Class / Patent application number | Description | Number of patent applications / Date published |
600463000 | With acoustical or display imaging | 86 |
20080200814 | Ultrasonic Endoscope - The present invention provides an ultrasonic endoscope, comprising: an ultrasonic transducer in a cylindrical shape including a plurality of piezoelectric devices, an acoustic matching layer stacked on a principal plane on a sound emitting plane side, an acoustic lens on a plane of the acoustic matching layer opposite to a plane facing the piezoelectric devices, and a backing material stacked on another principal planes of the piezoelectric devices; an endoscopic observation and endo-therapy unit provided, for performing endoscopic image observation, at a proximal end side of the ultrasonic transducer; a cable ass'y including a plurality of cables for transmitting signals to and from the ultrasonic transducer. In the above configuration, the cable ass'y is arranged in such a manner that the cable ass'y passes through an inside portion of the ultrasonic transducer, and is connected to the ultrasonic transducer at a distal end side of the ultrasonic transducer. Thereby, an ultrasonic endoscope is provided that has an ultrasonic transducer in which the ultrasonic transducer and coaxial cables will not be disconnected even under thermal or mechanical loads. | 08-21-2008 |
20080249419 | TIME-OF-FLIGHT TRIANGULATION BASED METHODS OF DEVICE SPATIAL REGISTRATION FOR MULTIPLE-TRANSDUCER THERAPEUTIC ULTRASOUND SYSTEMS - Embodiments disclosed herein relate to a therapeutic ultrasound device spatial registration method and apparatus. The method enables locating a tissue target and surrounding tissue structures affecting the available acoustic beam paths to the target, relative to each individual therapeutic and diagnostic (e.g., imaging) transducer, in a device comprising a plurality of such transducers. By locating the target and tissue structures relative to each therapeutic transducer and/or array (e.g., in “local” coordinates) assists in transforming the locations relative to any transducers, enabling determination of which therapeutic transducers to use to treat the target, and specification of their respective ultrasound powers or energy, focal locations and beam patterns. The registration method employs a plurality of emitter and receiver acoustic sensors on, respectively, a plurality of imaging and therapeutic transducer device panels. | 10-09-2008 |
20080287801 | IMAGING DEVICE, IMAGING SYSTEM, AND METHODS OF IMAGING - An imaging device, imaging system, and methods of imaging are provided. The imaging device may fit inside a diagnostic or therapeutic assembly, such as a biopsy, drainage, or other type therapy needle assembly. The imaging device may reside inside the diagnostic or therapy assembly as the combined device is advanced to a desired location. Two-dimensional or three-dimensional ultrasonic images may be produced that allow for the accurate placement of the diagnostic or therapy assembly. | 11-20-2008 |
20080287802 | Method for minimizing tracking system interference - A method for minimizing tracking system interference caused by a motor driven ultrasonic imaging device is disclosed herein. The method includes providing an ultrasonic imaging device adapted to obtain a generally real time three-dimensional image. The ultrasonic imaging device includes a motor configured to rotate a transducer array within a catheter housing. The method for minimizing tracking system interference also includes estimating a noise signal produced by the motor, selecting a tracking system signal strength and/or frequency adapted to minimize a tracking system interference, and implementing a field generator to produce a tracking system signal at the selected tracking system signal strength and/or frequency. | 11-20-2008 |
20080294055 | CAPACITIVE MICROMACHINED ULTRASONIC TRANSDUCER (cMUT) DEVICE AND IN-BODY-CAVITY DIAGNOSTIC ULTRASOUND SYSTEM - A capacitive micromachined ultrasonic transducer (cMUT) device, comprises: a cMUT obtained by processing a silicon substrate by using a silicon micromachining technique; and an oscillator circuit having the cMUT as a capacitor, and outputting a frequency modulation signal by modulating a frequency of an oscillation signal to be output on the basis of a change of capacitance of the cMUT. | 11-27-2008 |
20090088646 | ULTRASONIC ENDOSCOPE - An ultrasonic endoscope in which the temperature rise can be suppressed with a reduced diameter. The ultrasonic endoscope includes: an ultrasonic transducer part including plural ultrasonic transducers; an exterior member for accommodating the ultrasonic transducer part; and a heat conducting part provided inside of the exterior member and respectively connected to the ultrasonic transducer part and an inner surface of the exterior member. It is preferable that the heat conducting part has a coefficient of thermal conductivity equal to or more than 10 W/(m·K). Further, it is preferable that one of the heat conducting member and the exterior member has an electric insulation property. | 04-02-2009 |
20090088647 | ULTRASONIC ENDOSCOPE - An ultrasonic endoscope capable of suppressing temperature rise of an insertion part without increase in diameter. The ultrasonic endoscope includes: an ultrasonic transducer part having plural ultrasonic transducers; an exterior member for holding the ultrasonic transducer part; an opening formed in the exterior member; a heat conducting member arranged inside of the exterior member and connected to the ultrasonic transducer part; and a heat radiating member provided on an outer surface of the exterior member and connected to the heat conducting member via the opening. For example, a part of the heat radiating member is located within the opening and the part is connected to the heat conducting member. The heat radiating member is electrically insulated from the ultrasonic transducer part. | 04-02-2009 |
20090118620 | SYSTEM AND METHOD FOR TRACKING AN ULTRASOUND CATHETER - A surgical navigation system including an ultrasound catheter is disclosed herein. The ultrasound catheter includes a flexible catheter housing defining a distal end, a transducer array disposed at least partially within the catheter housing, and a motor coupled with the transducer array. The motor is configured to rotate the transducer array in order to image a three-dimensional (3D) volume. The ultrasound catheter also includes at least one tracking element adapted to provide an estimate of a position and orientation of the distal end of the catheter housing. The at least one tracking element is disposed within the catheter housing and located immediately adjacent to the distal end. | 05-07-2009 |
20090131798 | METHOD AND APPARATUS FOR INTRAVASCULAR IMAGING AND OCCLUSION CROSSING - This invention describes an occlusion crossing apparatus for creating an opening in occluded tissue at a target location in interventional and surgical applications with simultaneous or nearly simultaneous intravascular imaging. In particular, the present invention is concerned with a magnetically guidable occlusion crossing apparatus and methods of using same together with intravascular ultrasound imaging, said occlusion crossing apparatus being usable in combination with a magnetic field and comprising an ultrasound imaging catheter with at least one ultrasound transducer at its distal tip; the catheter including a lumen through which a magnetically steered guidewire is passed and extends beyond the distal end of the catheter; the guidewire possibly comprising an electrode at its distal end for delivery of ablative electrical energy at a target location in a body lumen; and at least one magnetic guiding element mounted to the guidewire for orienting the portion of the guidewire that extends from the distal tip of the imaging catheter and placing the tip of the guidewire at the desired target location. | 05-21-2009 |
20090177093 | IMAGING PROBE HOUSING WITH FLUID FLUSHING - An imaging probe for use in a catheter for ultrasonic imaging is provided. The catheter may be of the type including a sheath having an opening at a distal end for conducting a fluid there through. The imaging probe includes a distal housing coupled to a drive shaft for rotation, a transducer within the distal housing for generating and sensing ultrasonic waves, and a fluid flow promoter that promotes flow of the fluid within the sheath across the transducer. | 07-09-2009 |
20090204006 | Ultrasonic transducer, ultrasonic transducer array and ultrasonic endoscope system - An electronic radial type ultrasonic transducer arraying, in a cylindrical form, a plurality of ultrasonic transducer elements for transmitting and receiving ultrasound, and for storing cables corresponding to the respective ultrasonic transducer elements for transmitting a drive signal for driving each of the ultrasonic transducer elements in the inside of a group of the ultrasonic transducer elements arrayed in the cylindrical form, featuring a conductive film on a surface of an insulator through which the cable group is led, and also comprising an acoustic lens constituted of a lens part which is connected to a ground wire and featured as a convex form and a cover part covering an easily breakable part or conductor material which is electrically connected to a plurality of ultrasonic transducers. | 08-13-2009 |
20090204007 | ULTRASONOGRAPH - An ultrasonograph having a vascular diameter measurement means for taking an ultrasonic tomography image of a blood vessel and then measuring a vascular diameter based on the image, including: an ultrasonic probe | 08-13-2009 |
20090247879 | Extended ultrasound imaging probe for insertion into the body - An ultrasound imaging probe for real time 3D ultrasound imaging from the tip of the probe that can be inserted into the body. The ultrasound beam is electronically scanned within a 2D azimuth plane with a linear array, and scanning in the elevation direction at right angle to the azimuth plane is obtained by mechanical movement of the array. The mechanical movement is either achieved by rotation of the array through a flexible wire, or through wobbling of the array, for example through hydraulic actuation. The probe can be made both flexible and stiff, where the flexible embodiment is particularly interesting for catheter imaging in the heart and vessels, and the stiff embodiment has applications in minimal invasive surgery and other procedures. The probe design allows for low cost manufacturing which allows factory sterilized probes to be disposed after use. | 10-01-2009 |
20090247880 | ULTRASONIC DIAGNOSIS SYSTEM AND PUMP APPARATUS - An ultrasonic endoscope has an ultrasonic transducer for emitting and receiving ultrasonic waves, a balloon support, having the ultrasonic transducer, for supporting a balloon mounted thereon to cover the ultrasonic transducer hermetically and removably. In an ultrasonic diagnosis system, the ultrasonic endoscope includes an inflation button adapted to inflating the balloon. A deflation button is adapted to deflating the balloon. Furthermore, a flow line extends to the balloon to pass water. A pump apparatus includes a rotary pump for drawing the water through the flow line, to cause the water to flow into and out of the balloon. A pump controller controls the rotary pump, inflates the balloon by supplying the water in response to an inflation signal from the inflation button, and deflates the balloon by discharging the water in response to a deflation signal from the deflation button. | 10-01-2009 |
20090264768 | Scanning mechanisms for imaging probe - The present invention provides scanning mechanisms for imaging probes using for imaging mammalian tissues and structures using high resolution imaging, including high frequency ultrasound and/or optical coherence tomography. The imaging probes include adjustable rotational drive mechanism for imparting rotational motion to an imaging assembly containing either optical or ultrasound transducers which emit energy into the surrounding area. The imaging assembly includes a scanning mechanism having including a movable member configured to deliver the energy beam along a path out of said elongate hollow shaft at a variable angle with respect to said longitudinal axis to give forward and side viewing capability of the imaging assembly. The movable member is mounted in such a way that the variable angle is a function of the angular velocity of the imaging assembly. | 10-22-2009 |
20090264769 | INTRAVASCULAR ULTRASOUND IMAGING SYSTEMS WITH SEALED CATHETERS FILLED WITH AN ACOUSTICALLY-FAVORABLE MEDIUM AND METHODS OF MAKING AND USING - A catheter assembly for an intravascular ultrasound system includes a catheter and an imaging core. The catheter has a longitudinal length, a distal end, and a proximal end. The catheter includes a sealable lumen extending along the longitudinal length of the catheter from the proximal end to the distal end, and a movable plunger or a movable seal in fluid communication with the lumen. The movable plunger or the movable seal provides a gas-tight seal. The movable plunger or the movable seal is configured and arranged for adjusting to changes in volume of the lumen when the lumen is filled with an acoustically-favorable medium and sealed. The imaging core is configured and arranged for inserting into the sealable lumen and for coupling to a control module. | 10-22-2009 |
20090275838 | SHIELDING FOR INTRAVASCULAR ULTRASOUND IMAGING SYSTEMS AND METHODS OF MAKING AND USING - A catheter assembly for an intravascular ultrasound system includes a catheter, an imaging core, and a shield-coupling capacitor. The catheter defines a lumen extending along a longitudinal length of the catheter. The imaging core is configured and arranged for inserting into the lumen. The imaging core includes a rotatable driveshaft, one or more transducers, one or more conductors, and a conductive shield. The one or more transducers are mounted to the rotatable driveshaft. The one or more conductors are coupled to the one or more transducers and extend along the driveshaft. The conductive shield is disposed around the one or more conductors. The shield-coupling capacitor is electrically coupled to the conductive shield and includes one or more rotating capacitors. The one or more rotating capacitors include one or more rotating plates and one or more stationary plates. The shield-coupling capacitor is configured and arranged for coupling to a system ground. | 11-05-2009 |
20090275839 | ULTRASONIC PROBE - An electronic radial ultrasonic probe comprising an electronic radial array which comprises a plurality of ultrasonic transducers being continuously arrayed circularly around an insertion axis as center and also for which a transmission/reception of an ultrasonic wave is controlled by electronically selecting the plurality of ultrasonic transducer, comprises: a support member equipped on the electronic radial array; a lock member featured with a cavity in which the support member is inserted and with a lock groove for locking a balloon which is mounted in a manner to cover the electronic radial array and in which an ultrasonic medium is filled; and a filler member which is constituted by an adhesive material converting from a fluid state to a solid state, and is filled in the cavity. | 11-05-2009 |
20090281430 | CATHETER WITH SPINNING ULTRASOUND TRANSCEIVER BOARD - An apparatus for detecting vulnerable plaque in a blood vessel includes an intravascular probe, and a slip ring at a proximal end of the probe. The slip ring has a stationary portion and a spinning portion. An ultrasound transceiver board is mechanically coupled to the slip ring's spinning portion for communication with an ultrasound transducer, also within the probe. A transmission line extends between the ultrasound transducer and the ultrasound transceiver board. | 11-12-2009 |
20090287087 | DEVICES FOR CREATING PASSAGES AND SENSING FOR BLOOD VESSELS - Devices and methods are disclosed for creating passages in tissue and detecting blood vessels in and around the passages. The devices may be used to create opening in tissue without removing a sensing assembly from the tissue. The devices herein may be used for altering gaseous flow within a lung to improve the expiration cycle of an individual, particularly individuals having Chronic Obstructive Pulmonary Disease (COPD). In addition, the devices may be used to sample tissue during biopsy or other medical procedures where perforating a blood vessel could result in injury to a patient. | 11-19-2009 |
20090292209 | INTRACARDIAC CATHETERS WITH IMAGE FIELD ELECTRODES - An intracardiac catheter for ultrasound guided ablation and EP mapping. Ablation and mapping electrodes | 11-26-2009 |
20090306517 | METHOD AND APPARATUS FOR MATHEMATICALLY CHARACTERIZING EAR CANAL GEOMETRY - The present subject matter provides apparatus and methods for physically fitting a hearing assistance device, including mathematically characterizing a person's ear canal. The apparatus includes an expandable balloon for positioning in the ear canal, the balloon including a hollow interior channel. A flexible catheter extends through the interior portion of the balloon, and the flexible catheter includes a track. A platform is movably coupled to the track. An ultrasonic transducer and a microelectromechanical systems (MEMS) sensor are coupled to the platform. The ultrasonic transducer scans the ear canal and the MEMS sensor senses motion and position of the transducer. According to various embodiments, a mathematical representation of the ear canal is adapted to be computed using information from the transducer and sensor. | 12-10-2009 |
20100106023 | BODY CAVITY ULTRASONIC PROBE AND ULTRASONIC DIAGNOSIS APPARATUS - A body cavity probe which scans an object with ultrasonic waves includes a probe main body, and a linear array constituted by a plurality of piezoelectric elements and a convex array constituted by a plurality of piezoelectric elements, which are provided in the probe main body to transmit ultrasonic waves to the object and receive an echo signal from the object. The linear array and the convex array have different array shapes. The respective array surfaces are included in the same plane. | 04-29-2010 |
20100113938 | MINIATURE ACTUATOR MECHANISM FOR INTRAVASCULAR IMAGING - The present invention relates to a new intravascular imaging device based on a Shape Memory Alloy (SMA) actuator mechanism embedded inside an elongate member such as a guide wire or catheter. The present invention utilizes a novel SMA mechanism to provide side-looking imaging by providing movement for an ultrasound transducer element. This novel SMA actuator mechanism can be easily fabricated in micro-scale, providing an advantage over existing imaging devices because it offers the ability to miniaturize the overall size of the device, while the use of multiple transducer crystals maximizes field of view. Also disclosed are methods of using the same. | 05-06-2010 |
20100137721 | TRANSURETHRAL ULTRASONIC IMAGING SYSTEM - An ultrasound scanning system and methods of using the same. In one preferred form, an ultrasound scanning system comprises an acoustic imaging catheter comprising an ultrasonic transducer, a motion control system and an imaging computer system for imaging a patient's genitourinary system. In another preferred form, an ultrasound scanning system is used for imaging a patient's prostate gland. | 06-03-2010 |
20100179432 | SYSTEMS AND METHODS FOR MAKING AND USING INTRAVASCULAR ULTRASOUND SYSTEMS WITH PHOTO-ACOUSTIC IMAGING CAPABILITIES - A catheter assembly for an intravascular ultrasound system includes a catheter with a lumen and an imaging core insertable into the lumen. The imaging core includes a rotatable driveshaft, at least one transducer, and at least one optical transport medium. The at least one transducer is mounted to the rotatable driveshaft and transforms applied electrical signals to acoustic signals and also transforms received acoustic signals to electrical signals. The at least one optical transport medium emits light and rotates with the driveshaft. The at least one transducer also receives acoustic signals generated by an object in response to illumination of the object by the light emitted from the distal end of the optical transport medium. | 07-15-2010 |
20100179433 | TRANSESOPHAGEAL ULTRASOUND USING A NARROW PROBE - Transesophageal echocardiography is implemented using a miniature transversely oriented transducer that is preferably small enough to fit in a 7.5 mm diameter probe, and most preferably small enough to fit in a 5 mm diameter probe. Signal processing techniques improve the depth of penetration to the point where the complete trans-gastric short axis view of the left ventricle can be obtained, despite the fact that the transducer is so small. The reduced diameter of the probe (as compared to prior art probes) reduces risks to patients, reduces or eliminates the need for anesthesia, and permits long term direct-visualization monitoring of patients' cardiac function. | 07-15-2010 |
20100191123 | ULTRASONIC PROBE DEVICE AND SYSTEM AND METHODS OF GENERATING ULTRASONIC IMAGES - The present invention relates to an ultrasonic probe device comprising an elongated body having a proximal end and a distal end, where the body has a channel that extends from the proximal end to the distal end. A cord passes through the channel and is extendable and retractable relative to the distal end of the elongated body. An ultrasonic probe head is connected to the cord and has a proximal end adjacent the distal end of the elongated body. The proximal end of the probe head is detachably connected to the distal end of the elongated body. The present invention is also directed to an ultrasound imaging system and a method of generating an ultrasonic image. | 07-29-2010 |
20100234736 | ROTATIONAL INTRAVASCULAR ULTRASOUND PROBE WITH AN ACTIVE SPINNING ELEMENT - An intravascular ultrasound probe is disclosed, incorporating features for utilizing an advanced transducer technology on a rotating transducer shaft. In particular, the probe accommodates the transmission of the multitude of signals across the boundary between the rotary and stationary components of the probe required to support an advanced transducer technology. These advanced transducer technologies offer the potential for increased bandwidth, improved beam profiles, better signal to noise ratio, reduced manufacturing costs, advanced tissue characterization algorithms, and other desirable features. Furthermore, the inclusion of electronic components on the spinning side of the probe can be highly advantageous in terms of preserving maximum signal to noise ratio and signal fidelity, along with other performance benefits. | 09-16-2010 |
20100249601 | MEDICAL DEVICE WITH MEANS TO IMPROVE TRANSMISSION OF TORQUE ALONG A ROTATIONAL DRIVE SHAFT - The present invention provides minimally invasive imaging probe/medical device having a frictional element integrated therewith for reducing non-uniform rotational distortion near the distal end of a medical device, such as an imaging probe which undergoes rotational movement during scanning of surrounding tissue in bodily lumens and cavities. | 09-30-2010 |
20100305451 | SYSTEMS AND METHODS FOR MAKING AND USING IMAGE-GUIDED INTRAVASCULAR AND ENDOCARDIAL THERAPY SYSTEMS - A catheter assembly includes a catheter and a delivery element. The catheter has a distal end with a distal tip, a proximal end, and a longitudinal length. The catheter includes a body that defines a central lumen extending along the catheter to the distal end. The catheter also includes a forward-facing transducer array disposed at the distal tip of the catheter. The transducer array is configured and arranged for transforming applied electrical signals to acoustic signals and also for transforming received echo signals to electrical signals. At least one catheter conductor is electrically coupled to the transducer array and extends along the catheter. The delivery element is disposed in the lumen of the catheter. The delivery element includes a distal tip that is configured and arranged for contacting patient tissue. The distal tip of the delivery element is configured and arranged to extend beyond the distal tip of the catheter. | 12-02-2010 |
20110009750 | CARDIOVASCULAR IMAGING SYSTEM - Embodiments of the present invention include a laser catheter that includes a catheter body, a light guide, and a distal tip that extends beyond the exit aperture of the light guide. In some embodiments, an imaging device is disposed on the distal tip such that the imaging device is distal relative to the exit aperture of the light guide. In some embodiments, the imaging device can be gated to record images during and/or slightly beyond periods when the laser catheter is not activated. | 01-13-2011 |
20110021924 | INTRAVASCULAR PHOTOACOUSTIC AND UTRASOUND ECHO IMAGING - The invention relates to photoacoustic imaging and ultrasound echo imaging In combination, and applies in particular to the field of imaging a lumen of an organ or vessel of a subject, wherein the Images are acquired from within a lumen of the organ or vessel, especially a lumen of a blood vessel to diagnose and treat vascular disease An exemplary embodiment of the invention is a catheter having an ultrasound transducer, the transducer comprising a probe suitable for generating and detecting photoacoustic signals and ultrasound echo signals, wherein the photoacoustic signals and the ultrasound echo signals are convertible to images which are integrated into an enriched image. The photoacoustic signals are generated by a multiplicity of energy sources suitable for inducing the walls of the blood vessel to generate acoustic waves, wherein the energy sources are arrayed in an annulus around the flexible tubular member. | 01-27-2011 |
20110028848 | Methods and Apparatus for Detecting and Mapping Tissue Interfaces - A device for measuring a spatial location of a tissue surface, such as the interface between different types of tissues or between tissue and body fluids, generally includes an elongate catheter body having a distal end portion, a plurality of localization elements carried by the distal end portion, and at least one pulse-echo acoustic element carried by the distal end portion. The localization elements allow the catheter to be localized (e.g., position and/or orientation) within a localization field, while the acoustic element allows for the detection of tissue surfaces where incoming acoustic energy will reflect towards the acoustic element. A suitable controller can determine the location of the detected tissue surface from the localization of the distal end portion of the catheter body. Tissue thicknesses can be derived from the detected locations of multiple (e.g., near and far) tissue surfaces. Maps and models of tissue thickness can also be generated. | 02-03-2011 |
20110098572 | ULTRASOUND GUIDED OPTICAL COHERENCE TOMOGRAPHY, PHOTOACOUSTIC PROBE FOR BIOMEDICAL IMAGING - An imaging probe for a biological sample includes an OCT probe and an ultrasound probe combined with the OCT probe in an integral probe package capable of providing by a single scanning operation images from the OCT probe and ultrasound probe to simultaneously provide integrated optical coherence tomography (OCT) and ultrasound imaging of the same biological sample. A method to provide high resolution imaging of biomedical tissue includes the steps of finding an area of interest using the guidance of ultrasound imaging, and obtaining an OCT image and once the area of interest is identified where the combination of the two imaging modalities yields high resolution OCT and deep penetration depth ultrasound imaging. | 04-28-2011 |
20110125026 | Pharyngeal Ultrasound Guide - A pharyngeal ultrasound guide (PUG) to be placed inside the pharynx which allows the transmission of ultrasonic waves from a ultrasonic probe placed therein into the structures of the pharynx, throat, and major vessels; the technique of acquisition of the ultrasonic images and Doppler measurements using such a device; and the procedures which may be performed using the images. | 05-26-2011 |
20110144502 | IMAGING GUIDEWIRE - An imaging guidewire that, in one embodiment, includes: (1) a hypotube forming an elongated main body having a distal end, (2) at least one multimode optical fiber integral with the hypotube and configured to carry laser light for ultrasonic excitation, (3) a single-mode optical fiber integral with the hypotube, having a reflective coating located on a distal end thereof and at the distal end of the elongated main body and configured to carry laser light for ultrasonic detection and (4) an imaging cap coupled to the elongated main body at the distal end and including a photoacoustic layer configured to receive the laser light from the at least one multimode optical fiber. | 06-16-2011 |
20110160593 | INTRACARDIAC IMAGING SYSTEM UTILIZING A MULTIPURPOSE CATHETER - A three dimensional physiological mapping system utilizing an intracardiac echo catheter capable of being located in six degrees of freedom by a visualization, navigation, or mapping system. An echocardiography image of the intracardiac echo catheter may be projected within a geometric model of the visualization, navigation, or mapping system where the location of the projected image is adjusted in response to user input identifying a structure present in the echocardiography image and the geometric model. | 06-30-2011 |
20110166455 | CATHETER - An improved catheter is provided. The catheter may include a deflectable member located at a distal end of the catheter. The deflectable member may comprise an ultrasound transducer array. In embodiments where the deflectable member includes an ultrasound transducer array, the ultrasound transducer array may be operable to image both when aligned with the catheter and when pivoted relative to the catheter. When pivoted relative to the catheter, the ultrasound transducer array may have a field of view distal to the distal end of the catheter. The ultrasound array may be interconnected to a motor to effectuate pivotal reciprocal motion of the ultrasound transducer array such that the catheter may be operable to produce real-time or near real-time three dimensional images. | 07-07-2011 |
20110172542 | Ultrasound guided echogenic catheter and related methods - Described are methods and apparatus for ultrasound guidance of a tool for a clinical procedure performed upon a subject, wherein the improvement includes a catheter having an echogenic structure disposed in a distal portion of the catheter, which increases the echogenicity of the catheter. | 07-14-2011 |
20110270091 | Apparatus and Method for Use of RFID Catheter Intelligence - A method and system is provided for using backscattered data and known parameters to characterize vascular tissue. Specifically, methods and devices for identifying information about the imaging element used to gather the backscattered data are provided in order to permit an operation console having a plurality of Virtual Histology classification trees to select the appropriate VH classification tree for analyzing data gathered using that imaging element. In order to select the appropriate VH database for analyzing data from a specific imaging catheter, it is advantageous to know information regarding the function and performance of the catheter, such as the operating frequency of the catheter and whether it is a rotational or phased-array catheter. The present invention provides a device and method for storing this information on the imaging catheter and communicating the information to the operation console. In addition, information related to additional functions of the catheter may also be stored on the catheter and used to further optimize catheter performance and/or select the appropriate Virtual Histology classification tree for analyzing data from the catheter imaging element. | 11-03-2011 |
20110301470 | ULTRASONIC DIAGNOSTIC APPARATUS - In one embodiment, a scanning unit repeatedly scans an internal region of an object with an ultrasonic wave at a predetermined frame rate via an ultrasonic probe. An image generation unit extracts a blood flow signal based on a Doppler effect from a reflection signal and repeatedly generates a blood flow image representing a spatial distribution associated with power of the blood flow signal at the frame rate. A power average value associated with a frame or local region is calculated for the blood flow image. The blood flow image is corrected. In the correcting, a gain on the power values in the frame or local region in which the power average value exceeds the threshold are substantially reduced, and power values in the frame or local region in which the power average value is not more than the threshold are maintained. | 12-08-2011 |
20120004556 | SYSTEMS AND METHODS FOR ESTIMATING THE SIZE AND POSITION OF A MEDICAL DEVICE TO BE APPLIED WITHIN A PATIENT - The field of the invention relates to medical imaging systems, and more particularly to systems and methods for estimating the size and position of a stent or other medical device within a patient. In one embodiment, a medical imaging system includes an elongated tubular member having distal and proximal ends, configured to be inserted into a vessel of a patient, an imaging device coupled to the distal end of the elongated tubular member, and a console electrically coupled to the imaging device, wherein the console includes a computer-usable medium, electrically coupled to the imaging device, having a sequence of instructions which, when executed by a processor, causes said processor to execute a process including generating an image of the vessel, and overlay one or more shapes onto the image age to provide a visual approximation of the size and position of a medical device to be applied within the patient. | 01-05-2012 |
20120108979 | IMAGING CATHETER WITH ROTATABLE ARRAY - An imaging catheter is provided having a distal end portion selectively rotatable relative to a catheter body. A transducer array is supported by the distal end portion so that a corresponding imaging field may be selectively panned about an axis extending distally from the catheter body. The catheter may be advanced within a patient to a desired location. Optionally, the catheter may then be steered, or curved to position the transducer array. Optionally, the catheter may be rotated to further position the transducer array. Then, the imaging field may be panned without manipulation of the catheter body. | 05-03-2012 |
20120116229 | ULTRASOUND DIAGNOSTIC APPARATUS AND METHOD - An ultrasound diagnostic apparatus comprises: a detector for detecting a direction of radial expansion/contraction of a vascular wall associated with a heartbeat in a long-axis image of the vascular wall based on amplitude information of reception signals outputted from an ultrasound probe when a first ultrasonic beam is transmitted and received to and from a blood vessel of a subject through the ultrasound probe by a transmitter/receiver; a controller for controlling the transmitter/receiver so as to transmit and receive a second ultrasonic beam parallel to the detected vascular wall expansion/contraction direction through the ultrasound probe; a tracker for tracking a movement of the vascular wall using amplitude information and phase information of the reception signals outputted from the ultrasound probe when the second ultrasonic beam is transmitted and received; and a calculator for calculating elastic characteristics of the vascular wall based on the tracked vascular wall movement. | 05-10-2012 |
20120172727 | IMAGING SYSTEM - Techniques are described that allow intravascular ultrasound (“IVUS”) imaging of patient tissue, e.g., a blood vessel wall, to be performed at one or more angles selected by a clinician, for example. In one example, a method includes receiving user input, via interaction with a user interface, that defines a range of angles through which a scan will be performed, determining, based on the received user input, at least one current value to be applied to at least one lead of a stator of a motor, controlling application of the at least one current to the at least one lead of the stator in order to rotate a rotor of the motor through the range of angles, and through the range of angles, receiving and processing electrical signals from at least one transducer to form at least one image. | 07-05-2012 |
20120232400 | Intravascular Ultrasonic Catheter Arrangements - Devices, systems, and methods for intravascular ultrasonic imaging are provided. In one embodiment, an apparatus for intravascular ultrasonic imaging is provided. The apparatus includes a flexible elongate member sized for insertion within a vasculature; an ultrasonic transducer array, mounted proximate a distal end of the flexible elongate member, wherein transducer elements of the ultrasonic transducer array comprise a non-polymeric electrostrictive material; and a high permittivity ceramic member that signally couples a common radiofrequency signal source to all elements of the transducer array simultaneously such that the common radiofrequency signal is provided through the ceramic member to all the transducer elements of the ultrasonic transducer array and a bias field is selectively transmitted to one or more of the transducer elements such that only transducer elements having the bias field applied to them will transform the common radiofrequency signal into an ultrasonic signal. | 09-13-2012 |
20120265077 | Component-Based Catheter Lab Intravascular Ultrasound System - A componentized intravascular ultrasound system is disclosed that flexibly integrates with a catheter lab infrastructure for acquisition and display of intravascular information in a catheter lab environment. The system includes a patient interface module (PIM) adapted to hold a catheter having an imaging probe located near a distal end, a control panel, a monitor for displaying images and patient data, and a processing unit. The processing unit is communicatively coupled to the PIM, the control panel, and the monitor. Furthermore the processing unit adapted to: coordinate operation of the PIM, the control panel, and the monitor; and generate images from image data provides by the PIM. The PIM, control panel and monitor are independently positionable with regard to one another. | 10-18-2012 |
20120283569 | SYSTEMS AND METHODS FOR NAVIGATING AND VISUALIZING INTRAVASCULAR ULTRASOUND SEQUENCES - A method for processing a sequence of ultrasound frames for display includes receiving a sequence of ultrasound frames; characterizing a morphology of regions within a plurality of the ultrasound frames; determining a frame profile for each of the plurality of ultrasound frames; detecting a plurality of key frames from the plurality of ultrasound frames using the frame profiles of the plurality of ultrasound frames; and displaying at least one of the key frames. | 11-08-2012 |
20120289836 | AUTOMATIC REAL-TIME DISPLAY SYSTEM FOR THE ORIENTATION AND LOCATION OF AN ULTRASOUND TOMOGRAM IN A THREE-DIMENSIONAL ORGAN MODEL - An automatic real-time display system of the orientation and location of an ultrasound tomogram in a three-dimensional organ model based on the tracking of free-hand manipulation of an ultrasound probe having an AHRS sensor to acquire an entire three-dimensional volume data of an organ and real-time display to visualize the orientation and location of the ultrasound tomogram in three dimensions. | 11-15-2012 |
20120289837 | VARIABLE-STIFFNESS IMAGING WINDOW AND PRODUCTION METHOD THEREOF - An imaging window of an imaging catheter includes a first imaging window section and a second imaging window section. The first imaging window section has a finite length and is formed from a first material having a flexural modulus. The second imaging window section has a finite length and is formed from a second material having a flexural modulus. The flexural modulus of the first material is different than the flexural modulus of the second material. | 11-15-2012 |
20120330160 | ELECTRICAL CONNECTOR - An electrical connector is described. In one implementation, the connector includes a female portion including one or more electrical contacts and a male portion including one or more electrical contacts. The female portion and the male portion each have a self-orientating geometry that allows the male portion to be mated with the female portion in any rotational position along 360 degrees of rotation. When mated, the electrical contacts of the female portion mate with corresponding one or more electrical contacts of the male portion to form one or more electrical connections between two electronic components. | 12-27-2012 |
20130030302 | Capacitative Microfabricated Ultrasound Transducer-Based Intravascular Ultrasound Probes - An ultrasound catheter is described herein for insertion into a cavity such as a blood vessel to facilitate imaging within a vasculature. The catheter comprises an elongate flexible shaft, a capacitive microfabricated ultrasonic transducer, and a sonic reflector. The elongate flexible shaft has a proximate end and a distal end. A capacitive microfabricated ultrasonic transducer (cMUT) is mounted to the shaft near the distal end. The reflector is positioned such that a reflective surface redirects ultrasonic waves to and from the transducer. In other embodiments, the catheter comprises a plurality of cMUT elements and operates without the use of reflectors. In further embodiments, integrated circuitry is incorporated into the design. | 01-31-2013 |
20130060145 | Ultrasound Catheter With Rotatable Transducer - An ultrasound catheter assembly having a rotatable transducer assembly is disclosed. The ultrasound catheter assembly includes an elongate flexible shaft having a lumen and a proximal end and a distal end. The catheter assembly further includes a drive member that engages the transducer assembly at a distal end of the catheter. Rotation of the drive member in a first direction causes the transducer assembly to rotate in an oscillatory fashion in a second direction. | 03-07-2013 |
20130072801 | ULTRASOUND TRANSDUCER UNIT AND ULTRASOUND ENDOSCOPE - An ultrasound transducer unit includes: an ultrasound element; a substrate; a signal transmission cable; a cylindrical metal shield member that has a large-diameter portion, a small-diameter portion, and a step portion, in which the large-diameter portion covers an outer circumference of the substrate; ground wiring that electrically connects the substrate and an outer circumferential face of the metal shield member; and an opening portion formed in the step portion or the small-diameter portion. The ground wiring is extended to outside the metal shield member from inside the large-diameter portion through the opening portion, and is electrically connected to an outer circumferential face of the small-diameter portion to thereby electrically connect the substrate and the outer circumferential face of the metal shield member. | 03-21-2013 |
20130079642 | ULTRASOUND IMAGING SYSTEMS WITH BIAS CIRCUITRY AND METHODS OF MAKING AND USING - A medical imaging system includes an imaging device for inserting into a lumen of a catheter. The imaging device includes an ultrasound transducer and bias circuitry electrically coupled to the transducer for biasing the transducer. At least one communication line is coupled to both the ultrasound transducer and the bias circuitry and extends to a proximal end of the catheter. The at least one communication line transmits a transducer drive signal to the transducer and a charge signal to the bias circuitry. At least one inductive coupler is in communication with the at least one communication line. The transducer drive signal and the charge signal are both AC signals. The transducer drive signal has a transducer-drive-signal frequency and the charge signal has a charge-signal frequency that is different than the transducer-drive-signal frequency. | 03-28-2013 |
20130085395 | Radial Reflection Diffraction Tomography - A wave-based tomographic imaging method and apparatus based upon one or more rotating radially outward oriented transmitting and receiving elements have been developed for non-destructive evaluation. At successive angular locations at a fixed radius, a predetermined transmitting element can launch a primary field and one or more predetermined receiving elements can collect the backscattered field in a “pitch/catch” operation. A Hilbert space inverse wave (HSIW) algorithm can construct images of the received scattered energy waves using operating modes chosen for a particular application. Applications include, improved intravascular imaging, bore hole tomography, and non-destructive evaluation (NDE) of parts having existing access holes. | 04-04-2013 |
20130178746 | Devices, Systems, and Methods for Controlling Field of View in Imaging Systems - Devices, systems, and methods for controlling the field of view in imaging systems are provided. For example, in one embodiment an imaging system includes a flexible elongate member sized and shaped for use within an internal structure of a patient, an imaging transducer positioned within the distal portion of the flexible elongate member, an imaging marker positioned to be detectable within a field of view of the imaging transducer, and a controller in communication with the flexible elongate member and configured to adjust a control signal of the flexible elongate member based on the detection of the imaging marker in data received from the flexible elongate member in order to achieve a desired field of view for the imaging transducer. | 07-11-2013 |
20130184589 | Devices, Systems, and Methods for Controlling Field of View in Imaging Systems - Devices, systems, and methods for controlling the field of view in imaging systems are provided. For example, in one embodiment an imaging system includes a flexible elongate member sized and shaped for use within an internal structure of a patient, an imaging transducer positioned within the distal portion of the flexible elongate member, an imaging marker positioned to be detectable within a field of view of the imaging transducer, and a controller in communication with the flexible elongate member and configured to adjust a control signal of the flexible elongate member based on the detection of the imaging marker in data received from the flexible elongate member in order to achieve a desired field of view for the imaging transducer. | 07-18-2013 |
20130184590 | METHOD AND APPARATUS FOR ORIENTING A MEDICAL IMAGE - The present invention provides systems, methods, and devices for orienting image data derived from body tissue. An imaging assembly is introduced into the body of a patient and rotated about an axis. A tracking beam mechanically associated with the imaging assembly is generated, such that the tracking rotates about the axis in unison with the imaging assembly. An angle that the rotating tracking beam makes between a reference rotational orientation and a reference point is determined. The reference rotational orientation can be associated with a fiducial point within the ultrasound image data, such that the ultrasound image can be oriented based on the determined tracking beam rotation angle. | 07-18-2013 |
20130261466 | IMAGING TRANSDUCER PROBE - An ultrasound imaging probe includes a housing ( | 10-03-2013 |
20140012134 | System and Method for Characterizing Vascular Tissue - A system and method is provided for using ultrasound data backscattered from vascular tissue to estimate the transfer function of a catheter and/or substantially synchronizing the acquisition of blood-vessel data to an identifiable portion of heartbeat data. The backscattered ultrasound data is used, together with an algorithm, to estimate at least one transfer function. The transfer function(s) can then be used (at least in a preferred embodiment) to calculate response data for the vascular tissue (i.e., the tissue component of the backscattered ultrasound data). The response data and histology data are then used to characterize at least a portion of the vascular tissue (e.g., identify tissue type, etc.). In some embodiments, the backscattered data is acquired during a cyclical portion of the heartbeat data so that the blood vessel can be analyzed or imaged as if it were standing still, or not expanding and relaxing. | 01-09-2014 |
20140107489 | RECIPROCATING INTERNAL ULTRASOUND TRANSDUCER ASSEMBLY - A device for endoluminal therapeutic and diagnostic ultrasound procedures includes a motor which rotates a drive shaft and ultrasound transducer. In one example, conductors attach to the transducer and extend through a hollow drive shaft. In another example, a bias member conducts electric signals and stores energy. The device includes an operational state in which the motor rotates the drive shaft alternatingly between a first direction and an opposite second direction. | 04-17-2014 |
20140107490 | FEEDBACK/REGISTRATION MECHANISM FOR ULTRASOUND DEVICES - Among other things, there is disclosed structure and methods for registering images obtained through internal (e.g. intravascular) ultrasound devices. Embodiments of a device with a rotating ultrasound beam is provided, with a wall of the device being anisotropic in ultrasound passage. As examples, a cable opaque to ultrasound is attached along the wall of the device, so that the ultrasound beam at the location of the cable is blocked, reflected or scattered. As another example, a thin film of metallic material is placed on or in the wall to allow a portion of the beam to be blocked or attenuated. The imaging system recognizes the changes to the signals made by the anisotropic wall, and registers successive images according to those changes. | 04-17-2014 |
20140107491 | DEVICES AND METHODS FOR THREE-DIMENSIONAL INTERNAL ULTRASOUND USAGE - There are disclosed embodiments of devices and methods for imaging the inside of a body part, particularly a blood vessel. In particular embodiments, a catheter has a tip chamber, within which is an ultrasound transducer mounted on a pivot mechanism, a motor for turning the transducer, and an implement for pivoting the transducer. Examples of such an implement are a linear motor, a shaft or filament, and the pivot mechanism may be biased to return to a base position when the implement is not pivoting the transducer. In other embodiments, a mirror reflecting ultrasound signals from the transducer may be rotated and/or pivoted, using similar mechanisms. | 04-17-2014 |
20140128741 | ULTRASOUND ELEMENT AND ULTRASOUND ENDOSCOPE - An ultrasound element includes a silicon substrate, a lower electrode layer that has a plurality of lower electrode sections, and a plurality of lower wiring sections, and is connected to a lower electrode terminal to which a drive signal and a bias signal are applied, a lower insulating layer, an upper insulating layer in which a plurality of cavities smaller than the respective lower electrode sections are formed, an upper electrode layer that has a plurality of upper electrode sections that are disposed to face the respective lower electrode sections via the respective cavities, and are smaller than the lower electrode sections and larger than the cavities, and a plurality of upper wiring sections, and is connected to an upper electrode terminal at a ground potential that detects a capacitance signal, and a protection layer. | 05-08-2014 |
20140180118 | Catheter Assembly with a Shortened Tip - Devices and methods of the invention generally relate to a shortened distal tip for use with intraluminal imaging devices. In certain aspects, an intraluminal device of the invention includes a body and a tip member. The body utilizes an imaging element located on a distal end of the body, in which the imaging element is configured to image an object within a forward plane extending beyond the distal end of the body. A tip member is coupled to the distal end of the body and sized to fit at least between the forward plane and the distal end. | 06-26-2014 |
20140180119 | INTRALUMINAL IMAGING SYSTEM - The invention generally relates to devices and methods that allow an operator to obtain real-time images of a luminal surface prior to, during, and after an intraluminal procedure, including while a tool is engaged with the luminal surface. An imaging system of the invention may include a first elongate member that includes a first imaging element and a catheter that includes a second imaging element. The first imaging element is an optical-to-acoustic transducer, and the second imaging element is an optical-to-acoustic transducer. The catheter also defines a lumen and includes an ablation element. The catheter is configured to receive at least a portion of the elongate member within the lumen and is configured to move along a path of the elongate member. | 06-26-2014 |
20140180120 | Ultrasound Imaging Catheters with Reciprocating Phased Array Transducers - In one embodiment, a catheter imaging device includes an elongated catheter shaft having a forward looking ultrasonic transducer disposed at a distal end thereof. A first device is coupled to the transducer for sweeping an ultrasonic beam produced by the transducer in a first plane and through a first angle therein, and a second device is coupled to the transducer for sweeping the ultrasonic beam in a second plane and through a second angle therein, the second plane being disposed orthogonal to the first plane. In one aspect, the ultrasonic transducer includes a plurality of transducer elements. | 06-26-2014 |
20140243679 | IMAGING DEVICES WITH AN ARRAY OF TRANSDUCERS AND METHODS OF MANUFACTURE AND USE - A medical imaging assembly includes an elongated catheter having a connector at the proximal end; an array of transducers on the distal end of the catheter; conductors electrically coupled to the array of transducers and in electrical communication with the connector of the catheter; and a control unit coupleable to the catheter to send and receive electrical signals between the control unit and the array of transducers through the connector of the catheter. The control unit has a processor to execute instructions including 1) selecting a first subset of M transmitting transducers and a second subset of N receiving transducers from the array of transducers, where N>M; and 2) for each of at least N transmit/receive cycles, a) directing the first subset of M transmitting transducers to transmit an acoustic signal; and b) directing the second subset of N receiving transducers to receive corresponding echo signals. | 08-28-2014 |
20140249423 | SYSTEMS AND METHODS FOR LUMEN BORDER DETECTION IN INTRAVASCULAR ULTRASOUND SEQUENCES - A method for processing a sequence of ultrasound frames for display includes receiving a sequence of intravascular ultrasound (IVUS) frames of a vessel having a lumen, the sequence including a first frame and a second frame; determining one or more texture features for each of one or more regions of the first frame; determining at least one flow feature for each of the one or more regions by comparing the first and second frames; deriving a lumen border for the first frame using the one or more texture features and the at least one flow feature to characterize the one or more regions as within or outside of the lumen of the vessel; and displaying an ultrasound image of the first frame with the lumen border. | 09-04-2014 |
20140309533 | MEDICAL TUBE, CATHETER AND METHOD OF MANUFACTURING MEDICAL TUBE - A medical tube includes a distal portion provided on one end side having a first outer diameter, a first inner diameter, and a first thickness; a proximal portion provided on the other end side having a second outer diameter greater than the first outer diameter, a second inner diameter greater than the first inner diameter, and a second thickness greater than the first thickness; and an intermediate portion provided between the distal portion and the proximal portion and having an outer diameter, an inner diameter, and a thickness which gradually vary. Thus, a medical tube is provided having improved operability and which reduces the likelihood of bending during an operation. | 10-16-2014 |
20150073279 | SYSTEMS AND METHODS FOR SELECTION AND DISPLAYING OF IMAGES USING AN INTRAVASCULAR ULTRASOUND IMAGING SYSTEM - A method for real-time displaying of cross-sectional images during an intravascular ultrasound (IVUS) imaging procedure includes, during an intravascular ultrasound imaging procedure, receiving electrical signals from at least one transducer in a catheter as the at least one transducer rotates and moves longitudinally along a lumen of a patient blood vessel; during the intravascular ultrasound imaging procedure, processing the received electrical signals to form a series of cross-sectional images that are longitudinally-offset from one another along a length of the lumen; during the intravascular ultrasound imaging procedure, concurrently displaying i) a most recent image and ii) a previous image that is either a) selected by the operator or b) automatically selected as having a maximum or minimum of a selected image characteristic; and, during the intravascular ultrasound imaging procedure, updating the display of the most recent image as a new image from the series of cross-sectional images is processed. | 03-12-2015 |
20150105665 | DENTAL ULTRASONIC DIAGNOSTIC APPARATUS - Disclosed herein is a dental ultrasonic diagnostic apparatus. The dental ultrasonic diagnostic apparatus includes a housing located to be close to teeth and gums during insertion of the housing into a mouth of an object, and an acoustic portion provided inside the housing to transmit and receive an ultrasonic wave. The diagnostic apparatus may diagnoses tissue, foreign bodies, innervation, disease condition, lesions, and the like by ultrasonically imaging a gum, a lip, a palate, and a tongue in the mouth. | 04-16-2015 |
20150141836 | INTRAVASCULAR ULTRASOUND NEEDLE GUIDE - An intravascular ultrasound “(IVUS”) device having an intrinsic or attachable needle guide is disclosed. In some embodiments, a sheath having a needle guide is used in connection with an IVUS device. The devices may be used in performing minimally invasive image-guided surgical procedures. The devices may be configured to maintain a needle placed through guide in the plane of the IVUS-array to improve visualization of the needle. In some embodiments, the device is used to facilitate the creation of a tract through the liver from the inferior vena cava to the portal vein using IVUS-guidance in a direct intrahepatic portocaval shunt procedure. The devices, systems, and methods can improve patient safety by decreasing the risk of off-target punctures, decrease procedure times, and allow procedures to be performed from a single access site. | 05-21-2015 |
20150289854 | ULTRASONIC IMAGING APPARATUS - Disclosed herein is an ultrasonic imaging apparatus. The ultrasonic imaging apparatus includes an ultrasonic probe arranged at a distal end portion of the ultrasonic imaging apparatus and a bending part connected to the ultrasonic probe and configured to be bendable. Heat generated by the ultrasonic probe is dissipated toward the bending part. | 10-15-2015 |
20150313453 | IMAGING PROBE HOUSING WITH FLUID FLUSHING - An imaging probe for use in a catheter for ultrasonic imaging is provided. The catheter may be of the type including a sheath having an opening at a distal end for conducting a fluid there through. The imaging probe includes a distal housing coupled to a drive shaft for rotation, a transducer within the distal housing for generating and sensing ultrasonic waves, and a fluid flow promoter that promotes flow of the fluid within the sheath across the transducer. | 11-05-2015 |
20150335311 | 3D CATHETER-BASED ULTRASOUND ASSEMBLY WITH GIMBAL-MOUNT TRANSDUCER AND SINGLE-COIL DRIVE - Described are embodiments of devices and methods for imaging a body conduit, such as a blood vessel. In particular embodiments, the catheter has a chamber within which is a transducer mounted to a pivot mechanism. A coil provides a pivot force to the transducer. A magnet is attached to the transducer and is receptive of a torque applied by a magnetic field produced by energizing of the coil. A driving mechanism receives an impact from the pivot member and causes the pivot mechanism to rotate about a rotation axis. | 11-26-2015 |
20150342564 | APPARATUS AND METHOD FOR USE OF RFID CATHETER INTELLIGENCE - A method and system is provided for using backscattered data and known parameters to characterize vascular tissue. Specifically, methods and devices for identifying information about the imaging element used to gather the backscattered data are provided in order to permit an operation console having a plurality of Virtual Histology classification trees to select the appropriate VH classification tree for analyzing data gathered using that imaging element. In order to select the appropriate VH database for analyzing data from a specific imaging catheter, it is advantageous to know information regarding the function and performance of the catheter, such as the operating frequency of the catheter and whether it is a rotational or phased-array catheter. The present invention provides a device and method for storing this information on the imaging catheter and communicating the information to the operation console. In addition, information related to additional functions of the catheter may also be stored on the catheter and used to further optimize catheter performance and/or select the appropriate Virtual Histology classification tree for analyzing data from the catheter imaging element. | 12-03-2015 |
20150342573 | Devices, Systems, and Methods for Controlling Field of View in Imaging Systems - Devices, systems, and methods for controlling an intravascular imaging device are provided. For example, in one embodiment a method includes communicating a control signal to an actuator of the intravascular imaging device to cause oscillation of an imaging element of the intravascular imaging device, wherein the intravascular imaging device further includes an acoustic marker; receiving imaging data from the imaging element of the intravascular imaging device; identifying the acoustic marker in the imaging data by determining a correlation between the imaging data and a template representative of the acoustic marker; adjusting an aspect of the control signal based on identifying the acoustic marker; and communicating the adjusted control signal to the actuator of the intravascular imaging device. | 12-03-2015 |
20160029996 | DEVICE AND METHOD FOR USING IVUS DATA TO CHARACTERIZE AND EVALUATE A VASCULAR GRAFT CONDITION - There are described systems and methods of collecting ultrasound information related to a vascular graft condition of a patient and evaluation of the information using a virtual histology tree and hemodynamic information. | 02-04-2016 |
20160029999 | Intravascular Ultrasound Imaging Apparatus, Interface Architecture, and Method of Manufacturing - Solid-state ultrasound imaging devices, systems, and methods are provided. Some embodiments of the present disclosure are particularly directed to compact and efficient ultrasound transducer scanner formed from a substantially cylindrical semiconductor substrate. In some embodiments, an intravascular ultrasound (IVUS) device includes: an ultrasound scanner assembly disposed at a distal portion of the flexible elongate member, the ultrasound scanner assembly including a semiconductor substrate having a plurality of transistors formed thereupon. The semiconductor substrate is curved to have a substantially cylindrical form when the ultrasound scanner assembly is in a rolled form, and the plurality of transistors are arranged in a cylindrical arrangement when the ultrasound scanner assembly is in the rolled form. In one such embodiment, the device further includes a plurality of ultrasound transducers formed upon the semiconductor substrate and arranged in a cylindrical arrangement when the ultrasound scanner assembly is in the rolled form. | 02-04-2016 |
20160058414 | INTRAVASCULAR IMAGING DEVICES HAVING A LOW REVERBERATION HOUSING AND ASSOCIATED SYSTEMS AND METHODS - Embodiments of the present disclosure are related to intravascular imaging devices having a low reverberation housing and associated systems and methods. In some particular embodiments, the devices of the present disclosure include a transducer housing having a trough on the backside of the ultrasound transducer to deflect ultrasound signals away from the ultrasound transducer. For example, in some implementations an intravascular imaging device is provided that includes a catheter body; a drive cable extending through a lumen of the catheter body; a housing coupled to a distal section of the drive cable; and an ultrasound transducer mounted within the housing, wherein the housing includes a trough on a backside of the ultrasound transducer, the trough shaped to deflect ultrasound signals away from the ultrasound transducer. Methods of making such devices and systems are also provided. | 03-03-2016 |
20160066883 | APPARATUS AND METHOD FOR FORWARD FACING PIEZOELECTRIC ELEMENT ULTRASOUND STYLUS - An apparatus and method for fabricating a forward facing piezoelectric stylus is provided. In a representative device, a piezoelectric element is connected to a stylus shaft, wherein the stylus shaft provides connectivity from the piezoelectric element to a console device. The stylus have shape such that multiple can be fabricated simultaneously in certain steps. In some instances, the stylus is adapted such that it can be placed within a needle, allowing easier placement of the needle. | 03-10-2016 |
20160074005 | SENSOR INTERFACE DEVICE PROVIDING DIGITAL PROCESSING OF INTRAVASCULAR FLOW AND PRESSURE DATA - Embodiments of the present disclosure are configured to assess the severity of a blockage in a vessel and, in particular, a stenosis in a blood vessel. In some particular embodiments, the devices, systems, and methods of the present disclosure are configured to assess the severity of a stenosis in the coronary arteries by monitoring fluid flow. In some embodiments, the devices, systems, and methods of the present disclosure receive analog sensor data that includes fluid flow data and digitizes the analog sensor data according to a quadrature sampling rate. A weighted accumulator performs a baseband conversion on the digitized sensor data and may perform other signal processing steps. The processed data is then provided for use in any one of a number of diagnostic assessments. | 03-17-2016 |
20160157819 | ULTRASOUND PROBE HAVING ROTATABLE TRANSDUCER ARRAY FOR IMPROVED FIELD OF VIEW AND ULTRASOUND DIAGNOSTIC IMAGING SYSTEM HAVING THE SAME - An ultrasound probe having a rotatable transducer array for providing an improved field of view (FOV) and an improved scan angle includes a transducer comprising a transducer array and rotating at a predetermined angle. A supporting member supports the transducer and includes a rotation guide which is in contact with the transducer while the transducer rotates. | 06-09-2016 |