Sensitivity To Vibration Patents (Class 600/552)
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Patent number: 8475390Abstract: A method for assessing mechanical properties of a selected tissue includes defining an expansion chamber adjacent to the selected tissue and passing pressurized air into the expansion chamber. The method also includes providing an opening through which the pressurized air can escape the expansion chamber, the opening being disposed such that, while escaping from the expansion chamber, air passes by the selected tissue, thereby causing the selected tissue to vibrate.Type: GrantFiled: October 12, 2010Date of Patent: July 2, 2013Assignee: Massachusetts Eye & Ear InfirmaryInventors: James Tracey Heaton, James B. Kobler
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Publication number: 20130158426Abstract: A device for detecting rhinitis in a human subject includes an inflatable member that, in a first state, is configured to be introducible into the nasal cavity of the human subject; an expansion member configured to expand the inflatable member to an expanded, second state within the nasal cavity such that the inflatable member abuts against the tissue of the nasal cavity, and a pressure sensing member configured to measure a pressure exerted on the inflatable member by the tissue of the nasal cavity. A system for detecting rhinitis and methods for analyzing tissue response pressure, detecting rhinitis, predicting the efficacy of a planned rhinitis treatment and evaluating the efficacy of a previous rhinitis treatment are provided.Type: ApplicationFiled: December 14, 2012Publication date: June 20, 2013Applicant: CHORDATE MEDICAL AGInventor: CHORDATE MEDICAL AG
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Patent number: 8444571Abstract: A system and method is disclosed for measuring muscle reflexes (e.g., a bulbocavernosus reflex) as a tool for identifying/diagnosing dysfunctions (e.g., spinal cord abnormalities, bladder voiding dysfunction, and sexual organ dysfunction) non-invasively by using mechanical stimulation. The system and method includes a probe having a predetermined patient contacting portion, wherein when the contacting portion is moved into contact with a particular area of the patient (e.g., the patient's genitals), the contact induces a muscle reflex. The probe detects the pressure resulting from the contacting portion being abruptly and forcibly brought into contact with the particular area. Such detection is used to electronically initiate capture of electrical responses from a plurality of electrodes placed on the patient's skin in proximity to the particular area. Such electrical responses are processed to determine characteristics of the patient's reflexes of one or more muscles adjacent to the electrodes.Type: GrantFiled: November 26, 2008Date of Patent: May 21, 2013Assignee: Uroval, Inc.Inventors: Debra Janette Folkerts, Karen Louise Finstrom McPhee, Gregory Ray Johnson, Timothy Martin Gack
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Patent number: 8439845Abstract: A system and method is disclosed for measuring muscle reflexes (e.g., a bulbocavernosus reflex) as a tool for identifying/diagnosing dysfunctions (e.g., spinal cord abnormalities, bladder voiding dysfunction, and sexual organ dysfunction) non-invasively by using mechanical stimulation. The system and method includes a probe having a predetermined patient contacting portion, wherein when the contacting portion is moved into contact with a particular area of the patient (e.g., the patient's genitals), the contact induces a muscle reflex. The probe detects the pressure resulting from the contacting portion being abruptly and forcibly brought into contact with the particular area. Such detection is used to electronically initiate capture of electrical responses from a plurality of electrodes placed on the patient's skin in proximity to the particular area. Such electrical responses are processed to determine characteristics of the patient's reflexes of one or more muscles adjacent to the electrodes.Type: GrantFiled: September 25, 2008Date of Patent: May 14, 2013Assignee: Uroval, Inc.Inventors: Debra Janette Folkerts, Karen Louise Finstrom McPhee, Gregory Ray Johnson, Timothy Martin Gack
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Patent number: 8425429Abstract: Devices, systems, methods, and computer program products are disclosed for non-invasive diagnosis and screening of neurological disorders. Spatio-temporal mapping can be utilized between the skin and the central nervous system to rapidly, painlessly and quantitatively assess functional connectivity in the central nervous system. Stimulation drivers can be independently operated to control the movement of stimulators to achieve a variety of desired stimulation parameters.Type: GrantFiled: May 29, 2007Date of Patent: April 23, 2013Assignee: The University of North Carolina at Chapel HillInventors: Mark Allen Tommerdahl, Robert Glenn Dennis
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Patent number: 8414295Abstract: A non-contact apparatus for a stability assessment of a dental implant is provided. The non-contact apparatus includes a triggering device and a dental implant containing a root body and an impact generating device, wherein the root body has a cavity, the impact generating device is located in the cavity, and the triggering device provides a non-contact impetus for triggering the impact generating device.Type: GrantFiled: October 3, 2008Date of Patent: April 9, 2013Assignee: National Applied Research LaboratoriesInventors: Wen-Hong Wu, Keng-Liang Ou, Kuo-Cheng Huang
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Patent number: 8405510Abstract: A human body balance signals measuring system and the method of analysis thereof that has a measuring device, a filter amplifier, an A/D convertor (analog to digital convertor), a signal receiving module, and a data analyze module. The measuring device is linked with the filter amplifier. The filter amplifier can detect and collect the voltage signals caused by pressure change and then filter and amplify the signals. The signals are send to the A/D convertor to convert the analog circuit signals into digital signals for the receiving module to use these voltage change values for human body center of gravity offset evaluation to obtain the COP (center of pressure) offset and COP offset velocity. The data analyze module uses the measured body center of gravity offset for MSE (multiscale entropy) to quantitative the dynamic of human body center of gravity and verify the accuracy of this measuring system.Type: GrantFiled: July 23, 2010Date of Patent: March 26, 2013Assignee: Yuan Ze UniversityInventors: Jiann-Shing Shieh, Chun-Yi Liu, Jia-Rong Yeh, Pei-De Su
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Publication number: 20130066216Abstract: The present invention relates to a device for examining nerve function. In order to examine the function of a nerve of the human body, the device for examining nerve function of the present invention includes: at least one stimulator for stimulating the human body; and a stimulator-fixing member having a form corresponding to the hands or feet of the human body, wherein the stimulator is located at one side of the simulator-fixing member so as to fix the stimulator to the hands or feet of the human body. The device for examining nerve function of the present invention further includes at least one blood-circulation detection sensor fixed at the stimulator-fixing member. According to the present invention, since the degree of hypoesthesia is examined through the stimulation of the stimulator, test accuracy and reliability may be greatly improved and it is possible to systematically and actively determine a diagnosis and course of treatment for a patient having diabetes or spinal nerve damage, e.g.Type: ApplicationFiled: April 15, 2011Publication date: March 14, 2013Inventor: Jong-Eun Park
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Patent number: 8376967Abstract: A method and apparatus for measuring and recording skull vibration in situ comprising a receiving means, a dental material capable of filling any gaps between the receiving means and the at least one tooth, the material capable of transmitting mechanical vibration within the dental bone conduction pathway to the receiving means; a transducer mounted into or unto the receiving means said transducer capable of transducing mechanical vibration within the dental bone conduction pathway into electrical signals; an extra-orally recordation hardware and software capable of receiving and processing said electrical signals from said transducer.Type: GrantFiled: April 13, 2010Date of Patent: February 19, 2013Assignee: Audiodontics, LLCInventor: Barry L. Mersky
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Patent number: 8371303Abstract: Described herein is an apparatus that includes an endotracheal tube or airway device having a proximal end and a distal end and an occlusion cuff. The occlusion cuff includes a sensor for helping determine proper endotracheal or airway device placement.Type: GrantFiled: August 5, 2010Date of Patent: February 12, 2013Assignee: Anesthetech Inc.Inventors: David Schaner, Harshvardhan N. Chaobal
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Publication number: 20130023786Abstract: An apparatus comprising a sensing unit configured to predict a release of urine using one or more prediction parameters, detect an actual release of urine and adapt at least one of the one or more prediction parameters based on the actual release of urine to increase prediction accuracy.Type: ApplicationFiled: March 31, 2011Publication date: January 24, 2013Applicant: KONINKLIJKE PHILIPS ELECTRONICS N.V.Inventors: Murali Mani, Ramon Quido Erkamp
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Publication number: 20120323138Abstract: A device for evoking a temporal summation of pain in a subject. The device comprises a stimulation element (SE) arranged generating a physical stimulation on a skin surface area of at least 20 cm2 according to a control signal (CS), where the stimulation (PS) evokes pain in the subject. A processor (PR) generates the control signal (CS) to the stimulation element (SE) so as to provide a repetitive stimulation pattern comprising at least repetitions of: a)applying stimulation for a period (SP) of 0.5-120 seconds, b)stopping stimulation for a period (TP) of 0.5-20 seconds. Preferred periods are 1-3 seconds for both stimulation and intermediate stopping periods. The stimulation element may include an inflatable tourniquet arranged for providing a compressional stimulation of an arm or a leg. However, other types of stimulation elements may be used such as electric, heating, mechanical stimulation or the like may be used.Type: ApplicationFiled: February 24, 2011Publication date: December 20, 2012Applicant: AALBORG UNIVERSITETInventors: Lars Arendt-Nielsen, Thomas Graven-Nielsen
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Patent number: 8333719Abstract: An oscillation arm moves in a seesaw fashion about an oscillation axis which is supported by a support rod and which serves as a fulcrum. A rotation arm and a pressurizer are provided on one end of the oscillation arm. One end of the rotation arm is rotatably attached to the oscillation arm, and a load weight is placed on the other end of the rotation arm. By rotating the rotation arm, the magnitude of a force to be applied by the load weight to the pressurizer is adjusted. More specifically, by displacing the load weight to a predetermined position by rotation and then causing the load weight to stop at this position, a static load corresponding to the rotation angle can be applied to the pressurizer. Further, by causing the load weight to perform rotational motion, the magnitude of the force to be applied to the pressurizer is periodically varied, so that a load which varies periodically can be applied to hard tissue.Type: GrantFiled: March 31, 2008Date of Patent: December 18, 2012Assignee: Hitachi Aloka Medical, Ltd.Inventors: Eiichi Minagawa, Ryoichi Sakai, Koji Ogawa
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Publication number: 20120220892Abstract: Embodiments of the present disclosure relate to vibrometers, vibrometric systems, and methods of using the same. In particular, some embodiments of the vibrometers are capable of producing vibrotactile stimulation at any frequency between 1 and 500 Hz. Moreover, some embodiments of the vibrometer and/or vibrometric system are capable of applying vibrotactile stimulation to a test subject's skin to determine the existence of peripheral neuropathy. Additionally, some embodiments of the method can provide test subjects with comparative vibrotactile threshold test results that can aid in discovering and/or managing of peripheral neuropathy.Type: ApplicationFiled: February 24, 2012Publication date: August 30, 2012Applicant: THE UNIVERSITY OF UTAHInventors: Minu Shikha Gandhi, Stacy J. Morris Bamberg, Christian Brandt Redd, Richard F. Sesek, Robert P. Tuckett
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Patent number: 8206313Abstract: A method of determining the sympathetic tone, a system for applying and measuring a stimulation, and the use of a system for applying and measuring a stimulation for determining the sympathetic tone are provided. The method of determining the sympathetic tone includes the steps of: measuring an applied stimulation at a threshold value of the stimulation in one or more sympathetic tone-neutral points and measuring an applied stimulation at the same threshold value in one or more sympathetic tone-dependent points. The use of a system for applying and measuring a stimulation for determining the sympathetic tone includes the steps of: measuring an applied stimulation at a threshold value of the stimulation at one or more sympathetic tone-neutral points and measuring an applied stimulation at the same threshold value of the stimulation at one or more sympathetic tone-dependent points.Type: GrantFiled: March 3, 2005Date of Patent: June 26, 2012Assignee: ULL Meter A/SInventor: Søren Ballegaard
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Patent number: 8197418Abstract: Microprobes in various designs are provided including microprobes having a bulk base and a thin probe extending from the bulk base and a Wheatstone-bridge sensor circuit for measuring strain in the thin probe, and microprobes with two thin probes extending from the bulk base with their respective integrated Wheatstone-bridges to eliminate common mode forces experienced by the two thin probes.Type: GrantFiled: June 9, 2008Date of Patent: June 12, 2012Assignee: Cornell UniversityInventors: Amit Lal, Darius Paduch, Ramkumar Abhishek, Peter Schlegel
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Publication number: 20120109003Abstract: The invention relates to a device for assessing thermoalgesic and vibratory sensitivity, including a first unit (1) configured to apply, to localised points of the patient, a plurality of stimuli comprising vibrations and temperature changes, a second unit (2) for gathering data communicating with the first unit, wherein the communication between the first unit (1) and the second unit (2) takes place by means of a two-way wireless transmission means. The invention also relates to a method for assessing vibratory, thermal and thermoalgesic sensitivity using the device according to the invention.Type: ApplicationFiled: March 16, 2010Publication date: May 3, 2012Inventor: Ariel Andres Ordriozola Orlandi
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Patent number: 8167614Abstract: A non-contact apparatus and method detect irregular bone defects around a dental implant. Structural resonance frequency is produced and received to recognize a quality, a direction and a depth of an irregular bone defect. Thus, an interfacial osseointegration can be evaluated, and the present invention is of great help to assess osseointegration and diagnosis interfacial bone defects after the dental surgery.Type: GrantFiled: March 15, 2011Date of Patent: May 1, 2012Assignee: National Central UniversityInventors: Min-Chun Pan, Han-Bo Chuang, Shyh-Yuan Lee
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Publication number: 20120041333Abstract: An apparatus for stimulating reproductive reflexology points on a foot is described. The apparatus comprises a housing that abuts the foot adjacent one or more sites containing a reflexology point and a vibration device that vibrates portions of the housing to transfer vibrations to stimulate the reproductive reflexology points. The housing abuts the foot on both sides of the ankle at sites containing one or more of a reproductive reflexology point corresponding to one of a uterus, a prostate, ovaries and testes. The housing also abuts the foot of the subject adjacent a reflexology point corresponding to pelvic musculature and vibrates against the heel of the subject to simultaneously co-stimulate the whole heel including the sural and calcaneal branches of posterior tibial nerves.Type: ApplicationFiled: February 4, 2010Publication date: February 16, 2012Inventors: Marie Therese Shelley, Catherine Ann Quinn
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Publication number: 20110313313Abstract: A device for determining the sensitivity of the skin of a subject is provided, the device comprising a body having a head for placing in contact with the skin of the subject; vibration means for imparting a vibration to the head; a switch assembly for activating the vibration means; wherein the switch assembly is operable by a user applying pressure to the switch assembly in a direction that does not apply pressure to the skin of the subject. A method of using the device is also disclosed.Type: ApplicationFiled: August 14, 2009Publication date: December 22, 2011Applicant: University Hospitals Bristol NHS Foundation TrustInventor: Andrew Levy
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Patent number: 8081082Abstract: A method, computer program product, and apparatus for monitoring patterns of motion are provided. A signal is received from a sensor on a user, wherein movement of the user causes the sensor to generate power to emit a signal indicative of the movement of the user. The signal is analyzed to form a current pattern of motion. The current pattern of motion is compared to a baseline pattern of motion associated with the user. A difference between the current pattern of motion and the baseline pattern of motion associated with the user is determined to form a difference. The difference is compared to a predetermined threshold. Responsive to the difference exceeding the predetermined threshold, an alert is sent.Type: GrantFiled: May 27, 2009Date of Patent: December 20, 2011Assignee: International Business Machines CorporationInventors: Nadeem Malik, Katherine June Pearsall, Adrian Rutledge, Elizabeth Vera Woodward
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Patent number: 7976468Abstract: A soft tissue diagnostic apparatus for diagnosis of stress and injury in anatomical soft tissue by detecting the response of the soft tissue to acoustic energy and a method of detecting soft tissue damage or stress and treating the tissue. An acoustic transmitter transmits excitation acoustic energy toward a target area of soft tissue of a subject. An acoustic receiver receives responsive acoustic energy generated by the soft tissue in response to the excitation acoustic energy transmitted by the acoustic transmitter and generates an output signal representative of the response of the soft tissue to the excitation acoustic energy. An analyzer receives the output signal of the acoustic receiver and provides an indication of at least one of stress and injury in the soft tissue based on the output signal. Areas of stress are inhibited to find the origin of soft tissue pain.Type: GrantFiled: March 12, 2007Date of Patent: July 12, 2011Assignee: Signal Insight Inc.Inventors: Ariel Wilcox, Charles E. Tarr, Judith A. Hilton
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Publication number: 20110166473Abstract: A portable diagnostic instrument for use by medical professionals. The portable diagnostic instrument can comprise a control unit that can maintain the frequency of sound or vibration produced by the device constant, even when battery power is reduced. The control unit can also comprise a warning unit to provide information about remaining battery life to the user. Furthermore, the portable diagnostic instrument can comprise a unit capable of producing vibration and a unit capable of producing sound at differing frequencies. The device can produce both the sound and vibration at the same time or each can be operated individually. Moreover, the device is capable of being attached to other medical equipment that is carried by a medical professional or can be easily kept in a pocket, so that it is readily available when needed.Type: ApplicationFiled: January 4, 2010Publication date: July 7, 2011Inventor: William M. Hasbun
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Publication number: 20110112431Abstract: A neuropathy diagnostic device includes a body having a neutral temperature surface disposed on an exterior of the body, a variable temperature surface disposed on the exterior of the body, and a vibrating surface having a variable vibration amplitude. The vibrating surface extends outwardly from the body. A touch sensor extends outwardly from the body. A processor is disposed within the body. The processor is adapted to set a temperature of the neutral temperature surface, vary a temperature of the variable temperature surface, and vary the vibration amplitude of the vibrating surface.Type: ApplicationFiled: July 17, 2009Publication date: May 12, 2011Applicant: ELECTRONIC PRODUCTS ACCESSORIES & CHEMICALS, LLCInventors: Boris Golosarsky, James Bernhard, Michael Brown, John McCarthy
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Patent number: 7938784Abstract: A compact diagnostic neurological tool comprising a two-point discriminator; a brush; and a sharp-dull instrument; wherein the two-point discriminator, the brush, and the sharp-dull instrument are all housed within a case; wherein the two-point discriminator, the brush, and the sharp-dull instrument are all retractable; wherein the two-point discriminator comprises two tines, and wherein the distance between the tines can be increased by extending the two-point discriminator and decreased by retracting the two-point discriminator. The case is preferably rectangular in shape and roughly five inches long, one and one-quarter inches wide, and one-half inch thick.Type: GrantFiled: February 2, 2007Date of Patent: May 10, 2011Assignee: J & R Enterprises, Inc.Inventors: James G. Boslough, Erich H. Lubkeman, Benjamin T. Cross
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Publication number: 20110092843Abstract: A method for assessing mechanical properties of a selected tissue includes defining an expansion chamber adjacent to the selected tissue and passing pressurized air into the expansion chamber. The method also includes providing an opening through which the pressurized air can escape the expansion chamber, the opening being disposed such that, while escaping from the expansion chamber, air passes by the selected tissue, thereby causing the selected tissue to vibrate.Type: ApplicationFiled: October 12, 2010Publication date: April 21, 2011Applicant: MASSACHUSETTS EYE & EAR INFIRMARYInventors: James Tracey Heaton, James B. Kobler
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Patent number: 7918798Abstract: The invention discloses a bone examination apparatus which includes a shaking module, a multi-mode ultrasonic detecting module, and a processing module. The shaking module is disposed close to a distal end of an examinee's femur, for inputting a shaking signal to the distal end. The multi-mode ultrasonic detecting module is disposed close to a near end of the examinee's femur, for detecting the shaking signal through the examinee's femur at the near end and generating a detecting signal. Additionally, the processing module is connected to the shaking module and the multi-mode ultrasonic detecting module respectively, for determining the examinee's bone density in accordance with the shaking signal, the detecting signal, and a first criterion.Type: GrantFiled: February 22, 2008Date of Patent: April 5, 2011Assignee: Quanta Computer Inc.Inventors: Yu-Min Wu, Chih-Hsiung Yu, Hsiao-Cheng Lin
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Publication number: 20110054345Abstract: A biological measurement apparatus of this invention includes (i) a micro piezoelectric element for vibrating a nerve cell of a subject without coming in contact with the nerve cell, (ii) an electromagnetic wave antenna for receiving an electromagnetic wave generated by the nerve cell vibrated by the micro piezoelectric element, and (iii) a computer for measuring an electric charge of the nerve cell based on the electromagnetic wave received by the electromagnetic wave antenna. Further, this biological measurement apparatus includes an electromagnetic wave antenna for emitting an electromagnetic wave to a nerve cell. This configuration provides an apparatus capable of measuring an electrical activity of a nerve cell in a living organism in real time and three-dimensionally at a spatial resolution of a nerve cell size. Moreover, this configuration provides an apparatus capable of individually giving electrical stimulations to any desired cells in the subject.Type: ApplicationFiled: March 31, 2008Publication date: March 3, 2011Applicant: OKAYAMA PREFECTUREInventor: Yukinori Nagatani
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Patent number: 7892180Abstract: Structure and methodology involving mountable and head-wearable frame structure which is positionally stabilized, during use, relative a human subject's head, and which carries a selection of positionally anchored data sensors, and stimuli deliverers, that are relevant to the diagnosis and treatment of vestibular disorders. Special configurations are provided for two types of stimulators, one for sound application and air-pressure modification, and the other for the introduction of fluids to the ear. Stabilization enables tight and accurate correlation of data which is quickly analyzable by a connected, properly algorithmed computer, which can also be used for feedback control in a designed “expert” system. The invention enables, among other things, practical and significant differentiation between physiological and pathological nystagmus.Type: GrantFiled: March 5, 2007Date of Patent: February 22, 2011Assignee: Epley Research LLCInventor: John M. Epley
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Patent number: 7892188Abstract: Methods, apparatus and systems for characterizing changes in at least one physical property of soft tissue. A series of acoustic pulses is generated and directed into the soft tissue such that at least one of the pulses is of sufficiently high intensity to induce physical displacement of the tissue. Waves reflected off the tissue, or a flexible member that moves with the tissue, are received and measured to estimate at least one characteristic of the physical displacement induced thereby. Repetition of the generating, receiving and estimating steps provides characterization of the at least one physical property over time. Methods, apparatus and systems for characterizing at least one physical property of blood, by generating a series of acoustic pulses and directing the series of pulses into the blood such that at least one of the pulses is of sufficiently high intensity to induce physical displacement of the blood.Type: GrantFiled: October 22, 2004Date of Patent: February 22, 2011Assignee: Hemosonics, LLCInventors: William F. Walker, Michael Lawrence, Francesco Viola, Margaret D. Kramer
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Publication number: 20100331721Abstract: Structure and methodology involving mountable and head-wearable frame structure which is positionally stabilized, during use, relative a human subject's head, and which carries a selection of positionally anchored data sensors, and stimuli deliverers, that are relevant to the diagnosis and treatment of vestibular disorders. Special configurations are provided for two types of stimulators, one for sound application and air-pressure modification, and the other for the introduction of fluids to the ear. Stabilization enables tight and accurate correlation of data which is quickly analyzable by a connected, properly algorithmed computer, which can also be used for feedback control in a designed “expert” system. The invention enables, among other things, practical and significant differentiation between physiological and pathological nystagmus.Type: ApplicationFiled: June 29, 2010Publication date: December 30, 2010Inventor: John M. Epley
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Patent number: 7854703Abstract: Briefly, in accordance with one or more embodiments, a peripheral neuropathy monitor may be incorporated into a scale form factor or other device for monitoring a trend towards peripheral neuropathy by a monitored user or patient. The peripheral neuropathy monitor may include a heating element, a cooling element, and/or a vibrating element, and may be capable of performing the sensitivity of the user to hot, cold, and/or vibrations, and monitor such trends over time to facilitate detecting the onset of peripheral neuropathy. The peripheral neuropathy monitor may be capable of communicating with a remote device via a wired or wireless network for operating the monitor, and for storing and/or analyzing the test results.Type: GrantFiled: September 25, 2007Date of Patent: December 21, 2010Assignee: Intel CorporationInventor: David Poisner
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Patent number: 7841989Abstract: A non-lethal and non-destructive electromagnetic personnel interdiction control stun type weapon system and method utilizes beamed radio frequency energy in a frequency range and modulated to impose a Lorentz force on the vestibular system or sensory cells of a remote human subject sufficient to disrupt the mechanical transduction process and/or the chemical engine by which sound, position and other sensory input are converted to messages by nerve cells and processed by the brain to produce complete disorientation, confusion, and incapacitation sufficient to temporarily render the subject powerless to resist arrest or subjugation. Removal of the electromagnetic energy leaves the nerve cells and surrounding tissues with no damage and second order effects of severe motion sickness and psychological effects of helplessness remains until the subject's body chemistry returns to normal.Type: GrantFiled: October 4, 2005Date of Patent: November 30, 2010Assignee: Invocon, Inc.Inventors: Karl F. Kiefer, Kevin Champaigne, Gulnara Ajupova
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Patent number: 7811235Abstract: An apparatus for causing air flow to vibrate a selected tissue includes a tube and a deflector. The tube defines a passage for guiding air flow from an inlet to an outlet thereof. The deflector is disposed to receive the air flow from the outlet of the tube. The configuration of the deflector is such as to channel air flow from the outlet past the selected tissue. This causes vibration of the selected tissue.Type: GrantFiled: October 13, 2004Date of Patent: October 12, 2010Assignee: Massachusetts Eye & Ear InfirmaryInventors: James Tracey Heaton, James B. Kobler
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Patent number: 7727162Abstract: Apparatus and methods for rotation test stimulus and analysis methods overcome many of the limitations of traditional clinical tests of peripheral vestibular function. An embodiment includes a rotational stimuli applied to the rotational motion for testing that includes two separate components, a bias component and a probe component. The bias component for rotational motion is designed to temporarily turn off vestibular responses in one ear while the responsiveness in the opposite ear is simultaneously evaluated using the probe component of the stimulus. Responses from application of these stimuli are analyzed by isolating and separating the bias response from the probe response. The bias and probe component responses are parameterized by applying curve fits of mathematical functions to the isolated bias and probe component responses. These parameters characterize the patient's vestibular function.Type: GrantFiled: October 11, 2007Date of Patent: June 1, 2010Assignee: Oregon Health & Science UniversityInventor: Robert J. Peterka
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Patent number: 7717859Abstract: A combination electronic communication and medical diagnostic apparatus includes a first component for transmitting or receiving a remote communication signal and a second component for generating vibration to be used in a medical diagnosis. The apparatus functions as a beeper/pager or cellular phone, as well as a medical diagnostic tool to detect and/or monitor neuropathy.Type: GrantFiled: December 3, 2003Date of Patent: May 18, 2010Assignee: Applied Medical Technologies LLC.Inventor: Ajay Gupta
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Publication number: 20100036280Abstract: A method of determining the sympathetic tone and/or level of stress and/or level or warning system sensitivity includes the steps of: measuring an applied stimulation at a threshold value of the stimulation in one or more sympathetic tone-neutral points and measuring an applied stimulation at the same threshold value in one or more sympathetic tone-dependent points. The invention further relates to a system for applying and measuring a stimulation, and the use of a system for applying and measuring a stimulation for determining the sympathetic tone including the steps of: measuring an applied stimulation at a threshold value of the stimulation at one or more sympathetic tone-neutral points and measuring an applied stimulation at the same threshold value of the stimulation at one or more sympathetic tone-dependent points.Type: ApplicationFiled: September 10, 2007Publication date: February 11, 2010Applicant: ULL METER A/SInventors: Soren Ballegaard, Gisli Magnusson
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Publication number: 20100004624Abstract: A medical device includes a sensor that is configured to measure a property of an outer layer of an anatomical body surface. The sensor includes a source probe configured stimulate a local surface of the outer layer of an anatomical body surface. The sensor also includes a detector configured to measure a response of the outer layer resulting from the source probe stimulation. A controller coupled to the source probe and the sensor drives the source probe using a tailored stochastic sequence and determines the property of the outer layer using the measured response received from the detector. The sensor can be used with medical devices, such as drug delivery devices including microneedle transport devices and needleless injection devices.Type: ApplicationFiled: May 12, 2009Publication date: January 7, 2010Applicant: Massachusetts Institute of TechnologyInventor: Ian W. Hunter
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Patent number: 7532927Abstract: An implantable medical device and associated method are provided including a vibratory alert and a vibration-sensitive sensor. Further included is a circuit in communication with the vibratory alert and the vibration-sensitive sensor. Such circuit is adapted for at least reducing an affect of the vibratory alert on the vibration-sensitive sensor.Type: GrantFiled: July 19, 2006Date of Patent: May 12, 2009Assignee: Pacesetter, Inc.Inventor: Eliot L. Ostrow
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Publication number: 20090082694Abstract: Briefly, in accordance with one or more embodiments, a peripheral neuropathy monitor may be incorporated into a scale form factor or other device for monitoring a trend towards peripheral neuropathy by a monitored user or patient. The peripheral neuropathy monitor may include a heating element, a cooling element, and/or a vibrating element, and may be capable of performing the sensitivity of the user to hot, cold, and/or vibrations, and monitor such trends over time to facilitate detecting the onset of peripheral neuropathy. The peripheral neuropathy monitor may be capable of communicating with a remote device via a wired or wireless network for operating the monitor, and for storing and/or analyzing the test results.Type: ApplicationFiled: September 25, 2007Publication date: March 26, 2009Inventor: David Poisner
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Publication number: 20090082830Abstract: A system and method is disclosed for measuring muscle reflexes (e.g., a bulbocavernosus reflex) as a tool for identifying/diagnosing dysfunctions (e.g., spinal cord abnormalities, bladder voiding dysfunction, and sexual organ dysfunction) non-invasively by using mechanical stimulation. The system and method includes a probe having a predetermined patient contacting portion, wherein when the contacting portion is moved into contact with a particular area of the patient (e.g., the patient's genitals), the contact induces a muscle reflex. The probe detects the pressure resulting from the contacting portion being abruptly and forcibly brought into contact with the particular area. Such detection is used to electronically initiate capture of electrical responses from a plurality of electrodes placed on the patient's skin in proximity to the particular area. Such electrical responses are processed to determine characteristics of the patient's reflexes of one or more muscles adjacent to the electrodes.Type: ApplicationFiled: September 25, 2008Publication date: March 26, 2009Applicant: FIRST CHOICE FOR CONTINENCE, INC.Inventors: Debra Janette Folkerts, Karen Louise Finstrom McPhee, Gregory Ray Johnson, Timothy Martin Gack
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Patent number: 7479890Abstract: The present invention comprises a system and method of operation for evaluating body activity relative to an environment. According to an exemplary embodiment, the system comprises a processor that is associable with a sensor for sensing dynamic and static accelerative phenomena of the body. The processor is operable to process the sensed dynamic and static accelerative phenomena as a function of at least one accelerative event characteristic and an environmental representation to thereby determine whether the evaluated body activity is within environmental tolerance. The processor operates to monitor both activity and inactivity relative to the environmental representation.Type: GrantFiled: December 4, 2006Date of Patent: January 20, 2009Assignee: iLife Solutions, Inc.Inventors: Michael L. Lehrman, Michael E. Halleck, Alan R. Owens, Edward L. Massman
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Publication number: 20080312660Abstract: Described herein are method, systems and devices for measuring the region adjacent to or around a nerve root, such as the space within an intervertebral foramen before, during and/or after a spinal decompression procedure. Measurement devices may be advanced by pulling on them using a guidewire passing through the intervertebral foramen and out of the subject. The measurement device may include sounds for determining one or more dimensions of the space around a nerve root within an intervertebral space, lateral recess or central canal. Various embodiments of sounds, including calibrated, inflatable, expandable, moldable, and tapered sounds (or combinations of these) are described.Type: ApplicationFiled: June 16, 2008Publication date: December 18, 2008Applicant: Baxano, Inc.Inventors: Jeffery L. Bleich, Gregory P. Schmitz, Eric C. Miller, Michael Villalta, Jefferey Bleam, James Yurchenco, Michael P. Wallace
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Patent number: 7462155Abstract: A method for objectively determining if a patient suffers chronic pain by initially observing a multiplicity of persons who are free of chronic pain and subjecting them to a given pain stimulus. Radiofrequency (RF) emissions generated by the brains of the persons who are free of chronic pain while they are subjected to the pain stimulus are measured and a chart in the form of an average f-MRI image for all such persons is prepared which statistically reflects an average of RF emissions generated by the brains of the persons who are free of chronic pain while subjected to the pain stimulus. The same pain stimulus is then applied to the patient, RF emissions generated by a brain of the patient while the pain stimulus is applied are sensed, and the RF emissions from the patient's brain are compared to the chart to determine if the RF emissions from the patient's brain are statistically different from the approximately average RF emissions from the persons who are free of chronic pain on the chart.Type: GrantFiled: October 27, 2004Date of Patent: December 9, 2008Inventor: Robert L. England
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Patent number: 7447547Abstract: An interface for selective excitation of a biological neural network is provided. The interface includes a microelectromechanical (MEMS) device having a deformable membrane, and a tactile-sensitive neural cell disposed on the deformable membrane. The cell on the deformable membrane senses motion or deformation of the membrane and provides a signal, responsive to membrane motion or deformation, to the biological neural network. Preferably, the deformable membrane and cell have about equal areas, to provide selective excitation. An interface array including at least two such interfaces is also provided. A retinal prosthesis interface array having, in each element of the array, a photodiode within the MEMS device for electrostatically actuating the deformable membrane is also provided. For this alternative, the cells and deformable membranes are preferably transparent.Type: GrantFiled: February 13, 2004Date of Patent: November 4, 2008Assignee: The Board of Trustees of the Leland Stanford Junior UniversityInventor: Daniel V. Palanker
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Patent number: 7435232Abstract: Methods and apparatus for non-invasively assessing physiological hard of soft tissue of human and other species are described. In a preferred embodiment, tissue is vibrationally stimulated in vivo through a frequency spectrum. The tissue reacts against the stimulus and the reaction is preferably measured and recorded. Based on analytical algorithms or comparisons with previously taken measurements, changes within the tissue can be detected and used for diagnostic purposes. Further embodiments describe the usage of the device and methods for in vivo intra-operative and post-operative implant evaluations and as a therapeutic tool.Type: GrantFiled: September 7, 2004Date of Patent: October 14, 2008Assignee: William Marsh Rice UniversityInventor: Michael Liebschner
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Patent number: 7399281Abstract: A pain measurement system is capable of accurately and reliably measuring the magnitude of temporary pain in a patient while reducing burdens on the patient during pain measurement. The pain measurement system has a system assembly including a controller that controls an electric stimulus signal output unit to apply a pulse current which increases with time through an electrode. The value of the pulse current is recognized as a minimum sensed current value when a first signal is received. The electric stimulus signal output unit is then controlled to apply, through the electrode, a pulse current having a current value which increases from a predetermined initial value stepwise by nX (where X represents the minimum sensed current value and n represents a positive rational number). The current value of the pulse current is recognized as a pain-commensurate current value when a second signal is received.Type: GrantFiled: December 16, 2004Date of Patent: July 15, 2008Assignee: Terumo Kabushiki KaishaInventors: Hideaki Shimazu, Takeo Ishii
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Patent number: 7328131Abstract: An implantable pedometer for measuring the amount of joint use is disclosed. The implantable pedometer includes a sensor adapted for detecting indicators of joint usage. A counter is configured for storing count data corresponding to the number of indicators detected by the sensor and a telemetry circuit is configured for transmitting the count data outside of the body.Type: GrantFiled: February 1, 2006Date of Patent: February 5, 2008Assignees: Medtronic, Inc., Warsaw Orthodpedic, Inc.Inventors: William T. Donofrio, Jeffrey H. Nycz, Sarah Anne Audet, Can Cinbis, Michael A. Schugt, Gerard J. Hill, Qingshan (Sam) Ye
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Patent number: 7261693Abstract: A soft tissue diagnostic apparatus for diagnosis of stress and injury in anatomical soft tissue by detecting the response of the soft tissue to acoustic energy and a method of detecting soft tissue damage or stress and treating the tissue. An acoustic transmitter transmits excitation acoustic energy toward a target area of soft tissue of a subject. An acoustic receiver receives responsive acoustic energy generated by the soft tissue in response to the excitation acoustic energy transmitted by the acoustic transmitter and generates an output signal representative of the response of the soft tissue to the excitation acoustic energy. An analyzer receives the output signal of the acoustic receiver and provides an indication of at least one of stress and injury in the soft tissue based on the output signal. Areas of stress are inhibited to find the origin of soft tissue pain.Type: GrantFiled: June 23, 2004Date of Patent: August 28, 2007Assignee: Access Wellness And Physical TherapyInventors: Ariel Wilcox, Charles E. Tarr, Judith A. Hilton
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Patent number: 7256686Abstract: The present invention concerns a system for measuring the vibration an operator of a piece of the equipment encounters while operating the equipment. The system includes at least one motion measuring means, such as an accelerometer. The accelerometer may be affixed to the equipment or integrated into the equipment. In addition, motion data recording equipment that is in electrical communication with the accelerometer may also be provided. An alarm may be used to indicate that a preset limit has been or is about to be exceeded.Type: GrantFiled: May 27, 2003Date of Patent: August 14, 2007Assignee: Sears Manufacturing Co.Inventors: L. John Koutsky, Cole T. Brodersen, William Tuman