Patent application number | Description | Published |
20080243064 | SUPPORT STRUCTURE FOR ROBOTIC MEDICAL INSTRUMENT - A robotic medical instrument system including a catheter body and an elongate, flexible support member that includes substantially spherical elements and a plurality of non-spherical elements, such as cylindrical elements, which may be configured as a series of alternating substantially spherical and cylindrical elements. The support structure is bendable with the catheter body lumen. The substantially spherical and non-spherical elements may also collectively define a central, inner lumen. Bending of respective catheter body and the flexible support structure may be controllably by manipulation of the control element. | 10-02-2008 |
20080249536 | INTERFACE ASSEMBLY FOR CONTROLLING ORIENTATION OF ROBOTICALLY CONTROLLED MEDICAL INSTRUMENT - Interface assemblies for controlling an orientation of a working instrument of a robotic medical instrument system. A base member is coupled to a distal end of an instrument such as a robotically controllable catheter. A spacer element is retained between the base member and a platform member, which is movable relative to the base member about the spacer element. One or more control elements extending through a base member aperture can be used to control an orientation of the platform member and working instrument. | 10-09-2008 |
20080262480 | INSTRUMENT ASSEMBLY FOR ROBOTIC INSTRUMENT SYSTEM - A robotic medical instrument system for driving a segment of a catheter or other instrument. A segment, such as the distal end, of a catheter may be axially and/or rotatably driven. Drive elements include an internal and retractable catheter drive shaft, an actuation element coupled to an internal portion of the catheter body and including an internal guide in which a pin can move to drive a gear and rotate the catheter, a harmonic drive element, a wobble plate drive element, and a planetary gear drive element. | 10-23-2008 |
20080262513 | INSTRUMENT DRIVER HAVING INDEPENDENTLY ROTATABLE CARRIAGES - An instrument driver operable to control catheter instruments. First and second carriages are movably coupled to a frame of an instrument driver. Each carriage is configured to support a catheter instrument. The first and second carriages are independently rotatable about a longitudinal axis of the respective first and second catheter instruments and rotatable independently of an instrument driver frame. Independent carriage control provides for the carriages being independently movable in at least three different directions with at least two different types of motion. | 10-23-2008 |
20090062602 | APPARATUS FOR ROBOTIC INSTRUMENT HAVING VARIABLE FLEXIBILITY AND TORQUE TRANSMISSION - A flexible spine for use in one or more surgical instruments including a catheter and/or sheath of a robotic instrument system. The spine includes an elongate body that defines a central lumen and that is a unitary structure having a plurality of discrete sections, each of which has a distinguishing structural attribute that differentiates it from the other sections. Such distinguishing structural attributes may include, without limitation, materials, material attributes, shapes, sizes and/or attributes related to apertures in a wall of the elongate body, such as a number, shape, size, spacing and degree of overlap of such apertures. The arrangement of discrete, structurally different sections results in varying flexibility of the elongate spine and of corresponding sections of a surgical instrument incorporating the spine. | 03-05-2009 |
20100094125 | SYSTEM AND METHOD FOR 3-D IMAGING - A system and method for recording and depicting ultrasound images of a moving object are disclosed. In a preferred embodiment, ultrasound images are acquired as the field of view of an ultrasound probe is advanced across the tissues of interest during a resting period between periods of relatively large-scale heart cycle motion. A series of images acquired during a particular resting period may be represented as a three-dimensional volume image, and the comparison of volume images from adjacent cardiac resting periods enables three-dimensional volume image modulation analysis which may be presented for a user as a moving volume image of the objects of interest within the field of view. | 04-15-2010 |
20110160724 | SYSTEM AND METHOD FOR DENATURING AND FIXING COLLAGENOUS TISSUE - A method for modifying a geometry of a collagenous tissue mass includes heating the collagenous tissue mass to a temperature sufficient to cause denaturation, and introducing a biocompatible fixative, such as genepin, into the collagenous tissue mass. | 06-30-2011 |
20110172535 | SYSTEM AND METHOD FOR 3-D IMAGING - A system and method for recording and depicting ultrasound images of a moving object are disclosed. In a preferred embodiment, ultrasound images are acquired as the field of view of an ultrasound probe is advanced across the tissues of interest during a resting period between periods of relatively large-scale heart cycle motion. A series of images acquired during a particular resting period may be represented as a three-dimensional volume image, and the comparison of volume images from adjacent cardiac resting periods enables three-dimensional volume image modulation analysis which may be presented for a user as a moving volume image of the objects of interest within the field of view. | 07-14-2011 |
20120296161 | BALLOON VISUALIZATION FOR TRAVERSING A TISSUE WALL - Systems and methods for controllably traversing a tissue wall. In one embodiment, a distal end of a catheter is positioned and/or repositioned utilizing direct visualization out the distal end of the catheter, as facilitated by an imaging element disposed within the distal tip of the catheter. An inflatable balloon may comprise a portion of the distal tip of the catheter for structural and/or visualization media purposes. A tissue traversing element may be forwarded through a working lumen defined by the catheter and controllably pushed through a tissue wall as observed with the imaging element. The tissue traversing element may comprise sensors and the like to facilitate monitoring of changes in pressure, color, oxygen saturation, flow rate, and echo timing, to determine the position of the tissue traversing member relative to the tissue wall. | 11-22-2012 |