Abstract: An ultrasonic probe includes a sheath having a distal end insertable in a body cavity or a lumen, a proximal end having an injection port allowing an ultrasonic wave propagating liquid to be injected through the injection port, and a passage extending from the proximal end to the distal end, a drive shaft, having a distal end and a proximal end, for transmitting a mechanical drive force from the proximal end to the distal end, the drive shaft being disposed in the passage of the sheath, and an ultrasonic transducer provided at the distal end of the drive shaft, wherein a gap between the inner surface of the passage and the outer periphery of the drive shaft on the distal end side of the sheath is smaller than that on the proximal end side of the sheath. Such an ultrasonic probe is advantageous in efficiently discharging bubbles remaining in the sheath with less water flow, and also reducing the diameter of the ultrasonic probe while keeping a high quality of an ultrasonic tomogram.

Abstract: An ultrasound catheter suitable for insertion in the body lumens of a patient during medical procedures is provided. An ultrasound transducer may be provided at the distal tip of the catheter. An inflatable balloon may be provided at the distal end of the catheter on the proximal side of the ultrasound transducer. The catheter may have lumens for inflation fluid, electrical wires, and a guide wire. A sheath that runs through the balloon may be used to isolate the electrical wires and guide wire from inflation fluid in the interior of the balloon.

Abstract: An ablating device has a cover which holds an interface material such as a gel. The cover contains the interface material during initial placement of the device. The ablating device may also have a removable tip or a membrane filled with fluid. In still another aspect, the ablating device may be submerged in liquid during operation.

Abstract: Myocardial revascularization catheters and methods are provided herein. Catheters in accord with the present invention may include an outer shaft and an inner shaft where the inner shaft may be slidably and rotatably disposed in the outer shaft and the distal movement of the inner shaft may be arrested by the engagement of stops and catches located within the inner and outer shaft Methods in accord with the current invention may include providing a therapeutic, providing a radiopaque contrast media, injecting the therapeutic through a lumen into the myocardium of the heart, and injecting the radiopaque contrast media through a lumen into myocardium of the heart. In this example, the location of the injection the radiopaque material may be chosen to indicate the injection point of the injection of the therapeutic.

Abstract: A rotationally vibrating imaging catheter and method of utilization has an array of ultrasound or optical transducers and an actuator along with signal processing, display, and power subsystems. The actuator of the preferred embodiment is a solid-state nitinol actuator. The actuator causes the array to oscillate such that the tip of the catheter is rotated through an angle equal to or less than 360 degrees. The tip is then capable of rotating back the same amount. This action is repeated until the desired imaging information is acquired. The rotationally vibrating catheter produces more imaging points than a non-rotating imaging catheter and eliminates areas of missing information in the reconstructed image.

Abstract: A method and system for locating a vascular opening and therapeutically sealing the wound with high intensity focused ultrasound (HIFU) is disclosed. A control unit (6) coupled to an applicator unit includes a processor (74) that automates the disclosed procedure, controlling various parameters of the diagnostic and therapeutic modes, including the intensity and duration of the ultrasonic energy emitted by the applicator unit. The disclosed method and system is and then discarded, is slipped over the particularly applicable to sealing a puncture made inserting a catheter during an interventional cardiovascular procedure.

Abstract: A medical device such as an endoscope has an elongated flexible sheath. A first sleeve has a passage there through which snugly receives the sheath, the first sheath being slideable from its proximal end to its distal end. The sleeve is a thin-walled tube having a constant inner diameter so as to minimize the increase the outer dimension of the device at the portion upon which the sleeve is positioned. The sleeve has a length of approximately one-half the length of the sheath and may have greater stiffness than the sheath. A second sleeve may be slideably mounted on the first sleeve and has a snug fit therewith. The second sleeve is also a thin-walled tube having a constant outer dimension. The second sleeve has a length of approximately one-half the length of the first sleeve and may have greater stiffness than the first sleeve.

Abstract: An ultrasonic probe is provided for use in medical diagnostic applications. The probe includes one or more ultrasonic transducers disposed in an external housing and a plurality of cables disposed in a common sheath. A pointing device, such as a trackball, rocking-key device or the like, is mounted on the probe housing for controlling a plurality of functions of a remote imaging system associated with the probe.

Abstract: An ultrasonic transducer (108) for use in medical imaging comprises a substrate (300) having first and second surfaces. The substrate (300) includes an aperture (301) extending from the first surface to the second surface. Electronic circuitry (302) is located on the first surface. A diaphragm (304) is positioned at least partially within the aperture (301) and in electrical communication with the electronic circuitry (302). The diaphragm (304) has an arcuate shape, formed by applying a differential pressure, that is a section of a sphere. A binder material (314) is in physical communication with the diaphragm (304) and the substrate (300).

Abstract: A probe having the ability to deliver cardioplegia solution to the coronary sinus under direct visualization and to provide venous drainage from the right atrium for cardiopulmonary bypass. The probe has an elongate tubular member, including a distal end, a proximal end, and a lumen. A membrane, optionally perforated, mounted within the lumen of the tubular member partitions the lumen and is removable or penetrable by a cardioplegia catheter. The distal end comprises a toroidal balloon or a circumferential recessed vacuum manifold. A vacuum port communicates with the distal end of the tubular member or the vacuum manifold. Methods of using the cardioplegia access view probe for catheterization of the coronary sinus and for venous return as herein described are also disclosed.

Abstract: A parametric imaging ultrasound catheter apparatus is capable of obtaining parametric images of the surrounding insonated environment. Parametric imaging is defined as the imaging of quantifiable “parameters” which of visible two-, three-, fourth-dimensional or non-visible higher-dimensional temporal physiologic events. Visible motion is a fourth-dimensional event and includes surrogate features of cardiac muscle contraction, wall motion, valve leaflet motion, etc. Non-visible motion is a higher-dimensional event and includes slow non-visible events (i.e., remodeling, transformation, aging, healing, etc.) or fast non-visible events (i.e., heat, electricity, strain, compliance, perfusion, etc.). An ultrasound catheter with parametric imaging capability can obtain dynamic digital or digitized information from the surrounding environment and display information features or quanta as a static or dynamic geometric figures from which discrete or gross quantifiable information can be obtained.

Abstract: A holistically integrated ultrasonic system for examining, mapping, diagnosing, and treating diseases of the prostate gland in a male human includes an ultrasonic transrectal probe and an ultrasonic transurethral probe. Each of these probes is adapted to pulse and to receive, as well as to produce and operate within a liquid-filled volume of the lumen into which they are inserted. Each probe is in operative communication with an integrated patient support platform and an integrated expert system. The integrated expert system collects data transmitted by sensors in the transrectal and transurethral probes and produces level-of-suspicion mapping of the prostate gland with cancer probability assessments for areas contained within the level-of-suspicion mapping. The integrated expert system communicates with, and provides targeting coordinates for operation of an automated slave biopsy subsystem and directs a biopsy needle to a selected point within the prostate gland.

Abstract: A focused ultrasound system includes a transducer array including a plurality of sub-arrays, each sub-array defining an acoustic emission surface and including a plurality of transducer elements thereon. A mechanical controller is coupled to the sub-arrays that includes actuators for moving the sub-arrays to adjust an orientation of the acoustic emission surfaces of respective sub-arrays to facilitate steering of acoustic energy emitted by the transducer elements towards a target tissue region. Drive circuitry provides drive signals to the transducer elements, whereby the transducer elements emit acoustic energy from their respective acoustic emission surfaces to ablate the target region, such as a tumor within a patient's brain.

Abstract: An apparatus and method for guiding a needle in conjunction with a biopsy using a medical imaging device, where an open-ended needle guide with an adjustable slidable multi-gauge needle stop is used to guide a needle during insertion and during a tilting of the needle with respect to the medical imaging device.

Abstract: In an intravascular ultrasonic (IVUS) imaging system ring-down artifact is reduced or eliminated by dynamically enhancing the ring-down over a plurality of scans, determining the ring-down range by keying on a ring-down-to-blood transition characterized by a rapid change from high amplitude to low amplitude echoes, and using a spectral pattern for a single or several A-scans within the ring-down range, using for example an FFT analysis, as the basis of selectively filtering current or subsequent images using the recently computed ring-down pattern.

Abstract: A mechanical diagnostic probe is used to determine the thickness of articular cartilage, so that any degeneration in the articular cartilage can be detected at an early stage. The probe advantageously allows for calibrating the speed of the ultrasound in situ thereby allowing for more accurate measurements of the tissue thickness. The probe also can be used to monitor the condition of the cartilage after surgery and/or after or during physical rehabilitation of the cartilage. The probe is comprised of a probe handle and a probe, which is comprised of an ultrasonic transducer, strain-gauges, and a linear displacement actuator. A predetermined displacement then is applied to the indenter tip and a computer program is then used to analyze the results.

Abstract: An ultrasound transducer comprises a sheath body constructed from a nonconductive material. The sheath body is configured to be installed over a medical device. A piezoelectric copolymer transducer is held snugly against the medical device by the sheath body when the ultrasound transducer is installed over the medical device. The piezoelectric copolymer transducer transduces incident ultrasound signals into corresponding electric signals. A ground conductor is coupled to a first surface of the piezoelectric copolymer transducer. A signal conductor is coupled to a second surface of the piezoelectric copolymer transducer and conducts the corresponding electric signals to a proximal end of the medical device.

Abstract: According to the invention, an object in an ultrasound image is characterized by considering various in-vivo object parameters and their variability within the ultrasonic imaging data. Specifically, it is assumed that the object may be defined in terms of statistical properties (or object identifying parameters), which are consistently different from properties of the environment. Such properties are referred to as the object's signature. The statistical properties are calculated at selected locations within the image to determine if they fall within a predetermined range of values which represents the object. If within the range, the locations are marked to indicate they are positioned within the object. A border may then be drawn around the object and the area calculated.

Abstract: A multiplane transesophageal probe (20) includes a transducer (28) and a handle (30). The handle incorporates a control (40) mounting switches (51-58). The switches and control panel are covered with foil (43). A seal (70) couples the control panel and foil to the handle.

Abstract: An embryo-transfer catheter has an extruded shaft with a gas-filled lumen that extends helically along the catheter to provide an ultrasound marker. The catheter has a side opening close to a closed rounded patient end.

Abstract: An ultrasonic image diagnostic apparatus measures an arbitrary elapsed time in an arbitrary time measuring circuit, and simultaneously displays this time information and an ultrasonic image on a monitor or stores the image and the elapsed time information in a storage section in correspondence with each other.

Abstract: An intravascular imaging guidewire which can accomplish longitudinal translation of an imaging plane allowing imaging, by acoustic other high quality imaging energy, of an axial length of a region of interest without moving the guidewire. The imaging guidewire comprises a body in the form of a flexible elongate tubular member. An elongate flexible imaging core is slidably received within the body. The imaging core includes a shaft having an imaging device mounted on its distal end. The body and the imaging core are cooperatively constructed to enable axial translation of the imaging core and imaging device relative to the body. The body has a transparent distal portion extending an axial length over which axially translatable imaging may be performed. The imaging guidewire has a maximum diameter over its entire length sized to be received within a guidewire lumen of an intravascular catheter.

Abstract: In a radial scan, forward viewing ultrasonic endoscope, centering mating portions that permit the outer surface of an ultrasonic probe and the outer surface of a tip body to meet flush with each other at the boundary are formed in the ultrasonic probe and in the tip body and the gap between the inner peripheral surface of the ultrasonic probe and the mating surface of the front half of the tip body is formed to be larger than the gap between the centering mating portions.

Abstract: An ultrasonic transducer probe uses one or more ribbon cables to attach the transducer elements to the probe wiring. Electrical conductors within a first ribbon cable attach to corresponding lands on an end of an integrated circuit and, electrical conductors within additional ribbon cables attach to corresponding lands on circuit boards. The circuit boards distribute the electrical signals from the attached ribbon cables to additional lands on another end of the integrated circuit.

Abstract: An ultrasonic endoscope has a bending portion, an ultrasonic probe, and a flexible circuit board. The bending portion, connected to the point of a flexible tube, bends by remote control. The ultrasonic probe has a plurality of ultrasonic wave vibrators, which are arranged circumferentially, and send ultrasonic waves radially and receive echoes of the ultrasonic waves. The flexible circuit board, which transmits signals associated with the ultrasonic waves and the echoes, is constructed of a plurality of flexible circuit board strips in the bending portion so as to allow a bending motion. The plurality of ultrasonic wave coaxial lines, which are provided in the flexible tube to form an ultrasonic wave coaxial cable and are connected to the plurality of flexible circuit board strips, are loose and flexible in a given range.

Abstract: An ultrasonic endoscope has a bending portion, an ultrasonic probe, and a flexible circuit board. The bending portion, connected to the point of a flexible tube, bends along two predetermined bending-directions perpendicular to each other, by remote control. The ultrasonic probe has a plurality of ultrasonic wave vibrators, which are arranged circumferentially, and send ultrasonic waves radially and receive echoes of the ultrasonic waves. The flexible circuit board, which transmits signals associated with the ultrasonic waves and the echoes, is constructed of a plurality of flexible circuit board strips in the bending portion so as to allow a bending motion. The plurality of flexible circuit board strips are arranged such that a bending-resistance to the bending motion occurs symmetrically with respect to a primary central line, corresponding to one of the two bending-directions.

Abstract: G.E. DOCKET NUMBER 15-DS-00536A system and method for measuring a position of an imaging element located within a scanhead of an imaging probe, such as transesophageal ultrasound probe, is provided. The imaging probe may be used in a medical imaging system and/or a three-dimensional imaging system. The probe includes an articulating portion having a scanhead. The scanhead includes an imaging element, such as a transducer, and a position sensor positioned within the scanhead. Preferably, the position sensor is connected to the imaging element via an axle. Therefore, the rotation of the position sensor is synchronized to the rotation of the imaging element. The location of the position sensor within the imaging element provides accurate measurement of the position of the imaging element. The position sensor preferably includes a code disk having apertures and a system of light emitters and detectors.

Abstract: An ultrasound transducer array (408) includes at least one transducer element (412) having a first (604) and second (606) portions separated by an acoustical discontinuity (520). The first portion (604) has the desired length to form a half-wave k31 resonance, while the second portion (606) has a resonant length for an undesired very low frequency out-of-band k31 resonance. The thickness of the transducer element (412) is designed for k33 half-resonance. Given the design, the transducer element (412) can operate and provide for both forward-looking (514) and side looking (512) elevation apertures. A method is also disclosed for using the disclosed ultrasound transducer (412) in ultrasound imaging.

Abstract: A transesophageal ultrasound probe allowing for scan-plane rotation comprises an endoscope with a probe head connected to the distal end of the endoscope. A transducer is secured to the probe head. A transfer mechanism is connected to the transducer. A motor at the distal end of the endoscope is connected to the transfer mechanism. Finally, an electrical wire is connected to the motor. The transesophageal ultrasound probe uses a motor in the tip of the transesophageal ultrasound probe for scan-plane rotation.

Abstract: An ultrasonic endoscope has a bending portion, an ultrasonic probe, and a flexible circuit board. The bending portion, connected to the point of a flexible tube, bends along two predetermined bending-directions perpendicular to each other, by remote control. The ultrasonic probe has a plurality of ultrasonic wave vibrators, which are arranged circumferentially, and send ultrasonic waves radially and receive echoes of the ultrasonic waves. The flexible circuit board, which transmits signals associated with the ultrasonic waves and the echoes, is constructed of a plurality of flexible circuit board strips in the bending portion so as to allow a bending motion. The plurality of flexible circuit board strips is durable for the bending motion of said bending portion.

Abstract: A controller for an ultrasonic transducer assembly includes a housing having a longitudinal axis that extends generally parallel to the proximal end of a conduit, such as a catheter. A steering actuator is mounted to the housing for rotation about the longitudinal axis, and a steering hub is mounted for rotation in the housing and coupled to the steering actuator such that rotation of the steering ring with respect to the housing causes rotation of the steering hub. A steering line is secured adjacent the steering hub and extends to the distal end of the conduit such that rotation of the steering hub alters the effective length of the steering line to steer the distal end. The steering line is wrapped at least partially around a stator to avoid threading the steering line through multiple holes and slots prior to termination to the steering hub.

Abstract: An ultrasound inspection apparatus detachably connected to an endoscope comprises an ultrasonic scanning portion in the front-end side having an ultrasound transducer for performing ultrasonic scanning by arranging a number of transducer chips in a rectangular arrangement. The ultrasonic scanning portion is detachably attached to a distal end portion of an insertion unit in the endoscope so as to protrude ahead the distal end portion by a predetermined length. In order to hold the ultrasonic scanning portion in a fixed state, an endoscope-placing portion for placing the distal end portion is connected to the base end of the ultrasonic scanning portion, and an endoscope-fixing portion for detachably fixing the distal end portion thereto is arranged with the endoscope-placing portion. A predetermined number of wires connected to each transducer chip is inserted into a signal cable from a base end position of the endoscope-placing portion so as to bundle the wires.

Abstract: An ultrasound transducer array (408) includes at least one transducer element (412) having a first (604) and second (606) portions separated by an acoustical discontinuity (520). The first portion (604) has the desired length to form a half-wave k31 resonance, while the second portion (606) has a resonant length for an undesired very low frequency out-of-band k31 resonance. The thickness of the transducer element (412) is designed for k33 half-resonance. Given the design, the transducer element (412) can operate and provide for both forward-looking (514) and side looking (512) elevation apertures. A method is also disclosed for using the disclosed ultrasound transducer (412) in ultrasound imaging.

Abstract: An ultrasonic probe is provided for use in medical diagnostic applications. The probe includes one or more ultrasonic transducers disposed in an external housing and a plurality of cables disposed in a common sheath. A pointing device, such as a trackball, rocking-key device or the like, is mounted on the probe housing for controlling a plurality of functions of a remote imaging system associated with the probe.

Abstract: A transesophageal ultrasound probe is provided for imaging internal structures via an imaging element located on the distal end of a rotating endoscope shaft. The probe includes a rotating endoscope having an imaging element, such as a transducer, mounted on the distal end of the rotating endoscope shaft. The probe also includes a control handle for controlling the imaging controls and a rotation tube that extends through the rotating endoscope shaft and into the control handle. The rotating shaft rotates relative to, and independently of, the control handle. Preferably, the rotating shaft is rotated via a rotation control wheel located at the distal end of the control handle. The rotation control wheel is fastened or bonded to the rotating tube so that manual rotation of the control wheel causes the rotation tube to rotate, and therefore, the rotating shaft to rotate. Because the rotating endoscope shaft rotates, an imaging element located on, or within, the rotating shaft also rotates.

Abstract: A system and method for measuring a position of an imaging element located within a scanhead of an imaging probe, such as transesophageal ultrasound probe, is provided. The imaging probe may be used in a medical imaging system and/or a three-dimensional imaging system. The probe includes an articulating portion having a scanhead. The scanhead includes an imaging element, such as a transducer, and a position sensor positioned within the scanhead. Preferably, the position sensor is connected to the imaging element via an axle. Therefore, the rotation of the position sensor is synchronized to the rotation of the imaging element. The location of the position sensor within the imaging element provides accurate measurement of the position of the imaging element. The position sensor preferably includes a code disk having apertures and a system of light emitters and detectors.

Abstract: A catheter tube carries an imaging element for visualizing tissue. The catheter tube also carries a support structure, which extends beyond the imaging element for contacting surrounding tissue away from the imaging element. The support element stabilizes the imaging element, while the imaging element visualizes tissue in the interior body region. The support structure also carries a diagnostic or therapeutic component to contact surrounding tissue.

Abstract: There is described a device for fastening in a bone, preferably the cranial bone. The device is usable for continual supervision without sterile conditions and without need for full anaesthesia. The device comprises a self-cutting screw which by means of a tool is placed in a boring that previously has been formed in the bone. The screw has an inner hollow space in which there is located a signal transducer, and at that end facing inwards towards the cranial cavity, the screw will be covered by signal penetrable membrane. When the screw is in its proper place, the “observation aperture” which is formed will have been closed, and, in practise, it appears that there is no risk of infections.

Abstract: A multiplane transesophageal probe (20) includes a transducer (28) and a handle (30). The handle incorporates a control (40) mounting switches (51-58). The switches and control panel are covered with foil (43). A seal (70) couples the control panel and foil to the handle.

Abstract: The ultrasound probe cover includes a conventional condom which is adapted to fit over an ultrasound probe. The cover is secured to the probe in a water-tight arrangement at the proximal end of the cover by an elastic band. An elongated hollow tube is secured to the surface of the ultrasound probe, which tends to result in an equalization of fluid pressure at both ends of the condom cover during insertion and retraction of the condom into and out of a bodily opening, such as the rectum, of a patient.

Abstract: The invention provides exemplary systems and methods to prevent rotation of an imaging device if the imaging device is advanced beyond a distal end of a catheter. In one exemplary embodiment, a catheter is provided which comprises a catheter body having a proximal end, a distal end and a lumen which terminates in an exit port at the distal end. The lumen is configured to receive a rotatable imaging device having an ultrasonic imaging element. An ultrasonically recognizable pattern is disposed proximally to or at the exit port. The pattern is adapted to reflect a signal from the imaging element to produce a unique detectable image which in turn is employed to stop rotation of the imaging device.

Abstract: An ultrasonic endoscope has a bending portion, an ultrasonic probe, and a flexible circuit board. The bending portion, connected to the point of a flexible tube, bends along two predetermined bending-directions perpendicular to each other, by remote control. The ultrasonic probe has a plurality of ultrasonic wave vibrators, which are arranged circumferentially, and send ultrasonic waves radially and receive echoes of the ultrasonic waves. The flexible circuit board, which transmits signals associated with the ultrasonic waves and the echoes, is constructed of a plurality of flexible circuit board strips in the bending portion so as to allow a bending motion. The plurality of flexible circuit board strips is durable for the bending motion of said bending portion.

Abstract: An ultrasonic endoscope has a bending portion, an ultrasonic probe, and a flexible circuit board. The bending portion, connected to the point of a flexible tube, bends by remote control. The ultrasonic probe has a plurality of ultrasonic wave vibrators, which are arranged circumferentially, and send ultrasonic waves radially and receive echoes of the ultrasonic waves. The flexible circuit board, which transmits signals associated with the ultrasonic waves and the echoes, is constructed of a plurality of flexible circuit board strips in the bending portion so as to allow a bending motion. The plurality of ultrasonic wave coaxial lines, which are provided in the flexible tube to form an ultrasonic wave coaxial cable and are connected to the plurality of flexible circuit board strips, are loose and flexible in a given range.

Abstract: An ultrasonic endoscope has a bending portion, an ultrasonic probe, and a flexible circuit board. The bending portion, connected to the point of a flexible tube, bends along two predetermined bending-directions perpendicular to each other, by remote control. The ultrasonic probe has a plurality of ultrasonic wave vibrators, which are arranged circumferentially, and send ultrasonic waves radially and receive echoes of the ultrasonic waves. The flexible circuit board, which transmits signals associated with the ultrasonic waves and the echoes, is constructed of a plurality of flexible circuit board strips in the bending portion so as to allow a bending motion. The plurality of flexible circuit board strips are arranged such that a bending-resistance to the bending motion occurs symmetrically with respect to a primary central line, corresponding to one of the two bending-directions.

Abstract: An ultrasound applicator for heating, via an internal path, an ultrasound absorbent medium, includes an application head having a longitudinal axis and including at least one ultrasonic transducer having a planar emission face and an opposite face, a leakproof membrane which overlays and is spaced from the emission face, and which is transparent to ultrasound, and means for preventing propagation of ultrasound from the opposite face; means for remotely connecting the transducer to an electricity generator; and means for providing ultrasound coupling with the membrane. The planar emission face emits ultrasound waves through the membrane and in a direction that is substantially perpendicular to the emission face, such that the waves emitted are substantially planar and do not diverge in the vicinity of the transducer and the application head.

Abstract: An attachment assembly and repair graft are disclosed for securing a graft to repair a vessel having an aneurysm therein. The attachment assembly comprises an attachment cuff such that the graft is not dimensionally dependent upon the size of the vessel. A visualization apparatus is also disclosed for real time direct viewing of an interior of a vessel. A penetration apparatus is disclosed for use in forming treatment specific holes in a potentially calcified vessel wall which facilitates thereafter the securing of the graft and attachment assembly to the vessel wall. An introducer sheath device is also disclosed that comprises a sealing assembly for preventing the loss of blood from the vessel during the insertion and subsequent removal of surgical components during the surgical procedure.

Abstract: The present invention provides exemplary ultrasound lucent apparatus and methods for use in a wide range of invasive imaging and surgical procedures. In one exemplary embodiment, an apparatus (10) comprises an elongate wire body (12) having an outer surface and a longitudinal axis (18). The wire body includes a plurality of corner reflectors (22) disposed on an embossed portion (20) of the outer surface. The wire body is adapted to be inserted into a body lumen or a patient vasculature. In this manner, use of corner reflector technology enhances the ultrasound reflective nature to increase the acoustical reflectivity of the wire body.

Abstract: Apparatus for mapping a surface of a cavity within a body of a subject includes an elongate probe, having a longitudinal axis and including a distal portion adapted for insertion into the cavity. A plurality of acoustic transducers are distributed along the longitudinal axis over the distal portion of the probe, which transducers are adapted to be actuated individually to emit acoustic waves while the probe is in the cavity, and are further adapted to receive the acoustic waves after reflection of the waves from the surface of the cavity and to generate, responsive to the received waves, electrical signals indicative of times of flight of the waves.

Abstract: A brake assembly for a steerable catheter that allows both dynamic locking and swapping between a locked mode of operation and an unlocked mode of operation is described. Dynamic locking enables fine adjustment of the catheter shaft position, while swapping between modes results in a more multipurpose catheter. Generally, the brake assembly includes a brake shoe positioned for slidable movement between a locked position contacting the steering dial and an unlocked position not contacting the steering dial. At least one spring biases the brake shoe toward the locked position. A catheter including a brake assembly is also described.

Abstract: A radially scanning, annular ultrasonic oscillator array is provided in a tip body of an endoscope so as to be arranged about the longitudinal axis of the tip body. A first treatment tool projection port is provided in the tip body and opens at a location longitudinally forward from a location where the annular ultrasonic oscillator array is provided. A second treatment tool projection port is provided to the tip body and opens at a location longitudinally rearward from the location where the annular ultrasonic oscillator array is provided.