Abstract: A catheter procedure system includes a base and a robotic mechanism having a longitudinal axis and being movable relative to the base along the longitudinal axis. The robotic mechanism includes a robotic drive base including at least one drive mechanism, a cassette operatively secured to the robotic drive base, a rigid guide coupled to the cassette and fixed relative to the robotic mechanism and a flexible track having a distal end, a proximal end and a plurality of reflective sections. At least a portion of the flexible track is disposed within the rigid guide. The robotic mechanism also includes a position detector mounted to the robotic drive base and positioned beneath the flexible track. The position detector is configured to detect light reflected off of the reflective sections of the flexible track and to determine the position of the distal end of the flexible track based on the detected reflected light.

Abstract: A system for controlling the position of an articulated robotic arm includes a robotic catheter procedure system having the articulated robotic arm and a controller coupled to the articulated robotic arm. The system further includes a patient table positioned proximate to and separate from the articulated robotic arm and a tracking system coupled to the controller and configured to measure a change in a position of the patient table. The controller is configured to adjust the position of the articulated robotic arm based on the measured change in position of the patient table.

Abstract: Disclosed is the automated rapid advancement of a guide wire through a guide catheter using x-ray markers. The procedure involves providing a guide wire with a marker at or adjacent its tip, providing a guide catheter with a marker at or adjacent its distal terminus, rapidly advancing the guide wire through the guide catheter from its proximal end to its distal end under the control of an automated apparatus, and terminating the automated rapid advancement when the guide wire tip marker becomes adjacent to the guide catheter distal end marker. Fluoroscopic images may be taken of the of the guide wire as it rapidly advances through the guide catheter and image processing software used to determine when to terminate the rapid advancement. This software may use either the position or the velocity of the guide wire to make this determination.

Abstract: A rail system for a medical table includes a frame, a rail coupled to the frame and an apparatus for reacting a moment on the rail. The apparatus is operatively secured to a first position on the rail and is configured to apply a first moment on the rail to counteract a second moment applied to the rail.

Abstract: A method for delivering an elongated medical device along a path to a target location using a catheter procedure system includes generating a mask of the path, tracking a position of a distal portion of the elongated medical device based on a set of real-time images and determining a remaining path length based at least on the position of the distal portion of the elongated medical device. The remaining path length is a distance between the distal portion of the elongated medical device and the target location. The remaining path length decreases as the distal portion of the elongated medical device approaches the target location.

Abstract: An interlocking system for a joystick in a catheter procedure system includes a joystick configured to generate a first voltage output signal based on a linear activation of the joystick and a second voltage output signal based on a rotational activation of the joystick. A joystick cover is disposed over the joystick and includes an upper portion having an electrode plating on an inner surface of the upper portion and a lower portion having an inner surface. A capacitive touch detection circuit is coupled to the electrode plating of the upper portion of the joystick cover and is mounted on the inner surface of the lower portion of the joystick cover. The capacitive touch detection circuit is configured to detect a proximal change in capacitance in the electrode plating of the upper portion of the joystick cover and to generate a touch output signal to indicate whether a change in capacitance has been detected.

Abstract: An interlocking system for a joystick in a catheter procedure system includes a joystick configured to generate a first voltage output signal based on a linear activation of the joystick and a second voltage output signal based on a rotational activation of the joystick. A joystick cover is disposed over the joystick and includes an upper portion having an electrode plating on an inner surface of the upper portion and a lower portion having an inner surface. A capacitive touch detection circuit is coupled to the electrode plating of the upper portion of the joystick cover and is mounted on the inner surface of the lower portion of the joystick cover. The capacitive touch detection circuit is configured to detect a proximal change in capacitance in the electrode plating of the upper portion of the joystick cover and to generate a touch output signal to indicate whether a change in capacitance has been detected.

Abstract: A system for controlling the position of an articulated robotic arm includes a robotic catheter procedure system having the articulated robotic arm and a controller coupled to the articulated robotic arm. The system further includes a patient table positioned proximate to and separate from the articulated robotic arm and a tracking system coupled to the controller and configured to measure a change in a position of the patient table. The controller is configured to adjust the position of the articulated robotic arm based on the measured change in position of the patient table.

Abstract: A catheter procedure system includes a base and a robotic mechanism having a longitudinal axis and being movable relative to the base along the longitudinal axis. The robotic mechanism includes a robotic drive base including at least one drive mechanism, a cassette operatively secured to the robotic drive base, a rigid guide coupled to the cassette and fixed relative to the robotic mechanism and a flexible track having a distal end, a proximal end and a plurality of reflective sections. At least a portion of the flexible track is disposed within the rigid guide. The robotic mechanism also includes a position detector mounted to the robotic drive base and positioned beneath the flexible track. The position detector is configured to detect light reflected off of the reflective sections of the flexible track and to determine the position of the distal end of the flexible track based on the detected reflected light.

Abstract: An interlocking system for a joystick in a catheter procedure system includes a joystick configured to generate a first voltage output signal based on a linear activation of the joystick and a second voltage output signal based on a rotational activation of the joystick. A joystick cover is disposed over the joystick and includes an upper portion having an electrode plating on an inner surface of the upper portion and a lower portion having an inner surface. A capacitive touch detection circuit is coupled to the electrode plating of the upper portion of the joystick cover and is mounted on the inner surface of the lower portion of the joystick cover. The capacitive touch detection circuit is configured to detect a proximal change in capacitance in the electrode plating of the upper portion of the joystick cover and to generate a touch output signal to indicate whether a change in capacitance has been detected.

Abstract: A rail system for a medical table includes a frame, a rail coupled to the frame and an apparatus for reacting a moment on the rail. The apparatus is operatively secured to a first position on the rail and is configured to apply a first moment on the rail to counteract a second moment applied to the rail.

Abstract: The present disclosure involves a process for guiding the distal end of a guide wire or working catheter as it emerges from the distal end of a guide catheter into a blood vessel. The distal end of the guide wire or working catheter is provided with an X-ray marker, a determination is made that this distal end has emerged from the distal end of the guide catheter and a fluoroscopic image of the distal end of a guide wire or working catheter is taken. This image is correlated with the length of guide wire or working catheter inserted into the guide catheter. After further advancement of the guide wire or working catheter, another fluoroscopic image of the distal end of a guide wire or working catheter is taken and this image is correlated with the length of guide wire or working catheter which has been inserted into the guide catheter.

Abstract: Disclosed is the automated rapid advancement of a guide wire through a guide catheter using x-ray markers. The procedure involves providing a guide wire with a marker at or adjacent its tip, providing a guide catheter with a marker at or adjacent its distal terminus, rapidly advancing the guide wire through the guide catheter from its proximal end to its distal end under the control of an automated apparatus, and terminating the automated rapid advancement when the guide wire tip marker becomes adjacent to the guide catheter distal end marker. Fluoroscopic images may be taken of the of the guide wire as it rapidly advances through the guide catheter and image processing software used to determine when to terminate the rapid advancement. This software may use either the position or the velocity of the guide wire to make this determination.

Abstract: This disclosure involves the use of X-ray markers that appear in fluoroscopic images and are detected by image processing software to partially or fully automate or assist in the performance of one or more of the steps of a percutaneous interventional procedure typically involving a catheter device.

Abstract: A radio frequency signal handling device and a mobile communication device comprising such a radio frequency signal handling device. The radio frequency signal handling device comprises a first terminal interfacing external entities in the form of an input where radio frequency signals are to be received, at least one signal scaling unit having a first end where a signal provided by a terminal interfacing external entities is received, and one signal detector provided for each signal scaling unit and being connected to a second end of the corresponding signal scaling unit for detecting a signal provided by this signal scaling unit. The signal scaling unit only includes passive reactive components and comprises at least one such passive reactive component.

Abstract: A radio frequency signal handling device and a mobile communication device comprising such a radio frequency signal handling device. The radio frequency signal handling device comprises a first terminal interfacing external entities in the form of an input where radio frequency signals are to be received, at least one signal scaling unit having a first end where a signal provided by a terminal interfacing external entities is received, and one signal detector provided for each signal scaling unit and being connected to a second end of the corresponding signal scaling unit for detecting a signal provided by this signal scaling unit. The signal scaling unit only includes passive reactive components and comprises at least one such passive reactive component.

Abstract: A biosignal monitoring system including a plurality of sensors for disposition in predetermined positions on the body of a test subject; each sensor having contact surfaces shaped and arranged to detect a particular biosignal generated in the body, a sensor transceiver, a sensor antenna, a voltage supply, and a microprocessor programmed for processing the particular biosignal to provide given data; and a control station providing a wireless, bi-directional data communications link with the sensors; the control station having a station transceiver, a station antenna, and a computer for further processing the given data received from the sensors.

Abstract: A tool for measuring different details of conical bores comprising a straight elongated member adapted for close engagement against the wall surface of the bore, and having at one end a stop for limiting the length to which the said straight, elongated member can be pushed into the bore and at a predetermined distance from said stop an opening wherein a measuring arm can be pivotably fitted.