Abstract: A system for ophthalmic surgery on an eye includes: a pulsed laser which produces a treatment beam; an OCT imaging assembly capable of creating a continuous depth profile of the eye; an optical scanning system configured to position a focal zone of the treatment beam to a targeted location in three dimensions in one or more floaters in the posterior pole. The system also includes one or more controllers programmed to automatically scan tissues of the patient's eye with the imaging assembly; identify one or more boundaries of the one or more floaters based at least in part on the image data; iii. identify one or more treatment regions based upon the boundaries; and operate the optical scanning system with the pulsed laser to produce a treatment beam directed in a pattern based on the one or more treatment regions.

Abstract: A system for ophthalmic surgery on an eye includes: a pulsed laser which produces a treatment beam; an OCT imaging assembly capable of creating a continuous depth profile of the eye; an optical scanning system configured to position a focal zone of the treatment beam to a targeted location in three dimensions in one or more floaters in the posterior pole. The system also includes one or more controllers programmed to automatically scan tissues of the patient's eye with the imaging assembly; identify one or more boundaries of the one or more floaters based at least in part on the image data; iii. identify one or more treatment regions based upon the boundaries; and operate the optical scanning system with the pulsed laser to produce a treatment beam directed in a pattern based on the one or more treatment regions.

Abstract: A system for ophthalmic surgery on an eye includes: a pulsed laser which produces a treatment beam; an OCT imaging assembly capable of creating a continuous depth profile of the eye; an optical scanning system configured to position a focal zone of the treatment beam to a targeted location in three dimensions in one or more floaters in the posterior pole. The system also includes one or more controllers programmed to automatically scan tissues of the patient's eye with the imaging assembly; identify one or more boundaries of the one or more floaters based at least in part on the image data; iii. identify one or more treatment regions based upon the boundaries; and operate the optical scanning system with the pulsed laser to produce a treatment beam directed in a pattern based on the one or more treatment regions.

Abstract: A system for ophthalmic surgery on an eye includes: a pulsed laser which produces a treatment beam; an OCT imaging assembly capable of creating a continuous depth profile of the eye; an optical scanning system configured to position a focal zone of the treatment beam to a targeted location in three dimensions in one or more floaters in the posterior pole. The system also includes one or more controllers programmed to automatically scan tissues of the patient's eye with the imaging assembly; identify one or more boundaries of the one or more floaters based at least in part on the image data; iii. identify one or more treatment regions based upon the boundaries; and operate the optical scanning system with the pulsed laser to produce a treatment beam directed in a pattern based on the one or more treatment regions.

Abstract: A system and method for tool exchange during surgery for cooperatively controlled robots comprises a tool holder for receiving a surgical tool adapted to be held by a robot and a surgeon, a tool holding element for constraining downward motion of the tool while allowing low force removal of the surgical tool from the holder, a first sensor for detecting if the surgical tool is docked within the tool holder, and a selector for automatically selecting different movements or actions of the tool holder to be performed based upon information detected by the first sensor. The system and method of the present invention provides an advantage to an often slow moving cooperative robot, by increasing the speed by which the tool holder may move in the direction away from the patient.

Abstract: A method of treating diseased cells including the steps of instilling an optical imaging agent to a tissue of a patient, accessing the tissue with a device comprising a fiber tip, emitting a first light from the fiber tip and photodynamically diagnosing abnormal cells, and emitting a second light from the fiber tip to treat the abnormal cells. The first light can be a first power blue light and the second light can be a second power blue light, where the first power blue light can be a lower power than the second power blue light.

Abstract: A method to enable a laser to interact with a structure behind a barrier includes calculating a set of characteristics for a first laser channel to be effective to tunnel through the barrier and calculating a second set of characteristics for a second laser channel to be effective to interact with the structure, generating said first laser pulse to form a tunnel through the barrier and prior to closing of the tunnel, generating the second laser pulse to travel through the tunnel to interact with the structure. A treatment unit associated with this method has a control panel in communication with an electronics package. Data entered into the control panel enables the electronics package to calculate the first and second sets of characteristics and drive a first laser generating a laser pulse of the first laser channel followed after a delay by a laser pulse of the second laser channel.

Abstract: Method and systems for ablating nerves including measurement of physiological parameters and/or electrical conduction. The method may include ablating nerves within an artery of a patient such as the renal artery and may include advancing a catheter into the artery, measuring a physiological parameter, emitting an electrical pulse into a wall of the artery, measuring the physiological parameter during or after the step of emitting the electrical pulse, ablating the artery wall, then repeating the steps of measuring the physiological parameter, emitting an electrical pulse, and measuring the physiological parameter during or after the step of emitting the electrical pulse. The change in the physiological parameter caused by the electrical pulse before ablation may be compared to the change in the physiological parameter caused by the electrical pulse after ablation to determine the degree of nerve ablation achieved and whether or not to perform further ablation.

Abstract: Provided is a moisture meter that can easily measure a moisture content of a subject and can be effectively used as means for assisting the subject in appropriately regulating the moisture content. A moisture meter for measuring a moisture content of a subject includes: a moisture measuring unit that is held in an armpit of a subject so as to measure a moisture content of the subject, the moisture measuring unit including measurement current supply electrode portions and voltage measurement electrode portions that make contact with a skin surface of the armpit; and a temperature measuring unit that is held in the armpit of the subject so as to measure the temperature of the subject.

Abstract: A device for electrically isolating pulmonary veins in atrial fibrillation for treatment thereof by ablation of a circumferential zone of tissue. The device includes a catheter (with terminal and distal parts) and comprising a first tubular element; a second tubular element concentric with the first tubular element and an axial rod-like element which extends beyond the distal end of the first and second tubular elements; and a first tubular toroidal element supported by tubular arms extending from the distal end towards the toroidal element, forming a cage which can be opened in umbrella fashion around the distal end of the catheter. The tubular arms and the toroidal element are in fluid communication with each other and with the tubular element of the catheter. The device also includes a second toroidal tubular element in fluid communication by means of the radial arms with the first tubular element of the catheter.