Patent application number | Description | Published |
20080200801 | Mapping Movement of a Movable Transducer - A catheter probe includes a transducer configured for at least one cycle of movement within the probe and a sensor that is at least partially supported within the probe for identifying a position of the transducer during the at least one cycle of movement. A method of mapping movement and a test fixture are also presented. | 08-21-2008 |
20080278151 | SYSTEM AND METHODS FOR INSPECTING INTERNAL CRACKS - A method for inspecting an internal cavity in a part is provided. The method includes inserting a probe into the internal cavity. The method also includes controlling movement of the probe using a defined scan path to scan the probe over a region of interest in the internal cavity. The method also includes applying multiple multifrequency excitation signals to the probe to generate a number of multifrequency response signals. The multifrequency excitation signals are applied at multiple positions within the internal cavity. The method further includes performing a multifrequency phase analysis on the multifrequency response signals to inspect the internal cavity. | 11-13-2008 |
20080287778 | IMAGING AND NAVIGATION SYSTEM - An imaging and navigation system is disclosed herein. The imaging and navigation system includes a computer and an ultrasonic imaging device disposed at least partially within an ultrasound catheter. The ultrasonic imaging device is connected to the computer and is adapted to obtain a generally real time three-dimensional image. The imaging and navigation system also includes a tracking system connected to the computer. The tracking system is adapted to estimate a position of a medical instrument. The imaging and navigation system also includes a display connected to the computer. The display is adapted to depict the generally real time three-dimensional image from the ultrasonic imaging device and to graphically convey the estimated position of the medical instrument. | 11-20-2008 |
20080287797 | FLUID-FILLABLE ULTRASOUND IMAGING CATHETER TIPS - An imaging catheter tip is presented. The imaging catheter tip includes a housing. Further, the imaging catheter tip includes a transducer assembly located within the housing in a distal portion of the imaging catheter tip. The transducer assembly includes a transducer. In addition, the imaging catheter tip includes a motor located within the housing in a proximal portion of the imaging catheter tip. The motor is configured to facilitate oscillation of the transducer assembly about a longitudinal axis of the imaging catheter tip. The imaging catheter tip also includes a fill tube disposed between the motor and the housing. The fill tube is configured to deliver acoustic coupling fluid to the distal portion of the imaging catheter tip. | 11-20-2008 |
20080287798 | PACKAGING AND FLUID FILLING OF ULTRASOUND IMAGING CATHETERS - An imaging catheter assembly is presented. The imaging catheter assembly includes an imaging catheter which includes an imaging catheter tip. Further, the imaging catheter assembly includes a fluid reservoir connected to the imaging catheter and configured to deliver fluid through a proximal end of the imaging catheter tip. The imaging catheter assembly also includes a release mechanism configured to cause delivery of the fluid to the imaging catheter tip when activated. | 11-20-2008 |
20090264767 | METHOD AND APPARATUS FOR ULTRASONIC IMAGING USING TRANSDUCER ARRAYS - An ultrasonic imaging system and method for acquiring three-dimensional (3D) image data sets are provided. The system comprises a transducer array with a given range of motion adapted to obtain a plurality of 3D image data sets of a region of interest and a processor coupled to the transducer array adapted to receive image data sets from the transducer array and to correct for spatially varying errors induced by motion of the transducer array. | 10-22-2009 |
20100062633 | CONNECTOR SYSTEM FOR ENGAGING A PORTION OF A PLUG WITHIN A RECEPTACLE - An cable connector system is provided. A receptacle for the connector system includes a pair of opposing compression plates and at least one rotatable member configured to move the opposing compression plates as the rotatable member rotates. The compression plates cause contact with a portion of the plug inserted therebetween. | 03-11-2010 |
20100145310 | Method and apparatus for Operating a Micromotor in a fluid - A device and a method for sealing a micromotor with an optional associated gearbox are disclosed where, in one aspect of the present invention, a catheter tip comprises: a micromotor; an ultrasound imaging transducer; a gearbox mechanically coupled to the micromotor, the gearbox having a rotatable portion mechanically coupled to the ultrasound imaging transducer array; and a moisture barrier disposed so as to reduce or prevent acoustic coupling fluid from entering both the gearbox and the micromotor. | 06-10-2010 |
20100249602 | ULTRASOUND CATHETER HOUSING WITH ELECTROMAGNETIC SHIELDING PROPERTIES AND METHODS OF MANUFACTURE - An ultrasound catheter housing with electromagnetic shielding properties and methods of manufacturing is provided. The ultrasound catheter housing comprises a an inner thin wall polymer tube extruded using an ultrasonically transparent polymer, a thin metalized layer deposited on the outer surface of the inner tube, and an outer thin wall polymer tube, which may be the same or a different ultrasonically transparent material. In another embodiment an ultrasound catheter comprising the ultrasound catheter housing is provided. | 09-30-2010 |
20110129863 | METHODS AND SYSTEMS FOR PROCESSING SAMPLES ON POROUS SUBSTRATES - Methods and systems for processing samples fixed to a porous substrate generally comprising, a compressor defining one or more fluid isolation areas, a support, for the porous substrate, having an opening corresponding to one or more of the fluid isolation areas of the compressor, an actuator that causes at least a portion of the compressor to press against the porous substrate, a fluid inlet having access to the fluid isolation area at least when the compressor is pressed against the porous substrate, and a fluid outlet to receive fluid, through the opening in the support corresponding to the fluid isolation area of the compressor, at least when the compressor is pressed against the porous substrate. | 06-02-2011 |
20110132111 | METHODS AND SYSTEMS TO PREVENT PUNCH LOSS DURING AUTOMATED SAMPLE PROCESSING - Automated methods and systems for punching out pieces of a porous substrate for biological samples comprising: loading the porous substrate onto a support comprising a die and an opening; moving a receptacle support in at least a z-direction to position a receptacle relative to the support so that an opening in the receptacle is aligned and substantially flush with the opening in the support; actuating a punching head so that the punching head passes through the die, thereby punching a piece out of the porous substrate; and actuating an ejector pin to eject the punched piece from the porous substrate support and into the receptacle aligned with the opening in the support. | 06-09-2011 |
20110139345 | METHODS FOR MAKING A HOUSINGLESS HOLLOW FIBER FILTRATION APPARATUS - The invention provides a method of manufacturing a housingless hollow fiber filtration apparatus using batch, continuous, and semi-continuous processes. Also provided is manufacturing methods to increase rigidity of the apparatus. | 06-16-2011 |
20110139723 | DISPOSABLE FLUID PATH SYSTEMS AND METHODS FOR PROCESSING COMPLEX BIOLOGICAL MATERIALS - Disclosed herein is a disposable fluid path for processing complex materials. The disposable fluid path comprises a gravity assisted disposable system for separating a biological sample into two or more distinct submaterials through sedimentation. The fluid path is comprised of a sample delivery conduit and bag-set wherein the bag set comprising a tubing assembly, a separation assembly, and a filter assembly. Methods of using the system are also disclosed. | 06-16-2011 |
20110143427 | HIGH-THROUGHPUT METHODS AND SYSTEMS FOR PROCESSING BIOLOGICAL MATERIALS - A high-throughput system for processing biological material that comprises: a tray that supports a functionally-closed fluid path subsystem comprising, a vessel for containing and enabling the biological material to separate into two or more distinct submaterials; one or more receptacles to receive one or more of the submaterials from the vessel; a filtration device; a conduit through which one or more submaterials are transported between at least the vessel and the filtration device; and a first engagement structure; a processing unit comprising, a pumping device for moving one or more of the submaterials between at least the vessel and the filtration device via the conduit; a second engagement structure corresponding to the first engagement structure; a locking mechanism for at least temporarily holding the tray in a fixed position relative to the processing unit; a control device that automatically starts and stops the pumping device in response to one or more commands. | 06-16-2011 |
20120000330 | APPARATUSES AND METHODS FOR CUTTING POROUS SUBSTRATES - Apparatuses and methods for cutting a sample piece, having a shape and an outer dimension, out of a porous substrate, comprising: a puncher having an outermost dimension at a punch head; a stripping sleeve; a die having an innermost dimension that is larger than the outermost dimension of the punch head; and a fixture that holds the die in a fixed position relative to the puncher and stripping sleeve. | 01-05-2012 |
20120046553 | ULTRASOUND CATHETER HOUSING WITH ELECTROMAGNETIC SHIELDING PROPERTIES AND METHODS OF MANUFACTURE - An ultrasound catheter housing with electromagnetic shielding properties and methods of manufacturing is provided. The ultrasound catheter housing comprises a an inner thin wall polymer tube extruded using an ultrasonically transparent polymer, a thin metalized layer deposited on the outer surface of the inner tube, and an outer thin wall polymer tube, which may be the same or a different ultrasonically transparent material. In another embodiment an ultrasound catheter comprising the ultrasound catheter housing is provided. | 02-23-2012 |
20120317771 | APPARATUS AND METHOD FOR SERVICING DYNAMOELECTRIC MACHINE COMPONENTS IN-SITU - An apparatus and method are provided for servicing a dynamoelectric machine component. The apparatus includes a tool delivery mechanism adapted for delivering a tool to a desired location in the dynamoelectric machine, and a tool support fixture adapted to be secured onto the body of the dynamoelectric machine, where the tool support fixture can be used for supporting and adjusting the tool delivery mechanism. A sleeve mechanism is attached to the tool support fixture, and the sleeve mechanism is disposed around a portion of the tool delivery mechanism. The apparatus is adapted to service the component of the dynamoelectric machine in-situ. | 12-20-2012 |
20130029411 | SYSTEMS, METHODS AND CONTROL LAWS FOR CELL HARVESTING - The methods of harvesting cells are provided, wherein the methods comprise introducing a processing material and a source material into a processing loop. The processing loop comprises a processing chamber and a filtering device. The processing material and the source material are circulating through the processing chamber and the filtering device, wherein the processing chamber has a mass; balancing an influx of the processing material into the processing chamber with a permeate flux of the filtering device to maintain the mass of the processing chamber at a constant value; and collecting the cells in a collection chamber. Cell harvesting devices are also provided for processing and harvesting cells using a control law to balance the mass of the processing chamber through the entire process. | 01-31-2013 |
20130098541 | MATERIALS AND PROCESSES FOR BONDING ACOUSTICALLY NEUTRAL STRUCTURES FOR USE IN ULTRASOUND CATHETERS - Provided herein is a method of manufacturing ultrasound probe comprising a probe housing defining a distal end, an ultrasonic transducer array disposed within the probe housing and rotatable within said probe housing, an acoustically neutral structure bonded to a surface of the ultrasonic transducer array by an adhesive, a motor coupled to the ultrasonic transducer array, the motor being configured to rotate the ultrasonic transducer array in order to image a three-dimensional volume; and an acoustic coupling fluid disposed within free volume of the probe housing. | 04-25-2013 |
20140135623 | SYSTEMS AND METHODS FOR X-RAY AND ULTRASOUND IMAGING - An imaging assembly is provided including a paddle assembly, an X-ray detection unit, an ultrasound module, and a control module. The paddle assembly includes first and second plates that are articulable with respect to each other and configured to receive and compress an object to be imaged. The X-ray detection unit is mounted proximate to at least one of the first and second plates. The ultrasound module is configured to acquire ultrasound information of the object to be imaged and includes an ultrasound transducer articulably mounted to at least one of the first and second plates. The control module is configured to position the ultrasound transducer to scan a region of interest identified using X-ray information received from the X-ray detection unit, while not scanning at least a portion of the object outside of the region of interest. | 05-15-2014 |
20140248714 | METHODS AND SYSTEMS FOR PROCESSING SAMPLES ON POROUS SUBSTRATES - Methods and systems for processing samples fixed to a porous substrate generally comprising, a compressor defining one or more fluid isolation areas, a support, for the porous substrate, having an opening corresponding to one or more of the fluid isolation areas of the compressor, an actuator that causes at least a portion of the compressor to press against the porous substrate, a fluid inlet having access to the fluid isolation area at least when the compressor is pressed against the porous substrate, and a fluid outlet to receive fluid, through the opening in the support corresponding to the fluid isolation area of the compressor, at least when the compressor is pressed against the porous substrate. | 09-04-2014 |