Abstract: A medical device may receive sensor data from sensing sources, and determine confidence levels for sensor data received from each of the plurality of sensing sources. Each of the confidence levels of the sensor data from each of the sensing sources is a measure of accuracy of the sensor data received from respective sensing sources. The medical device may also determine one or more therapy parameter values based on the determined confidence levels, and cause delivery of therapy based on the determined one or more therapy parameter values.
Type:
Grant
Filed:
August 2, 2017
Date of Patent:
October 13, 2020
Assignee:
Medtronic, Inc.
Inventors:
William F. Kaemmerer, Duane L. Bourget, Timothy J. Denison, Eric J. Panken, Scott R. Stanslaski
Abstract: The invention relates to an energy application apparatus for applying energy to an object. A plurality of energy application elements (4) applies energy to the object at different locations and at least one ultrasound element (18) generates an ultrasound signal being indicative of a property of the object at the different locations, wherein at least one energy application element is individually controlled depending on an energy application influence, in particular, an ablation depth, determined for the location at which the at least one energy application element applies energy from the ultrasound signal. Thus, at least one local control point for applying energy to the object is provided, thereby improving the control of applying energy to the object.
Type:
Grant
Filed:
June 24, 2011
Date of Patent:
October 6, 2020
Assignee:
KONINKLIJKE PHILIPS N.V.
Inventors:
Szabolcs Deladi, Godefridus Antonius Harks, Gerardus Henricus Maria Gijsbers, Jan Frederik Suijver
Abstract: The disclosure describes devices and methods for providing transdermal electrical stimulation therapy to a subject including positioning a stimulator electrode over a glabrous skin surface overlying a palm of the subject and delivering electrical stimulation via a pulse generator transdermally through the glabrous skin surface and to a target nerve or tissue within the hand to stimulate the target nerve or tissue within the hand so that pain felt by the subject is mitigated. The pulses generated during the electrical stimulation therapy may include pulses of two different magnitudes.
Type:
Grant
Filed:
March 30, 2017
Date of Patent:
September 29, 2020
Assignee:
EMKinetics, Inc.
Inventors:
Amit Rajguru, Daniel R. Burnett, Alexander Vergara, Michael Hemati
Abstract: Methods and devices related to wound healing using phototherapy are described. Some embodiments provide an organic light-emitting diode device, such as a light-emitting device for phototherapy, comprising Ring System 1, Ring System 2, Ring System 3, Ring System 4 or Ring System 5.
Type:
Grant
Filed:
February 4, 2016
Date of Patent:
September 29, 2020
Assignees:
Nitto Denko Corporation, The Henry M. Jackson Foundation for the Advancement of Military Medicine, Inc.
Inventors:
Sazzadur Rahman Khan, Sheng Li, Amane Mochizuki, Xingjia Wu, Juanita Josephine Anders
Abstract: A method and device is described, which provides electrical stimulation to the brain of a person, where the device comprises an external portion and at least one implantable portion. The external portion provides the energy source for stimulation to the implantable portions. The implantable portions provide at least two conductive paths through the skull and use the skull's high impedance to generate a current loop with the focus of stimulation lying in the current path.
Abstract: An input device for a robotic surgical system includes a body, a light source, and control interfaces. The body is configured to couple to a user interface. The control interfaces are each associated with a function of the robot system. The light source is configured to selectively illuminate each of the control interfaces independent of one another.
Abstract: An automatic measurement point correction method includes acquiring vital signs information waveform data indicating a vital signs information waveform having a plurality of waveforms which periodically appear on a time axis, determining a plurality of measurement points for measuring a predetermined measurement item of each waveform included in the vital signs information waveform, causing the vital signs information waveform and measurement point displayers to be displayed on a displaying section, correcting a first measurement point for measuring the predetermined measurement item of a first waveform of the plurality of waveforms, as a first correction, recording the corrected first measurement point as a reference measurement point, extracting a waveform which is analogous to the first waveform, from the plurality of waveforms, and automatically correcting a measurement point for measuring the predetermined measurement item of the extracted waveform, as a second correction.
Abstract: A temporary pacing lead has an atraumatic curled distal region with multiple cathodes and distal pressure measurement to allow positioning and repositioning within the heart chamber without fluoroscopic or echo guidance. The curled distal region provides definite contact with two opposing walls of the ventricular chamber to ensure electrical signal capture without trauma to the endocardial surface. A stylet located in the pacing lead lumen assists in introducing, placing, and removing the pacing lead from the heart. The flexible distal region provides safe removal of the temporary lead following completion of use.
Abstract: Transcorneal and fiberoptic laser delivery systems and methods for the treatment of eye diseases wherein energy is delivered by wavelengths transparent to the cornea to effect target tissues in the eye for the control of intraocular pressure in diseases such as glaucoma by delivery systems both external to and within ocular tissues. External delivery may be effected under gonioscopic control. Internal delivery may be controlled endoscopically or fiberoptically, both systems utilizing femtosecond laser energy to excise ocular tissue. The femtosecond light energy is delivered to the target tissues to be treated to effect precisely controlled photodisruption to enable portals for the outflow of aqueous fluid in the case of glaucoma in a manner which minimizes target tissue healing responses, inflammation and scarring.
Abstract: Unique methods and bio-imaging systems are introduced herein for self-automated self-operable biomedical devices and methods for bio-signal monitoring, such as electrocardiograms (ECG), heart rate, and other vital signs, requiring no trained medical assistance or minimal assistance. In particular, methods and devices disclosed herein may require no dedicated medical resources, generate diagnostic quality results, and provide for motion artifact correction without inducing discomfort or irritation. Moreover, long term recording is realizable. Such methods and devices reduce the backlog of patients at out-patient wards as well as emergency response in remote areas.
Type:
Grant
Filed:
June 30, 2016
Date of Patent:
September 1, 2020
Assignees:
WASHINGTON STATE UNIVERSITY, PT. JNM MEDICAL COLLEGE
Abstract: A sensor that is capable of detecting a pulse of a user by using a proximity illumination sensor or a proximity sensor is provided. A proximity sensor (14) that includes a pulse detection function includes a count adjustment circuit (5) that performs adjustment such that a digital output value (ADCOUT1) from an analog-digital conversion circuit (4) changes in accordance with each value of a distance at least in a prescribed range of the distance between a photodiode (2) and a detected object (a finger in the drawing) and a digital filter (6) for detecting a cycle of the digital output value (ADCOUT1) from the analog-digital conversion circuit (4).
Abstract: The disclosure relates generally to applications of Orientation Independent Sensing (OIS) and Omnipolar mapping Technology (OT) to various system, device and method embodiments as recited herein. Similarly, systems and methods suitable for supporting OIS and OT systems and methods are disclosed. Further, OIS and OT implementations that provide end user interfaces, diagnostic indicia and visual displays generated, in part, based on measured data or derived from measured data are also disclosed. Embodiments also describe applying optimization techniques to determine the greatest voltage difference of a local electric field associated with an electrode-based diagnostic procedure and a vector representation thereof. Various graphic user interface related features are also described to facilitate orientation and electrode clique signal display.
Type:
Grant
Filed:
April 13, 2018
Date of Patent:
September 1, 2020
Assignee:
St. Jude Medical, Cardiology Division, Inc.
Inventors:
Don Curtis Deno, Dennis J. Morgan, Joshua C. Bush, Kumaraswamy Nanthakumar, Stephane Masse, Karl Magtibay
Abstract: System and method of applying pulsed electromagnetic fields (PEMF) to a human user's body. Here an electrically isolated antenna is applied to a portion of the body. This antenna is connected to a PEMF power source comprising a modified Blumlein dual transmission line transformer circuit with emphasis on miniaturization. Each transmission line comprises a substantially planar PC board mounted conducting strip configured in a meander pattern, and separated from at least one split ground plane by at least one substantially planar dielectric material and at least one split ground plane. This in turn is powered by a low voltage power supply, resonant transformer. The Blumlein circuit is charged and discharged by a processor controlled high-speed switch according to user selected time settings, and can produce outputs substantially above 1 kV. Relative to prior art devices, the system enables much smaller, lighter, and less costly PEMF implementations.
Abstract: Methods and devices are provided for implantable medical devices. The device comprises a device housing that has an electronics module, an electrode, an antenna, and a header that has a main body. The main body is formed of a ceramic material that includes side walls, a distal end and a proximal mounting end. The main body has an electrode retention region and an antenna retention platform. The antenna extends along the antenna retention platform. The electrode is provided at the electrode retention region. The mounting end includes electrode and antenna connectors. The main body includes a first plated trace formed through the ceramic material to be electrically coupled to the electronics module in the device housing. Between the antenna and the antenna connector, the main body includes a second plated trace formed through the ceramic material between the electrode and the electrode connector.
Abstract: Systems and methods are provided in which data acquisition device detects and captures ambulatory radial arterial blood pressure in a non-invasive and continuous manner through the combined use of tonometry, accelerometry and photoplethysmography, together with the detecting and translating of Mayer waves. Transformed blood pressure data, together with motion and contextual data can be used as input for machine learning algorithms and biomathematical models which can predict the general state of health of an individual. Transformed blood pressure data, together with motion and contextual data, may be communicated via wireless communications to mobile devices and/or cloud based platforms.
Abstract: One aspect of the present disclosure relates to a system that can modulate the intensity of a neural stimulation signal over time. A pulse generator can be configured to generate a stimulation signal for application to neural tissue of an individual and modulate a parameter related to intensity of a pattern of pulses of the stimulation signal over time. An electrode can be coupled to the pulse generator and configured to apply the stimulation signal to the neural tissue. A population of axons in the neural tissue can be recruited with each pulse of the stimulation signal.
Type:
Grant
Filed:
October 31, 2018
Date of Patent:
September 1, 2020
Assignee:
CASE WESTERN RESERVE UNIVERSITY
Inventors:
Dustin Tyler, Daniel Tan, Matthew Schiefer
Abstract: A system for monitoring a fetal heartbeat sound has a sensor matrix adapted to be placed adjacent to a fetus, a processor for receiving signals transmitted by the sensor matrix, a processor for receiving signals transmitted by the sensor matrix, and a display connected to the processor so as to provide a humanly perceivable indication of the heartbeat sound. The sensor matrix has a plurality of sensors of which at least one of which is facing the fetus. The processor identifies a fetal heartbeat sound from among other sounds. The sensor array is affixed to a wearable article that is adapted to be worn by mother.
Abstract: A system and methods of maintaining communication with a medical device for exchange of information, instructions, and programs, in a highly reliable manner. Apparatus and methods for accomplishing this task include: 1) The inclusion of a locating device in the system, in close proximity to an implanted device, but which does not drain the implanted device battery. The locating device may be implanted or external to the body. 2) The use of motion detection and global positioning system devices to locate elements within a communicating system for the medical device; 3) The assessment of received signal quality by elements of the system; 4) The use of a notification system for a device user who is moving out of range of communications; and 5) Documenting the absolute and functional integrity of instructions received by the medical device.
Abstract: A light-guiding earpiece configured to be worn by a subject includes a base comprising a speaker and at least one optical detector, a housing extending outwardly from the base that is configured to be positioned within an ear of a subject, and a flexible optical emitter configured to be conformable to at least a portion of the earpiece. The housing encloses the speaker and comprises at least one aperture through which sound from the speaker can pass. The flexible optical emitter may be integrally formed within the housing, and the housing may include translucent material that forms a light-guiding region through which light from the flexible optical emitter can pass. The optical detector may be a flexible optical detector.
Type:
Grant
Filed:
June 28, 2018
Date of Patent:
August 25, 2020
Assignee:
Valencell, Inc.
Inventors:
Steven Francis LeBoeuf, Jesse Berkley Tucker, Michael Edward Aumer
Abstract: Systems and methods are disclosed that facilitate obtaining two dimensional (2D) ultrasound images, using two or more ultrasound imaging modes or modalities, to generate 2D multi-parametric ultrasound (mpUS) images and/or to generate a three-dimensional (3D) mpUS image. The different ultrasound imaging modes acquire images in a common frame of reference during a single procedure to facilitate their registration. The mpUS images (i.e., 2D or 3D) may be used for enhanced and/or automated detection of one or more suspicious regions. After identifying one or more suspicious regions, the mpUS images may be utilized with a real-time image to guide biopsy or therapy the region(s). All these processes may be performed in a single medical procedure.
Type:
Grant
Filed:
September 5, 2017
Date of Patent:
July 21, 2020
Assignee:
ZMK MEDICAL TECHNOLOGIES INC.
Inventors:
Rajesh Venkataraman, Saradwata Sakar, Xu Yang, Michael Ahmadi, Pablo Medina