Abstract: An ultrasonic tissue ablation device comprising a transversely vibrating elongated probe, and a coupling assembly for probe attachment detachment that enables the probe assembly and separation from the device body that includes the ultrasound energy source and a sound conductor, and a method of use for removal of vascular occlusions in blood vessels. The coupling assembly enables incorporation of elongated probes with small cross sectional lumens such as a catheter guidewires. The probe detachability allows insertion manipulation and withdrawal independently of the device body. The probe can be used with acoustic and/or aspirations sheaths to enhance destruction and removal of an occlusion. The horn assembly of the device that contains a sound conducting horn functions as an energy regulator and reservoir for the probe, and precludes loss of probe cavitation energy by its bending or damping within the blood vessel.

Abstract: Infrared microthermography for human embryos and hatchlings. Body temperature is monitored using an infrared camera attached to a microscope. Body temperature is maintained by passing body temperature data through a feedback loop that serves to control body temperature. Keeping the baby's fluid incubation medium lower than an optimum body temperature ensures that cooling can occur if the body becomes overheated. An added source of heat is provided by one or more infrared light emitting diodes focused on the body as tiny heat lamps. The heat lamps are cycled on and off or varied in intensity in accordance with indications (data) from body temperature measurements.

Abstract: A nuclear imaging apparatus includes a radiation detector comprising an array (18) of solid state detector elements (22) responsive to incident gamma radiation by emitting a current spike. A pixel correction processor (44) detects defective detector elements in the array and a flood correction circuit (66) corrects detected radiation events (70) based on sensitivity differences between a plurality of groupings of detector elements in the array. A reconstruction processor (76) reconstructs an image representation from the corrected radiation events (74).

Abstract: The invention is an MRI imaging system that seamlessly switches between a fast imaging fluoro-mode and a diagnostic imaging mode. The fluoro-mode is used to quickly obtain an image which provides confirmation that the selection of MR imaging parameters are proper and to provide an opportunity to adjust these selections. After the selections have been confirmed and adjusted, the system is switched to a normal diagnostic image mode using the parameter selects as modified during fluoro-mode imaging.

Abstract: A method and system for physiological gating for radiation therapy is disclosed. According to an aspect, the invention comprises the use of an optical or video image system to measure regular physiological movement of a patient's body. The image data can be used to quantify voluntary or involuntary motion of the patient that may affect the delivery of radiation to a target tissue. A gating signal can be generated to suspend delivery of radiation upon certain threshold event detected in the physiological movement.

Abstract: A high intensity focused ultrasound system for scanning and treating tumor, having a combined probe, a power source, a B-mode ultrasound scanner, a multi-dimensional digit-controlled motional apparatus, a vacuum degassor apparatus, a therapeutic bed, and a computer. The combined probe comprises a B-mode ultrasound probe and a therapeutic head which generates therapeutic focused ultrasound; its ultrasound-emitting end is mounted on the multi-dimensional motional apparatus, and the motional apparatus carries out scanning movement outside the body under the control of the computer, causing the high sound intensity focal region (space-point) generated by the therapeutic head to carry out scanning within the body. By the action of high sound intensity, the temperature of the tissues in the focal region instantaneously rises to over 70 degrees centigrade and the tissues are affected by the mechanical action of cavitation, so degeneration and necrosis occur.

Abstract: A non-implantable CT and MRI marker has a first component formed of at least one of a silicone resin and a fluorcarbon resin and a second component comprised of at least one of an elastomer and an organogel contained in the first component.

Abstract: An apparatus for measuring bio-magnetic fields includes a plurality of magnetometers for detecting magnetic fields generated from a live body; a driving circuit for driving the magnetometers; a computer for collecting output signals of the driving circuit in the form of data representing at least one waveform of the magnetic fields generated from the live body and for performing an arithmetic processing on the data representing the waveform of magnetic fields, a display unit, and at least one signal processing circuit for processing output signals of the driving circuit. The computer further performs an arithmetic processing of first-order differentiation on the waveform of the magnetic fields in a z direction with respect to time in order to create an arrow map and a contour map. The apparatus can also detect mechanical movement which occurs as blood flows in organs and organs move.

Abstract: A method for treating tissue comprising the steps of providing a probe including a body having a distal tip, a position sensor for determining a position of the distal tip and a hollow needle movable from the distal tip of the body. The probe is brought into contact with a tissue portion and the hollow needle is moved out of the distal tip of the body and into the tissue portion whereby a therapeutic agent is injected into the tissue portion through the hollow needle.

Abstract: Disclosed is a blood vessel detecting apparatus which accurately detects a blood vessel using an image pickup element having a plurality of pixels to pick up an image of a blood vessel, a detector for detecting a pixel output estimated as a blood vessel on the basis of pixel the output from the image pickup elements, and a determination unit for, when the detector detects pixel outputs that are likely to be a plurality of blood vessels, determining a correct number of blood vessels using the pixel output or an area image pickup element.

Abstract: The method and apparatus of the invention are directed to surgically non-invasively treating skeleto/muscular injuries or of diagnosing bone fractures, involving application of two components of ultrasonic energy, to an external surface of living tissue, wherein the two components are of different frequencies in the range between 10 kHz and 4 MHz, and wherein separate transducers, each uniquely supplied with an excitation signal at a different one of the same two frequencies, are directionally disposed for acoustic propagation on the same directional axis.

Abstract: A fiber optic needle probe for measuring or imaging the internal structure of a specimen includes a needle defining a bore, an optical fiber substantially positioned within the bore, and a beam director in optical communication with the optical fiber. At least a portion of the wall of the needle is capable of transmitting light. The beam director directs light from the optical fiber to an internal structure being imaged and receives light from the structure through a transparent portion of the wall. An actuating device causes motion of any, or all of, the needle, optical fiber, and beam director to scan the internal structure of the specimen. The fiber optic needle probe allows imaging inside a solid tissue or organ without intraluminal insertion. When used in conjunction with an OCT imaging system, the fiber optic needle probe enables tomographic imaging of the microstructure of internal organs and tissues which were previously impossible to image in a living subject.

Abstract: The present invention provides a system and method of increasing the sampling rate for MR data acquisition. By implementing ensemble sampling techniques, the present invention provides higher data sampling rates that are useful for several MR data acquisition applications including Echo Planar Imaging, Functional Magnetic Resonance Imaging, and Sensitivity Encoding Imaging (SENSE) techniques. By multiplying an MR signal by a series of pure sinusoids having the same frequency but shifted by an incremental phase, the MR signal may be separated into a number of channels which can be sampled at lower rates by analog-to-digital converters. The output from the converters may then be reconstructed using one of a number of interpolation techniques to create a single digital channel with increased bandwidth. The single channel with increased bandwidth may then be used to acquire MR data with an improved sampling rate.

Abstract: A method for reconstructing an image representation of a subject from data sets collected using a medical diagnostic imaging apparatus is provided. The method includes defining operations which are performed in reconstructing desired types of image representations. The operations are applicable to data sets having particular formats. Data sets having particular formats are identified, and operations are selected from the defined operations based upon the particular format of the identified data sets. When a detected load on available image processing equipment is below a desired level, then selected operations are automatically performed on the identified data sets.

Abstract: A drug delivery catheter suited for cardiac procedures including transmyocardial revascularization. The catheter includes a distal helical coil or other fixation and penetrating element, which can be operated from the proximal end of the catheter to engage and penetrate the myocardium. Once delivered to the inside of the heart, the catheter can be used to created several helical wounds in the myocardium, and also inject small doses of therapeutic agents to the wounds. The TMR accomplished by the procedure provides for large wound to penetration ratio, and limits the potential of perforating the heart wall.

Abstract: A system (10) analyzes signals representative of a subject's brain activity in a signal processor (12) for information indicating the subject's current activity state and for predicting a change in the activity state. One preferred embodiment uses a combination of nonlinear filtering methods to perform real-time analysis of the electro-encephalogram (EEG) or electro-corticogram (ECoG) signals from a subject patient for information indicative of or predictive of a seizure, and to complete the needed analysis at least before clinical seizure onset. The preferred system then performs an output task for prevention or abatement of the seizure, or for recording pertinent data.

Abstract: A method for vascular reconstruction comprises the steps of advancing a catheter having a position sensor into the vessel, acquiring position information from the sensor at a plurality of points in the vessel, calculating a center-line of the vessel based on said position information, and calculating the inner surface of the vessel. The method of the invention preferably further comprises displaying the vessel reconstruction. The invention is also directed to apparatus for reconstructing vessels which comprises a catheter having a position sensor contained therein, means for acquiring position information from said sensor at a plurality of points in said vessel, means for calculating a centerline of the vessel based on said position information, and means for calculating the inner surface of the vessel.

Abstract: Ultrasound application devices and methods of use for sternum healing of a patient includes the steps of positioning an ultrasound application device near a sternum having approximated portions, and applying ultrasound to the approximated portions for promoting healing. The ultrasound application device includes a transducer for generating the ultrasound, and a base for positioning the transducer near to the sternum. A diverging lens may be disposed between the transducer and the sternum for acoustically diverging the ultrasound to flood the sternum with ultrasound. A plurality of transducers may be included in a plurality of recesses of the base along a longitudinal length of the sternum for applying the ultrasound along the longitudinal length of the sternum. A ring may be included to be positioned and secured about the neck of the patient. The ring may be woven as and/or incorporated in a tie.

Abstract: A first measuring light beam of wavelength &lgr;1 equal to a wavelength at the isosbestic point between oxyhemoglobin and deoxyhemoglobin and a second measuring light beam of wavelength &lgr;2 differing from the first measuring light beam are incident on the same part of a subject such as a human finger and scan the subject by using an X-Y stage movable in X and Y directions. The first measuring light beam branches into two light beams. One of the two light beams is subjected to a frequency shift by a frequency shifter, while the other is transmitted through the subject. Thereafter, the two light beams are synthesized and a beat component of the synthesized first measuring light beam is detected by a first signal detection section. The first signal detection section outputs a first beat-component detection signal. For the second measuring light beam, a second beat-component detection signal is output in the same manner as the first measuring light beam.

Abstract: Magnetic resonance information acquired by a movable magnetic resonance instrument is used to monitor hyperthermia treatments such as tissue ablation. The instrument may include both the magnetic resonance equipment and an energy applicator such as a high intensity focused ultrasound unit. The treatment can be conducted under automatic control after the operator marks a treatment volume on an image of the subject, such as a magnetic resonance image acquired using the movable magnetic resonance instrument. The automatic treatment can be based on interpolation of tissue response curves at plural test points near the treatment volume. The system can also provide automatic supervisory control during manual operation, to prevent application of heat to sensitive anatomical structures.