| Patent application number | Description | Published |
|---|
| 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 |
| 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 |
| 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 |
| 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 |
| 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 |
| 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 |
| 20110196199 | METHOD AND SYSTEM FOR AUTOMATICALLY MAINTAINING AN OPERATOR SELECTED ROLL ORIENTATION AT A DISTAL TIP OF A ROBOTIC ENDOSCOPE - In a robotic endoscope system, the orientation of a captured camera view at a distal tip of a robotic endoscope and displayed on a screen viewable by an operator of the endoscope is automatically maintained at a roll orientation associated with a setpoint so as not to disorient the operator as the endoscope is moved, flexed and its tip turned in different orientations. A processor generates a current commanded state of the tip from operator input and modifies it to maintain the setpoint roll orientation. To generate the modified current commanded state, the current commanded roll position and velocity are constrained to be a modified current commanded roll position and velocity that have been modified according to a roll angular adjustment indicated by a prior process period commanded state of the tip and the setpoint. The processor then commands the robotic endoscope to be driven to the modified commanded state. | 08-11-2011 |
| 20110201883 | Entry Guide for Multiple Instruments in a Single Port Surgical System - An access port for use in single port surgery includes a cannula to provide minimally invasive access to a surgical site and an instrument guide that fits closely within the cannula. The instrument guide includes guide channels that are open to the outside surface of the instrument guide. Each of the guide channels is configured to support a single surgical instrument at a defined position within the cannula. The guide channels may be smoothly enlarged at the end that receives surgical instruments. The access port may further include a seal that couples the instrument guide to the cannula such that the seal retains a pressurized insufflation fluid within the surgical site. The instrument guide may include one or more insufflation channels for introducing an insufflation fluid to the surgical site. The access port may include a flexible section. The surgical instruments may be controlled robotically by servo actuators. | 08-18-2011 |
