Patent application number | Description | Published |
20100170519 | STERILE INTERFACE APPARATUS - A robotic surgical system configured to perform minimally invasive surgical procedures. In one variation, this robotic surgical system includes an instrument driver configured to steer an elongate instrument of an instrument assembly in one or more degrees of motion. A drape is disposed between the instrument driver and the instrument assembly. A drive interface apparatus is operatively coupled to the drape. The drape and drive interface apparatus may form a fluid barrier between the instrument driver and the instrument assembly. Drive interface apparatus may be disposed on a top surface of the instrument driver and on a bottom surface of the instrument assembly. The drive interface apparatus may transmit torque from the instrument driver to the instrument assembly. The input torque drives a pulley in the instrument assembly that operates one or more control wires to steer an elongate instrument of the instrument assembly for performing minimally invasive surgical procedures. | 07-08-2010 |
20100175701 | MODULAR INTERFACES AND DRIVE ACTUATION THROUGH BARRIER - The invention relates generally to robotically controlled systems, such as medical robotic systems. In one variation, a robotic catheter system is configured with a sterile barrier capable for transmitting a rotary force from a drive system on one side of the barrier to surgical tool on the other side of the sterile barrier for performing minimally invasive diagnostic and therapeutic procedures. Modularized drive systems for robotics arc also disclosed herein. | 07-15-2010 |
20100228191 | LOCKABLE SUPPORT ASSEMBLY AND METHOD - Assemblies and methods related to controllably lockable support structures are described. An assembly may comprise an interface defined by two adjacent tubular structures whereby the adjacent structures may be spatially locked and unlocked relative to each other with application of a load. The tubular structures may comprise one or more spring members configured to deflect with application of a load greater than a preconfigured threshold, thereby causing a locking state of the interface to change from a first locking state to a second locking state. Embodiments are described wherein such load may be a tensile and/or compressive load. Various embodiments are described wherein an interface may be locked without application of a load and unlocked upon application of the requisite load, or locked only after application of a load. | 09-09-2010 |
20100280449 | FLEXIBLE AND STEERABLE ELONGATE INSTRUMENTS WITH SHAPE CONTROL AND SUPPORT ELEMENTS - An instrument having a flexible and elongated body includes at least a lumen and a flex member disposed within the lumen. The flex member may be capable of providing steering control to a first portion of the elongate body while providing load bearing support to a second portion of the elongate body. A pull wire may be disposed within the flex member, and at least a distal portion of the pull wire may be coupled to the elongate body and a proximal portion of the pull wire may be operatively coupled to a control unit. The control unit may be coupled to a proximal portion of the elongate body. In addition, a control member may be operatively coupled to the control unit such that a distal portion of the control member may be positioned near a proximal portion of the flex member. The control member may be configured to support the flex member and control the movement or displacement of the flex member. Furthermore, the flex member may be configured to selectively decouple articulation or steering forces of a first portion of the elongate body away from a second portion of the elongate body; thereby, preventing compression of the second portion of the elongate body while maintaining elasticity or flexibility of the second portion of the elongate body. | 11-04-2010 |
20100331856 | MULTIPLE FLEXIBLE AND STEERABLE ELONGATE INSTRUMENTS FOR MINIMALLY INVASIVE OPERATIONS - Configurations are described for conducting minimally invasive medical interventions utilizing elongate robotically controlled instruments and assemblies thereof. In one embodiment, a junction sheath may be utilized to facilitate surgical triangulation of two interventional instrument assemblies, while also directing them to the surgical theater through a minimal single wound or surgical port. One or more instrument drivers, and one or more master input devices comprising an operator workstation, may be utilized to independently and simultaneously control multiple degrees of freedom pertinent to each instrument comprising one or more instrument assembly. | 12-30-2010 |
20110152880 | FLEXIBLE AND STEERABLE ELONGATE INSTRUMENTS WITH TORSION CONTROL - An instrument for performing minimally invasive surgical procedures includes an elongate body and a support member disposed within or along the elongate body. The support member is configured to support steering, articulation, and angular rotational movement of the elongate body, provide torsion control, and support precise and accurate placement of the distal portion of the elongate body so that complex surgical procedure may be performed using the instrument. | 06-23-2011 |
20120071822 | STEERABLE CATHETERS - Medical devices having an elongated steerable member are described herein. In one embodiment, a device includes an elongated body having a proximal section, a distal section, and a working lumen extending through the proximal and distal sections, a first coil having a distal portion, and a proximal portion, the proximal portion of the first coil being slidable relative to the proximal section of the elongated body, and being closer to a wall of the elongated body than to an axis of the elongated body, wherein a lengthwise portion of the distal portion of the first coil is anchored to the distal section of the elongated body, and a first steering wire located within a lumen of the first coil. | 03-22-2012 |
20120071895 | ANTI-BUCKLING MECHANISMS AND METHODS - Anti-buckling devices for supporting flexible elongated members are described herein. In one variation, an anti-buckling device includes a first coupler for coupling to a first device, a second coupler for coupling to a second device that is configured to position a catheter member, a first set of support members coupled between the first coupler and the second coupler, and a plurality of holders coupled to the support members, the holders configured for supporting the catheter member, wherein the first set of support members form a support frame that can be extended by moving the first and second couplers away from each other, and can be collapsed by moving the first and second couplers towards each other. | 03-22-2012 |
20130317519 | LOW FRICTION INSTRUMENT DRIVER INTERFACE FOR ROBOTIC SYSTEMS - A medical robotic system includes a base having a first opening, and a first protrusion next to the first opening, a first rotary member configured for detachably coupling to a component of the medical robotic system in a manner such that the first rotary member is rotatable relative to the base and at least a part of the first rotary member is located in the first opening of the base when the first rotary member is coupled to the system component, and a cover coupled to the base, wherein the first rotary member comprises a first end, a second end, a body extending between the first and second ends, and a flange disposed circumferentially around a part of the body, the flange having a first circumferential slot for receiving the first protrusion. | 11-28-2013 |
20140069437 | MODULAR INTERFACES AND DRIVE ACTUATION THROUGH BARRIER - The invention relates generally to robotically controlled systems, such as medical robotic systems. In one variation, a robotic catheter system is configured with a sterile barrier capable for transmitting a rotary force from a drive system on one side of the barrier to surgical tool on the other side of the sterile barrier for performing minimally invasive diagnostic and therapeutic procedures. Modularized drive systems for robotics are also disclosed herein. | 03-13-2014 |
20140148759 | CATHETER HAVING UNIRAIL PULLWIRE ARCHITECTURE - A steerable catheter comprises a flexible catheter body including a proximal shaft section and a distal articulating section, a proximal steering interface coupled to the proximal shaft section, and at least one hollow stiffening member extending through the proximal shaft section. The stiffening member(s) is more rigid than the proximal shaft section and is laterally offset from a geometric cross-sectional center of the proximal shaft section. The steerable catheter further comprises circumferentially spaced lumens extending through the distal articulating section, and pullwires extending through the stiffening member(s) in the proximal shaft section and the respective lumens in the distal articulating section. Each of the pullwires has a distal end that terminates in the catheter body distal to the distal articulating section and a proximal end that terminates in the steering interface. The steering interface is manipulatable to selectively tension the pullwires to bend the distal articulating section. | 05-29-2014 |
20140276939 | ACTIVE DRIVE MECHANISM WITH FINITE RANGE OF MOTION - Various exemplary drive apparatuses and associated methods are disclosed for driving an elongated member, e.g., a catheter, sheath, or guidewire. An exemplary drive apparatus may include a first component and a moveable component, each configured to selectively grip the elongated member. In some examples, the first and moveable components may each include a gripping device. The moveable component may be configured to selectively move axially and rotationally with respect to a support surface to effect axial movement and rotation movement, respectively, of the elongated member with respect to the support surface within a range of motion of the moveable component. The moveable component may be configured to move the elongated member across a predetermined movement having a magnitude greater than the range of motion. | 09-18-2014 |
20140379000 | METHOD, APPARATUS, AND A SYSTEM FORFACILITATING BENDING OF AN INSTRUMENT IN ASURGICAL OR MEDICAL ROBOTIC ENVIRONMENT - An instrument that facilitates bending with large degrees of articulation while maintaining ease of manufacturing for medical and surgical applications is discussed. | 12-25-2014 |