Abstract: An infant hydration monitor includes a hand-held probe equipped with a pair of arms extending from a housing and incorporating a broadband ultrasonic transmitter and receiver. The arms include finger openings allowing the user to adjust the distance between the transducers by manipulating the probe using fingers placed in these openings. Each transducer is mounted on a force meter so that the skin contact pressure is monitored and optionally communicated to the user using a two-color LED. Sliding distance measuring means similar to the digital caliper are incorporated into the housing to allow the probe to generate a signal indicating the distance between the transducers. A display unit optionally worn on a wrist is attached to the probe and is adapted to calculate the hydration status of an infant.

Abstract: The present invention relates generally to a method and apparatus for measurement of optical properties of a liquid as a function of temperature. The method and apparatus are based on formation of a stable temperature gradient through the holding cell containing the liquid under study, measurement of the optical property or properties of interest as a function of position, and relating the positions of the optical measurements to the temperature of the studied liquid at that position. In the preferred application, thermal and thermodynamic properties of solutes are obtained.

Abstract: A device and method for determining the hydration and water content status of soft biological tissue is disclosed and includes a couple of ultrasonic transducers located at a known distance therebetween and held against the tissue of interest as well as an adjustable support system with angle measuring means necessary for evaluation of ultrasound velocity in this tissue. Based on the time-of-flight results of the ultrasound velocity measurement, the water content in the tested tissue is evaluated and the hydration status is determined. One embodiment of the invention is a wearable device attached to human calf measuring water content in muscle.

Abstract: A method and device for breast examination adapted for easy home use including a tactile imager probe equipped with a pressure sensor array and a motion tracking system for simultaneously recording pressure and positioning data during the examination of a breast or any other soft tissue. The method includes a step of starting the examination from a known point or an anatomical mark such as a nipple or a sternum; moving the probe towards the area of interest and oscillating it thereabout while manually or automatically recording pressure and positioning data. Subsequent data analysis identifies the presence of a lesion, calculates its location relative to the probe, estimates the location of the probe relative to the anatomical landmark and finally calculates the location of the lesion relative to that anatomical landmark. The method allows repeating examinations over time with great accuracy as they all start from the same anatomical landmark.

Abstract: A biopsy guidance device is enclosed based on a tactile imaging probe adapted to accept a biopsy gun. The tactile imaging probe includes a pressure sensing surface providing real-time 2-D images of the underlying tissue structures allowing to detect a lesion. A cannula is provided supported at a center point by a ball and socket joint. The joint is equipped with linear and angular sensors and supports the cannula with the ability to rotate thereof about the center point. The position, linear and angular displacement and direction of the needle tip of a biopsy needle placed inside the cannula is therefore known at all times and provided as a feedback signal to a physician. Also provided to a physician is a position of the target site at a lesion, as well as a linear and angular deviation of the needle tip away from the target site. Such audio, light, or visual feedback allows the physician to correct the insertion angle and depth to confidently reach the target site to perform a biopsy.

Abstract: An Internet-based system is described including a number of patient terminals equipped with tactile imaging probes to allow conducting of breast examinations and collecting the 2-D digital data from the pressure arrays of the tactile imaging probes. The digital data is processed at the patient side including a step of detecting moving objects and discarding the rest of the data from further analysis. The data is then formatted into a standard form and transmitted over the Internet to the host system where it is accepted by one of several available servers. The host system includes a breast examination database and a knowledge database and is designed to further process, classify, and archive breast examination data. It also provides access to processed data from a number of physician terminals equipped with data visualization and diagnosis means.

Abstract: A method and device in accordance with the present invention enabling detecting mechanical and structural properties of the breast tissue that are indicative of breast cancer. Detection of nodules is achieved by placing the breast into a mechanical scanning unit comprising of a two-dimensional pressure sensor array and a mobile linear pressure sensor array located opposite to the two-dimensional pressure sensor array, and analyzing the signals from the pressure sensors. The device is able to objectively detect presence of lesions suspicious for cancer or other breast pathologies in the breast and provide means for computerized three-dimensional mechanical imaging of the breast.

Abstract: A method and device for high resolution 3-D detection of changes in mechanical and structural properties of the breast tissue that are indicative of breast cancer development. A compact hand held device comprises a pressure sensor array, a self-contained motion tracking system integrated with the pressure sensor array, and an electronic unit with a display. Mechanical imaging of the breast is achieved by pressing the sensing pad onto the breast, oscillating it over breast tissue portions with sequential returning to a reference point. Analysis of pressure response data for oscillatory deformations comprises cumulative summation of a plurality of pressure patterns after spatially shifting every pattern by a pre-calculated value in an opposite direction of pressure sensor array motion. Determining mechanical and geometrical features of the breast inner structures includes formation of a 3-D mechanical image of the breast combining results of local scanning at all breast sites.

Abstract: The present invention relates to a method for real time mechanically imaging the prostate with a transrectal probe. In the method, the prostate image is synthesized and displayed in real time during the examination process. In a preferred embodiment, a compact prostate examination device comprises a probe sized to fit within the rectum and having a head with a tactile sensor longer than the axial length of an average prostate, an electronic unit and a display. As the pressure sensing part of the head is pressed against and moved over the prostate, it generates signals characterizing mechanical structure of the examined area. An accelerometer based motion tracking system is mounted in the probe for determining the position of the pressure transducer array during prostate examination. The electronic unit incorporated into the handle of the probe receives the pressure and motion data to calculate mechanical and geometrical features of the prostate and displays it on the display.

Abstract: A method of assessment of bone conditions comprises acquiring of unilateral sequential ultrasonic measurements along the trajectory over the surface of an examined bone. The method utilizes measurements of a set of ultrasonic parameters from a plurality of ultrasonic transfucers moved along the tested bone surface. Measured parameters are displayed as profile graphs characterizing bone conditions. The set of measured and displayed ultrasonic parameters can include: velocity of a longitudinal wave; velocity of a flexural wave; attenuation of the longitudinal wave; attenuation of the flexural wave; frequency slope of attenuation of the longitudinal wave; frequency slope of attenuation of the flexural wave; changes of spectral characteristics of propagating the longitudinal wave; and changes of spectral characteristics of propagating the flexural wave.

Abstract: A method and device in accordance with the present invention enable detecting changes in mechanical and structural properties of the breast tissue that are indicative of breast cancer development. In one embodiment of the invention, an array of force sensors based on PVDF piezopolymer film, data acquisition circuit, and a microprocessor are mounted in a hand held pad. Detection of nodules is achieved by pressing the sensing pad onto the breast, oscillating it over regions under investigation, and analyzing spectral and phase characteristics of the signal from the sensors in the array. The device is able to objectively detect presence of suspicious lesions in the breast and provide a warning signal.

Abstract: The present invention relates to a method for real time mechanically imaging the prostate with a transrectal probe. In the method, the prostate image is synthesized and displayed in real time during the examination process. In a preferred embodiment, a compact prostate examination device comprises a probe sized to fit within the rectum and having a head with a tactile sensor longer than the axial length of an average prostate, an electronic unit and a display. As the pressure sensing part of the head is pressed against and moved over the prostate, it generates signals characterizing mechanical structure of the examined area. An accelerometer based motion tracking system is mounted in the probe for determining the position of the pressure transducer array during prostate examination. The electronic unit incorporated into the handle of the probe receives the pressure and motion data to calculate mechanical and geometrical features of the prostate and displays it on the display.

Abstract: A method and device in accordance with the present invention enabling detecting mechanical and structural properties of the breast tissue that are indicative of breast cancer. Detection of nodules is achieved by placing the breast into a mechanical scanning unit comprising of a two-dimensional pressure sensor array and a mobile linear pressure sensor array located opposite to the two-dimensional pressure sensor array, and analyzing the signals from the pressure sensors. The device is able to objectively detect presence of lesions suspicious for cancer or other breast pathologies in the breast and provide means for computerized three-dimensional mechanical imaging of the breast.

Abstract: A method and device in accordance with the present invention enable detecting changes in mechanical and structural properties of the breast tissue that are indicative of breast cancer development. In one embodiment of the invention, an array of force sensors based on PVDF piezopolymer film, data acquisition circuit, and a microprocessor are mounted in a hand held pad. Detection of nodules is achieved by pressing the sensing pad onto the breast, oscillating it over regions under investigation, and analyzing spectral and phase characteristics of the signal from the sensors in the array. The device is able to objectively detect presence of suspicious lesions in the breast and provide a warning signal.

Abstract: The present invention provides a method and device for high resolution 3-D detection of changes in mechanical and structural properties of the breast tissue that are indicative of breast cancer development. In one embodiment of the invention a compact hand held device comprises a pressure sensor array, a self-contained motion tracking system integrated with the pressure sensor array, and an electronic unit with a display. Mechanical imaging of the breast is achieved by pressing the sensing pad onto the breast, oscillating it over breast tissue portions with sequential returning to a reference point. Calculation of a trajectory and orientation of the pressure sensor array can include correction of the device position and orientation with a suitable Kalman filter using measured signals supplied from the motion tracking system and from the pressure sensor array.

Abstract: The present invention relates to a method for mechanically imaging the prostate with a prostate examination device. In the method, position data and pressure response data are acquired along predetermined trajectories overlaying the prostate by periodic pressing or sliding of a pressure sensor assembly attached to a probe against the prostate. In a preferred embodiment, the prostate examination device comprises a probe sized to fit within the rectum and having a head connected by a shaft to a handle. A support is connected to the probe for providing a point of rest for the shaft during the prostate examination. As the pressure sensor assembly is pressed against and moved over the prostate, it generates signals in response to forces imposed on the pressure sensor assembly. A positioning system is coupled to the support and probe for determining position data of the pressure sensor assembly during prostate examination.

Abstract: New methods and devices for measuring geometrical and mechanical parameters of body tissues and providing mechanical imaging (MI) of the tissues based on these parameters are described in applicant's parent U.S. patent application Ser. Nos. 08/607,645 and 07/994,109. In essence, a pressure sensing array is used to measure the surface stress pattern on soft tissues, and the pattern of mechanical stress and the changes in the pattern as a function of the applied pressure, the position of the array and time are processed to construct an image of the internal structure of the tissues. The detected parameters and processed image provide sensitive information useful in the detection and diagnosis of soft tissue pathologies such and breast and prostate tumors.In accordance with the present invention, pressure and position data are acquired by pressing a transrectal probe on soft tissue overlying the prostate.

Abstract: A pressure force sensing array is used to measure the surface stress pattern on soft tissues. The pattern of mechanical stress and the changes in the pattern as a function of the applied pressure, position of the array and time are processed to construct an image of the internal structure of the tissues. The detected parameters and processed image provide information useful in the detection and diagnosis of soft tissue pathologies such as breast and prostate tumors. The present invention relates to an apparatus particularly useful for mechanical imaging of the prostate which comprises a transrectal probe. The probe includes a probe shaft, a position sensor for determining the position of the tip and an array of force sensors for determining the pattern of pressure from tissue deformed by the tip.

Abstract: A method and devices for Shear Wave Elasticity Imaging (SWEI). The method employs a focused acoustic pulse which remotely induces a shear wave in tissue. The values of the shear modulus and dynamic shear viscosity of tissue are evaluated from the values of propagation parameters of shear acoustic waves detected by various means including Doppler ultrasound and Magnetic Resonance Imaging. Several devices for carrying out the method are described. Devices based on the method can be used as a diagnostic tool in the detection of abnormalities in tissue, such as those caused by cancer or other lesions and characterizing processes in tissues accompanied by changes in their mechanical properties. The devices can also be used for assessment of brain tissue and evaluation of the biomechanical state of muscle.

Abstract: A method and devices for Shear Wave Elasticity Imaging (SWEI). The method employs a focused ultrasound transducer which remotely induces a shear wave in a tissue by sending modulated ultrasonic pulses. The shear wave of the frequency of the modulating signal is detected. The values of the shear modulus and dynamic shear viscosity of tissue are evaluated from the measured values of velocity and attenuation of shear waves. Several devices for carrying out the method are described. Devices based on the method can be used as a diagnostic tool in the detection of abnormalities in tissue, such as those caused by cancer or other lesions and characterizing processes in tissues accompanied by changes in their mechanical properties.