Patent application number | Description | Published |
20090088650 | INTRAVASCULAR PRESSURE DEVICES INCORPORATING SENSORS MANUFACTURED USING DEEP REACTIVE ION ETCHING - An intravascular pressure sensor assembly is disclosed herein that is produced in part using photolithography and DRIE solid-state device production processes. Using DRIE production processes facilitates a number of features that could not be readily incorporated in sensor chips fabricated using mechanical saws. In accordance with a first feature, sensor chips are created with non-rectangular outlines. The sensor chip includes a widened portion that substantially abuts an inner wall of a sensor housing, and a cantilevered portion that is relatively narrow in relation to the widened portion. The non-rectangular outline of the sensor chip is formed using photolithography in combination with DRIE processing. In accordance with another feature, the sensor chip is positioned width-wise in the housing, thereby reducing a required length for the housing. In accordance with yet another feature, the sensor chip comprises one or more cutouts for receiving signal wires for connection to signal lead lines on the sensor chip. The outline of the sensor chip and the cutouts are formed using photolithography in combination with DRIE processing. | 04-02-2009 |
20100010328 | PROBES AND SENSORS FOR ASCERTAINING BLOOD CHARACTERISTICS AND METHODS AND DEVICES FOR USE THEREWITH - A probe for use in a patient having a vessel carrying blood to ascertain characteristics of the blood having a cannula adapted to be inserted into the vessel of the patient. The cannula has a length so that when the distal extremity is in the vessel of the patient the proximal extremity is accessible outside of the patient. A gas sensor assembly is carried within the distal extremity of the cannula for determining gas characteristics of the blood in the vessel. A pressure sensor is carried within the distal extremity of the cannula for determining the pressure of the blood in the vessel. | 01-14-2010 |
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 |
20130218020 | 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. | 08-22-2013 |
20130289412 | Rotary Transformer and Associated Devices, Systems, and Methods for Rotational Intravascular Ultrasound - Rotational intravascular ultrasound (IVUS) imaging devices, systems, and methods are provided. The present disclosure is particularly directed to rotary transformers incorporating flex circuits that are suitable for use in rotational IVUS systems. In one embodiment, a rotary transformer for a rotational IVUS device includes: a rotational component and a stationary component. At least one of the rotational and stationary components includes a core formed of a magnetically conductive material and a flex circuit coupled to the core. In some instances, the flex circuit is coupled to the core such that a coil portion of the flex circuit is received within a recess of the core and an extension of the flex circuit extending from the coil portion extends through an opening of the core. | 10-31-2013 |
20130303907 | Device and System For Imaging and Blood Flow Velocity Measurement - Apparatuses, systems, and methods for intravascular ultrasound (IVUS) imaging and blood flow velocity measurement within a vessel using a rotational IVUS catheter are disclosed. The rotational IVUS catheter includes a transducer that is mounted to the catheter at an angle relative to the longitudinal axis of the catheter shaft, such that the imaging surface is substantially nonperpendicular to the angle of the blood flow. The IVUS imaging system includes the rotational IVUS catheter with the tilted transducer, sequencing hardware to generate a series of uniformly spaces transmit pulses and acquisitions per encoder pulse, and signal processing hardware to extract the phase from the ultrasound echo signals for velocity estimation at every pixel of the IVUS image. The system is configured to generate a hybrid IVUS image showing both structural and velocity characteristics of the vessel and the blood therein. | 11-14-2013 |
20130303919 | Circuit Architectures and Electrical Interfaces for Rotational Intravascular Ultrasound (IVUS) Devices - Rotational intravascular ultrasound (IVUS) imaging devices, systems, and methods are provided. Some embodiments of the present disclosure are particularly directed to compact and efficient circuit architectures and electrical interfaces for polymer piezoelectric micromachined ultrasonic transducers (PMUTs) used in rotational IVUS systems. In one embodiment, a rotational intravascular ultrasound (IVUS) device includes: a flexible elongate member; a piezoelectric micromachined ultrasound transducer (PMUT) coupled to a distal portion of the flexible elongate member; and an application-specific integrated circuit (ASIC) coupled to the distal portion of the flexible elongate member. The ASIC is electrically coupled to the PMUT and includes a pulser, an amplifier, a protection circuit, and timing and control circuitry for coordinating operation of the pulser, amplifier, and protection circuit. | 11-14-2013 |
20130303920 | Ultrasound Catheter For Imaging And Blood Flow Measurement - Rotational intravascular ultrasound (IVUS) imaging devices, systems, and methods are provided. Some embodiments are directed to transducer mounting configurations that enable polymer piezoelectric micro-machined ultrasonic transducers (PMUTs) to be used with a Doppler color flow rotational IVUS imaging system. In one embodiment, a rotational intravascular ultrasound (IVUS) device includes: a flexible elongate body; a piezoelectric micromachined ultrasound transducer (PMUT) coupled to a distal portion of the flexible elongate body; and an application-specific integrated circuit (ASIC) coupled to the distal portion of the flexible elongate body. The ASIC is electrically coupled to the PMUT and includes a pulser, an amplifier, a protection circuit, and timing and control circuitry for coordinating operation of the pulser, amplifier, and protection circuit. The PMUT transducer is mounted with a tilt angle such that the IVUS catheter can be used to collect Doppler ultrasound blood flow data in conjunction with the IVUS imaging. | 11-14-2013 |
20140178574 | Method and Apparatus for Focusing Miniature Ultrasound Transducers - The present disclosure provides methods and apparatus of fabricating a transducer for use in ultrasound imaging. A substrate is provided. The substrate may be a silicon substrate having a first side and a second side opposite the first side. A transducer membrane is formed over the first side of the substrate. The transducer membrane includes a piezoelectric component. A well is formed in the substrate from the second side. A backing material is dispensed onto a first sidewall of the well in a manner so as to create a capillary effect that causes the backing material to wick down the sidewall, across the back side of the substrate exposed by the well, and up a second sidewall of the well. The transducer membrane is deflected so that the transducer membrane has a concave shape. | 06-26-2014 |
20140180032 | System and Method for Multi-Site Intravascular Measurement - Systems and methods for obtaining and processing data collected using a multi-site intravascular sensing device are provided. Some embodiments are directed to locating a structure within a vessel and performing an examination of the structure once it has been located. In one embodiment, an elongate member has a plurality of sensors and set of measurements is obtained using the plurality of sensors, the set of measurements including at least one measurement from each sensor of the plurality of sensors. The various sensor measurements are compared and a difference in a vascular characteristic is determined from the compared measurements. The location of the structure may be determined based on the adjacent sensors. | 06-26-2014 |
20140180123 | Focused Rotational IVUS Transducer Using Single Crystal Composite Material - An ultrasound transducer for use in intra-vascular ultrasound (IVUS) imaging systems including a single crystal composite (SCC) layer is provided. The transducer has a front electrode on a side of the SCC layer; and a back electrode on the opposite side of the SCC layer. The SCC layer may have a dish shape including pillars made of a single crystal piezo-electric material embedded in a polymer matrix. Also provided is an ultrasound transducer as above, with the back electrode split into two electrodes electrically decoupled from one another. A method of forming an ultrasound transducer as above is also provided. An IVUS imaging system is provided, including an ultrasound transducer rotationally disposed within an elongate member; an actuator; and a control system controlling activation of the ultrasound transducer to facilitate imaging. | 06-26-2014 |
20140180128 | Focused Rotational IVUS Transducer Using Single Crystal Composite Material - An ultrasound transducer for use in intravascular ultrasound (IVUS) imaging systems including a single crystal composite (SCC) layer is provided. The transducer has a front electrode on a side of the SCC layer; and a back electrode on the opposite side of the SCC layer. The SCC layer may have a bowl shape including pillars made of a single crystal piezoelectric material embedded in a polymer matrix. Also provided is an ultrasound transducer as above, with the back electrode split into two electrodes electrically isolated from one another. A method of forming an ultrasound transducer as above is also provided. An IVUS imaging system is provided, including an ultrasound emitter and receiver rotationally disposed within an elongate member; an actuator; and a control system controlling emission of pulses and receiving ultrasound echo data associated with the pulses. The ultrasound emitter and receiver include an ultrasound transducer as above. | 06-26-2014 |
20140180135 | CHRONIC TOTAL OCCLUSION CATHETER - The present invention generally relates to forward imaging devices for imaging the inside of a vessel and associated methods. The invention can involve an elongated body configured to fit within the vessel of a lumen and at least one imaging sensor located on the elongated body configured to image an object in a forward direction. | 06-26-2014 |
20140180142 | Pressure-Sensing Intravascular Devices, Systems, and Methods - Intravascular devices, systems, and methods are disclosed. In some embodiments, the intravascular devices include at least one pressure sensing component within a distal portion of the device. In that regard, one or more electrical, electronic, optical, and/or electro-optical pressure-sensing components is secured to an elongated substrate such that the pressure-sensing component is mounted perpendicular to a central longitudinal axis of the device. In some implementations, the elongated substrate has a cylindrical profile. Methods of making, assembling, and/or using such intravascular devices and associated systems are also provided. | 06-26-2014 |
20140180143 | Pressure-Sensing Intravascular Devices, Systems, and Methods - Intravascular devices, systems, and methods are disclosed. In some embodiments, the intravascular devices include at least one pressure sensing component within a distal portion of the device. In that regard, one or more electrical, electronic, optical, and/or electro-optical pressure-sensing components is secured to an elongated substrate such that the pressure-sensing component is mounted perpendicular to a central longitudinal axis of the device. In some implementations, the elongated substrate has a cylindrical profile. Methods of making, assembling, and/or using such intravascular devices and associated systems are also provided. | 06-26-2014 |
20140183670 | Capacitive Intravascular Pressure-Sensing Devices and Associated Systems and Methods - Intravascular devices, systems, and methods are disclosed. In some embodiments, the intravascular devices are guide wires that include a capacitive pressure-sensing component disposed at a distal portion of the guide wire. Methods of making such intravascular devices, including various manufacturing and assembling techniques, are disclosed. Systems associated with such intravascular devices and methods of using such devices and systems are also disclosed. | 07-03-2014 |
20140187874 | Intravascular Devices, Systems, and Methods - Intravascular devices, systems, and methods are disclosed. In some instances, the intravascular device is a guide wire with electrical conductors printed on a solid core wire. In some instances, the electrical conductors are coupled to conductive bands adjacent a proximal portion of the guide wire. Methods of making, manufacturing, and/or assembling such intravascular devices and associated systems are also provided. In certain aspects, guidewires of the invention include a body having an inner core and an outer layer with one or more embedded conductors. The conductors are exposed at one or more locations along the body and a conductive material can be layered over the exposed locations. A sensor can also be coupled to the body via the conductive material at one of the exposed locations. | 07-03-2014 |
20140187925 | Synthetic Aperture Image Reconstruction System In a Patient Interface Module (pim) - A field programmable gate array (FPGA) circuit including a quadrature internal conditioning circuit is provided. The circuit having a buffer circuit; and a reconstruction engine circuit, wherein the reconstruction engine circuit includes: a circuit to measure a phase of a signal; and a flavor interpolation circuit; wherein: the circuit to measure the phase of a signal includes digitization points forming two complex numbers for each cycle of the center frequency of the signal. A system for collecting tissue images including a patient interface module (PIM); a pulse transmitter circuit; an analog to digital converter circuit; and an FPGA circuit as above; and a catheter having a sensing head is also provided. A method for using the above system to provide an image reconstruction is also provided. | 07-03-2014 |
20140187959 | Ultrasound Transducers and Methods of Manufacturing Same - The present disclosure provides various embodiments of an ultrasound transducer for use in intravascular ultrasound (IVUS) imaging. An exemplary ultrasound transducer includes substrate having a first surface and a second surface opposite the first surface. A well is disposed in the substrate that extends from the first surface to the second surface, where a well surface of the substrate defines a shape of the well. The well surface has a greater surface area than a cylindrically-shaped well surface. The ultrasound transducer further includes an arcuate-shaped transducer membrane is positioned within the well adjacent to the first surface of the substrate, and a backing material is disposed in the well that physically contacts the well surface and the transducer membrane. The backing material secures the arcuate-shape of the transducer membrane. | 07-03-2014 |
20140187960 | Intravascular Ultrasound Imaging Apparatus, Interface, Architecture, and Method of Manufacturing - Sold-state intravascular ultrasound (IVUS) imaging devices, systems, and methods are provided. Some embodiments of the present disclosure are particularly directed to compact and efficient circuit architectures and electrical interfaces for an ultrasound transducer array used in a solid-state IVUS system. In one embodiment, an intravascular ultrasound (IVUS) device includes: a flexible elongate member; an ultrasound scanner assembly disposed at a distal portion of the flexible elongate member, the ultrasound scanner assembly including an ultrasound transducer array; an interface coupler disposed at a proximal portion of the flexible elongate member; and a cable disposed within and extending along a length of the flexible elongate member between the ultrasound scanner assembly and the interface coupler. The cable includes four conductors electrically coupling the ultrasound scanner assembly and the interface coupler. | 07-03-2014 |
20140187963 | Fire Control System for Rotational IVUS - A patient interface module (PIM) for an intra-vascular ultrasound (IVUS) imaging system and a method for using it are provided. The PIM may include a motor having position sensors; a motor controller circuit providing a signal to the motor; and a clock and timing circuit to provide a trigger signal to a pulse transmitter circuit and a reference clock signal to an analog to digital converter (ADC) circuit, the trigger signal and the reference clock signal synchronized to a local oscillator; wherein the motor is configured to provide a relative phase value between a motor shaft and the local oscillator to a data processing circuit. | 07-03-2014 |
20140187964 | Intravascular Ultrasound Catheter for Minimizing Image Distortion - The present disclosure provides various embodiments of an ultrasound catheter for use in intravascular ultrasound (IVUS) imaging. An exemplary IVUS device includes an flexible elongate member having a lumen extending therethrough, and a rotatable imaging core disposed within the lumen. The imaging core is further configured to transmit and receive ultrasound signals through a distal portion of the flexible elongate member. The distal portion of the flexible elongate member includes a first set of material layers, while the proximal portion includes a second set of material layers different than the first set of material layers. The first set of material layers and the second material layers minimize distortion of the ultrasound signals. The first set of material layers further facilitates an average speed of sound through the first set of material layers that is substantially equivalent to a speed of sound through blood. | 07-03-2014 |
20140187978 | Intravascular Devices Having Information Stored Thereon And/Or Wireless Communication Functionality, Including Associated Devices, Systems, And Methods - Intravascular devices, systems, and methods are disclosed. In some embodiments, the intravascular devices are guide-wires that include one or more sensing components and a sensor control module that stores information about the guide-wire. In some instances, the information about the guide-wire stored in the sensor control module is calibration information for a sensing component of the guide-wire. In some embodiments, the intravascular devices are guide-wires that include wireless communication functionality. In some instances, the guide-wires include one or more antennas adjacent a proximal portion of the guide-wire. In some instances, the guide-wires include passive radio frequency devices integrated into the guide-wire. Systems associated with such intravascular devices are disclosed. Methods of using such devices and systems are also disclosed. | 07-03-2014 |
20140187981 | Intravascular Devices Having Information Stored Thereon And/Or Wireless Communication Functionality, Including Associated Devices, Systems, And Methods - Intravascular devices, systems, and methods are disclosed. In some embodiments, the intravascular devices are guide-wires that include one or more sensing components and a sensor control module that stores information about the guide-wire. In some instances, the information about the guide-wire stored in the sensor control module is calibration information for a sensing component of the guide-wire. In some embodiments, the intravascular devices are guide-wires that include wireless communication functionality. In some instances, the guide-wires include one or more antennas adjacent a proximal portion of the guide-wire. In some instances, the guide-wires include passive radio frequency devices integrated into the guide-wire. Systems associated with such intravascular devices are disclosed. Methods of using such devices and systems are also disclosed. | 07-03-2014 |
20140187982 | Intravascular Devices Having Information Stored Thereon And/Or Wireless Communication Functionality, Including Associated Devices, Systems, And Methods - Intravascular devices, systems, and methods are disclosed. In some embodiments, the intravascular devices are guide-wires that include one or more sensing components and a sensor control module that stores information about the guide-wire. In some instances, the information about the guide-wire stored in the sensor control module is calibration information for a sensing component of the guide-wire. In some embodiments, the intravascular devices are guide-wires that include wireless communication functionality. In some instances, the guide-wires include one or more antennas adjacent a proximal portion of the guide-wire. In some instances, the guide-wires include passive radio frequency devices integrated into the guide-wire. Systems associated with such intravascular devices are disclosed. Methods of using such devices and systems are also disclosed. | 07-03-2014 |
20140187985 | Pressure Sensor Calibration Systems and Methods - Intravascular devices, systems, and methods are disclosed. In some embodiments, the intravascular devices include at least one pressure sensing component within a distal portion of the device. In that regard, one or more electrical, electronic, optical, and/or electro-optical pressure-sensing components is secured to an elongated member and the system includes components to process the output signals according to various calibration parameters. | 07-03-2014 |
20140275844 | Universal Patient Interface Module and Associated Devices, Systems, and Methods - An intravascular device interface and associated systems and methods are disclosed. In some embodiments, the intravascular device interface includes a housing containing one or more processors in communication with a memory, a first connector, and a second connector. The first connector is secured to the housing and configured to interface with a proximal connector of an imaging intravascular device sized and shaped for insertion into human vasculature. The second connector is also secured to the housing and is configured to interface with a proximal connector of a physiology intravascular device. The one or more processors process data received from the first connector or the second connector for transmission over a device output. In some embodiments disclosed herein, an intravascular device interface includes a single connector that may be configured to support a non-rotational imaging device or a rotational imaging device. | 09-18-2014 |
20140276063 | SYSTEMS AND METHODS FOR PRODUCING AN IMAGE FROM A ROTATIONAL INTRAVASCULAR ULTRASOUND DEVICE - The invention generally relates systems and methods to for producing an image from a rotational intravascular ultrasound device. | 09-18-2014 |
20140276087 | Wafer-Scale Transducer Coating and Method - A method of fabricating miniature ultrasound transducers includes receiving a wafer on which a plurality of miniature ultrasound transducers is formed. The miniature ultrasound transducers each includes: a transducer membrane that contains a piezoelectric material and a first bond pad and a second bond pad each electrically coupled to the transducer membrane. A protective layer is conformally deposited over the plurality of miniature ultrasound transducers from a front side of the wafer. A first etching process is performed to form a plurality of first trenches that extend into the wafer from the front side. The first trenches are etched through the protective layer. The first trenches are disposed between adjacent miniature ultrasound transducers. A second etching process is performed to remove portions of the protective layer disposed over the first and second bond pads, thereby exposing the first and second bond pads. | 09-18-2014 |
20140276143 | Smart Interface Cable for Coupling a Diagnostic Medical Device With a Medical Measurement System - The present disclosure involves a medical device. The medical device includes an elongate cable assembly having a distal connector, a proximal connector, and a cable body coupling the proximal and distal connectors. The distal connector is configured for coupling with a diagnostic medical device. The proximal connector is configured for coupling with a medical measurement system. An electronic component is located inside the distal connector or the associated cable housing. The electronic component includes an analog-to-digital converter (ADC) and a microprocessor. The ADC is configured to receive medical data gathered by the diagnostic medical device and convert the medical data into digital signals. The microprocessor is coupled to an output of the ADC and configured to process the digital signals into a format that is readable by the medical measurement system. | 09-18-2014 |