal surgical site. | 10-16-2008 |
20080228196 | SURGICAL ROBOTIC SYSTEM FOR PERFORMING MINIMALLY INVASIVE SURGICAL PROCEDURES - The system includes a pair of surgical instruments that are coupled to a pair of robotic arms. The instruments have end effectors that can be manipulated to hold and suture tissue. The robotic arms are coupled to a pair of master handles by a controller. The handles can be moved by the surgeon to produce a corresponding movement of the end effectors. The movement of the handles is scaled so that the end effectors have a corresponding movement that is different, typically smaller, than the movement performed by the hands of the surgeon. The scale factor is adjustable so that the surgeon can control the resolution of the end effector movement. The movement of the end effector can be controlled by an input button, so that the end effector only moves when the button is depressed by the surgeon. The input button allows the surgeon to adjust the position of the handles without moving the end effector, so that the handles can be moved to a more comfortable position. The system may also have a robotically controlled endoscope which allows the surgeon to remotely view the surgical site. A cardiac procedure can be performed by making small incisions in the patient's skin and inserting the instruments and endoscope into the patient. The surgeon manipulates the handles and moves the end effectors to perform a cardiac procedure such as a coronary artery bypass graft. | 09-18-2008 |
20080221732 | TOOL MEMORY-BASED SOFTWARE UPGRADES FOR ROBOTIC SURGERY - Robotic devices, systems, and methods for use in robotic surgery and other robotic applications, and/or medical instrument devices, systems, and methods includes both a reusable processor and a limited-use robotic tool or medical treatment probe. A memory the limited-use component includes machine readable code with data and/or programming instructions to be implemented by the processor. Programming of the processor can be updated by shipping of new data once downloaded by the processor from a component, subsequent components can take advantage of the updated processor without repeated downloading. | 09-11-2008 |
20080221731 | Method for operating a medical robotic system by stopping movement of a surgical instrument about a pivot point or issuing a warning if the pivot point moves beyond a thershold value - A system for performing minimally invasive cardiac procedures. The system includes a pair of surgical instruments that are coupled to a pair of robotic arms. The instruments have end effectors that can be manipulated to hold and suture tissue. The robotic arms are coupled to pair of master handles by a controller. The handles can be moved by the surgeon to produce a corresponding movement of the end effectors. The controller controls and limits movement of robotic arms relative to the patient. | 09-11-2008 |
20080221590 | APPARATUS FOR POSITIONING AND HOLDING IN PLACE A MANUALLY MANIPULATED MEDICAL DEVICE DURING THE PERFORMANCE OF A ROBOTICALLY ASSISTED MEDICAL PROCEDURE - An apparatus includes two clamp assemblies on opposing sides of an operating table. A cross bar is attached to the assemblies and extends across a lowered leg section of the table. A pivot joint is coupled to the cross bar, a first linkage couples the pivot joint to a first ball joint, a second linkage couples the first ball joint to a second ball joint, and a medical device is coupled to the second ball joint through an adapter. Each joint has a spring mechanism resisting its movement and a hydraulic cylinder to allow its movement. Depression of a foot pedal actuates all hydraulic cylinders so that an operator may position the medical device by moving the pivot joint and attached first linkage rotationally about and directionally along the cross bar, the second linkage rotationally about the first ball joint, and the medical device rotationally about the second ball joint. | 09-11-2008 |