Patents Examined by Skylar Lindsey Christianson
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Patent number: 11612759Abstract: A medical skin wrinkle reduction device using an RRSS laser irradiation method is proposed to reduce skin wrinkles and minimize tissue damage. The device includes: a main body having a mounting groove provided in an upper portion thereof, a tablet computer being attached to and detached from the mounting groove, and comprising signal transmission and reception parts exchanging signals with the tablet computer, and a microcomputer controlling an output of a laser beam; a handpiece comprising: a laser oscillation part generating the laser beam; an optical part emitting the laser beam as parallel light; a laser scanner controlling an irradiation position of the laser beam transmitted from the optical part; a laser pattern part having movement coordinate values set therein such that moving direction of the laser beam has a regular pattern; a tablet computer having functions of inputting data in a touch screen method and displaying a screen.Type: GrantFiled: July 16, 2020Date of Patent: March 28, 2023Inventor: Youin Kim
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Patent number: 11571336Abstract: Refractive index writing system and methods employing a pulsed laser source for providing a pulsed laser output at a first wavelength; an objective lens for focusing the pulsed laser output to a focal spot in an optical material; a scanner for relatively moving the focal spot with respect to the optical material at a relative speed and direction along a scan region for writing one or more traces in the optical material defined by a change in refractive index; and a controller for controlling laser exposures along the one or more traces in accordance with a calibration function for the optical material to achieve a desired refractive index profile in the optical material. The refractive index writing system may be for writing traces in in vivo optical tissue, and the controller may be configured with a calibration function obtained by calibrating refractive index change induced in enucleated ocular globes.Type: GrantFiled: January 25, 2019Date of Patent: February 7, 2023Assignee: University of RochesterInventors: Wayne Knox, Jonathan D. Ellis, Krystel R. Huxlin, Daniel R. Brooks, Kaitlin T. Wozniak
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Patent number: 11541248Abstract: The invention relates to an implantable illuminating device intended to be implanted in a living being with a view to locally illuminating a region of said living being, said device including a probe, said architecture being characterized in that it is produced from: an optical fiber that comprises a core, a cladding and a protective coating, a jacket, said architecture including: a plurality of successive segments along its longitudinal axis, each segment having a section containing a plurality of concentrically superposed layers, in which each segment includes a section containing a plurality of superposed layers that is different from the section of each adjacent segment.Type: GrantFiled: December 3, 2018Date of Patent: January 3, 2023Assignee: COMMISSARIAT A L'ENERGIE ATOMIQUE ET AUX ENERGIES ALTERNATIVESInventors: Claude Chabrol, Sarah Renault
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Patent number: 11471097Abstract: A hardware sensor system comprising a piezo sensor outputting charge data corresponding to a motion, an insulated cable from the piezo sensor to a receiver, to transmit the charge data, an insulated charge to voltage converter on the receiver, the insulated charge to voltage converter converting the charge data to voltage data, an analog-to-digital converter to convert the voltage data to digital data, and an uploader to upload the data to a server for processing.Type: GrantFiled: October 14, 2019Date of Patent: October 18, 2022Assignee: DP Technologies, Inc.Inventors: Philippe Richard Kahn, Arthur Kinsolving, Mark Andrew Christensen, Mihai Ionescu, Sean Brooks Harre, David Vogel
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Patent number: 11426083Abstract: The subject matter of the invention of the present application is non-invasive equipment for monitoring blood flows and/or respiratory cycles of a human or animal body, comprising at least one segment of conductive elastomer with variable resistance arranged so as to extend over the circumference of the body element and sensitive to the length of the circumference of said element, means for capturing said length by virtue of said variable resistance and supplying a signal representing said length, and means for processing said signal, comprising means for extracting parameters of the blood flows and/or respiratory cycles to be monitored.Type: GrantFiled: November 21, 2017Date of Patent: August 30, 2022Assignee: IDA Health, Inc.Inventors: Phillippe Lange, Giovanni Amoroso, David Lawrence Camp, Gabriele Buttignol, Gerrit de Vries
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Patent number: 11376428Abstract: Systems and techniques can prevent reflux induced laryngospasm and the pathologies resulting therefrom, including (but not limited to) sudden death in epilepsy (SUDEP) and sudden infant death syndrome (SIDS).Type: GrantFiled: May 3, 2019Date of Patent: July 5, 2022Assignee: Purdue Research FoundationInventors: Pedro Irazoqui, Ryan Benjamin Budde, Daniel Pederson
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Patent number: 11375905Abstract: This disclosure is directed to devices, systems, and techniques for monitoring a patient condition. In some examples, a medical device system includes processing circuitry configured to determine a plurality of pulse transit time (PTT) intervals, determine, based on an accelerometer signal, a posture of a patient from a plurality of postures corresponding to each PTT interval of the plurality of PTT intervals, classify each PTT interval of the plurality of PTT intervals based on the respective posture of the patient corresponding to the respective PTT interval, and monitor, based on the classified plurality of PTT intervals, a patient condition.Type: GrantFiled: November 21, 2019Date of Patent: July 5, 2022Assignee: Medtronic, Inc.Inventors: Bruce D. Gunderson, Avram Scheiner
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Patent number: 11369515Abstract: Methods and systems wherein laser induced refractive index changes by focused femtosecond laser pulses in optical polymeric materials or ocular tissues is performed to address various types of vision correction.Type: GrantFiled: May 14, 2019Date of Patent: June 28, 2022Assignees: University of Rochester, Clerio Vision, Inc.Inventors: Leonard Zheleznyak, Cory Leeson, Jonathan D. Ellis, Theodore Foos, Sam C. Butler
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Patent number: 11364391Abstract: A chamber providing controlled amounts of IR and visible light within an internal space sized to seat at least one human being. The chamber includes at least one heater configured to emit FIR energy, at least one heater configured to emit NIR energy, and at least one heater configured to emit at least MIR energy. The chamber includes at least one light emitting source configured to emit a selected wavelength of visible light, and a control panel configured to control the amount and duration of FIR, MIR, NIR and visible light within the chamber.Type: GrantFiled: June 8, 2020Date of Patent: June 21, 2022Assignee: VISIBELLE DERMA INSTITUTE, INC.Inventor: Steven J. Daffer
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Patent number: 11311743Abstract: An electronic device for skin management or skin treatments including an active area including a light emission area and a non-light emission area comprises a plurality of organic light emitting devices disposed in the light emission area and emitting same color light; and first to third wavelength converting layers overlapping the light emission area and a part of the non-light emission area, wherein light emitted from the plurality of organic light emitting devices is extracted to outside the electronic device through the first to third wavelength converting layers.Type: GrantFiled: December 26, 2019Date of Patent: April 26, 2022Assignee: LG DISPLAY CO., LTD.Inventors: JungHyoung Lee, Jaemin Moon, Jina You
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Patent number: 11285313Abstract: The present disclosure is directed towards systems and methods built for predictively timing the inflation and/or deflation of an intra-aortic balloon pump. A controller operates in three states: (1) initialization state, (2) learning state, and (3) peak detection state. The controller decomposes a patient's electrocardiogram signal to a power signal. It then learns characteristics of the patient's electrocardiogram signal during the learning state and computes adaptive threshold parameter values. During the peak detection state, the controller applies the learnt threshold parameter values on a current electrocardiogram signal to identify occurrence and timings of R peaks in the electrocardiogram signal. The R-to-R peak timings are then used to trigger inflation of an intra-aortic balloon pump.Type: GrantFiled: May 2, 2019Date of Patent: March 29, 2022Assignee: NuPulseCV, Inc.Inventors: Robert M. Smith, Nagarjuna Reddy Chinta, Ryan Daniel McCormick, Douglas Edward Ivers, Cranos M. Williams, Divyakumar Mahiman Badheka, Hubert Troy Nagle, Jr., Sai Bhargav Dasari, Shamim Samadi
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Patent number: 11266528Abstract: An ophthalmic laser system for generating a first beam at a first wavelength on a first beam path and a second beam at a second wavelength on a second beam path, and directing optics to selectively direct the first wavelength or the second wavelength to a treatment beam path. The ophthalmic laser system a reflex coaxial illuminator comprising a reflex mirror movable on an from a axis a position out of the treatment beam path to a position in the treatment beam path to direct illumination into an illumination path coaxial with the treatment beam path and a safety interlock only allowing operation of the ophthalmic laser system on the first beam path if the reflex coaxial illuminator is in a first position and allowing operation of the ophthalmic laser system on either the first beam path or the second beam path if the reflex coaxial illuminator is not in the first position.Type: GrantFiled: September 18, 2017Date of Patent: March 8, 2022Assignee: ELLEX MEDICAL PTY LTDInventors: Bradley Barrett, David Haarhoff, Timothy Dixon
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Patent number: 11253182Abstract: The present specification discloses an intraoperative neurophysiological monitoring (IONM) system including a computing device capable of executing an IONM software engine, a stimulation module having multiple ports and various stimulation components and recording electrodes. The system is used to implement transcranial electrical stimulation and motor evoked potential monitoring by positioning at least one recording electrode on a patient, connecting the stimulation components to at least one port on the stimulation module, positioning the stimulation components on a patient's head, activating, using the IONM software engine, at least one port, delivering stimulation to the patient; and recording a stimulatory response on the patient.Type: GrantFiled: May 3, 2019Date of Patent: February 22, 2022Inventors: Rose Rehfeldt, Ivan Amaya, John A. Cadwell, John A. Cadwell, Jr.
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Patent number: 11253317Abstract: A laser can produce pulses of light energy for tissue-type selective ejection of a volume of the target tissue, and the energy can be delivered to a treatment site through a waveguide, such as a fiber optic waveguide. The incident laser energy can be absorbed within a volume of the target tissue with a tissue penetration depth and pulse direction such that the propagation of the energy from the tissue volume is inhibited and such that the target tissue within the volume reaches the spinodal threshold of decomposition and ejects the volume, for example without substantial damage to tissue adjacent the ejected volume. The pulses are set to be tissue selective.Type: GrantFiled: March 19, 2018Date of Patent: February 22, 2022Assignee: PRECISE LIGHT SURGICAL, INC.Inventors: Gerald Mitchell, Kenneth J. Arnold
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Patent number: 11253318Abstract: An arrangement that prevents carbonization of cladding, coating, or buffer layers of a surgical laser fiber due to thermal radiation reflected back into the fiber from, or emitted by, a target of the laser, includes a thermal radiation blocking, absorbing or diverting structure. The thermal radiation blocking, absorbing or diverting structure surrounds an end portion of the fiber that has been stripped of one or more coating and/or buffer layers, and may be made of a heat resistant material such as PTFE or polyimide to block heat from reaching the coating or buffer layers, an optical ferrule such as fused silica to guide the heat away from the fiber coating or buffer layers, or a high refraction index material such as UV adhesive.Type: GrantFiled: July 31, 2019Date of Patent: February 22, 2022Assignee: OPTICAL INTEGRITY, INC.Inventors: Joe Denton Brown, Daniel Malphurs
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Patent number: 11247066Abstract: An irradiation device capable of emitting electromagnetic radiation at variable beam angles, comprises a housing assembly including a longitudinal shell, the longitudinal shell having a first end and a second end, a first end cap assembly provided at the first end of the longitudinal shell, and a second end cap assembly provided at the second end of the longitudinal shell, a radiation source provided within the longitudinal shell, a movable lens having two ends, a first end of the movable lens provided within the first end cap assembly and a second end of the movable lens provided within the second end cap assembly, and one or more translational mechanisms provided within one or more of the first end cap assembly and the second end cap assembly, wherein the one or more translational mechanisms are adapted to cause linear motion of the movable lens with respect to the radiation source.Type: GrantFiled: June 15, 2020Date of Patent: February 15, 2022Assignee: Light Tree Ventures Holding B.V.Inventors: Alain Dijkstra, Michael Kasbergen
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Patent number: 11234865Abstract: The underlying invention is directed to a method for changing the human perceptual color appearance of the iris of a human's or animal's eye by selectively decreasing the density of pigments of the anterior stroma layer of the iris. The method comprises generating, by a generator module, a plurality of predefined energy quantities; and applying, by the generator module, one or more of the predefined energy quantities to the anterior stroma layer, wherein each of the predefined energy quantities is generated and applied, such that the energy quantities ablate, at least in part, melanocytes of the stroma whilst leaving non-melanocyte tissue of at least the stroma essentially undamaged, and wherein the predefined energy quantities generated and applied to the anterior stroma layer in the form of pressure waves and/or pulses generated within a fluid medium that is in fluidical communication with the anterior stroma layer.Type: GrantFiled: September 20, 2017Date of Patent: February 1, 2022Inventor: Reinhardt Thyzel
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Patent number: 11213694Abstract: An electronic device for skin management or skin treatments including an active area including a light emission area and a non-light emission area comprises a plurality of organic light emitting devices disposed in the light emission area and emitting same color light; and first to third wavelength converting layers overlapping the light emission area and a part of the non-light emission area, wherein light emitted from the plurality of organic light emitting devices is extracted to outside the electronic device through the first to third wavelength converting layers.Type: GrantFiled: December 26, 2019Date of Patent: January 4, 2022Assignee: LG DISPLAY CO., LTD.Inventors: JungHyoung Lee, Jaemin Moon, Jina You
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Patent number: 11166851Abstract: In certain embodiments, a system for controlling a position of a focal point of a laser beam comprises a beam expander, a scanner, an objective lens, and a computer. The beam expander controls the focal point of the laser beam and includes a mirror and expander optical devices. The mirror has a surface curvature that can be adjusted to control a z-position of the focal point. The expander optical devices direct the laser beam towards the mirror and receive the laser beam reflected from the mirror. The scanner receives the laser beam from the beam expander and manipulates the laser beam to control an xy-position of the focal point. The objective lens receives the laser beam from the scanner and directs the beam towards the target. The computer receives a depth instruction, and sets actuation parameters to control the surface curvature of the mirror according to the depth instruction.Type: GrantFiled: November 14, 2019Date of Patent: November 9, 2021Assignee: Alcon Inc.Inventor: Matthias Foesel
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Patent number: 11135443Abstract: System (1) for treatment by photodynamic therapy comprising an illuminating member (6) which comprises: —a core (35) carrying a light emitting surface (37), and —a hollow sheath (10) adapted to receive the core (35) with the light emitting surface (37) arranged within a balloon (11), the balloon (11) comprising a wall (12) which has an inner surface delimiting an internal space, and an outer surface, the wall (12) being flexible, wherein the internal space of the balloon (11) has a variable capacity, the wall (12) of the balloon (11) being elastically extendible and the balloon (11) presenting a plurality of inflated states in each of which the internal space is filled with a volume of light diffusing solution, and wherein the system further comprises a support provided with a transfer function relating the volume of light diffusing solution of each inflated state with at least one of a corresponding distribution of light power at the outer surface of the wall (12) of the balloon (11) and a corresponding timeType: GrantFiled: March 24, 2017Date of Patent: October 5, 2021Assignees: INSERM (Institut National de la Santé et de la Recherche Médicale), Université de Lille, Centre Hospitalier Regional et Universitaire de Lille (CHRU)Inventors: Maximilien Vermandel, Clement Dupont, Nicolas Reyns, Pascal Deleporte, Serge Mordon, Nacim Betrouni