Class / Patent application number | Description | Number of patent applications / Date published |
600449000 | One-dimensional anatomic display or measurement | 71 |
20080208056 | METHOD FOR MEASURING THE RUN TIME OF AN ULTRASONIC PULSE IN THE DETERMINATION OF THE FLOW VELOCITY OF A GAS IN A BREATHING GAS VOLUME FLOW SENSOR - A method is provided for measuring the run time of an ultrasonic pulse in the determination of the flow velocity of a gas in a breathing gas volume flow sensor (1). The breathing gas volume flow sensor (1) has a flow duct (3) with a measuring section, wherein the measuring section is arranged in parallel to or at an angle (α) smaller than 90° to the flow duct (3). The measuring section has an ultrasound transmitter (5) and an ultrasound receiver (7). The method determines the run time of the ultrasonic pulse from the receiving signal spectrum without the damping of the ultrasonic pulse having an effect on the run time measurement by an ultrasonic pulse being triggered by a transmitting pulse at the ultrasound transmitter (5). The ultrasound receiver (7) sends a receiving signal and the receiving signal is recorded as a first receiving signal data record as a function of time after the transmitting pulse. A correlation function of the first receiving signal data record is formed with the first sample data record. The run time of the ultrasonic pulse is determined from the point in time of the correlation maximum. | 08-28-2008 |
20080242993 | ULTRASOUND SYSTEM - The present invention is directed to an ultrasound system. The ultrasound system of the present invention includes an ultrasound diagnostic unit, a storage unit, an image acquisition unit, a pattern recognition unit, and a control unit. The ultrasound diagnostic unit forms an ultrasound image representative of a target object. The storage unit stores training sets in association with respective instructions for operating the ultrasound diagnostic unit. Each of the training sets includes pattern samples associated with a particular action of a user. The image acquisition unit acquires an action of a user to form an action image. The pattern recognition unit recognizes an action pattern from the action image. The control unit retrieves the training sets stored in the storage unit to find a pattern sample having a match with the recognized action pattern. The control unit controls an operation of the ultrasound diagnostic unit based on an instruction associated with the training set including the found pattern sample. | 10-02-2008 |
20090036776 | Apparatus for measuring inner diameter of tubular body of living being - An apparatus for measuring an inner diameter of a tubular body present under a skin of a living being, by emitting an ultrasonic wave from an ultrasonic probe placed on the skin, the apparatus including a reflection-signal detecting portion which detects a reflection signal that is reflected from the tubular body when the ultrasonic wave is emitted from the ultrasonic probe; and an inner-diameter calculating portion which calculates the inner diameter of the tubular body, based on an interval between two groups of reflection waves which are contained by the detected reflection signal and which are reflected from two diametrically opposed portions of a wall of the tubular body, respectively. | 02-05-2009 |
20090043207 | ULTRASOUND DIAGNOSTIC APPARATUS - The present invention provides an ultrasound diagnostic apparatus capable of appropriately evaluating dynamic characteristics of a bone. The ultrasound diagnostic apparatus obtains an interpolated line | 02-12-2009 |
20090093721 | ULTRASONIC DIAGNOSIS METHOD AND APPARATUS - The object is to determine an optimum sonic speed without requiring memory, circuits and processing time therefor. The object is achieved by providing an ultrasonic diagnosis apparatus having an ultrasonic probe in which a plurality of elements for transmitting an ultrasonic wave to a subject and, by receiving an ultrasonic signal reflected from the subject, outputting the received signal are arrayed; a device which changes an assumed sonic speed set in advance relative to the actual sonic speed of the ultrasonic wave to be transmitted to the subject; and an optimum sonic speed judgment device which judges a micro-structure by an RF signal obtained from the received signal by changing the assumed sonic speed and performing focusing with a delay based on the assumed sonic speed, and judges an optimum sonic speed, which is the ultrasonic speed of the subject, from phase information about the RF signal judged to be the micro-structure. | 04-09-2009 |
20090143681 | Method for measuring of thicknesses of materials using an ultrasound technique - The invention relates to a method for measuring thicknesses of materials of multilayered structure. This method includes transmitting one or more ultrasound signals including different frequencies into a multilayered structure consisting of two or more materials with one or more ultrasound transducers, measuring materials, acoustic properties for which are different at the frequencies in use, measuring ultrasound signals reflected from the front surface and back surface of the multilayered structure with one or more ultrasound transducer and determining thicknesses of the materials within multilayered structure from the reflected ultrasound signals. | 06-04-2009 |
20090198137 | Ultrasonic Method And Apparatus For Measuring Intracranial Contents Volume Change - An ultrasonic method for indicating a characteristic of intracranial components' volume changes includes the transmission of broadband ultrasound from a transmitting transducer positioned on one side of a human head to a receiving transducer located on another side of the human head with decomposition of the received signal into narrowband components and determination therefrom of group delay, phase angle and attenuation as a basis for derivation of the characteristic of the intracranial media. | 08-06-2009 |
20090216126 | IMPLANTABLE MINIATURIZED ULTRASONIC TRANSDUCERS - The present invention comprises an ultrasonic measuring device and method for measuring bone resorption and remodeling using Miniaturized Ultrasonic Transducers. An ultrasonic measuring device for insertion into hard tissue comprises an elongate member with an implant end of the elongate member and an acoustic transducer mounted from the interior of the elongate member at the implant end. The implant end of the ultrasonic measuring device is configured such that the acoustic transducer can measure, when inserted into a hard tissue, variations of the hard tissue using ultrasonic wave propagation. The method of taking measurements of bone resorption and remodeling includes taking measurements of a healthy region and remodeling region of a bone using ultrasonic wave propagation; and calculating the variations in the bone's density and its elasticity along the bone's length a) in the healthy region and b) in the remodeling region. | 08-27-2009 |
20090287083 | Cavitation detector - A method for detecting cavitation in an adipose tissue, the method comprising computing a level of correlation between at least two received ultrasonic signals, wherein the level of correlation is indicative of cavitation. | 11-19-2009 |
20090299186 | SYSTEM AND METHOD FOR CHARACTERIZING TISSUE BASED UPON HOMOMORPHIC DECONVOLUTION OF BACKSCATTERED ULTRASOUND - A system and method are disclosed that facilitate characterizing vascular plaque tissue based upon spectral analysis of intravascular ultrasound echo signal segments. In particular, a power spectrum analysis of an integrated backscatter parameter renders a set of characterizing parameter values based on received intravascular ultrasound echo signal segments. The resulting parameter values are applied to plaque tissue characterization criteria to render a plaque tissue characterizations for regions of interest. The system and method include computer-executable instructions performed on a computing device to render an estimate of a system transfer function using a homomorphic deconvolution technique. | 12-03-2009 |
20090299187 | ULTRASOUND BASED METHOD AND APPARATUS TO DETERMINE THE SIZE OF KIDNEY STONE FRAGMENTS BEFORE REMOVAL VIA URETEROSCOPY - A transducer is used to send an ultrasound pulse toward a stone and to receive ultrasound reflections from the stone. The recorded time between a pulse that is reflected from the proximal surface and a pulse that is reflected either from the distal surface of the stone or from a surface supporting the stone is used to calculate the stone size. The size of the stone is a function of the time between the two pulses and the speed of sound through the stone (or through the surrounding fluid if the second pulse was reflected by the surface supporting the stone). This technique is equally applicable to measure the size of other in vivo objects, including soft tissue masses, cysts, uterine fibroids, tumors, and polyps. | 12-03-2009 |
20100010353 | Methods For Determining Displacement Or Strain Of A Target Body - The invention is directed toward a new method for estimating and imaging the spatial and temporal mechanical behavior of materials in responses to a mechanical stimulus. This method is designed to work in inherently noisy applications, such as the imaging of the time-dependent mechanical behavior of biological tissues in vivo and using a preferred hand-held configuration of scanning. | 01-14-2010 |
20100030080 | METHOD AND DEVICE OF DIAGNOSING BONE STRENGTH - A bone strength diagnostic device includes a wave-transmission module for deriving a speed of sound that transmits an ultrasonic wave from a wave-transmission transducer for deriving the speed of sound obliquely to a bone covered with soft tissues; a wave-reception module for deriving the speed of sound that receives, with a plurality of wave-reception transducers for deriving the speed of sound, the ultrasonic wave that exits from the bone to the side of the soft tissues, the ultrasonic wave being received after it is transmitted from the wave-transmission module for deriving the speed of sound and propagating along a front surface of the bone; a shape detection module for detecting the shape of the front surface of the bone; and a speed-of-sound deriving module for deriving the speed of sound of the ultrasonic wave that propagates along the front surface of the bone, based on the received wave signals, using the wave-reception module for deriving the speed of sound, and the shape of the front surface of the bone detected using the shape detection module. | 02-04-2010 |
20100036252 | ULTRASOUND SYSTEM AND METHOD FOR MEASURING BLADDER WALL THICKNESS AND MASS - An ultrasound transceiver scans an organ and processes the echogenic signals to produce three-dimensional, two-dimensional, and one-dimensional information of the organ. The 3-D, 2-D, and 1-D information is utilized to determine the thickness, surface area, volume, and mass of the organ wall. | 02-11-2010 |
20100063394 | OSTEOPOROSIS PROGRESS STAGE MEASURING DEVICE AND OSTEOPOROSIS PROGRESS STAGE MEASURING METHOD - An osteoporosis progress stage measuring device is configured such that an ultrasonic wave oscillating section ( | 03-11-2010 |
20100081937 | SYSTEM AND METHOD FOR PROCESSING A REAL-TIME ULTRASOUND SIGNAL WITHIN A TIME WINDOW - One embodiment is a method for real-time window processing and window definition that includes measuring a defining signal and an instantaneous tissue state signal, dynamically determining a time window from the defining signal, and processing instantaneous tissue state signal captured in the time window. Another embodiment is a system for processing a real-time ultrasound signal within a time window that includes a physiological signal monitor that measures a physiological signal, an ultrasound acquisition device that acquires an ultrasound signal, a window identifier that uses the physiological signal to identify boundary markers of the output of the physiological signal monitor that define a time window, and an ultrasound processor that processes the ultrasound signal within a time window and outputs a time window processed ultrasound signal. The embodiments have applications in the field of ultrasound tissue tracking and numerous other tissue monitoring fields. | 04-01-2010 |
20100113932 | Rapid and Accurate Detection of Bone Quality Using Ultrasound Critical Angle Reflectometry - The present invention is an apparatus, method and system for determining the coefficient of elasticity of a target by detecting an ultracritical reflection of ultrasound waves directed at the target using an ultrasound transducer at two or more angles simultaneously and calculating the elasticity coefficient of the target. | 05-06-2010 |
20100130864 | ULTRASONIC EVALUATION OF VENOUS STRUCTURES - Provided are methods and systems for detecting a maturing arterio-venous fistula comprising a vein. An exemplary method comprises determining a wall thickness of the fistula and a lumen diameter of the fistula vein using a high frequency ultrasound imaging system. A blood pressure of the subject is determined. A circumferential vessel wall stress is determined from the measured blood pressure, the wall thickness of the fistula and a determined radius of the measured diameter of the fistula. The determined circumferential vessel stress is compared to a predetermined threshold stress to determine if the fistula is mature. | 05-27-2010 |
20100130865 | DEVICE FOR MEASURING THE VISCOELASTIC PROPERTIES OF BIOLOGICAL TISSUES AND METHOD USING SAID DEVICE - A device configured to measure the viscoelastic properties of biological tissues using a processing of ultrasound waves reflected by these tissues when a shear wave runs across them is presented. The device includes means for forming lines of data such that each line comprises data relative to the ultrasound waves reflected from the same shot and means for determining a parameter relative to the displacement between the tissues and a transducer emitting the shots, means for calculating an intrinsic displacement of the medium from a set of lines forming an acquisition, and means for processing the first ultrasound lines, by using the relative parameter, before or during the formation of second ultrasound lines from this same acquisition, in order to determine the intrinsic displacement of the biological tissues from these first lines. | 05-27-2010 |
20100191116 | Method, A Computer Program And An Apparatus For Quantification Of A Degree Of Obstruction In A Liquid Passageway - The invention relates to a method for quantification of a degree of obstruction in a liquid passageway, notably a male urethra. Data related to sonic waves generated by a liquid passing the obstruction may be accessed from a suitable file, or, alternatively may be directly obtained as a result of a measuring step | 07-29-2010 |
20100198074 | OPHTHALMIC ULTRASONIC DIAGNOSING APPARATUS - An ophthalmic ultrasonic diagnosing apparatus for measuring an ocular axial length of an examinee's eye includes an ultrasonic probe for A-mode measurement including a transducer arranged to emit an ultrasonic wave toward the inside of the eye, and receive return echoes from eye constituent parts, and an analysis unit for identifying, by analyzing signals of the received echoes, the respective signals as a return echo signal from a cornea of the eye, a return echo signal from an intraocular lens implanted in the eye, multiple return echo signals produced from the signals repeatedly returning between the intraocular lens and the transducer, and a return echo signal from a retina of the eye, while distinguishing the retinal signal from the multiple signals based on a property shown by the multiple signals and/or a property shown by the retinal signal, and calculate the axial length based on the corneal and retinal signals. | 08-05-2010 |
20100198075 | INSTANTANEOUS ULTRASONIC ECHO MEASUREMENT OF BLADDER VOLUME WITH A LIMITED NUMBER OF ULTRASOUND BEAMS - An apparatus and methods to quantify the volume of urine in a human bladder with a limited number of acoustic beams is disclosed. In a first version a plurality of narrow ultrasound beams is transmitted in different directions towards the bladder. Returning echoes are converted to digital form and stored in memory. A volume display on the apparatus allows to define the optimal apposition of the transducer assembly. Signal processing software automatically determines the bladder Depth D and Height H and computes the volume of urine. In a second version, a single wide angle ultrasound beam transducer transmits ultrasounds signals at a fundamental frequency to quantify the urine volume. Return signals originating from a depth beyond the usual position of the posterior wall depth of a filled bladder are analyzed for presence of higher harmonic signals, which in turn are related to the presence or absence of urine. | 08-05-2010 |
20100298708 | BODY HEIGHT MEASURING APPARATUS - A body height measuring apparatus is disclosed comprising a measuring bar, a ground mainframe, an ultrasound signal transmit unit and an ultrasound signal receive unit, a synchronous signal transmit unit and a synchronous signal receive unit. The first operational control unit and a second operational control unit synchronize the operation of the ultrasound signal transmit unit and the ultrasound signal receive unit through manipulation of the synchronous signal transmit unit and the synchronous signal receive unit, and calculate a height based on a transmission time during which an ultrasound signal travels from the ultrasound signal transmit unit to the ultrasound signal receive unit. As the body height is measured based on a unidirectional transmission of the ultrasound signal, the measurement error is reduced, the measuring accuracy is improved and an advantage in use is achieved. | 11-25-2010 |
20110092818 | ULTRASONOMETER FOR BONE ASSESSMENT IN INFANTS - An ultrasonometer for bone assessment in infants includes a focusing acoustic wave transducer, an acoustic wave detector, and an elongated chamber filled with an acoustically-coupling fluid. The chamber is equipped with an acoustically-transparent flexible membrane facing the extremity of the infant. Supporting means such as a gliding rod is adapted to retain at least one of the transducer or the detector inside the chamber facing the subject. Supporting means is further adapted to move the transducer or detector along the chamber to perform the bone scanning without repositioning of the probe. A focused ultrasound transducer is adapted to remotely generate an acoustic wave in the bone by acoustic radiation force. | 04-21-2011 |
20110137172 | APPARATUS AND METHOD FOR MEASURING AN AMOUNT OF URINE IN A BLADDER - Disclosed an apparatus for measuring an amount of urine in a bladder using ultrasonic signals. The apparatus is comprising: a transducer; a switch for selecting one of operational modes, which include a preliminary scan mode and a scan mode; a transducer drive unit for driving the transducer; and a central control unit for operating according to the operational mode to provide an amount of urine in the bladder. The central control unit in the preliminary scan mode acquires the ultrasonic signals for a single scan plane from the transducer, generates a 2-dimensional B-Mode ultrasonic image using the acquired ultrasonic signals, and displays the B-Mode ultrasonic image. The central control unit in the scan mode acquires ultrasonic signals for a plurality of scan planes from the transducer, measures an amount of urine in the bladder using the acquired ultrasonic signals, and provides the amount of urine. | 06-09-2011 |
20110257531 | METHOD OF MEASURING THE THICKNESS OF A BIOLOGICAL TISSUE BY ULTRASOUNDS AND DEVICE FOR CARRYING OUT SUCH METHOD - A method of measuring the thickness of a biological tissue by ultrasounds and a device carrying out such method. The method is implemented with an ultrasound probe that emits ultrasonic pulses within a body under examination and receives echoes generated from structures of the body under examination. The probe includes an array of two or more electro-acoustic transducers and, in combination, means for processing the reception signals and means for orienting one or more lines of sight, along which the emission of the pulses and/or the reception of the echoes is focused, according to different angles with respect to an axis perpendicular to the emitting surface of the probe. The thickness of the biological tissue is calculated by the time interval between the reception of the first echo and the reception of the second echo, which are relevant to the same ultrasonic pulse emitted along at least a line of sight oriented along an axis perpendicular to the surface of the biological tissue, which is defined by the iteration of measurements with the line of sight oriented at different angles and with comparisons between the measured intensity values, the orientation corresponding to the axis perpendicular to the surface of the biological tissue being the one showing the maximum intensity of the first echo. | 10-20-2011 |
20120010509 | Ultrasonic Vertebral Bone Assessment Apparatus and Method - A method and apparatus for non-invasive and quantitative assessment of the status of a lumbar vertebral body in a living being for at least one of several quantities (e.g., bone-mineral density, bone mass, etc.) is provided. The method includes the steps of acoustically coupling first and second transducers to nearby skin on opposite sides of a torso of the living being and generating an ultrasound signal and directing the ultrasound signal from the first transducer to the second transducer through the torso. At least a portion of the ultrasound signal passes through the lumbar vertebral body and the second transducer generates an output signal responsive to receipt of the ultrasound signal. The method further includes the step of processing the output signal to obtain an estimate of the at least one quantity. | 01-12-2012 |
20120130247 | System and Method for Characterizing Tissue Based Upon Homomorphic Deconvolution of Backscattered Ultrasound - A system and method are disclosed that facilitate characterizing vascular plaque tissue based upon spectral analysis of intravascular ultrasound echo signal segments. In particular, a power spectrum analysis of an integrated backscatter parameter renders a set of characterizing parameter values based on received intravascular ultrasound echo signal segments. The resulting parameter values are applied to plaque tissue characterization criteria to render a plaque tissue characterizations for regions of interest. The system and method include computer-executable instructions performed on a computing device to render an estimate of a system transfer function using a homomorphic deconvolution technique. | 05-24-2012 |
20130178742 | METHOD AND AN APPARATUS FOR RECORDING BLADDER VOLUME - A non-invasive method and apparatus for monitoring the bladder volume in humans or animals. The monitoring measurements are based on the analysis of ultrasound signals from at least two individual ultrasound transducer arrays. Each one individual ultrasound transducer array has a contact face, which is arranged in order to transmit an ultrasonic signal through an abdominal surface of an individual being monitored. The method and apparatus includes the arranging of each individual transducer array on the abdominal surface around an axis which extends from a point on the abdominal surface through a point on or within the urinary bladder. The method and apparatus further comprises that each individual transducer array is arranged to scan the bladder using a two-dimensional scan plane which extends radially from the transducer array through the bladder. | 07-11-2013 |
20130190626 | DETERMINING LOCATION OF, AND IMAGING, A SUBSURFACE BOUNDARY - A method of determining a location (x,z) of a subsurface boundary ( | 07-25-2013 |
20130211260 | Apparatus and method for minimally invasive length measurement within a hollow organ - An apparatus for minimally invasive length measurement within a hollow organ is provided. The apparatus has an endoscopic instrument, an ultrasound head having an ultrasound transmitter and ultrasound receiver, an ultrasound reflector, an electrical connection, a control and display device and a mechanical connection. The ultrasound reflector is arranged at one end of the endoscopic instrument. The ultrasound head is arranged at one end of the mechanical connection extending into a channel of the endoscopic instrument and is guided herein. The ultrasound head is aligned with the ultrasound reflector and the distance between the two can be changed. The ultrasound head and the control and display device are connected by the electrical connection to exchange electrical signals. The control and display device generates an ultrasound wave and detects the wave reflected at the ultrasound reflector using the ultrasound receiver and determines the delay time of the wave. | 08-15-2013 |
20130245448 | ULTRASONIC DIAGNOSIS DEVICE AND ULTRASONIC PROBE FOR USE IN ULTRASONIC DIAGNOSIS DEVICE - A structure for adjusting the positional relationship between an ultrasonic transducer and a blood vessel such that an acoustic line from the ultrasonic transducer passes the center of a cross-section of the blood vessel for measuring an elasticity characteristic is provided.—An ultrasonic probe includes a transducer for transmitting an ultrasonic wave and receiving the ultrasonic wave reflected by a biological tissue; and a driving device for physically moving the transducer. For measuring the elasticity characteristic, the driving device moves the transducer based on a control signal to change at least one of a direction and a position at which the ultrasonic wave is to be transmitted. A determination section specifies a position of the transducer at which the reflection intensity is maximum based on intensity information representing an intensity of the reflected wave. A calculation section calculates the elasticity characteristic at the specified position. | 09-19-2013 |
20130281860 | 3D ULTRASOUND SYSTEM AND METHOD FOR OPERATING 3D ULTRASOUND SYSTEM - A 3-dimensional (3D) ultrasound system and a method for operating a 3D ultrasound system are provided. A 3D ultrasound system includes an extractor, a processor, and a controller. The extractor scans an image of an object in a human body, and extracts a region of interest (ROI) image in an inputted ROI with respect to a selected image. The processor detects edges from a plurality of side images of the object with respect to the ROI image. The controller measures the thickness of the image using the detected edges. | 10-24-2013 |
20130289409 | DEVICE AND METHOD FOR DETERMINING ACTUAL TISSUE LAYER BOUNDARIES OF A BODY - The present invention relates to a device ( | 10-31-2013 |
20130303914 | MULTIPLE TRANSDUCER DELIVERY DEVICE AND METHOD - Embodiments of the present invention allow more full characterization of a stenotic lesion by measuring both pressure drop across the stenotic lesion and the size of the vessel lumen adjacent the stenotic lesion, both with sensors delivered intravascularly to the stenotic lesion site. In preferred embodiments, the size (e.g., inner diameter, cross-sectional profile) of the vessel lumen adjacent the stenotic lesion can be measured via one or more intravascular ultrasound transducers. In preferred embodiments, the intravascular ultrasound transducer(s) can be delivered to the site of the stenotic lesion with the same delivery device that carries the pressure transducer(s). | 11-14-2013 |
20130303915 | ULTRASOUND APPARATUS AND METHODS TO MONITOR BODILY VESSELS - An automated 3D ultrasound abdominal vessel monitor is capable of providing automated anatomical and physiological data on the large abdominal vessels, for example the Inferior Vena Cava (IVC). The 3D ultrasound abdominal vessel monitor includes one or more ultrasound transducers built into a housing or frame that in use sits on the upper abdomen, just below the ribcage. A disposable component can serve to secure the 3D ultrasound abdominal vessel monitor to the patient and provide a coupling medium between the 3D ultrasound abdominal vessel monitor and the skin of the patient. | 11-14-2013 |
20140039319 | ULTRASONIC MEASURING APPARATUS AND BLOOD VESSEL INNER DIAMETER CALCULATING METHOD - In an ultrasonic measuring apparatus, an addition/averaging-period setting unit determines a blood vessel diameter stable period in which a blood vessel diameter is in a stable state in one heartbeat period and sets the blood vessel diameter stable period as an addition and averaging period. An adding and averaging unit adds up and averages reflected wave measurement data measured in the addition and averaging period set by the addition/averaging-period setting unit. A blood-vessel-diameter calculating unit calculates a blood vessel inner diameter of a blood vessel using combined data obtained by the addition and averaging of the adding and averaging unit. | 02-06-2014 |
20140114192 | Non-Contact Measuring Method and Apparatus in Pediatrics - A non-contact measuring method in pediatrics is disclosed. An infant model is established by acquiring a human image and a depth image of a subject infant; updating the infant model by acquiring a plurality of anthropometric characteristic points and finally obtaining an anthropometric data of the subject infant from the updated infant model. This invention also provides an apparatus to achieve the above mentioned measuring method. An infant model which includes anthropometric characteristic points and 3D surface models is established based on a human image acquired by an image acquisition module and a depth image acquired by a depth information acquisition module in conjunction with an algorithm program built in a data acquisition and processing module. Human anthropometric data is obtained by analyzing the infant model. The non-contact measuring method and measuring apparatus in pediatrics make the measuring process more humane without contacting a subject body. | 04-24-2014 |
20140121522 | ULTRASONIC MEASURING DEVICE, PROGRAM, AND METHOD OF CONTROLLING ULTRASONIC MEASURING DEVICE - An ultrasonic measuring device includes an ultrasonic transducer device, and a processing device that performs processing based on a reception signal from the ultrasonic transducer device. The processing device includes a data acquisition unit that, based on the reception signal, acquires 1st to K-th (K being an integer greater than or equal to 2) A-mode waveform data groups that correspond to cases where the direction of the scanning plane relative to a measurement location surface is 1st to K-th directions; a selection unit that selects a measurement result A-mode waveform data piece based on the 1st to K-th A-mode waveform data groups; and a notification control unit that generates notification data based on the at least one of the measurement result A-mode waveform data piece and a measurement result A-mode waveform data group that corresponds to the measurement result A-mode waveform data piece, and outputs the generated notification data. | 05-01-2014 |
20140121523 | MEASURING APPARATUS AND METHOD THEREOF - A measuring apparatus is provided. The measuring apparatus includes a measurement value calculating unit configured to calculate a measurement value, based on each of a plurality of measurement reference points set to an ultrasound image that is generated based on echo signals of ultrasound obtained from a subject, an evaluation value calculating unit configured to calculate an evaluation value related to one of a rate of reflection of each of the echo signals and an azimuth of a biological tissue structure in the subject, the evaluation value calculated with respect to each of the measurement reference points, and a determination unit configured to determine a reliability for the measurement value, based on the evaluation value. | 05-01-2014 |
20140135627 | METHODS, SYSTEMS, AND MEDIA FOR DETERMINING CAROTID INTIMA-MEDIA THICKNESS - Methods, systems, and media for determining carotid intima-media thickness are provided. In some embodiments, a method for determining carotid intima-media thickness of a carotid artery is provided, the method comprising: receiving a frame from a plurality of images, wherein each of the plurality of images includes a portion of the carotid artery; receiving a user selection of a location with the frame; setting a region of interest, based on the received user selection; detecting a first border and a second border within the region of interest; applying one or more active contour models to the first border and the second border to generate a smoothed first border and a smoothed second border; and calculating the intima-media thickness based at least in part on the smoothed first border and the second smoothed border. | 05-15-2014 |
20140187954 | INFANT BONE ASSESSMENT - System and method for assessment of demineralization of a bone of a subject. The acoustic wave, propagating along the bone as a result of generation, at the bone, of the ultrasound radiation force by a transducer of the ultrasound system, is outcoupled at a predetermined location along the bone and detected with an acoustic receiver. Time-dependent frequency and temporal characteristics of so detected wave contain data representing a bone demineralization characteristic. | 07-03-2014 |
20140187955 | SYSTEMS AND METHODS OF REGISTRATION USING AN ULTRASOUND PROBE - A system for registration of a bone structure includes a registration probe and a processing circuit. The registration probe includes a two-dimensional array of a plurality of ultrasonic transducers coupled to a rounded tip of the probe, wherein the ultrasonic transducers are configured to provide ultrasonic data. The processing circuit is configured to receive ultrasonic data from the ultrasonic transducers, determine which of the ultrasonic transducers are in contact with anatomy of a patient, generate registration points based on the ultrasonic data and the determination of which of the ultrasonic transducers are in contact with the anatomy of the patient, and register the anatomy of the patient to a model of bone using the registration points. | 07-03-2014 |
20140221837 | ULTRASOUND APPARATUS AND CONTROL METHOD THEREOF - Disclosed are an ultrasound apparatus and a control method thereof, in which the thickness of subcutaneous tissue is measured using an ultrasound probe or vital data regarding a subject is acquired to select an appropriate injection needle and determine suitability of injection to a corresponding body region, which ensures safe and effective drug administration. In the ultrasound apparatus and the control method thereof, a map containing results of selection of an appropriate injection needle and determination of injection suitability is generated and provided to a patient, which ensures safe self-administration by the patient without a hospital visit. The ultrasound apparatus includes a data acquirer to acquire ultrasound data regarding a subject, a thickness calculator to calculate the thickness of subcutaneous tissue inside the subject based on the ultrasound data, and a needle selector to select a needle corresponding to the calculated thickness of subcutaneous tissue. | 08-07-2014 |
20140296713 | ULTRASONIC MEASUREMENT APPARATUS, ULTRASONIC IMAGING APPARATUS, AND ULTRASONIC MEASUREMENT METHOD - An ultrasonic measurement apparatus includes a transceiver unit that controls an ultrasonic transducer device, a processing unit that performs processing for analyzing a body tissue layer of a subject based on a signal received by the transceiver unit, and a notification information output unit that outputs notification information based on a result of the analysis processing. The processing unit performs the analysis processing by specifying a plurality of body tissue layers of the subject, based on a first reception signal of a first timing within a measurement period and a second reception signal of a second timing within the measurement period at which a deformation state of the body tissue layers differs from the deformation state at the first timing, and analyzing thickness information of each of the specified body tissue layers, and the notification information output unit outputs the result of the analysis processing. | 10-02-2014 |
20140309532 | Method for non-invasively detecting the narrowing of a lumen - Disclosed is a method for non-invasively detecting narrowing in a lumen in the body. This is done using sonic signals, e.g. ultrasound, that are directed through the wall and into the lumen of the tube, such that they travel axially and backscatter is returned and read. This method can be used in a number of applications including both naturally-occurring vessels and artificial catheters. | 10-16-2014 |
20140316273 | TISSUE LIQUID DETECTION SYSTEM - A method of detecting liquid in animal tissue is disclosed. The method comprises providing an electromagnetic radiation generator, and applying electromagnetic radiation to a tissue region using the electromagnetic radiation generator. The characteristics of the electromagnetic radiation are selected so as to cause differential heating in a tissue region based on liquid content in the tissue region, differential expansion of matter in the tissue region, and thereby generation of ultrasound signals that vary according to the liquid content. The method also comprises providing an ultrasound detector, detecting the ultrasound signals using the ultrasound detector, and using the detected ultrasound signals to produce an indication of concentration of liquid in the tissue region and a determination as to whether a change in liquid concentration in the tissue region has occurred. | 10-23-2014 |
20140364739 | SYSTEMS AND METHODS FOR ANALYZING A VASCULAR STRUCTURE - System for analyzing a vascular structure. The system includes an initialization module that is configured to analyze a slice of a VOI that includes a main vessel of the vascular structure to position first and second luminal models in the lumen. Each of the first and second luminal models represents at least a portion of a cross-sectional shape of the lumen and has a location and a dimension in the slice. The system also includes a tracking module that is configured to determine the locations and the dimensions of the first and second luminal models in subsequent slices. For a designated slice, the locations and the dimensions of the first and second luminal models of the designated slice are based on the locations and the dimensions of the first and second luminal models, respectively, in a prior slice and also the image data of the designated slice. | 12-11-2014 |
20140364740 | ULTRASOUND MEASUREMENT APPARATUS AND ULTRASOUND MEASUREMENT METHOD - A first interface of a media-adventitia interface and a second interface of a lumen-intima interface are specified on the basis of reflected waveform data in an n-th frame, a first interface of a media-adventitia interface and second interfaces of a lumen-intima interface are specified on the basis of reflected waveform data in an m-th frame, a first interface displacement amount and second interface displacement amounts between the n-th and m-th frames are determined, a reference displacement amount is calculated from the same reflected waveform data by phase difference tracking as the displacement amount of a vascular wall, and evaluation values for evaluating interface specification credibility are calculated from the first interface displacement amount, the second interface displacement amounts, and the reference displacement amount. | 12-11-2014 |
20150073278 | OBJECT INFORMATION ACQUIRING APPARATUS AND CONTROL METHOD THEREOF - There is used an object information acquiring apparatus including an irradiating unit that irradiates an object with light, an irradiation position controlling unit that controls an irradiation position for irradiating the object with the light, a probe that receives an acoustic wave generated when the object is irradiated with the light from the irradiating unit, at a position opposing the irradiating unit across the object, and outputs an acoustic wave signal, a probe controlling unit that controls the probe, a control processor that controls at least one of the irradiation position controlling unit and the probe controlling unit such that the light does not enter the probe directly without going through the object, and a constructing unit that constructs characteristic information. | 03-12-2015 |
20150374330 | BLOOD VESSEL SEARCH DEVICE, ULTRASONIC MEASUREMENT APPARATUS, AND BLOOD VESSEL SEARCH METHOD - An ultrasonic measurement control unit of an ultrasonic measurement apparatus generates received data by transmitting an ultrasonic wave to a blood vessel and receiving the ultrasonic wave reflected from the blood vessel. A blood vessel determination unit determines the blood vessel from the received data. A transmission direction setting unit sets the transmission direction of the ultrasonic wave for measuring the diameter of the blood vessel using the determination result of the blood vessel position. A blood vessel diameter measurement unit measures the diameter of the blood vessel by transmitting the ultrasonic wave in the transmission direction. | 12-31-2015 |
20160000402 | THREE-DIMENSIONAL (3D) ULTRASOUND SYSTEM FOR SCANNING OBJECT INSIDE HUMAN BODY AND METHOD FOR OPERATING 3D ULTRASOUND SYSTEM - Provided is a three-dimensional (3D) ultrasound system and a 3D ultrasound system operating method that may obtain 3D ultrasound data with respect to an object inside a human body to determine an accurate sagittal view. The 3D ultrasound system may include a scanner to generate ultrasound data including image data generated by scanning an object inside a human body, a processing unit to detect a center point of the object from the generated ultrasound data, and to generate, on the ultrasound data, a virtual plane on which the detected center point is placed, and a controller to rotate the ultrasound data based on the image data included in the virtual plane and to determine a sagittal view with respect to the object. | 01-07-2016 |
20160029976 | APPARATUS AND METHOD OF PROVIDING NON-VISUAL INFORMATION AND COMPUTER-AIDED DIAGNOSIS SYSTEM USING THE SAME - Provided are a computer-aided diagnosis (CAD) system, a non-visual information providing apparatus and a method of providing non-visual information to facilitate making a diagnosis using a computer. The non-visual information providing apparatus includes a monitorer configured to detect condition information generated by a CAD apparatus, a non-visual information generator configured to generate non-visual information based on the detected condition information, and a non-visual information outputter configured to output the generated non-visual information to a user. | 02-04-2016 |
20160081659 | METHOD AND SYSTEM FOR SELECTING AN EXAMINATION WORKFLOW - A method and ultrasound imaging system for selecting an examination workflow for ultrasound imaging. The method and system include displaying a graphical model on a display device, selecting a modeled anatomical region in the graphical model that corresponds to an anatomical region in a patient. The method and system include automatically loading an examination workflow for the anatomical region, executing the examination workflow to acquire ultrasound data of the anatomical region, and generating and displaying a graphical output based on the ultrasound data on the display device. | 03-24-2016 |
20160089104 | RADIATION IMAGE ANALYSIS DEVICE, METHOD, AND PROGRAM - The distance between the radiation source and an object (SOD value) is acquired, distance dependent information which is obtained from a radiation image and changes with the distance between a radiation source and a radiation detector (SID value) is acquired, a temporary thickness of the object is determined by a first function representing the correspondence relationship of first information having at least one piece of the distance dependent information, the SID value, and the thickness of the object, and the temporary SID value is determined by adding the SOD value to the determined value. The thickness of the object is determined by a second function representing the correspondence relationship of second information having at least one piece of the distance dependent information, the SID value, and the thickness of the object, and the SID value is determined by adding the SOD value to the determined value. | 03-31-2016 |
20160157816 | DEVICE FOR DETECTING MUSCLE DEPTH AND METHOD - The hand-held device detects the distance between a muscle and an outer skin layer in a body by impacting the outer surface of the skin and detecting the distance to the muscle from that point of engagement. The device includes a first end including a force sensor configured to detect the force of an impact of the first end to an associated body part. The device further includes a distance sensor provided at the first end configured to detect the distance between a skin outer layer and a muscle; and a main body configured to receive a hand. The detection device includes a controller and processor to detect the impact force and distance between the skin outer layer and muscle at engagement. The device may be used in a method of determine muscle depth and/or location in connection with the prescription and/or administration of anaphylaxis medications by auto injector. | 06-09-2016 |
20160192899 | Apparatus And Method For Measuring Subcutaneous Fat Thickness Using Ultrasound | 07-07-2016 |
600450000 | Cardiographic | 10 |
20080281203 | System and Method for Quasi-Real-Time Ventricular Measurements From M-Mode EchoCardiogram - A method for measuring ventricular dimensions from M-mode echocardiograms, includes providing a digitized M-mode echocardiogram image, running a plurality of local classifiers, where each local classifier trained to detect a landmark on either an end-diastole (ED) line or an end-systole (ES) line in the image, recording all possible landmarks detected by the classifiers, where a search range in an N-dimensional parameter space defined by the landmarks for each dimension is reduced to a union of subsets, where each dimension of the parameter space corresponds a landmark, for each combination of possible landmarks, checking if an order of the landmarks is consistent with a known ordering of the landmarks, and if the order is consistent, running a global detector on each consistent combination of landmarks to find a landmark combination with a highest detection probability as a confirmed landmark detection, where the landmarks are used for measuring ventricular dimensions. | 11-13-2008 |
20080294048 | Ultrasonic Diagnosis of Myocardial Synchronization - An ultrasonic diagnostic imaging method and system are described for detecting abnormalities in the synchronicity of heart wall stimulation. Points on opposite sides of a chamber of the heart are identified in a starting ultrasound image, then tracked through at least a portion of the heart cycle. The changing positions of lines extending between pairs of the points are accumulated and displayed in a color kinesis display in which each color depicts the location of a line at a particular point in the cardiac cycle. In an illustrated example the points are tracked through the cardiac cycle by speckle tracking of the speckle pattern of the adjacent myocardial tissue, tracking specific anatomy, or tracking tissue texture. | 11-27-2008 |
20130035596 | MODEL-BASED POSITIONING FOR INTRACARDIAC ECHOCARDIOGRAPHY VOLUME STITCHING - Different intracardiac echocardiography volumes are stitched together. Different volumes of a patient are scanned with ICE. To stitch the volumes together, creating a larger volume, the volumes are spatially aligned. The alignment is based on feature, surface, or both feature and surface matching of the ICE volumes with a preoperative model of the same patient. The matching with the model indicates a relative position of the ICE volumes with each other. Using machine-trained classifiers may speed performance, allowing for real-time assembling of a volume from ICE data as the catheter is moved within the patient. | 02-07-2013 |
20130066211 | SYSTEMS AND METHODS FOR COMPOSITE MYOCARDIAL ELASTOGRAPHY - Systems and methods for composite myocardial elastography are presented. In exemplary embodiments of the present invention an imaging modality field of view, such as, for example, that of ultrasound, can be divided into N sectors, each having 1/Nth of a full field of view. In exemplary embodiments of the present invention a temporal series of 2D ultrasound images for each of the N sectors can be acquired over a duration of one or more periods of a periodic signal. Substantially simultaneously, such a periodic signal can also be acquired, wherein each of said series of 2D ultrasound images for each sector can be triggered using said periodic signal. For example, for ultrasound imaging of the heart, an ECG signal can function as such a periodic signal. The data from the various N sectors can be synchronized in time using the ECG signals, and the ultrasound signals from each of the N sectors combined to generate a series of composite ultrasound images at the frame rate of the individual sectors. In exemplary embodiments of the present invention such a composite image can be further processed to estimate displacement between consecutive frames, remove noise, accumulate displacement with time for an entire cardiac cycle, and derive strain in the cardiac muscle, vessel or any other organ or tissue under motion. In exemplary embodiments of the present invention the derived strain data can be overlaid onto all or part of the composite ultrasound images, and one or more of such overlaid images can be displayed to a user. | 03-14-2013 |
20130237827 | ULTRASONIC DIAGNOSTIC APPARATUS AND ULTRASONIC DIAGNOSIS ASSISTING METHOD - An ultrasonic diagnostic apparatus includes an image generating unit, an acquiring unit, an extracting unit, a flap identifying unit, a first synthesizing unit, an alignment processing unit and a second synthesizing unit. The image generating unit generates an echocardiographic image including an aorta. The acquiring unit acquires a heart area image including the aorta. The extracting unit extracts an artery region based on the heart area image. The flap identifying unit identifies a flap region based on the artery region. The first synthesizing unit synthesizes information on the flap region onto the artery region to generate a first synthesized image. The alignment processing unit performs processing to align an imaging region in the echocardiography on the heart area image based on a positional data signal. The second synthesizing unit synthesizes information that indicates the imaging region processed for alignment onto the first synthesized image to generate a second synthesized image. | 09-12-2013 |
20140296714 | ULTRASONIC PROBE, BIOINFORMATION MEASUREMENT DEVICE, AND BIOINFORMATION MEASUREMENT METHOD - With an ultrasonograph, medical information of a heart could not be accurately obtained as the cardiac apex of the heart could not be recorded clearly. A biomedical information measuring device capable of obtaining accurate medical information is created by measuring an apexcardiogram in M-mode using a linear probe, and improving a data processing device so as to establish an algorithm useful in accurate evaluation so as to solve the above problem. | 10-02-2014 |
20150327838 | ECHOCARDIOGRAPHY - Various methods for automatically processing an ultrasound image for echocardiography are disclosed in which the regions of interest in the ultrasound image are identified by determining velocity vectors for tissue movement in the image. A novel construction of ultrasound probe is also disclosed. | 11-19-2015 |
20160081566 | IDENTIFYING A TYPE OF CARDIAC EVENT FROM A CARDIAC SIGNAL SEGMENT - What is disclosed is a system and method identifying a type of cardiac event from cardiac signals obtained from a subject. In one embodiment, at least two clusters are formed. Each cluster is associated with a different cardiac event based on features of interest identified from various cardiac signal segments. At least one of the clusters is associated with a cardiac event which is an arrhythmia and one of the clusters is associated with a non-arrhythmia. A new cardiac signal segment of a subject is received. The signal segment is analyzed to identify features of interest. A distance is calculated between each of the clusters and the identified features of interest obtained from having analyzed the subject's cardiac signal segment. A cardiac event is identified for the subject based on the type of cardiac event associated with the cluster which the subject's features of interest had a shortest distance to. | 03-24-2016 |
20160183915 | MEASUREMENT OF TISSUE THICKNESS USING ULTRASOUND AND FORCE MEASUREMENTS - Wall thickness of a cavity is determined by inserting a catheter into contact with a wall of a cavity in a body of a subject. The distal segment of the catheter is provided with a contact force sensor and an ultrasound transducer. The transducer is actuated to acquire ultrasound reflection data from the wall of the cavity, and while the transducer is actuated, the catheter is reciprocated against the wall of the cavity and the contact force measured between the catheter and the wall of the cavity. The reflection data is correlated with the contact force. A set of the correlated reflection data having the highest correlation with the contact force is identified. The tissue thickness between the inner surface and the identified set of the reflection data is calculated according to the time-of-flight therebetween. | 06-30-2016 |
20160199032 | GRAPHICAL DISPLAY OF CONTRACTIBLE CHAMBER | 07-14-2016 |
600452000 | Ophthalmic | 4 |
20130144171 | ALIGNMENT AND IMAGING OF AN EYE WITH AN ULTRASONIC SCANNER - A method and apparatus are disclosed for generating accurate and precise ultrasonic images of biological materials or animate objects, such as the cornea and lens of the eye, and, in particular, to an ultrasonic scanning apparatus that can position its virtual center of curvature such that its ultrasonic transducer will emit pulses that reflect substantially perpendicularly from a curved specular surface of interest within the eye. This invention can allow real time imaging of a lens as it accommodates and can better enable researchers and ophthalmic surgeons to develop, fit, implant and diagnose performance of artificial lenses including accommodative lenses. | 06-06-2013 |
20130310692 | CORRECTING FOR UNINTENDED MOTION FOR ULTRASONIC EYE SCANS - A device and method are disclosed for detecting and correcting unintended eye movements that may occur during an ultrasound scan by monitoring multiple position tracking sensors, examples being but not limited to ultrasound or optical position sensors. These position tracking sensors are in addition to the ultrasound imaging transducer and are in a fixed position on the scan head so as not to move during the scanning operation. These position tracking sensors can continuously monitor the distance to the cornea or other clearly defined anatomical features of the eye such as the posterior pigment layer of the iris during the movement of the scan head assembly and can provide continuous multi-dimensional correction for any unwanted motion of the eye relative to the scan head that may occur during the ultrasound scan. | 11-21-2013 |
20160074007 | METHOD OF QUANTITATIVE ANALYSIS AND IMAGING OF THE ANTERIOR SEGMENT OF THE EYE - What is provided are methods of analyzing at least one image of the anterior segment of an eye and for selecting an intraocular lens (IOL). The methods may include detecting at least one image from an anterior segment of the eye; identifying a location of a reference structure on the eye using a plurality of points of a landmark on the anterior segment of the eye; and calculating at least one quantitative dimension of the anterior segment of the eye using the reference structure. The newly identified landmarks and quantifiable dimensions improve the characterization of the anterior segment in order to better predict the position and movement of the intraocular lens. The improved methods for analyzing the imaging of the anterior segment of the eye allows for improvements in the refractive outcomes of cataract surgery, glaucoma procedures, refractive outcomes, and other eye-related diseases. | 03-17-2016 |
20160166235 | COMBINATION OPTICAL AND ULTRASONIC IMAGING OF AN EYE | 06-16-2016 |