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Patents & Applications

US10806630B2

Injection device for subretinal delivery of therapeutic agent

Abstract: An apparatus includes a pad assembly, an injector assembly, an injector driver, and a fluid source. The pad assembly is sized and configured to be placed on a forehead of a patient. The injector assembly includes a body, a flexible cannula, and a needle. The body is configured to be removably secured to the pad assembly. The cannula is sized to be inserted through an incision in an eye of a patient. The needle is slidably disposed in the cannula. The injector driver is operable to drive the needle longitudinally relative to the flexible cannula. The fluid source assembly is in fluid communication with the needle.

US11284957B2

Robotic surgical controls with force feedback

Abstract: An input control device is disclosed. The input control device can be configured to operate in different modes depending on proximity data provided by a proximity detection system. The input control device can include a feedback generator configured to generate feedback in response to the input control device switching between operational modes, the proximity data provided by the proximity detection system, and/or other conditions of the surgical procedure, robotic surgical tool, surgical site, and/or patient. The input control device can include a variable resistance assembly for resisting input control motions applied to an actuator thereof. Additionally or alternatively, the input control device can include an end effector actuator assembly for repositioning the end effector actuator based on feedback from a paired robotic surgical tool.

US11666401B2

Input controls for robotic surgery

Abstract: An input control device is disclosed. The input control device includes a central portion coupled to a multi-axis force and torque sensor, which is configured to receive input control motions from a surgeon. The central portion is flexibly supported on a base. The input control device also includes a rotary joint coupled to a rotary sensor. The input control device is configured to provide control motions to a robotic arm and/or a robotic tool based on input controls detected by the multi-axis force and torque sensor and the rotary sensor.

US11690690B2

Segmented control inputs for surgical robotic systems

Abstract: A robotic surgical system for treating a patient is disclosed including a surgical tool movable relative to the patient and a user input device configured to remotely control the surgical tool. The surgical tool includes a shaft and an end effector. The user input device includes a base and a controller movable to effect a first control motion a second control motion. The controller includes a first accessibility mode and a second accessibility mode. The robotic surgical system further includes a control circuit configured to receive a motion control signal from the user input device, determine a controller accessibility mode, permit the first control motion in response to the motion control signal in the first accessibility mode and in the second accessibility mode and permit the second control motion in response to the motion control signal in the second accessibility mode but not the first accessibility mode.

US11701190B2

Selectable variable response of shaft motion of surgical robotic systems

Abstract: A robotic surgical system for treating a patient is disclosed including a surgical tool movable relative to the patient and a user input device including a base and a space joint including a central portion movable relative to the base to effect a motion. The robotic surgical system further includes a control circuit configured to receive a user selection signal indicative of a selection between a first motion scaling profile of the motion of the surgical tool and a second motion scaling profile of the motion of the surgical tool, receive a motion control signal from the user input device indicative of a user input force, and cause the surgical tool to be moved in response to the motion control signal in accordance with the first motion scaling profile or the second motion scaling profile based on the user selection signal. The first motion scaling profile is different than the second motion scaling profile.

US20200289217A1

Jaw coordination of robotic surgical controls

Abstract: An input control device is disclosed. The input control device can be configured to operate in different modes depending on proximity data provided by a proximity detection system. The input control device can include a feedback generator configured to generate feedback in response to the input control device switching between operational modes, the proximity data provided by the proximity detection system, and/or other conditions of the surgical procedure, robotic surgical tool, surgical site, and/or patient. The input control device can include a variable resistance assembly for resisting input control motions applied to an actuator thereof. Additionally or alternatively, the input control device can include an end effector actuator assembly for repositioning the end effector actuator based on feedback from a paired robotic surgical tool.

US20230310000A1

Buttress applicator system for surgical stapler

Abstract: An apparatus includes a body having an interior space sized and shaped to receive a surgical stapler end effector in an open state in combination with an adjunct applicator that includes an adjunct. The apparatus further includes a closure member movably coupled with the body. The closure member is actuatable to close the surgical stapler end effector onto the adjunct applicator so that the adjunct is applied to a stapling surface of the surgical stapler end effector.

US20230074350A1

Robotically controlled uterine manipulator with articulation

Abstract: An apparatus includes a shaft including a distal shaft end. At least a portion of the shaft defines a first axis. The apparatus also includes a sleeve slidably coupled to the shaft. The sleeve includes a distal sleeve end. The apparatus further includes a colpotomy cup fixedly secured to the distal sleeve end, and a movable member extending distally from the distal shaft end. The movable member is configured to move relative to the shaft between a first state in which the movable member extends substantially along the first axis and a second state in which the movable member extends at least partially along a second axis transverse to the first axis for manipulating an anatomical structure.

US20230076663A1

Modular colpotomy cup component for robotically controlled uterine manipulator

Abstract: An apparatus includes a modular colpotomy cup component and a modular shaft component. The modular colpotomy cup component includes a proximal base, an elongated sleeve, an expanding member, and a colpotomy cup. The proximal base is configured to couple to a distal end of a head of a robotic arm. The modular shaft component includes a coupling body and an elongated shaft. The coupling body is configured to couple to the head of the robotic arm such that the modular shaft component and the modular colpotomy cup component are attached to each other via the head of the robotic arm. The elongated shaft extends distally from the coupling body and is configured to be inserted through the opening of the proximal base such that the coupling body is configured to couple to the head of the robotic arm.

US20240081942A1

Bent introducer cannula for surgical scope in robotic system

Abstract: An apparatus includes a proximal structure configured to be positioned extracorporeally relative to a patient and defining a primary axis, and a distal structure extending distally from the proximal structure and configured to be passed through a body wall and into a body cavity of the patient. The distal structure cooperates with the proximal structure to define a working channel sized and configured to receive and guide a surgical instrument distally therethrough. The distal structure includes a proximal portion and an angled distal portion. The angled distal portion defines a secondary axis that is angled relative to the primary axis. At least the angled distal portion of the distal structure is rotatable relative to proximal structure about the primary axis.

US11622830B2

Robotic arm cart and uses therefor

Abstract: In some embodiments, an apparatus can include a robotic arm cart for transporting, delivering, and securing robotic arms to a surgical table having a table top on which a patient can be disposed. The arm cart can include an arm container and a base. The arm container can be configured to receive and contain one or more robotic arms. The arm cart can include a first coupling member configured to engage with a second coupling member associated with a surgical table such that, when the first coupling member is engaged with the second coupling member, the one or more robotic arms can be releasably coupled with the surgical table. The arm cart can provide for movement of the one or more robotic arms in at least one of a lateral, longitudinal, or vertical direction relative to the table top prior to the securement of the one or more robotic arms to the surgical table.

US11490981B2

Robotic surgical controls having feedback capabilities

Abstract: An input control device is disclosed. The input control device can be configured to operate in different modes depending on proximity data provided by a proximity detection system. The input control device can include a feedback generator configured to generate feedback in response to the input control device switching between operational modes, the proximity data provided by the proximity detection system, and/or other conditions of the surgical procedure, robotic surgical tool, surgical site, and/or patient. The input control device can include a variable resistance assembly for resisting input control motions applied to an actuator thereof. Additionally or alternatively, the input control device can include an end effector actuator assembly for repositioning the end effector actuator based on feedback from a paired robotic surgical tool.

US20200289221A1

Robotic surgical systems with selectively lockable end effectors

Abstract: A robotic surgical system is disclosed including an end effector movable relative to a tissue of a patient. The robotic surgical system further includes a control circuit configured to determine a distance between the end effector and the tissue and cause the end effector to be transitioned between a locked configuration and an unlocked configuration based on the distance.

US20200289228A1

Dual mode controls for robotic surgery

Abstract: An input control device is disclosed. The input control device includes a central portion coupled to a multi-axis force and torque sensor, which is configured to receive input control motions from a surgeon. The central portion is flexibly supported on a base. The input control device also includes a rotary joint coupled to a rotary sensor. The input control device is configured to provide control motions to a robotic arm and/or a robotic tool based on input controls detected by the multi-axis force and torque sensor and the rotary sensor.

US20200289216A1

Motion capture controls for robotic surgery

Abstract: An input control device is disclosed. The input control device includes a central portion coupled to a multi-axis force and torque sensor, which is configured to receive input control motions from a surgeon. The central portion is flexibly supported on a base. The input control device also includes a rotary joint coupled to a rotary sensor. The input control device is configured to provide control motions to a robotic arm and/or a robotic tool based on input controls detected by the multi-axis force and torque sensor and the rotary sensor.

WO2023170546A1

Reuseable stowage cover for robotic surgical system

Abstract: A robotic surgical system includes a plurality of robotic arms, an arm support, and a stowage cover. The plurality of robotic arms includes first and second independently movable robotic arms. The plurality of robotic arms is operable to transition between a stowed configuration and a deployed configuration. The arm support is operatively coupled with the plurality of robotic arms. The stowage cover includes a flexible body defining a first compartment and a second compartment. The first compartment is configured to simultaneously cover the first and second independently movable robotic arms in the stowed configuration and the second compartment is configured to cover the arm support in the stowed configuration.

US20230075988A1

Uterine manipulator control with presentation of critical structures

Abstract: A system includes a uterine manipulator having a shaft. The uterine manipulator is coupled with the robotic arm. An imaging instrument is operable to provide an image of an exterior of the uterus of the patient. A console includes a display screen and is configured to provide a view from the imaging instrument of the exterior of the uterus of the patient, on the display screen. The console is further configured to provide an indicator on the view from the imaging instrument, on the display screen, the indicator indicating a location of a predefined anatomical structure, the indicator being provided as an overlay on the predefined anatomical structure.

US20230073783A1

Robotically controlled uterine manipulator with sensing

Abstract: An apparatus includes a shaft including a distal shaft end. The apparatus also includes a sleeve slidably coupled to the shaft. The sleeve includes a distal sleeve end. The apparatus further includes a colpotomy cup fixedly secured to the distal sleeve end, and an inflatable balloon positioned over the shaft near the distal shaft end such that the inflatable balloon is configured to manipulate an anatomical structure via movement of the shaft. The apparatus also includes at least one sensor configured to detect at least one of a fluid pressure within the inflatable balloon or a force acting upon the inflatable balloon. The at least one sensor is configured to generate at least one feedback signal based on the detected at least one of a fluid pressure or a force.

USD1022197S1

Endoscope

The ornamental design for an endoscope, as shown and described.

US20240081932A1

Remotely driven camera in robotic system

Abstract: A system includes a controller, a robotic arm in communication with the controller and having a head, and a surgical scope coupled with the head and having a scope shaft sized and configured to be inserted through an opening in a body wall and into a body cavity of a patient. The controller is programmed to control the robotic arm to manipulate the surgical scope relative to the patient while inhibiting the head from entering a predefined zone of a robotic arm workspace that overlies the body wall.

US20240081627A1

Articulating introducer cannula for surgical scope in robotic system

Abstract: An apparatus includes a proximal structure configured to be positioned extracorporeally relative to a patient, and a distal structure extending distally from the proximal structure and configured to be passed through a body wall and into a body cavity of the patient. The distal structure cooperates with the primary structure to define a primary axis and a working channel sized and configured to receive and guide a surgical scope shaft distally therethrough along the primary axis. The proximal structure has a greater maximum dimension in a direction transverse to the primary axis than the distal structure. The apparatus further includes an articulation feature at a distal end of the distal structure that is configured to articulate relative to the proximal structure to direct the surgical scope shaft along a secondary axis that is angled relative to the primary axis.