Entries |
Document | Title | Date |
20080200941 | Rotary surgical instruments having curved cutting teeth - A rotary surgical instrument includes an outer member having an aperture in a distal portion thereof, and an inner member for being rotatably disposed within the outer member to move a cutting element on the inner member past the aperture to cut anatomical tissue. The inner member has an aperture, and the cutting element comprises first and second rows of cutting teeth extending longitudinally along opposite sides of the inner member aperture. Each cutting tooth is convexly curved, the cutting teeth of one row curving in opposition to the cutting teeth of the other row. The rows of cutting teeth have their tips staggered. | 08-21-2008 |
20080208233 | DISPOSABLE VITRECTOMY HANDPIECE - Electric vitrectomy handpieces are provided. The handpiece includes a motor, a clutch mechanism, an oscillating drive mechanism, a cutting tip and a handle. The motor is attached to the clutch, and the clutch is attached to the oscillating drive mechanism. When the motor is operational, the clutch expands to engage the oscillating drive mechanism and the oscillating drive mechanism converts the rotational motion of the clutch to the reciprocating motion of the cutting tip. When the motor is at rest, the clutch retracts to allow aspiration. | 08-28-2008 |
20080234715 | Tissue Extraction and Collection Device - Methods and device for extracting and collecting tissue, which can be used for example in tissue engineering and grafting applications, are disclosed. In one embodiment, a device can include an outer tube. A rotatable shaft can be disposed within the outer tube can have a tissue harvesting tip formed on its distal end, the tissue harvesting tip being effective to excise tissue upon rotation thereof A tissue collection device can be included to receive and collected excised tissue, and the tissue collection device can indicate the amount of tissue collected therein. For example, the tissue collection device can include a straining element which collects excised tissue and an indicator by which to assess the amount of collected tissue. In some embodiments, the tissue collection device can translate to indicate the amount of collected tissue. In many cases, devices disclosed herein can include driving mechanisms that are adapted to drive a tissue harvesting tip such that the tip excises soft tissue, but stops when contacting bone (or soon after contacting bone). In some embodiments, the tissue harvesting tip can be effective to excise viable tissue samples, such that the samples can exhibit desirable proportions of viable cells. Further, in some embodiments, the tissue harvesting tips can excise a tissue sample with tissue particles falling in certain size ranges. | 09-25-2008 |
20080234716 | Apparatus And Method For A High Speed Rotation-To-Rotation Oscillation Converter For Surgical Use - A converter for use in a high speed rotationally oscillating surgical burring device comprises an output shaft, and a rotationally oscillating secondary drive rotor coupled to the output shaft. The secondary drive rotor is arranged and configured with a size and mass to minimize its angular momentum. A unidirectionally rotating primary drive rotor is provided. A linearly reciprocating transmission converts unidirectional rotation to bidirectional rotational oscillation coupling the primary and secondary drive rotors. The transmission is arranged and configured with a size and mass to minimize its linear momentum. An input shaft is coupled to the rotating primary drive rotor to which a unidirectional rotational force is applied. | 09-25-2008 |
20080249552 | Working tool for medical purposes with rotating blade of adjustable size and a method thereof - The present invention relates to a cost effective working tool useful for lateral resection of biological tissues by means of a flexible blade with an adjustable curve size. Said rod-like tool has a distal end, adapted to be inserted into a body cavity, and a proximal end, located adjacent to a user. The longitudinal axis of said maneuverable blade is parallel to the longitudinal axis of the said tool or shifted in respect to the same. The working tool comprising a bending mechanism, adapted to adjust the bending of said blade to a predetermined measure and a rotating mechanism, adapted to rotate said blade in a lateral, bi-directional movement in respect to the resected tissue such that a side-to-side resection is obtained. A novel method of lateral resecting of biological tissues by the same is also presented. | 10-09-2008 |
20080249553 | METHOD, SYSTEM AND DEVICE FOR TISSUE REMOVAL - A method and device for tissue removal. The device may be used to remove uterine fibroids and other abnormal gynecological tissue. According to one embodiment, the device includes a housing, an outer tube, and an inner tube. The outer tube is fixed to the housing and includes a side window proximate to its distal end. The side window may have sloped proximal and distal ends. The inner tube has a distal end positioned within the outer tube, the distal end being adapted to rotate and, at the same time, to move back and forth past the side window, with the rotational and translational movement of the inner tube being independently controllable. The distal end of the inner tube may have an external bevel. Suction is applied to the proximal end of the inner tube to draw tissue into the side window and to remove resected tissue through the inner tube. | 10-09-2008 |
20080287977 | Gear driven knife drive mechanism - A surgical apparatus includes a handle assembly, an elongated body portion defining a first longitudinal axis, a tool assembly pivotally supported on the distal end of the elongated body portion to form a pivot axis, and a flexible drive assembly that includes a flexible drive member extending from a position proximal of the pivot axis to a position distal of the pivot axis. The drive member has a distal end which is movable in relation to the tool assembly and a gear drive assembly to enable movement of the distal end of the flexible drive member. The flexible drive assembly includes a flexible knife drive beam that advances or retracts via a primary drive gear meshing with the flexible knife drive beam to effect movement of the flexible knife drive beam. | 11-20-2008 |
20080319468 | Biopsy device with selectable tissue receiving aperature orientation and site illumination - The invention is directed to a system and device for separating and collecting a tissue specimen from a target site within a patient. The device includes a probe component with an elongated tubular section, a penetrating distal tip and a tissue receiving aperture in the distal end of the tubular section proximal to the distal tip, and a tissue cutting member which is slidably disposed within the probe member to cut a tissue specimen drawn into the interior of the device through the aperture by applying a vacuum to the inner lumen of the tissue cutting member. The device also has a driver component to which the probe component is releasably secured. The driver has a drive member for adjusting the orientation of the tubular section and thus the aperture therein and one or more drive members for moving the tissue cutting member within the tubular section to sever a tissue specimen from tissue extending into the interior of the tubular section through the aperture. The motion imparted to the tissue cutter is at least longitudinal and preferably is also oscillation and/or rotational to effectively separate a tissue specimen from tissue extending through the aperture in the tubular section. | 12-25-2008 |
20090069830 | EYE SURGICAL TOOL - The present invention is directed to a surgical cutting device having a body, a piezoelectric actuator received within and secured to the body and a blade associated with and in communication with the actuator. The actuator is adapted for vibrating at a frequency to produce an oscillating displacement of the blade. A method of operating the surgical cutting device is also provided wherein the cutting device includes an actuator which is adapted for vibrating at a frequency to produce a sinusoidal displacement of the blade in the range of 250-500 μm. | 03-12-2009 |
20090069831 | Surgical Cutting Instrument - A surgical cutting instrument for cutting tissue includes an outer cannula with a cutting opening and a cutting member within the cannula. The cutting member is connected to a source of reciprocation, and as the cutting member reciprocates the cutting member head is guided by a sloped member within the cannula to essentially a zero clearance position relative to a cutting edge of the cutting opening of the cannula. The instrument cleanly severs tissue extending through the cutting opening into the outer cannula. | 03-12-2009 |
20090157111 | End Cutting Vitrectomy Probe - An end-cutting vitrectomy probe | 06-18-2009 |
20090275966 | Flexible inner members having flexible regions comprising a plurality of intertwined helical cuts - A flexible inner member for rotation within an angled outer tubular member of a rotary tissue cutting instrument to cut anatomical tissue includes a flexible region for conforming to the configuration of an angled region of the outer tubular member and formed of a plurality of intertwined helical cuts in a cylindrical wall of a tubular body of the inner member. The helical cuts are congruent but differ by a translation or offset along a central longitudinal or helix axis of the tubular body. The helical cuts result in formation of a plurality of intertwined helical strip members in the cylindrical wall, each having opposed ends unified integrally and unitarily or monolithically with the cylindrical wall. | 11-05-2009 |
20090312779 | Surgical Cutting Instrument With Near-Perimeter Interlocking Coupling Arrangement - A blade coupling mechanism for a hand-held surgical cutting instrument includes a first coupling member including a first blade-contacting surface and a first outer perimeter sidewall adjacent the first blade contacting surface. It also includes a second coupling member including a second blade-contacting surface facing the first blade-contacting surface of the first coupling member. The second coupling member includes a second outer perimeter sidewall adjacent the second blade contacting surface. The second blade-contacting surface and the second outer perimeter sidewall meet to define an outer edge. The second coupling member including a bore through the second blade contacting surface. The bore and the second blade contacting surface meeting to define an inner edge. Blade-engaging protrusions project from at least one of the first and second blade-contacting surfaces. The protrusions are spaced closer to the outer edge than the inner edge. | 12-17-2009 |
20100010526 | Flexible Inner Member Having a Flexible Region Comprising a Labyrinthine Cut - A flexible inner member for rotation within an angled outer tubular member of a rotary tissue cutting instrument to cut anatomical tissue includes a flexible region for conforming to the configuration of an angled region of the outer tubular member and formed of a labyrinthine cut through a cylindrical wall of a tubular body of the inner member. The labyrinthine cut includes a plurality of labyrinthine areas rotationally spaced on the tubular body and in which the labyrinthine cut defines a labyrinth configuration including minor curves of opposed curvature respectively arranged within major curves of opposed curvature, with each of the minor curves being continuous with a major curve of opposed curvature thereto. | 01-14-2010 |
20100145374 | SYSTEM FOR OPERATING AND CONTROLLING A PNEUMATICALLY DRIVEN VITRECTOMY PROBE - A pneumatically driven vitrectomy probe system includes a movable member disposed within a cylinder to define an enclosed pressure chamber, which has an inlet and an outlet. A pressure transducer senses the pressure level within the enclosed pressure chamber, and a valve communicates pressurized air to the inlet of the enclosed pressure chamber based on the pressure level. A displacement device coupled to the movable member extends and retracts the movable member within the enclosed pressure chamber, to respectively increase and decrease the pressure level of pressurized air communicated via the chamber outlet. The pressurized air is communicated to enclosed volume within a pneumatically activated vitrectomy probe, which includes a hollow inner cutting member disposed within the hollow outer member. Upon extension of the displacement member, the resulting increase in pressure level of the pressurized air in the enclosed volume acts against the biasing spring to move the hollow inner cutting member, to cut vitreous material extending within the hollow outer member. | 06-10-2010 |
20100152757 | Spring scissor blade - An endoscopic scissor instrument includes an elongate hollow member having a proximal end and a distal end, an actuator that moves axially through the hollow member, and first and second scissor blades with respective cutting surfaces. At least one of the first and second scissor blades are rotatably coupled to the hollow member adjacent its distal end. At least one of the first and second scissor blades includes a base supporting a resilient leaf-spring portion that includes a respective cutting edge. The resilient leaf-spring portion extends from the base in a cantilevered arrangement along the length of the leaf-spring portion. The cantilevered arrangement of said leaf-spring portion generates a spring force acting on said respective cutting edge such that in a loaded state there is an automatic preload force imparted between the cutting edges of the scissor blades to maintain a consistent and continuous mating force between the two opposed sharpened cutting edges preferably over the complete range of rotational movement of the scissor blades. | 06-17-2010 |
20100152758 | TISSUE REMOVAL DEVICE FOR NEUROSURGICAL AND SPINAL SURGERY APPLICATIONS - A tissue cutting device that is especially suited for neurosurgical applications is disclosed and described. The device includes a handpiece and an outer cannula in which a reciprocating inner cannula is disposed. The inner cannula includes a hinge between a body section and a cutting section that allows the cutting section to pivot when the inner cannula reciprocates within the outer cannula. The inner cannula also includes a bending portion between the proximal end of the inner cannula and the hinge which is bendable with the outer cannula. The device is particularly suited for accessing neurosurgical sites that are not accessible along a linear path. | 06-17-2010 |
20100262175 | MINIMALLY INVASIVE INSTRUMENT AND METHODS TO TREAT PERIODONTAL DISEASE - The invention provides an instrument and methods for minimally invasive surgical scaling and/or planning procedures, thus reducing patient recovery time. Furthermore, the present invention overcomes the shortcoming in the prior art of inadequately preparing the diseased site or creating an aerosol by providing a device that is more mechanically abrasive by way of utilizing a rotational mechanical action of a plurality of bristles. | 10-14-2010 |
20100305596 | NON-LINEAR CUT-RATE MULTIPLIER FOR VITREOUS CUTTER - A non-linear cut-rate multiplier for a vitreous cutter is provided whereby a signal from a host drive system may be multiplied in non-linear fashion to achieve significantly higher cut-rates for the vitreous cutter. Depending upon the cut-rate received from the host drive system, the multiplier may be configured to generate a subsequent cut-rate which is, potentially, linear for lower cut-rates of the host drive system and variably non-linear for higher cut-rates of the host drive system. | 12-02-2010 |
20110034943 | LOW ADVANCE RATIO, HIGH RECIPROCATION RATE TISSUE REMOVAL DEVICE - Disclosed is a tissue removal device having an outer tube with a resection window and an inner tube disposed within the outer tube. The inner tube is slidable and rotatable relative to the outer tube so that the distal end of the inner tube moves back and forth across the resection window to sever tissue extending therethrough. The inner tube may be driven to rotate at a speed of at least about 1100 rpm, to axially translate at a rate of at least about 1.5 cps, and with an advance ratio of no more than about 0.25. The drive system for controlling axial reciprocation and rotation of the inner tube may be totally mechanical. | 02-10-2011 |
20110130780 | ULTRASONIC TISSUE DISSECTOR - An ultrasonic surgical tool has an elongate waveguide ( | 06-02-2011 |
20110190802 | TISSUE REMOVAL DEVICE WITH TISSUE GRIP - A tissue removal device is disclosed. In one arrangement, the tissue removal device comprises a cutting member operatively connected to an actuator assembly and a fixed member. The cutting member is configured to slide with respect to the fixed member in a reciprocating manner. The fixed member includes an upwardly extending foot plate that defines a contact surface that is configured with an uneven texture that serves as a grip to operatively retain material to be cut when the cutting member is moved toward the foot plate. | 08-04-2011 |
20110224709 | METHODS, SYSTEMS AND DEVICES FOR CARPAL TUNNEL RELEASE - Described herein are methods, systems and devices for cutting a ligament of a patient. In some embodiments, the method may include the steps of advancing a cannulated probe into a patient, advancing the distal end of the tissue modification device assembly posteriorly through the skin of the patient such that it exits the patient, exposing at least one tissue modification element of the tissue modification device assembly, and reciprocating at least a portion of the tissue modification device assembly by alternately pulling on proximal and distal portions of the tissue modification device assembly to draw the at least one tissue modification element across the ligament to cut the ligament, in some embodiments, the system may include a probe, a tissue modification device, and a sheath. The tissue modification device may include a proximal handle, at least one tissue modification element configured cut ligament, and a sharp distal tip. | 09-15-2011 |
20110224710 | METHODS, SYSTEMS AND DEVICES FOR CARPAL TUNNEL RELEASE - Described herein are methods, systems, and devices for performing a minimally invasive carpal tunnel release procedure to cut a target transverse carpal ligament. In some embodiments, the method may include the steps of advancing a probe percutaneously though a patient's skin from a first location, advancing a tissue modification device from the first location and between the target ligament and non-target tissue so that a proximal handle on the tissue modification device extends from the patient at the first location, attaching a distal handle in communication with the distal end of the tissue modification device. In some embodiments, a system may include a probe configured to be advanced percutaneously though a patient's skin from a first location, a tissue modification device comprising a proximal handle and a flexible distal region having uni-directional blades, and a distal handle configured to connect to the distal end of the tissue modification device. | 09-15-2011 |
20110230904 | RECIPROCATING ROTARY ARTHROSCOPIC SURGICAL INSTRUMENT - A surgical instrument includes a cutting member with an implement for cutting tissue, and a drive coupled to the cutting member to simultaneously rotate and translate the cutting member in response to a force applied to the drive. A method of cutting tissue includes positioning an outer member such that tissue is located within the outer member, engaging the tissue with an inner member, and simultaneously rotating and translating the inner member to cut the tissue. A tangential cutting force is applied to the tissue with the inner member to mechanically cut the tissue. The inner member is mechanically driven to undergo simultaneous rotation and translation. | 09-22-2011 |
20110295296 | Variable drive vitrectomy cutter - A vitrectomy probe having a variable duty cycle cutting mechanism is disclosed. The probe includes a motor and a cam driver rotationally driven by the motor. The cam driver has a non-planar driver surface having surface features that vary at different radii. A follower mechanism is arranged to selectively interface with the driver surface at different radii on the driver surface in a manner to selectively interface with the varied surface features at the different radii. The follower is arranged to transfer rotational movement of the cam driver into linear movement of the follower mechanism. | 12-01-2011 |
20120029545 | RECIPROCATING SURGICAL INSTRUMENT - A surgical rasping system functional in multiple orthopedic applications, including but not limited to shoulder, knee, hip, wrist, ankle, spinal, or other joint procedures. The system may comprise a tissue removal member with a rasping head which may be low profile and offer a flat cutting/rasping surface, or with a cutting head with at least one cutting edge. The tissue removal member is configured to be driven by an attached hub that translates a rotational movement into a reciprocating motion. Suction for removal of bone fragments or other tissues is provided through an opening spaced apart from or adjacent to the rasping surface. A radiofrequency ablation (RF) electrode may be carried on the rasping system to provide ablation or coagulation of soft tissues. | 02-02-2012 |
20120029546 | ULTRASONIC SURGICAL INSTRUMENT BLADES - An ultrasonic surgical instrument including an ultrasonically actuated blade or end effector having a treatment portion. The blade can define a central axis and at least one axis which is transverse to the central axis, wherein the transverse axis can lie within a plane which is perpendicular, or normal, to the longitudinal axis and can define a cross-section of the treatment portion. Such a cross-section can include a central portion and a step extending from the central portion, wherein the central portion can comprise a width, and wherein the step can comprise a cutting edge. In at least one embodiment, the cutting edge can be defined by first and second surfaces which define an angle therebetween. In various embodiments, the position of the cutting edge and/or the angle between the cutting edge surfaces can be selected in order to balance the blade with respect to the transverse axis. | 02-02-2012 |
20120078279 | MULTI-FUNCTIONAL SURGICAL DEVICE FOR NEUROSURGICAL AND SPINAL SURGERY APPLICATIONS - A tissue cutting device that is especially suited for neurosurgical applications is disclosed and described. The device includes a handpiece and an outer cannula in which a reciprocating inner cannula is disposed. The device is configured to provide multiple functions during a surgical procedure, in addition to resecting tissue, with a single insertion of the device into a patient. | 03-29-2012 |
20120078280 | APPARATUSES AND METHODS FOR FORMING INCISIONS IN OCULAR TISSUE - A surgical tool includes a surgical blade configured to be moved to form an incision. The surgical tool also includes a wire configured to cause movement of the surgical blade. The surgical tool further includes an actuator configured to shorten a length of the wire to cause the movement of the surgical blade. The surgical tool could be configured to move the surgical blade in a first direction and then in a second direction in response to a single shortening of the wire. Also, the wire could represent a first wire, the surgical tool could include a second wire, and the surgical tool could be configured to move the surgical blade in a first direction in response to shortening the first wire and to move the surgical blade in a second direction in response to shortening the second wire. | 03-29-2012 |
20120078281 | APPARATUSES AND METHODS FOR FORMING INCISIONS IN OCULAR TISSUE - A surgical tool includes a surgical blade configured to be moved to form an incision. The surgical tool also includes a wire configured to cause movement of the surgical blade. The surgical tool further includes an actuator configured to shorten a length of the wire to cause the movement of the surgical blade. The surgical tool could be configured to move the surgical blade in a first direction and then in a second direction in response to a single shortening of the wire. Also, the wire could represent a first wire, the surgical tool could include a second wire, and the surgical tool could be configured to move the surgical blade in a first direction in response to shortening the first wire and to move the surgical blade in a second direction in response to shortening the second wire. | 03-29-2012 |
20120158029 | VITRECTOMY PROBE WITH ADJUSTABLE CUTTER PORT SIZE - Vitrectomy probes and system related thereto are disclosed herein. The disclosure describes various example vitrectomy probes having an adjustable cutting port size. For example, one example vitrectomy probe includes a piezoelectric element adapted to adjust the size of the cutting port. Further, the disclosure provides examples for adjusting the size of the cutter port while the vitrectomy probe is in operation. | 06-21-2012 |
20120158030 | VITRECTOMY PROBE WITH ADJUSTABLE CUTTER PORT SIZE - Vitrectomy probes and system related thereto are disclosed herein. The disclosure describes various example vitrectomy probes having an adjustable cutting port size. Various example features are described for adjusting the size of the cutting port. Further, the disclosure provides examples for adjusting the size of the cutter port while the vitrectomy probe is in operation. | 06-21-2012 |
20120191119 | ARTHROSCOPIC CUTTING BLADE - A dual function arthroscopic blade provides multiple cutting surfaces of differing cut aggressiveness for selective engagement of the desired cutting blade without retracting the instrument for changing cutting members to apply a different set of cutting edges, or blade. An inner rotating member within a stationary outer cutting member provide cutting edges defined by cutting windows on the inner and outer cutting members, and a rotational drive applies an oscillating rotation such that one of the cutting windows, corresponding to one of the sets of cutting edges, engages an extraction region such as tissue or bone. The use of different sized cutting windows allows variance in the aggressiveness of the cut, and allows selection of another cutting window by rotating the cutting member to align the selected cutting edges without requiring extraction and reinsertion in order to attach a different blade with a different cut aggressiveness. | 07-26-2012 |
20120215245 | SURGICAL INSTRUMENT WITH DISTAL SUCTION CAPABILITY - A surgical instrument includes a main unit and a suction conduit. The main unit includes at least one tubular body having a distal end, a proximal end, and an inlet disposed near the distal end. The suction conduit is slidably disposed over the main unit, and is slidably movable along the main unit between a retracted position, at which the suction conduit does not cover the inlet of the main unit, and an extended position at which the suction conduit covers the inlet of the main unit and a suction inlet of the suction conduit is placed in fluid-communication with the main unit inlet. The surgical instrument can be used as a suction tool by placing the suction conduit in the extended position and applying a vacuum through the inlet of the main unit and the suction inlet. | 08-23-2012 |
20130023916 | TISSUE REMOVAL DEVICE FOR NEUROSURGICAL AND SPINAL SURGERY APPLICATIONS - A tissue cutting device that is especially suited for neurosurgical applications is disclosed and described. The device includes a handpiece and an outer cannula in which a reciprocating inner cannula is disposed. The inner cannula may include a hinge between a body section and a cutting section that allows the cutting section to pivot when the inner cannula reciprocates within the outer cannula. A tissue collector may also be provided and is in fluid communication with the lumen of the inner cannula. The inner cannula reciprocates at a rate that is greater than 1000 reciprocations per minute, and variable aspiration may also be provided to the device to control tissue traction and provide fine shaving and debulking. | 01-24-2013 |
20130110146 | SYSTEMS AND METHODS FOR TREATMENT OF COMPRESSED NERVES | 05-02-2013 |
20130158579 | VITRECTOMY PROBE WITH ADJUSTABLE CUTTER PORT SIZE - Vitrectomy probes and system related thereto are disclosed herein. The disclosure describes various example vitrectomy probes having an adjustable cutting port size. Various example features are described for adjusting the size of the cutting port. Further, the disclosure provides examples for adjusting the size of the cutter port while the vitrectomy probe is in operation. | 06-20-2013 |
20130158580 | VITRECTOMY PROBE WITH ADJUSTABLE CUTTER PORT SIZE - Vitrectomy probes and system related thereto are disclosed herein. The disclosure describes various example vitrectomy probes having an adjustable cutting port size. Various example features are described for adjusting the size of the cutting port. Further, the disclosure provides examples for adjusting the size of the cutter port while the vitrectomy probe is in operation. | 06-20-2013 |
20130158581 | VITRECTOMY PROBE WITH ADJUSTABLE CUTTER PORT SIZE - Vitrectomy probes and system related thereto are disclosed herein. The disclosure describes various example vitrectomy probes having an adjustable cutting port size. Various example features are described for adjusting the size of the cutting port. Further, the disclosure provides examples for adjusting the size of the cutter port while the vitrectomy probe is in operation. | 06-20-2013 |
20130158582 | VITRECTOMY PROBE WITH ADJUSTABLE CUTTER PORT SIZE - Vitrectomy probes and system related thereto are disclosed herein. The disclosure describes vitrectomy probes having an adjustable cutting port size. In some instances, the cutting port size may be adjusted by altering a position of a stroke limiter via a pancake motor. Various example features are described for adjusting the size of the cutting port. | 06-20-2013 |
20130158583 | VITRECTOMY PROBE WITH ADJUSTABLE CUTTER PORT SIZE - Vitrectomy probes and system related thereto are disclosed herein. The disclosure describes vitrectomy probes including an adjustable stroke limiter longitudinally moveable therein in response to a rotation of the stroke limiter. The adjustable stroke limiter is operable to adjust a cutting port size of a cutter. | 06-20-2013 |
20130158584 | VITRECTOMY PROBE WITH ADJUSTABLE CUTTER PORT SIZE - Vitrectomy probes and system related thereto are disclosed herein. The disclosure describes various example vitrectomy probes having an adjustable cutting port size. Various example features are described for adjusting the size of the cutting port. Further, the disclosure provides examples for adjusting the size of the cutter port while the vitrectomy probe is in operation. | 06-20-2013 |
20130211438 | DEVICES AND METHODS FOR CUTTING TISSUE - Various medical devices and methods for cutting, evacuating and/or performing work on tissue are provided. The devices and methods may utilize a reciprocating mechanism or motor powered by suction from a vacuum source. The medical devices and methods may be used on tissue in various regions of a patient's body and for treating various conditions, e.g., for performing a polypectomy. | 08-15-2013 |
20130211439 | APPARATUS FOR CUTTING AND ASPIRATING TISSUE - An apparatus for cutting and aspirating tissue from the human body or animal body, particularly for application in vitrectomies, for retinal detachment, etc., having an outer tube ( | 08-15-2013 |
20130317532 | METHODS AND DEVICES FOR CUTTING AND REMOVING TISSUE FROM A BODY - Methods and devices are provided for cutting and removing tissue from a body. In one exemplary embodiment, a surgical device is provided having a suction shaft and a cutting assembly. The suction shaft can have an inner passageway configured to receive tissue. The cutting assembly can include an outer shaft having at least one opening formed in a sidewall thereof configured to receive tissue. The cutting assembly can be configured to mate with the suction shaft, and it can include a cutting element configured to move relative to the opening to cut tissue disposed through the opening. Suction can be applied to cause the cut tissue to flow proximally through the suction shaft and away from the cutting assembly. | 11-28-2013 |
20130338693 | JAW, BLADE AND GAP MANUFACTURING FOR SURGICAL INSTRUMENTS WITH SMALL JAWS - An endoscopic forceps includes an elongate shaft defining an instrument axis. An end effector includes first and second jaw members each supporting an opposed sealing surface for clamping tissue. At least one of the jaw members is movable relative to the instrument axis such that the jaw members are movable between a first spaced-apart configuration and a second closed configuration for grasping tissue. A cutting instrument includes a reciprocating blade translatable relative to the sealing surfaces to sever tissue clamped between the jaw members. The reciprocating blade contacts an undersurface of at least one of the jaw members when the jaw members are in the second configuration to define a gap distance between the sealing surfaces. A handle adjacent the proximal end of the elongate shaft is operable to induce motion in the jaw members, and an actuator is operable to selectively translate the reciprocating blade. | 12-19-2013 |
20140058427 | ULTRASONIC SURGICAL INSTRUMENT BLADES - An ultrasonic surgical instrument including an ultrasonically actuated blade or end effector having a treatment portion. The blade can define a central axis and at least one axis which is transverse to the central axis, wherein the transverse axis can lie within a plane which is perpendicular, or normal, to the longitudinal axis and can define a cross-section of the treatment portion. Such a cross-section can include a central portion and a step extending from the central portion, wherein the central portion can comprise a width, and wherein the step can comprise a cutting edge. In at least one embodiment, the cutting edge can be defined by first and second surfaces which define an angle therebetween. In various embodiments, the position of the cutting edge and/or the angle between the cutting edge surfaces can be selected in order to balance the blade with respect to the transverse axis. | 02-27-2014 |
20140066965 | ARTHROSCOPIC CUTTING BLADE - A dual function arthroscopic blade provides multiple cutting surfaces of differing cut aggressiveness for selective engagement of the desired cutting blade without retracting the instrument for changing cutting members to apply a different set of cutting edges, or blade. An inner rotating member within a stationary outer cutting member provide cutting edges defined by cutting windows on the inner and outer cutting members, and a rotational drive applies an oscillating rotation such that one of the cutting windows, corresponding to one of the sets of cutting edges, engages an extraction region such as tissue or bone. The use of different sized cutting windows allows variance in the aggressiveness of the cut, and allows selection of another cutting window by rotating the cutting member to align the selected cutting edges without requiring extraction and reinsertion in order to attach a different blade with a different cut aggressiveness. | 03-06-2014 |
20140121690 | AXIALLY RECIPROCATING MICROSURGICAL INSTRUMENT WITH RADIALLY COMPRESSED ACTUATOR HANDLE - A microsurgical instrument has a pair of operative surgical surfaces that are moved relative to each other in shearing or grasping procedures performed by the instrument. The instrument has a handle containing an elongate center rod with a ring mounted for reciprocating movement on the rod. A tube is secured to the ring and a shaft extends through the tube and is secured to the rod. The handle also includes a plurality of resilient arms that extend along the length of the rod and engage against a sliding surface of the ring on the rod. The plurality of actuator arms are alternatively manually compressed radially inwardly by the surgeon's hand and released by the surgeon's hand to allow the arms to flex radially inwardly and outwardly. The inward and outward movement of the plurality of arms reciprocates the ring on the handle rod and causes the tube and shaft to move axially relative to each other. | 05-01-2014 |
20140135807 | RECIPROCATING ROTARY ARTHROSCOPIC SURGICAL INSTRUMENT - A surgical instrument includes a cutting member with an implement for cutting tissue, and a drive coupled to the cutting member to simultaneously rotate and translate the cutting member in response to a force applied to the drive. A method of cutting tissue includes positioning an outer member such that tissue is located within the outer member, engaging the tissue with an inner member, and simultaneously rotating and translating the inner member to cut the tissue. A tangential cutting force is applied to the tissue with the inner member to mechanically cut the tissue. The inner member is mechanically driven to undergo simultaneous rotation and translation. | 05-15-2014 |
20140142601 | TISSUE REMOVAL DEVICE FOR NEUROSURGICAL AND SPINAL SURGERY APPLICATIONS - A tissue cutting device is disclosed and described. The device includes a handpiece disposed along a first central longitudinal axis and an outer cannula in which a reciprocating inner cannula is disposed. The inner and outer cannulas are disposed along a second longitudinal axis that is axially spaced from the first central longitudinal axis. The device may also include an inner cannula stop position control for selectively controlling the position of the inner cannula when it is at rest. | 05-22-2014 |
20140155925 | DEVICE FOR TREATMENTS WITH ENDOSCOPIC RESECTION/REMOVAL OF TISSUES - A device for treatments of endoscopic resection/removal of tissues, includes:
| 06-05-2014 |
20140163596 | CONCENTRIC CUTTING DEVICES FOR USE IN MINIMALLY INVASIVE MEDICAL PROCEDURES - Various embodiments of a tissue cutting device are described, such as a device with an elongate tube having a proximal end and a distal end and a central axis extending from the proximal end to the distal end; a first annular element at the distal end of the elongate tube, the first annular element having a flat portion at its distal end perpendicular to the central axis; and a second annular element at the distal end of the elongate tube and concentric with the first annular element, the second annular element having a flat portion at its distal end perpendicular to the central axis, at least one of the first or second annular elements rotatable about the central axis, the rotation causing the first annular element and the second annular element to pass each other to shear tissue. | 06-12-2014 |
20140171996 | Burst Mode Vitrectomy System - A vitrectomy surgical system includes a vitrectomy probe having a cutting portion comprising an inner tube, an outer tube, and an aspiration port. The inner tube may be movable relative to the outer tube to cut vitreous fibers. The system also includes a controller associated with the vitrectomy probe and configured to control movement of the inner tube by generating control signals corresponding to a cutting scheme including a plurality of series of cuts with each cut being evenly spaced in time, the plurality of series of cuts separated by a recovery period. | 06-19-2014 |
20140171997 | Multi-Port Vitrectomy Probe with Dual Cutting Edges - A vitrectomy probe includes a hand-graspable body and an external tube extending from the hand-graspable body and sized to penetrate an eye of a patient during an ocular surgery. In an aspect, the external tube includes a closed end and a plurality of ports sized to receive vitreous material. In another aspect, an internal tube has a first cutting edge facing in a proximal direction and a second cutting edge facing in a distal direction. The first cutting edge oscillates across the port of the external tube to cut tissue in the port with the first cutting edge when the internal tube moves in the proximal direction and to cut tissue in the port with the second cutting edge when the internal tube moves in the distal direction. | 06-19-2014 |
20140171998 | DEVICE FOR TREATMENTS OF ENDOSCOPIC RESECTION/ REMOVAL OF TISSUES - Device for treatments of endoscopic resection/removal of tissues including: a handpiece; an outer tubular element extending along a longitudinal axis including a proximal end, a distal end and a cutting opening at the distal end; an inner tubular element rotatably accommodated in the outer tubular element; the inner tubular element extending along a longitudinal axis and including a proximal end, a distal end and a cutting tip at its distal end; a guide for rotating/oscillating the inner/outer tubular elements with respect to one another; the guide including an electric motor and power-supply; a first clutch keyed on the inner tubular element substantially at the proximal end of the inner tubular element; a second clutch keyed on the distal end of the motor output shaft to axially slide on the motor output shaft; and at least one elastic element to push the second clutch to couple with the first clutch. | 06-19-2014 |
20140277047 | METHODS OF TISSUE RELEASE TO REDUCE THE APPEARANCE OF CELLULITE - A dermatological skin treatment device is provided. The device comprises a handpiece and a cutting tool, wherein the tool is inserted through the conduit and percutaneously inserted into a tissue disposed within a recessed area of the handpiece. The device and method cut the fibrous structures under the skin that cause cellulite at an angle substantially parallel to the surface of the skin and replace these structures with a non-cellulite forming structure by deploying a highly fibrous mesh through a single needle hole to create a highly fibrous layer directly or through wound healing processes. | 09-18-2014 |
20140277048 | METHODS AND HANDPIECE FOR USE IN TISSUE DISSECTION - A dermatological skin treatment device is provided. The device comprises a handpiece and a cutting tool, wherein the tool is inserted through the conduit and percutaneously inserted into a tissue disposed within a recessed area of the handpiece. The device and method cut the fibrous structures under the skin that cause cellulite at an angle substantially parallel to the surface of the skin and replace these structures with a non-cellulite forming structure by deploying a highly fibrous mesh through a single needle hole to create a highly fibrous layer directly or through wound healing processes. | 09-18-2014 |
20140296900 | DISPOSABLE VITRECTOMY HANDPIECE - Electric vitrectomy handpieces are provided. The handpiece includes a motor, a clutch mechanism, an oscillating drive mechanism, a cutting tip and a handle. The motor is attached to the clutch, and the clutch is attached to the oscillating drive mechanism. When the motor is operational, the clutch expands to engage the oscillating drive mechanism and the oscillating drive mechanism converts the rotational motion of the clutch to the reciprocating motion of the cutting tip. When the motor is at rest, the clutch retracts to allow aspiration. | 10-02-2014 |
20140358170 | TISSUE REMOVAL SYSTEMS WITH ARTICULATING CUTTING HEADS - Articulating, safe and efficient cutting heads for removing a target tissue from a subject during a surgical procedure are provided, the cutting heads composing a part of systems that address several problems, including clogging of state-of-the-art systems during removal of such tissue, for example. The target tissue can include any tissue that is accessible through a small surgical opening, for example, a joint tissue such as a meniscus or an intervertebral tissue, such as a nucleus pulposus. The devices can be referred to as orthopedic tissue removal devices having cutting heads associated with vacuum systems, making the systems useful in several procedures, including X-LIF (lateral approach to an intervertebral fusions) procedures, T-LIF (transforaminal approach to intervertebral fusions) procedures, P-LIF (posterior approach to intervertebral fusions), and a percutaneous, transforaminal approach (Kambin triangle access). | 12-04-2014 |
20140364886 | VITRECTOMY PROBE WITH ADJUSTABLE CUTTER PORT SIZE - Vitrectomy probes and system related thereto are disclosed herein. The disclosure describes various example vitrectomy probes having an adjustable cutting port size. Various example features are described for adjusting the size of the cutting port. Further, the disclosure provides examples for adjusting the size of the cutter port while the vitrectomy probe is in operation. | 12-11-2014 |
20150032139 | Surgical Instrument Aspiration Valve - A surgical instrument includes a movable member having a proximal portion, the movable member defining an opening at the proximal portion. The instrument includes a stationary member defining an aperture. The stationary member is arranged relative to the movable member with a close fit between the stationary member and the movable member such that aspiration occurs through the movable member substantially only during a portion of a repetitive motion of the movable member. The instrument includes a surgical handpiece coupled to the movable member and the stationary member to provide suction and motion to the movable member. | 01-29-2015 |
20150100076 | TISSUE REMOVING DEVICE - Tissue can be removed from a patient with a catheter or other medical device having a cutting member. A source of suction can be coupled to the device for suctioning removed tissue through a lumen in the device and out of the patient's body. | 04-09-2015 |
20150105811 | METHODS FOR DISSECTION OF SUBCUTANEOUS TISSUE - A dermatological skin treatment device is provided. The device comprises a handpiece and a cutting tool, wherein the tool is inserted through the conduit and percutaneously inserted into a tissue disposed within a recessed area of the handpiece. The device and method cut the fibrous structures under the skin that cause cellulite at an angle substantially parallel to the surface of the skin and replace these structures with a non-cellulite forming structure by deploying a highly fibrous mesh through a single needle hole to create a highly fibrous layer directly or through wound healing processes. | 04-16-2015 |
20150127040 | CRANIAL DRILL SYSTEM - The invention concerns a cranial drill system comprising one or more surgical drill elements for drilling into the brain. The invention also concerns a cranial drilling system comprising a surgical drill element for drilling into the skull and an element for penetrating the dura. The surgical drill element may comprise a profile that forms an opening in the skull having a narrower diameter portion and a wider diameter portion and the piercing element may be arranged to be a close fit in the narrower diameter portion of the opening. The invention also concerns a cranial drill system comprising a guiding element to be located in a hole formed through the skull and a piercing element for piercing the dura. The guiding element may have a passageway or channel therein for receiving the piercing element such that the piercing element is movable relative to the guide element to pierce the dura. | 05-07-2015 |
20150127041 | HANDPIECE FOR USE IN TISSUE DISSECTION - A dermatological skin treatment device is provided. The device comprises a handpiece and a cutting tool, wherein the tool is inserted through the conduit and percutaneously inserted into a tissue disposed within a recessed area of the handpiece. The device and method cut the fibrous structures under the skin that cause cellulite at an angle substantially parallel to the surface of the skin and replace these structures with a non-cellulite forming structure by deploying a highly fibrous mesh through a single needle hole to create a highly fibrous layer directly or through wound healing processes. | 05-07-2015 |
20150133985 | SOFT TISSUE CORING BIOSPY DEVICES AND METHODS - An excisional device for either handheld or stereotactic table/MRI use may comprise a work element configured to rotate at a first rotation rate and comprising at least one articulable beak configured to cut tissue in a longitudinal direction. Helical elements or equivalent assemblies may be configured to transport tissue cut by a work element and may be co-axially disposed relative to the work element and may be operative to rotate at rotation rates that may be different from the work element rotation rate. Flush and vacuum tissue transport mechanisms may be incorporated in replacement of or in conjunction with helical elements. A proximal sheath and a distal sheath may be co-axially disposed relative to a work element and may be configured to rotate a work element and to actuate a beak or beaks. A simplified embodiment of this device may be applicable to field use where power sources for actuation may be limited. | 05-14-2015 |
20150313628 | ELECTROSURGICAL INSTRUMENTS INCLUDING END-EFFECTOR ASSEMBLY CONFIGURED TO PROVIDE MECHANICAL CUTTING ACTION ON TISSUE - An electrosurgical instrument includes a housing and a shaft coupled to the housing. The shaft has an end-effector assembly at a distal end thereof. The end-effector assembly includes opposing first and second jaw members. One or both of the first and second jaw members is movable from a first position wherein the first and second jaw members are disposed in spaced relation relative to one another to at least a second position closer to one another wherein the first and second jaw members cooperate to grasp tissue therebetween. The first jaw member includes a first tissue-engaging surface. The second jaw member includes a second tissue-engaging surface and a protruding element extending therefrom. The second jaw member is configured to receive and transmit a mechanical vibration to provide a mechanical cutting action on tissue disposed between the first and second tissue-engaging surfaces. | 11-05-2015 |
20150335342 | MINIMALLY INVASIVE LAPAROSCOPIC TISSUE REMOVAL DEVICE - A minimally invasive laparoscopic tissue removal device, namely a morcellator. The device includes, from proximal end to distal end, a handle, handle guard, elongate sheath, and mouth, finally terminating in a safety tip. The elongate sheath and mouth are concentric, such that two elongate, rotating cutting/shredding blades/teeth and one elongate auger feed screw can be positioned along the length of the sheath and mouth. The teeth are opposingly disposed and staggered, such that contact with tissue mass grabs and pulls tissue inwards toward the auger, which transports the tissue proximally toward the outside of the patient's body. A motor unit and gear assembly can be coupled to the teeth and auger to drive rotation of the teeth and auger. A cup assembly can be disposed in overlying relation to the mouth for guiding the tissue mass towards the mouth. Various mechanisms of safely covering the mouth are contemplated as well. | 11-26-2015 |
20150335485 | DEVICE FOR CUTTING AND ASPIRATING TISSUE - The present invention relates to a device for cutting and aspirating tissue from the human or animal body, in particular for use in vitrectomy, epiretinal membrane peeling, etc., with an outer tube ( | 11-26-2015 |
20150342628 | MULTI-TINE CUTTING DEVICE - A cutting device is provided that includes an outer tube. The outer tube includes an inner surface defining a passageway. An inner tube is movably disposed in the passageway such that a distal end of the inner tube extends beyond a distal end of the outer tube. The distal end of the inner tube includes a first cutting element. An inner surface of the inner tube defines a lumen. A shaft is slidably disposed in the lumen. The shaft has a distal end including a second cutting element. A deployment mechanism is coupled to a proximal end of the outer tube. The deployment mechanism includes a body, a push button disposed within the body and a collar disposed about the body. The shaft is fixed relative to the collar and the inner tube is fixed relative to the push button. Systems and methods are disclosed. | 12-03-2015 |
20150351792 | ULTRASONIC SURGICAL SHEARS AND METHOD FOR SEALING A BLOOD VESSEL USING SAME - An ultrasonic surgical shears includes an ultrasonic surgical blade, a clamping arm operable to open and close toward the blade, and a tissue pad attached to the clamping arm. A method for sealing a blood vessel of a patient includes obtaining an ultrasonic surgical shears and positioning the blood vessel between the blade and the tissue pad. The clamping arm is operated to exert an average coaptation pressure between and including 120 psi and 210 psi. The blade is ultrasonically vibrated to transect and seal the blood vessel. | 12-10-2015 |
20150374398 | LEAD EXTRACTION - Apparatus for removing a lead from a lumen of a subject including a flexible control tube shaped to define a control-tube lumen; and a flexible grasping tube shaped to define a grasping-tube lumen. The grasping tube is disposed within the control-tube lumen and includes a torque-transfer non-distal portion; and a helically-cut distal portion, that is (a) fixed at a distal end thereof to a distal end of the control tube, and (b) rotatable at least at a proximal end thereof with respect to the control tube. The helically-cut distal portion is configured to grasp the lead within the grasping-tube lumen upon the proximal end of the helically-cut distal portion being rotated with respect to the control tube. | 12-31-2015 |
20160008020 | TISSUE SHAVERS | 01-14-2016 |
20160015411 | CURVILINEAR TRANSOSSEOUS ROTATOR CUFF REPAIR TOOLS - Rotator cuff tears (complete and partial) are surgically repaired without needing more dermal access than percutaneous punctures. The surgeon is afforded a range of options for where to place a second tunnel in the bone, and selection by the surgeon of a desired bone bridge size is provided in advance of tunnel construction. Also, stitching in rotator cuff surgery can be accomplished without the need for suture anchors or added cost of secondary suture passers. Multiple stitch configurations including X-patterns are possible with combinations of preloaded loops and or sutures passed simultaneously through tissue and bone. Fixation is achieved without the use of suture anchors, buttons or other rigid implants. | 01-21-2016 |
20160015415 | ARTICULATING TISSUE DISSECTOR - A tissue dissector can include a tool body having a proximal end and a distal end. The tool body can include a longitudinal path therein between the proximal end and the distal end. The path can include an arcuate portion disposed adjacent the distal end and a horizontal portion extending proximally from the arcuate portion. A cutting blade can be pivotably attached to the body with via a first pin. A central shaft can be coupled to the first pin. A handle assembly can be coupled to the central shaft. A second pin can be fixed to the cutting blade, engage the path of the tool body and be located offset from the first pin to pivot the blade about the first pin as the blade moves in a proximal direction from a farthest distal extent of the path in the tool body. | 01-21-2016 |
20160015419 | ULTRASONIC SURGICAL INSTRUMENT WITH REMOVABLE HANDLE ASSEMBLY - An apparatus comprises a body and a shaft assembly. The shaft assembly is configured to couple with the body such that the shaft assembly extends distally relative to the body. The shaft assembly comprises a tubular member, an acoustic waveguide, and a guiding member. The acoustic waveguide is operable to selectively couple with an ultrasonic transducer assembly. The tubular member is configured to insertingly receive the acoustic waveguide. The acoustic waveguide comprises a guide feature. The guiding member is configured to engage the guide feature of the acoustic waveguide and thereby orient the acoustic waveguide in relation to the tubular member. | 01-21-2016 |
20160022301 | SURGICAL INSTRUMENT WITH DISTAL BEARING ASSEMBLY - A surgical cutting instrument comprises an outer tubular member having a proximal section, an intermediate section and a central lumen. An inner tubular member is rotatably received within the central lumen and includes a distal end forming a cutting member extending distally beyond, and exposed relative to, the distal section of the outer tubular member. A bearing assembly is coupled to the outer tubular member and the inner tubular member. | 01-28-2016 |
20160045214 | SURGICAL SYSTEM WITH EXPANDABLE SHIELD - A tissue removal system includes a morcellator having a cannula comprising a proximal end portion, a distal end portion, a sidewall, and at least one lumen extending between the proximal end portion and the distal end portion. A cutting blade is disposed within a lumen of the cannula. Also included is a tissue shield that has an expandable frame element and a shield element attached to the expandable frame element, wherein the tissue shield serves to isolate non-target tissues from at least the cutting blade of the system so that such tissues remain unaffected by a surgical procedure conducted with the system. | 02-18-2016 |
20160066942 | TUMOR DEBULKER - A cutting device for use with a powered surgical tool includes an outer blade and an inner blade. The outer blade includes a tubular body, an end cap, and a cutting window defined by a beveled edge on the tubular body and the end cap. The inner blade includes a cutting tip. The inner blade co-axially disposed within the outer blade such that the cutting tip is rotatably exposed at the cutting window. The cutting tip has castellations extending toward the end cap of the outer blade and opposing teeth extending radially toward one another across an opening of the cutting tip. | 03-10-2016 |
20160066944 | TISSUE REMOVAL DEVICE WITH ADJUSTABLE SLEEVE FOR NEUROSURGICAL AND SPINAL SURGERY APPLICATIONS - A tissue cutting device that is especially suited for neurosurgical applications is disclosed and described. The device includes a handpiece and an outer cannula in which a reciprocating inner cannula is disposed. The inner cannula includes a hinge between a body section and a cutting section that allows the cutting section to pivot when the inner cannula reciprocates within the outer cannula. A tissue collector is also provided and is in fluid communication with the lumen of the inner cannula. A fluid supply sleeve is disposed about the outer cannula and is selectively positionable along the length of the outer cannula. | 03-10-2016 |
20160074057 | MAGNETIC COUPLING MOTOR DRIVE FOR SURGICL CUTTING INSTRUMENT - Apparatus and methods for a magnetic coupling motor drive for a surgical cutting instrument. A magnetic coupling motor drive unit includes a motor housing containing a motor and a magnetic drive hub assembly, the magnetic drive hub assembly having a drive hub and a driven hub, the driven hub rotating about a driven hub spindle, the driven hub spindle attached to a seal cap, the seal cap sealing the drive hub and the motor to the motor housing, wherein the drive hub includes an array of magnets aligned to a respective array of magnets in the driven hub. | 03-17-2016 |
20160074058 | SURGICAL CUTTING DEVICE AND METHOD FOR ITS USE - A surgical endoscopic cutting device includes cutting elements fitted in a protective tube. The device has an inlet for fluid, a discharge outlet for tissue and fluid, and a further outlet that discharges most of the fluid. | 03-17-2016 |
20160095613 | CONNECTION FOR A MORCELLATOR - A connecting element for a morcellator (M). The morcellator (M) has a hand module ( | 04-07-2016 |
20160120697 | VITRECTOMY PROBE WITH A COUNTERBALANCED ELECTROMAGNETIC DRIVE - According to one example, an ophthalmic surgical probe for treating an eye of a patient includes a body arranged for grasping by a surgeon and a cutting element extending distally from the body. The cutting element includes a sleeve member and an inner member disposed within the sleeve member, the inner member being movable axially with respect to the sleeve member. The probe also includes an actuating element configured to reciprocally move the inner member relative to the sleeve member. The actuating element includes a first coil secured within the body, a first magnet operatively secured to the inner member, and a second magnet that is not secured to the inner member, the second magnet being positioned and arranged to move in an opposite direction of the first magnet upon application of a voltage to the first coil. | 05-05-2016 |
20160121104 | SURGICAL DEVICE - A surgical device for use in performing a surgical procedure on a patient. The surgical device comprises an elongate stem having a proximal end, a distal end spaced from the proximal end, a passageway therein extending at least partially between the proximal and distal ends, and an opening extending the length of the passageway to provide visual access into the passageway. The device further comprises a handle disposed at the proximal end portion of the stem, and one or more stimulation channels each terminating at one or more stimulation surfaces of the stem, wherein each of the stimulation surfaces is configured to emit electrical current therefrom to stimulate one or more anatomical structure(s) in proximity thereto. | 05-05-2016 |
20160128870 | DUAL MODE VITRECTOMY SURGICAL SYSTEM - An ophthalmic surgical probe for treating an eye of a patient includes a body, a cutting element extending distally from the body (the cutting element having a sleeve member with a port at an end), an inner member disposed within the sleeve member (the inner member being movable axially with respect to the sleeve member to open and close the port), and an actuating element secured to the inner member (the actuating member configured for operation in both a resonant mode and a non-resonant mode). | 05-12-2016 |
20160135991 | DOUBLE-ACTING VITREOUS PROBE WITH CONTOURED PORT - A vitrectomy probe includes a hand-graspable body and an outer tube extending from the hand-graspable body. The outer tube includes a closed distal end and a first port sized to receive tissue. The vitrectomy probe also includes an inner tube within the outer tube with a second port that is selectively alignable with a portion of the first port to allow fluid flow and uniquely sized to increase fluid flow. The inner tube includes a distal tip with a cutting edge on each of the distal and proximal sides of the tip. The distal tip has a smaller diameter than that of the inner tube at a proximal side of the second port. The proximal side of the second port includes a guiding surface that slidably bears on an inner surface of the outer tube to prevent the distal tip from excessively protruding from the first port of the outer tube. | 05-19-2016 |
20160143659 | ULTRASONIC SURGICAL INSTRUMENT WITH BLADE COOLING THROUGH RETRACTION - A surgical apparatus comprises a body, a shaft assembly, an end effector, and a blade cooling system. The shaft assembly couples the end effector and the body together. The shaft assembly comprises an acoustic waveguide and defines an interior space. The acoustic waveguide is configured to couple with an ultrasonic transducer. The end effector comprises a clamp arm and an ultrasonic blade in acoustic communication with the ultrasonic transducer. The clamp arm is configured to pivot toward and away from the ultrasonic blade. The shaft assembly comprises an inner tube configured to longitudinally translate to thereby pivot the clamp arm toward and away from the ultrasonic blade. The cooling system is operable to deliver liquid coolant a distal portion of the shaft. A trigger of the body is operable to rotate to thereby translate the ultrasonic blade into and out of the interior space of the shaft assembly to thereby cool the ultrasonic blade. | 05-26-2016 |
20160143780 | TRACTION-LIMITING VITRECETOMY PROBE - Apparatuses, systems, and methods are described for selectively generating an aspiration flow within a surgical instrument. Particularly, the disclosure describes example vitrectomy probes operable to selectively generate an aspiration flow in relation to operation of the cutter of the vitrectomy probe. | 05-26-2016 |
20160175150 | ULTRASONIC HANDPIECE WITH MULTIPLE DRIVERS | 06-23-2016 |
20160249945 | ADAPTABLE SURGICAL INSTRUMENT HANDLE | 09-01-2016 |
20170231818 | DEVICE FOR CUTTING TISSUE | 08-17-2017 |