Abstract: A control panel for a diagnostic ultrasound system includes a keyboard with a wrist pad that stows beneath the control panel, and extends from the control panel when needed. The keyboard wrist pad integrates smoothly into the front of the control panel when the keyboard is in the stowed position. The keyboard wrist pad can also be integrated into the top surface of the edge of the control panel and can serve as a wrist pad for either the control panel or the keyboard when the keyboard is extended.
Abstract: A system and method for using magnetic resonance imaging to increase the accuracy of electrophysiologic procedures is disclosed. The system in its preferred embodiment provides an invasive combined electrophysiology and imaging antenna catheter which includes an RF antenna for receiving magnetic resonance signals and diagnostic electrodes for receiving electrical potentials. The combined electrophysiology and imaging antenna catheter is used in combination with a magnetic resonance imaging scanner to guide and provide visualization during electrophysiologic diagnostic or therapeutic procedures. The invention is particularly applicable to catheter ablation, e.g., ablation of atrial fibrillation.
Type:
Grant
Filed:
October 29, 1999
Date of Patent:
March 2, 2004
Assignee:
Johns Hopkins University School of Medicine
Inventors:
Henry R. Halperin, Ronald D. Berger, Ergin Atalar, Elliot R. McVeigh, Albert Lardo, Hugh Calkins, Joao Lima
Abstract: Methods and systems for estimating fetal weight at birth and risk of macrosomia are disclosed. Information regarding maternal characteristics and ultrasound measurements are obtained for the fetus. A computer program selects the most accurate equation from a hierarchy of birth weight/risk of macrosomia estimation equations based on the available information. Program outputs include estimated birth weight, risk of macrosomia, and confidence intervals.
Type:
Grant
Filed:
October 17, 2002
Date of Patent:
February 24, 2004
Inventors:
Gerard Georges Nahum, Harold Walter Karl Stanisaw
Abstract: A method is provided for observing three-dimensional pulsatile activity in a volume of a subject's tissue, which includes activating an ultrasonic probes array (25) subset portion (20) having a curvature including focussing the ultrasound energy of probes (25) constituting a selected contiguous portion of the subarray in a selected portion of a selected slice of tissue (21) along a line, converting the reflected ultrasound energy to output signals and providing output data corresponding to the pulsatile activity, varying the focus of ultrasound energy along the line and repeating the converting and processing steps to thereby select additional lines within the selected slice, selecting additional subsets of the ultrasound array of probes so as to select additional slices within the volume, and performing tomographic analysis of the output data corresponding to pulsatile activity in the plurality of selected portions of tissue, so as to obtain a three dimensional image of pulsatile activity in the presele
Abstract: A method and apparatus are provided for enabling battery packs of different sizes to be used with an ultrasound device. The apparatus of the present invention comprises an ultrasound device having a battery pack installment apparatus configured to be capable of being coupled with battery packs of different sizes. The method comprises the step of providing the ultrasound device with a battery pack installment apparatus that is configured to couple with battery packs of different sizes.
Abstract: A catheter including an elongated body member, an ultrasound transducer located on the elongated body member, and dampening means for forming an ultrasound dampening region adjacent to a portion of the ultrasound transducer, is disclosed. The ultrasound transducer is configured to transmit or receive an ultrasound signal. The ultrasound dampening region is configured to improve uniformity of said ultrasound signal in three-dimensional space. Preferably, the dampening means includes air or a material containing air.
Abstract: A digital multiline beamformer is provided which produces multiple receive beams in response to a single transmit event. An embodiment of the present invention includes a bulk delay which provides a common steering delay applicable to all of the beams received at one time. The bulk delay is succeeded by parallel filter processing paths which produce finely focused multiple beams simultaneously. In one embodiment a multiphase filter produces the samples for multiple beams, which is advantageous when the number of simultaneously produced beams is greater than the number of phases produced by the fine focus filter.
Type:
Grant
Filed:
December 22, 2000
Date of Patent:
February 24, 2004
Assignee:
Koninklijke Philips Electronics N.V.
Inventors:
Derek Henderson, Brent Stephen Robinson, James Moore, David N. Roundhill, Gary Allen Schwartz
Abstract: The present invention relates generally to systems and methods for assessing blood flow in blood vessels, for assessing vascular health, for conducting clinical trials, for screening therapeutic interventions for adverse effects, and for assessing the effects of risk factors, therapies and substances, including therapeutic substances, on blood vessels, especially cerebral blood vessels, all achieved by measuring various parameters of blood flow in one or more vessels and analyzing the results in a defined matter. The relevant parameters of blood flow include mean flow velocity, systolic acceleration, and pulsatility index. By measuring and analyzing these parameters, one can ascertain the vascular health of a particular vessel, multiple vessels and an individual. Such measurements can also determine whether a substance has an effect, either deleterious or advantageous, on vascular health. In one of many embodiments, the present invention further provides an expert system for achieving the above.
Type:
Grant
Filed:
October 1, 2001
Date of Patent:
February 17, 2004
Assignee:
New Health Sciences, Inc.
Inventors:
Kevin Crutchfield, Robert Mozayeni, John Davidson, Simon Fitall
Abstract: The present invention relates to a] A device for producing an image of a body part into which a contrasting agent has been introduced, the device including an image detecting device modifying the contrasting agent to provide a modified image, and a processor acquiring and processing the modified image so as to create an image which represents a rate of flow of blood or other fluid in the body part. The device may be an ultrasound imaging device or may be a magnetic resonance imaging device.
Abstract: A method and a system for acquiring and analyzing non-imaging data collected during an ultrasound examination for the purpose of reporting ultrasound department performance characteristics. This is accomplished by tracking user keystrokes whenever the ultrasound imaging system is turned on, acquiring the keystroke data from the ultrasound system and then using this data for departmental performance analysis. During an examination, the ultrasound system user presses buttons and selects items from menus on the operator interface. These keystrokes invoke functions or change operating parameters on the ultrasound imaging system. Simultaneously, a code representing the keystroke is stored in electronic storage. Along with this code, the date, time and values being set or adjusted are also stored. Subsequently, the data in the electronic storage can be extracted for use in analysis of the use of the ultrasound imaging system.
Type:
Grant
Filed:
December 31, 1999
Date of Patent:
February 10, 2004
Assignee:
GE Medical Systems Global Technology Company, LLC
Abstract: The present invention relates to a novel device with an ultrasonic based drill and corer. The invention uses ultrasonic and subsonic vibrations, which is produced by a frequency compensation coupler or free mass, to produce the hammering action with relatively low axial-force required. The invention can also be fitted with irrigation and aspiration capabilities. The invention is furnished with a body sensor-feedback apparatus, which provide feedback to the operator as to the optimal frequency and power use of the generator. The assembly presented also has a coolant jacket to keep the drill or coring apparatus at optimum temperature prolonging the life of the instrument and the quality of the sample. The invention can be used in numerous applications one of such notable application is on the field of orthopedics.
Abstract: Prostate abnormalities such as cancer may be detected by ultrasonic determination of the in-flow kinetics of contrast agent-containing blood in the prostate and/or by observation of disease-related asymmetries in the the spoke-like vascular pattern of the prostate.
Abstract: An ultrasonic transducer is provided at the distal end of a sheath included in an inserting portion of an ultrasonic probe for performing ultrasonic diagnosis. The ultrasonic transducer can transmit and receive ultrasound through an acoustic window 38 facing against the ultrasonic transducer through an acoustic medium filled around the ultrasonic transducer. At least the acoustic window is formed of a resin including a mixture of polyamide block and polyether ester block copolymer resin and polyurethane. Thus, multiple reflection, for example, can be reduced in the vicinity of the acoustic windows. Furthermore, the sheath portion may be formed of the same resin. Thus, the sheath portion can be inserted through an endoscope channel, for example, smoothly with less buckling.
Abstract: A method for adaptive filtering of clutter from a sample stream having a blood signal component and a clutter signal component comprises the steps of (a) estimating a signal strength of the sample stream, and (b) determining an order of a filter based on a relationship between the signal strength estimate and a signal strength threshold. The filter receives the sample stream and provides an output stream having a reduced level of the clutter signal component relative to the blood signal component.
Type:
Grant
Filed:
June 22, 2001
Date of Patent:
February 10, 2004
Assignee:
Koninklijke Philips Electronics N.V.
Inventors:
Richard A Hager, David W Clark, Karl E Thiele, Jerome F Witt
Abstract: Systems and methods of probing a material under investigation using an ultrasound beam. Echolocation data is generated using a multi-dimensional transform capable of using phase and magnitude information to distinguish echoes resulting from ultrasound beam components produced using different ultrasound transducers. Since the multi-dimensional transform does not depend on using receive or transmit beam lines, a multi-dimensional area can be imaged using a single ultrasound transmission. In some embodiments, this ability increases image frame rate and reduces the amount of ultrasound energy required to generate an image.
Abstract: Plane waves are transmitted at different incident angles, and the radio frequency echo waveforms received by the elements in an array are processed with a Fourier transform. This method is capable of generating one frame of “raw” image for each transmitted plane wave. The formation of each raw image includes: temporal Fourier transform of radio frequency echo signal from each element; phase rotation; spatial Fourier transform; complex interpolation; and an inverse spatial-temporal Fourier transform. This method does not require the synthesis of limited diffraction beams and is computationally more efficient compared to conventional delay-and-sum approach. These raw images are combined coherently to enlarge spatial frequency coverage and enhance lateral resolution. The resolution-enhanced images are further combined incoherently to achieve speckle reduction.
Abstract: The present invention provides processes and apparatus for selectively dissolving and removing unwanted solid and semi-solid materials and the like, within a highly localized region utilizing ultra-high energy acoustical waves having a frequency in the range above 50 MHz, for example from about 50 MHz to about 100 GHz. The invention apparatus includes a piezoelectric transducer that is modified to increase the amplitude of acoustical waves of a given frequency without increase in power to the system. The invention and apparatus have important applications in surgical procedures for the treatment of atherosclerotic plaque, prostate disorders, cancers, orthopedic and cosmetic surgery, various types of orthopedic surgery, including atheroscopic surgery, and the like. The present invention is also useful in a wide variety of non-surgical applications, including industrial processes, wherein materials are desired to be selectively removed in a very localized region.
Abstract: An ultrasound diagnostic apparatus includes first and second probes. The inside of an object to be examined is scanned with a first ultrasound beam through the first probe to acquire first ultrasound image data associated with the object. The inside of the object is scanned with a second ultrasound beam through the second probe to acquire second ultrasound image data associated with the object. The second ultrasound image data is synthesized with the first ultrasound image data on the basis of the position of the first probe relative to the second probe, which is detected by a position detector.
Abstract: A method and device for determining a plurality of cardiovascular parameters are described, wherein the parameters are determined from noninvasively obtained data, thereby obviating the need for invasive procedures such as cardiac catheterization. These determinations are enabled by incorporating fluid dynamics and thermodynamics equations with noninvasively obtained mechanical cardiac event data to estimate a desired cardiovascular parameter. Exemplary parameters obtainable with the method and device include aoritc and mitral valve areas, cardiac left ventricular stroke volume, and aortic and mitral valve pressure gradients.
Abstract: The invention concerns an instrument for medical purposes, comprising a housing (8) which can be introduced into an animal or human body, a movably mounted electromagnetic or acoustic transducer unit (7) arranged in the housing (8), preferably in the distal end thereof, for producing electromagnetic or acoustic waves, in particular ultrasonic waves, and a drive (1, 2) for driving the transducer unit (7), wherein the transducer unit (7) is connected to at least one first contact element (9a) and arranged on the housing (8) is at least one second contact element (8a, 8b; 12a through 12j) provided for sliding contact with the first contact element (9a), wherein the first and second contact elements (9a and 8a, 8b; 12a through 12j) jointly form a radial mounting for the transducer unit (7).