19th week of 2016 patent applcation highlights part 4 |
Patent application number | Title | Published |
20160128562 | Apparatus and Method of Determining an Eye Prescription - Eye prescriptions may be determined by providing a simple, easy to use, portable device with a specially configured targeting light source that aligns the eye, mitigates accommodation, and provides accurate results. Unlike stationary, closed view autorefractors, this device typically is portable, self-usable, relatively inexpensive, enabling more widespread use across the world. | 2016-05-12 |
20160128563 | WAVEFRONT INTERACTIVE REFRACTION DISPLAY - Embodiments of this invention generally relate to systems and methods for wavefront interactive refraction display and more particularly to systems and methods for capturing and displaying eye wavefront interactive refraction data based on the desired refractive state of the patient's eye. | 2016-05-12 |
20160128564 | Ophthalmic Apparatus - An ophthalmic apparatus which photographs an endothelial cell and measures a coat thickness of a cornea of an eye to be examined in a non-contact manner; comprising an image pickup unit ( | 2016-05-12 |
20160128565 | MEASURING METHOD - In a method for registering measurement points on a body, in particular on an eye, measurement points are registered along a trajectory on a surface of the body, in particular a curved surface of the body, for determining an axial length profile, by way of a measurement beam. Here, a minimum radius of curvature of the trajectory is at least 1/7, preferably at least ⅕, particularly preferably at least ⅓ of a radius of a circumference of the surface. | 2016-05-12 |
20160128566 | Apparatus and Method of Determining an Eye Prescription - Eye prescriptions may be determined by providing a simple, easy to use, portable device with a specially configured targeting light source that aligns the eye, mitigates accommodation, and provides accurate results. Unlike stationary, closed view autorefractors, this device typically is portable, self-usable, relatively inexpensive, enabling more widespread use across the world. | 2016-05-12 |
20160128567 | COMPUTERIZED PUPILLARY DISTANCE MEASUREMENT SYSTEM AND METHOD - The present disclosure relates generally to a system and method for determining the pupillary distance of a person, more particularly determining the person's pupillary distance by using a computerized screen. The system and method do not require the trip or expense of a doctor or store visit, and are optimized for convenience and cost effectiveness. In a general embodiment, the present disclosure provides a method for determining a pupillary distance of a person without physically measuring the pupillary distance with a device. The method includes receiving a front facial image of the person, determining a scale of the image based on an estimated canthal distance, and determining the pupillary distance of the person based, in part, on the determined scale of the image. | 2016-05-12 |
20160128568 | CORRECTING SYSTEMATIC CALIBRATION ERRORS IN EYE TRACKING DATA - Systems and methods are provided for post-hoc correction of calibration errors in eye tracking data, which take into consideration calibration errors that result from changes in user position during a user session in which the user's fixations on a display screen are captured and recorded by an eye tracking system, and which take into consideration errors that occur when the user looks away from a displayed target item before selecting the target item. | 2016-05-12 |
20160128569 | OPHTHALMOSCOPE - An ophthalmoscope comprises an illumination element providing an illumination light beam to illuminate the fundus of an eyeball; an imaging lens group converging the reflected light beam from the fundus; and an image capture module. The image capture module includes an image sensing element, a fixation light element and an optical element. The image sensing element captures the reflected light beam converged by the imaging lens group to form an image. The fixation light element provides a fixation light beam passing through the imaging lens group and reaching the fundus. The optical element is arranged among the imaging lens group, image sensing element and fixation light element to make the image sensing element and the fixation light element on different equivalent focal planes of the imaging lens group. According to the above-mentioned structure, a relay lens and a focusing module used by the conventional fixation light element is omitted. | 2016-05-12 |
20160128570 | OPHTHALMOLOGY - Apparatus for illuminating the retina of an eye. The apparatus includes an illumination device and a lens system. The illumination device and the lens system combine to provide incident illumination from an apparent point source located within the lens system. The apparatus also includes an illumination transfer device. The illumination transfer device has two foci and the apparent point source of the lens system is provided at a first focus point of the illumination transfer device and an eye is accommodated at a second focus point of the illumination transfer device. The illumination transfer device transfers the incident illumination from the apparent point source into the eye to illuminate the retina. | 2016-05-12 |
20160128571 | SYSTEMS AND METHODS FOR TRANSMITTING GLUCOSE METER READINGS - Devices, methods, and systems for transmitting, via USSD messages, blood glucose readings from a glucometer over a GSM network to a database storing blood glucose readings. The database is configured to transmit electronic messages including the blood glucose readings received from the glucometer to one or more personal electronic devices of one or more predetermined recipients. | 2016-05-12 |
20160128572 | ACOUSTIC COMPUTING SYSTEMS FOR IMPLANT AND DERMAL DATA COMMUNICATION, POWER SUPPLY AND ENERGY STORAGE - Embodiments are directed to a computing system that operates at least partially through a medium, which may be a human. The computing system includes a first acoustic computing element implanted in the human. The first acoustic computing element receives input acoustic vibration. The first acoustic computing element converts a first portion of the input acoustic vibration to energy that powers an operation of the first acoustic computing element. The first acoustic computing element converts a second portion of the input acoustic vibration to stored energy of the first acoustic computing element. The first acoustic computing element converts a third portion of the input acoustic vibration to a first input data that is processed by the first acoustic computing element. The first acoustic computing element generates and transmits a first output acoustic vibration based on the first input data. | 2016-05-12 |
20160128573 | IMPLANTABLE SENSORS AND METHODS OF USE - Systems, methods, and apparatus are described herein for obtaining medical diagnostic measurements from implanted sensors. In various embodiments, a spinal implant-monitoring apparatus may include: a bridge defining a first hermetically-sealed interior and two or more legs; one or more strain gauges contained within the first hermetically-sealed interior of the bridge to provide a signal indicative of strain measured between the legs of the bridge; a housing defining a second hermetically-sealed interior, the housing mounted on a surface of the bridge; and control circuitry contained within the second hermetically-sealed interior. The control circuitry may be in communication with the one or more strain gauges and may be configured to convert the signal into digital data representative of the signal. Methods of using such apparatus are also disclosed. | 2016-05-12 |
20160128574 | ITERATIVE MINIMIZATION PROCEDURE WITH UNCOMPRESSED LOCAL SAR ESTIMATE - A method for providing an image of a subject in a magnetic resonance imaging MRI system with parallel transmission (pTx) is provided. A localizer scan of the subject is provided. Body anatomy is determined from the localizer scan. The body anatomy is matched with at least one body model of a plurality of body models. B | 2016-05-12 |
20160128575 | SPRING TYPE FIRING MECHANISM APPLIED TO ENDOSCOPE ACCESSORY - A spring type firing mechanism applied to an endoscope accessory includes a housing, a cap, a bottom cover, a driving module, a buffering module and a spring pipeline, and the spring pipeline includes a push-rod coupled to the sensor, and the driving module includes a firing spring and a restoring spring, and the two springs have different rigidities so as to form a reciprocating structure of the firing mechanism. After the sensor of the firing mechanism is triggered, the resilience of the restoring spring compresses the firing spring back to its firing length, so as to restore its position by a single driving point and allow users to complete the firing operation by one hand and simplify the operation of doctors to improve convenience and efficiency. | 2016-05-12 |
20160128576 | Needle Device and Needle System Having the Same - A needle device includes a shell, a needle unit and an actuator. The needle unit includes an outer needle guide and a needle member. The outer needle guide has a piercing end for penetrating into a biological body part. The needle member is disposed in the shell and the outer needle guide, has a needle tip protruding from a front end of the shell and is movable relative to the shell and the outer needle guide. The actuator is responsive to a control signal to drive the needle member and move the needle tip between a protruding position, where the needle tip protrudes out of the piercing end of the outer needle guide, and a retracting position, where the needle tip is retracted back into the outer needle guide. | 2016-05-12 |
20160128577 | System for Measuring Skin Hydration - A system for measuring skin hydration at a measurement site with a independent measurement probe and a portable data processing system. Wireless communications enable the transfer of commands and data between the probe and portable data processing system. The portable data processing system can comprise a wireless tablet or smartphone. The portable data processing system provides input functions and output functions on its display and includes a camera for imaging the measurement site. | 2016-05-12 |
20160128578 | System And Method For Synthesis Of Impedance Matching And Signal Converting Material For All Optical Photo-Acoustic Detection - A system and method is disclosed for non-contact detection and/or imaging and/or monitoring target subsurface tissue of at least one of human or animal anatomy. The system applies a first optical excitation signal to an outer tissue surface at a first location on the anatomy, which excites the target subsurface tissue to produce acoustic signals which are transmitted to an outer tissue surface of the anatomy. A gel-like, impedance matching and signal converting (IMASC) material layer is applied to the outer tissue surface at a second location on the anatomy. The IMASC material layer contains material elements which are able to influence characteristics of an optical signal impinging and reflected from the IMASC material, in accordance with acoustic signals that have been reflected from the target subsurface tissue, and which propagate into the IMASC material. An optical ultrasound detection system is used to process the reflected optical signals reflected from the IMASC material to provide information that may be used to provide an image of the target subsurface tissue. | 2016-05-12 |
20160128579 | PROBE AND SUBJECT INFORMATION ACQUIRING APPARATUS - A probe includes a plurality of element groups, the element group including a first element and a plurality of second elements which are arranged in a first direction, the plurality of element groups being arranged in a second direction intersecting with the first direction. An acoustic lens having a curvature in the first direction is arranged on the first element. When transmission and reception based on a pulse echo technique are performed, the transmission and reception are performed with respect to the subject by using only the first element, and when reception of a photoacoustic wave is performed, the reception from the subject is performed by using the entire element group constituted by the first element and the plurality of second elements. | 2016-05-12 |
20160128580 | DETECTING, ASSESSING AND MANAGING A RISK OF DEATH IN EPILEPSY - A method includes receiving cardiac data and determining a cardiac index based upon the cardiac data; determining an increased risk of death associated with epilepsy if the indices are extreme, issuing a warning of the increased risk of death and logging information related to the increased risk of death. A second method comprises receiving at least one of arousal data, responsiveness data or awareness data and determining an arousal index, a responsiveness index or an awareness index, where the indices are based on arousal data, responsiveness data or awareness data respectively; determining an increased risk of death related to epilepsy if indices are extreme values, issuing a warning of the increased risk of death and logging information related to the increased risk of death. A non-transitory computer readable program storage device encoded with instructions that, when executed by a computer, perform a method is also provided. | 2016-05-12 |
20160128581 | ACTIVE MEDICAL DEVICE FOR MONITORING THE STATUS OF A PATIENT SUFFERING FROM A RISK OF HEART FAILURE - An active medical device is configured to receive inputs and to calculate a hemodynamic parameter representative of myocardium contractility determined from an endocardial acceleration signal. The microcontroller acquires heart rate and hemodynamic parameter pairs of values during a plurality of cardiac cycles. The microcontroller is configured to distribute the pairs of values into discrete bins to develop a profile for analysis. The microcontroller is configured to conduct an analysis comprising calculating an index representative of the patient's clinical status. The hemodynamic parameter representative of the myocardial contractility is a time interval separating the first and the second peak of endocardial acceleration. | 2016-05-12 |
20160128582 | A METHOD OF DETERMINING SYSTOLIC AND DIASTOLIC BLOOD PRESSURE AND THE UNIT FOR THIS METHOD - The method of determining systolic and diastolic blood pressure where the set of received data of each curve of the plethysmographic curve gained from the unit for monitoring the life functions in a shape of the ring and/or the earring is divided into individual segments that respond to one heartbeat of the measured subject and after processing there are selected and recalculated segments meeting the defined criteria. The unit for monitoring and measuring the life functions comprises a supporting construction in a shape of a ring ( | 2016-05-12 |
20160128583 | SYSTEM AND APPARATUS COMPRISING A MULTISENSOR GUIDEWIRE FOR USE IN INTERVENTIONAL CARDIOLOGY - A system and apparatus comprising a multisensor guidewire for use in interventional cardiology, e.g. for Transcatheter Valve Therapies (TVT), comprises a plurality of optical sensors for direct measurement of cardiovascular parameters, e.g. transvalvular blood pressure gradients and flow. A conventional outer coil contains a shaped core wire having a cross-section defining helical grooves extending along its length, which accommodate optical fibers and optical sensors within a diameter D | 2016-05-12 |
20160128584 | MEASURING DEVICE, METHOD OF MEASURING BLOOD PRESSURE, AND PROGRAM - A measuring device includes a measuring part that performs an invasive blood pressure measurement using a transducer and detects that a blood pressure measured by the invasive blood pressure measurement becomes a predetermined abnormal state during the invasive blood pressure measurement, a detecting part that detects whether or not a zero-point calibration of the transducer is being carried out, and a notification control part that controls whether or not to output an alarm based on a detection state of the detecting part when the blood pressure becomes the predetermined abnormal state. | 2016-05-12 |
20160128585 | Medical Device - A carrier assembly includes a sub-assembly including a pump, at least one solenoid valve, and a check valve. The pump, the at least one solenoid valve, and the check valve are in fluid communication with each other and with at least one pressure transducer via a manifold. Also, the carrier assembly is configured to be mounted to a medical device's main assembly board. | 2016-05-12 |
20160128586 | SYSTEM, METHOD, AND ARTICLE FOR HEART RATE VARIABILITY MONITORING - What is provided is a system, method, and article of manufacture for detecting, monitoring, and tracking whether a user is in a more relaxed or stressed state by measuring the user's heart rate variability. The system has a heart rate monitoring device with at least one sensor that is configured to measure user heart rate. The system also has a mobile computing device, which may be configured to interact with the heart rate monitoring device for monitoring, tracking, and displaying a user's heart rate and mental stress level information. The method measures the user's heart rate information to calculate a measure of heart rate variability and to analyze whether peaks corresponding to activation levels of the user's parasympathetic nervous system (PNS) and sympathetic nervous system (SNS) exceed a predetermined threshold level within a predetermined time period. | 2016-05-12 |
20160128587 | Method and device for measuring intracranial pressure, ICP, in a subject - According to an aspect, there is provided a method for measuring the intracranial pressure, ICP, in a subject, the method comprising detecting whether spontaneous retinal venous pulsations, SRVPs, are occurring in an eye of the subject as the orientation of the head of the subject changes; identifying the orientation of the head of the subject at which SRVPs start to occur or stop occurring; and using the identified orientation of the head of the subject at which SRVPs start to occur or stop occurring to determine the ICP in the subject. | 2016-05-12 |
20160128588 | Deep-brain Probe and Method for Recording and Stimulating Brain Activity - A probe suitable for deep-brain recording and stimulation is provided. The probe comprises a wire bundle that includes a plurality of wires, an integrated circuit having a plurality of electrodes, and an interposer that joins the wire bundle and the integrated circuit such that each of the plurality of electrodes is electrically connected with a different wire of the plurality of wires. | 2016-05-12 |
20160128589 | NERVOUS SYSTEM INTERFACE DEVICE - A nervous system interface device can include a flexible active layer, a power coil, a communication module, and an antenna. More specifically, the flexible active layer can included a plurality of electrodes that are positioned to take neural measurements of the nervous system. The power coil can be electrically coupled to the flexible active layer and can be configured to receive wireless power from a power transfer device. The communication module can be electrically coupled to the flexible active layer and can be configured to receive power from the power coil. The antenna can also be adapted to wirelessly communicate neural measurement information to another device (e.g. an external computing device, receiver or the like). The nervous system interface device has two functional configurations which include a rolled and an unrolled configuration. In the rolled configuration the nervous system electrode device is rolled along a longitudinal axis for insertion into a hypodermic needle. In the unrolled configuration the nervous system electrode device is substantially flat. These nervous system electrode devices can dramatically improve access to brain function information, increase brain-machine interface functionality, and decrease foreign body response. | 2016-05-12 |
20160128590 | ELECTRONIC APPARATUS HAVING MEASUREMENT ELECTRODES - A measurement device includes a housing, an electronic unit included in the housing and configured to measure a biological state of a subject, and an electrode to be placed on the subject for measuring the biological state. The electrode is embedded in the housing and has a surface that is exposed through an opening in the housing. | 2016-05-12 |
20160128591 | MEASUREMENT SYSTEM OF RESPIRATION-RELATED SIGNALS AND METHOD OF OPERATING THE SAME - A measurement system of respiration-related signals includes a plurality of electrodes, an ECG processing device, and an analysis device. The ECG processing device acquires a first analog differential signal and a second analog differential signal through the electrodes and generates a Lead-I ECG signal and a Lead-II ECG signal which is orthogonal to the Lead-I ECG signal after processing the two analog differential signals. The analysis device executes a trigonometric function to calculate angle change values of a cardiac axis based on the acquired Lead-I ECG signal and the Lead-II ECG signal, and further generate a cardiac axis angle change waveform according to the continuous angle change values. Accordingly, the cardiac axis angle change waveform is suitable for the prediction of respiratory conditions of the participant because of the high positive correlation between the frequency of the cardiac axis angle change waveform and the human respiratory frequency. | 2016-05-12 |
20160128592 | LOW FIELD MAGNETIC RESONANCE METHODS AND APPARATUS - According to some aspects a system is provided comprising a low-field magnetic resonance (MR) device, at least one electrophysiological device, and at least one controller configured to operate the low-field MR device to obtain MR data and to operate the at least one electrophysiological device to obtain electrophysiological data. | 2016-05-12 |
20160128593 | SELECTION OF ELECTROENCEPHALOGRAPHY (EEG) CHANNELS VALID FOR DETERMINING COGNITIVE LOAD OF A SUBJECT - Disclosed is a method and system for selection of Electroencephalography (EEG) channels valid for determining cognitive load of subject. According to one embodiment, EEG signals are obtained from EEG channels associated with subject performing cognitive tasks are received. Time-frequency features of EEG signals are extracted for a frequency band comprise maximum energy value, minimum energy value, average energy value, maximum frequency value, minimum frequency value, and average frequency value. Weight of an EEG channel associated with time-frequency feature is derived using statistical learning technique. Binary values for EEG channels corresponding to time-frequency feature are assigned using weight of EEG channel associated with time-frequency feature. Intersections of binary values of EEG channels corresponding to maximum energy value and average energy value, minimum energy value and average energy value, maximum frequency value and average frequency value, and minimum frequency value and average frequency value are computed. Unions of intersections are computed, wherein the unions represent EEG channels valid to determine cognitive load of subject. | 2016-05-12 |
20160128594 | WEARABLE FETAL MONITORING SYSTEM HAVING TEXTILE ELECTRODES - A seamless, smart fetal monitoring garment and methods of using thereof. The system includes a knitted or interwoven garment having a multiplicity of conductive textile electrodes for sensing maternal and fetal electrical vital signals. The maternal and fetal electrical vital signals are selected from a group including maternal heart rate, fetal heart rate and electromyogram (EMG) activities including uterine activities. The method includes wearing the garment, acquiring electrical mixed common, maternal and fetal vital signals from surface region of a pregnant woman, using the plurality of textile electrodes, optimally weighted summing-up the acquired signals, analyzing the summed-up signals to thereby extract the maternal signal and the fetal signal, including determining their heart rates, and including detecting health hazards and in some embodiments, including detecting a uterine contraction sequence suggesting the need to be hospitalized for birth giving. | 2016-05-12 |
20160128595 | MEANS AND METHOD FOR THE DETECTION OF CARDIAC EVENTS - A system for detecting cardiac events and alerting the patient of the cardiac event issued by an implanted medical device. A processor detects a cardiac event and issues an activation signal to a patient alerting mechanism which emits an alarm during a first time interval followed by an alarm-off period of time. Reminder alarms are issued periodically following the alarm-off period of time. Reminder alarms are issued during reminder on-periods of time which are shorter than the first time interval. The alarm-off period and the time between periodic reminder alarms are greater than the alarm first time interval. A disabling device permits disabling of reminder alarms. | 2016-05-12 |
20160128596 | FULLY RECONFIGURABLE MODULAR BODY-WORN SENSORS - A system is disclosed including: one or more electroencephalography (EEG) sensor nodes in a fully reconfigurable sensor network configured to detect electrical signals indicating activity of a brain of a subject and to transmit signal information relating to the detected electrical signals, each EEG sensor node embodying an analog front end (AFE) circuit, and a centralized command control node (CCN) in the sensor network in communication with the one or more EEG sensor nodes and configured to receive the transmitted signal information from the one or more EEG sensor nodes and to perform a processing technique on the received information resulting in processed signal data, wherein the one or more EEG sensor nodes are configured to detect the electrical signals without a driven right leg (DRL) circuit in the sensor network. | 2016-05-12 |
20160128597 | THIN PLANAR BIOLOGICAL SENSOR - A thin planar biological sensor is provided, comprising at least one flexible electrode used for contacting a subject's skin and measuring biological signal. The flexible electrode is made of silicon-silver-based material, in which a ratio of silicon to silver-compound is about 7:3. A conductive plate is coupled to the flexible electrode. A buffer layer covers the conductive plate and the flexible electrode. A printed circuit board is used to receive the measured biological signal. By employing the novel proposed biological sensor, it is advantageous of measuring biological signals not only EEG signals but also ECG and EMG signals. Besides being thin, planar, flexible and non-allergy attributing a low cost to the proper fabrications makes the proposed sensor characterized with a potential for becoming an important tool of medical measurement. | 2016-05-12 |
20160128598 | ELECTRONIC APPARATUS HAVING MEASUREMENT ELECTRODES - A measurement device comprising includes a housing, an electronic unit included in the housing and configured to measure a biological state of a subject, and first and second electrodes disposed on a surface of the housing and are aligned along a first direction that is not orthogonal to one of first and second adjacent edges of the housing. | 2016-05-12 |
20160128599 | HANDHELD EMG STIMULATOR DEVICE WITH ADJUSTABLE SHAFT LENGTH - A nerve stimulating device with an adjustable length is shown and described. The device includes a handle and an elongated shaft with a stimulating electrode. The stimulating electrode can be selectively positioned to a plurality of distances relative to the handle. The device allows nerves in nerve regions at multiple positions relative to the surface of the patient's body to be stimulated with a single device. | 2016-05-12 |
20160128600 | MEDICAL ELECTRODE AND LIMB CLAMP FOR AN ECG DEVICE - The present invention provides a medical electrode comprising a conductive metal base comprising a plate element and a boss formed on the plate element and a conductive support cylinder separate from the conductive metal base. The conductive support cylinder is rotatably mounted to the conductive metal base while remaining in electrical communication with said conductive metal base. The present invention also provides a limb clamp for an ECG device. According to the present invention, it is possible to prevent bending of the cable connecting with the medical electrode, thereby avoiding cable failure. | 2016-05-12 |
20160128601 | ESTIMATION OF BLOOD FLOW RATES - Disclosed are various embodiments for estimating the flow of blood through a blood vessel in a region of interest. Passage of a bolus of fluid through an imaged blood vessel over a period of time is tracked by a computing device. The computing device fits the tracked passage of the bolus of fluid to a modeled passage of the bolus of fluid. The computing device then estimates a volume of blood flow through the imaged blood vessel based at least in part on a fit of the tracked passage of the bolus of fluid to the modeled passage of the bolus of fluid. | 2016-05-12 |
20160128602 | TISSUE IDENTIFICATION DEVICE AND METHOD - A tissue identification device for determining the presence and borders of the cancerous tissues includes a measurement probe having a concentric, 2 port coaxial structure and enabling the 1 Port and 2 Port scattering parameters of the target tissue to be measured. An S parameter measurement unit is associated with the measurement probe via an RF/Microwave cable and allows the S parameters of the tissue to be measured. A computer identifies the tissue by means of an application software block and a tissue identification software block therein in line with the measurement results from the S parameter measurement unit. A hand tool carrying the measurement probe thereon during the measurement process operates simultaneously with the computer by being in communication therewith. | 2016-05-12 |
20160128603 | MULTI FREQUENCY AND MULTI POLARITY COMPLEX IMPEDANCE MEASUREMENTS TO ASSESS ABLATION LESIONS - A method of assessing a tissue ablation treatment, including positioning a medical device adjacent a target tissue; measuring a first impedance magnitude a first frequency with the medical device; measuring a first impedance phase at a second frequency with the medical device; ablating at least a portion of the target tissue with the medical device; measuring at second impedance magnitude at a third frequency with the medical device; measuring a second impedance phase at a fourth frequency with the medical device; comparing at least one of (i) the first and second impedance magnitudes and (ii) the first and second impedance phases; and providing an indication of the efficacy of the ablation treatment based at least in part on the comparison. | 2016-05-12 |
20160128604 | WRIST-TYPE BODY COMPONENT MEASURING APPARATUS AND BODY COMPONENT MEASURING METHOD USING THE SAME - Provided is a wrist-type body component measuring apparatus. The wrist-type body component measuring apparatus includes: a band configured to be worn on a wrist of a user; a first input electrode and a first output electrode disposed on an inside surface of the band and configured to be in contact with the wrist of the user; a second input electrode and a second output electrode disposed on an outside surface of the band; a measuring unit configured to apply a current to the first and second input electrodes and detect a voltage from the first and second output electrodes to measure a body impedance of the user; and an electrode converter configured to convert a disposition of the first and second input electrodes and the first and second output electrodes based on a determination of whether the band is worn on a left wrist or a right wrist of the user. | 2016-05-12 |
20160128605 | Apparatus for Calculating a Parameter of a Skin Surface Area - Provided is a mobile autonomous apparatus ( | 2016-05-12 |
20160128606 | MAGNETIC RESONANCE IMAGING APPARATUS AND CONTROL METHOD THEREFOR - The magnetic resonance imaging apparatus includes: a calculation means for calculating the amount of absorption of electromagnetic waves into the object according to the emission of RF pulses in a part of the object or a bed position where imaging is scheduled; a means for setting imaging conditions, in which the calculated amount of absorption satisfies conditions of the specified value of the amount of absorption of electromagnetic waves, from the relationship between the calculated amount of absorption and the specified value of the amount of absorption of electromagnetic waves; and a bed control device that controls a top plate according to the set imaging conditions. | 2016-05-12 |
20160128607 | OPERATING APPARATUS FOR MEDICAL APPARATUS - There is provided an operating apparatus for a medical apparatus, the operating apparatus including a ring-shaped magnet magnetically polarized in a circumferential direction or a radial direction and configured to rotate along with rotating operation by a user, and a sensor unit configured to detect a magnetic field and to output a signal depending on the detected magnetic field. The sensor unit outputs two-phase signals having different phases. | 2016-05-12 |
20160128608 | BREATHING TUBE FOR USE IN ULTRASONIC FLOW MEASUREMENT SYSTEMS - This invention relates to a breathing tube for use in ultrasonic flow measurement systems for determining the volume flow and/or the molar mass of the respiration of humans and animals. According to the invention, the breathing tube at least partly has a polygonal cross-section. Furthermore at least one indicator is formed on the breathing tube, which can be read out via an external optical device. | 2016-05-12 |
20160128609 | COMBINATION OF INERT GAS REBREATHING AND MULTIPLE-BREATH WASH-OUT TECHNIQUES FOR DETERMINATION OF INDICES OF VENTILATION INHOMOGENEITY - The present invention discloses a method to determine the lung clearance index (LCI) or other indices of ventilation inhomogeneity of the lungs by combining two pulmonary gas exchange techniques; Inert gas rebreathing (IGR) is used for rapid wash-in of the inert tracer gas and this is followed by multiple-breath wash-out (MBW). The functional residual capacity (FRC) can either be determined from the tracer gas concentration and the gas flow inhaled and exhaled during multiple-breath wash-out or by gas analysis alone from the inert gas rebreathing. The cumulative expired volume (V | 2016-05-12 |
20160128610 | EXIT DETECTION SYSTEM WITH COMPENSATION - A person support apparatus, such as a bed, stretcher, cot, recliner, or the like, includes an exit detection system having a plurality of force sensors that support the weight of an occupant positioned on a support surface. The force sensors are part of an exit detection system that issues an alarm when the occupant exits, or is about to exit, the person support apparatus. The distribution of weight applied to the force sensors is used to determine if the occupant is about to exit the person support apparatus. Compensation is made to the exit detection system for changes in the weight distribution that are not caused by movement of the occupant. Such changes may be due to siderail movement, support surface pivoting, and/or movement of other components of the person support apparatus. | 2016-05-12 |
20160128611 | METHODS AND SYSTEMS FOR OBSERVATION OF TYMPANIC FUNCTION - Methods and systems for endoscopic observation of tympanic function. | 2016-05-12 |
20160128612 | SPECTROSCOPIC APPARATUS FOR BIOLOGICAL MATERIAL AND SPECTROSCOPIC METHOD USING THE SAME - A spectroscopic apparatus and method for analyzing a biological material are provided. The spectroscopic apparatus may analyze a biological material which has an internal non-uniform tissue depending on a position thereof. The apparatus may include at least one detector configured to obtain respective detection spectrums corresponding to a plurality of measurement regions that are at mutually different positions of the biological material, and an information processor to determine whether the measurement regions are normal by mutually comparing the detection spectrums, or converting contribution degrees of data for a specific component of the biological material by differentiating the detection spectrums. | 2016-05-12 |
20160128613 | BODY INFORMATION SENSING DEVICE - A body information sensing device for obtaining body information of a user. The body information sensing device includes a housing, a sensing module and a processing module. The housing is detachably disposed at the outer surface of a daily necessity. The sensing module is disposed at the outer surface of the housing, wherein the sensing module is for sensing the body information of the user. The processing module is disposed at the housing, and the sensing module is electrically connected with the processing module. | 2016-05-12 |
20160128614 | GLUCOSE TEST DEVICE - A glucose test device includes a casing, a carrying unit, consumables, a first push rod, a locking component, a first driving unit and a control unit. The carrying unit is disposed at the casing. The consumables are disposed in the carrying unit. The first push rod is movably disposed at the casing. The first push rod is suitable for moving to push one consumable out of the carrying unit. The locking component is movably disposed at the casing. The first driving unit is connected to the locking component. The control unit is electrically connected to the first driving unit. The control unit is suitable for controlling the first driving unit to drive the locking component to lock the first push rod as unmovable. The control unit is suitable for controlling the first driving unit to drive the locking component to release the first push rod. | 2016-05-12 |
20160128615 | MEDICAL DEVICE INSERTERS AND PROCESSES OF INSERTING AND USING MEDICAL DEVICES - An apparatus for insertion of a medical device in the skin of a subject is provided, as well as methods of inserting medical devices. | 2016-05-12 |
20160128616 | RETRACTABLE FLUID COLLECTION DEVICE - Retractable medical device including a body having an open back end and a front end. A movable member is arranged within the body. The movable member has a back end and a front end. A needle holding member is movable to a retracted position within the movable member when the movable member experiences at least one of: the front end of the movable member is caused to expand generally radially; the back end of the movable member is caused to contract generally radially; the front end of the movable member is caused to expand generally radially when the back end of the movable member is caused to contract generally radially; and axial movement caused by a cap closing off the back end of the body which engages a tapered surface of the back end of the movable member. | 2016-05-12 |
20160128617 | SOCIAL CUING BASED ON IN-CONTEXT OBSERVATION - System and techniques for social cuing based on in-context observation are described herein. A plurality of context attributes about a user and a subject may be received. A period in which an interpersonal interaction between the user and the subject occurs may be determined. A social-interaction-emotional-state may be determined during the period from the plurality of context attributes using a pre-defined classification methodology. A feedback response may be generated based on the determined social-interaction-emotional-state. The feedback may be presented to the user. | 2016-05-12 |
20160128618 | DIAGNOSTIC APPARATUS USING HABIT, DIAGNOSIS MANAGEMENT APPARATUS, AND DIAGNOSTIC METHOD USING SAME - A diagnostic apparatus and a diagnosis management apparatus that utilizes habit data, and a diagnostic method using the same are provided. The diagnostic apparatus includes a habit analyzer configured to generate habit data of a user by analyzing sensor data detected from at least one sensor, and a diagnoser configured to determine whether the user is at risk of a disease, by comparing the generated habit data with diagnostic data including habit data of healthy people. | 2016-05-12 |
20160128619 | WEARABLE DEVICE AND SYSTEM FOR MONITORING PHYSICAL BEHAVIOR OF A VEHICLE OPERATOR - A system uses a wearable electronic device to monitoring behavior of an operator of a vehicle. The wearable device is worn on the head of the operator of the vehicle and includes one or more motion sensors. A processor of the wearable device or of a proximate portable electronic device receives data from the one or more motion sensors and detects a pattern of motion based on the data. The system then may determine a physiological state or physical behavior of the driver based on the detected patterns or motion. Detected physiological states may include head bobs associated with sleepiness. Detected physical behaviors may include dangerous behaviors such as phone usage, prolonged gazes, sudden lane changes, or hard braking or steering. | 2016-05-12 |
20160128620 | THRESHOLD ESTIMATION APPARATUS, THRESHOLD ESTIMATION METHOD, AND NON-TRANSITORY COMPUTER-READABLE INFORMATION RECORDING MEDIUM - In a threshold estimation apparatus, a setting unit sets an initial intensity value for each electrode. A selection unit randomly selects an electrode. A stimulation unit, via the selected electrode, stimulates a living subject at an intensity set for the electrode. A detection unit detects the presence or absence of a response evoked by the stimulation. An update unit reduces or increases the intensity associated with the selected electrode, based on the presence or absence of the response evoked by the stimulation. An estimation unit, if the thus updated intensity associated with each electrode satisfies a convergence condition, estimates a convergence value as a threshold associated with the electrode. The threshold estimation apparatus repeats these processes until thresholds associated with all electrodes are estimated. If the same electrode was consecutively selected, the time interval between a stimulation and a subsequent stimulation is adjusted. | 2016-05-12 |
20160128621 | EVALUATION OF MOVEMENT DISORDERS - This disclosure relates to a system and method to evaluate movement disorders. A movement data aggregator can combine data from a plurality of sensors into an aggregate movement data describing multi-dimensional movement of a handheld device. A calculator to compute an indication of a movement disorder based on the movement vector data and user input data, the user input data being generated in response to physical interaction between the handheld device and a human machine interface of a computing device/machine that is separate from the handheld device. In some examples, the handheld device can communicate with computing device via a wireless interface. | 2016-05-12 |
20160128622 | APPARATUS FOR DETECTING TISSUE HARDNESS OF LIVING BODY - An apparatus for detecting tissue hardness of a living body includes a housing, a cap, a bottom cover, a driving module, a buffering module, a spring pipeline, a push-rod and a detecting module, and the driving module includes a firing spring and a restoring spring, and the two springs have different rigidities so as to form a reciprocating structure of the firing mechanism. After the detecting module of a firing mechanism is triggered, the resilience of the restoring spring compresses the firing spring back to its firing length, so as to restore its position by a single driving point and allow users to complete the firing operation by one hand and simplify the operation of doctors to improve convenience and efficiency. | 2016-05-12 |
20160128623 | CUSHIONING SUPPORT FOR MONITORING USER ACTIVITY - Multi-layer cushion supports are described which may generally comprise a first support having a first contact surface for contacting a portion of a body and a second surface opposite to the first surface, the first support defining a central chamber and a peripheral chamber surrounding the central chamber, wherein the first support is filled with a first gas or liquid and a second support attached to the first support along the first contact surface. The second support may be filled with a second gas or liquid which is relatively more viscous than the first gas or liquid. In particular, the first support may be filled with a volume of air and the second support may be filled with oil which is less than the volume of air. | 2016-05-12 |
20160128624 | THREE DIMENSIONAL IMAGING OF THE MOTION OF TEETH AND JAWS - Pre-calibrated position sensors, and a computer or cloud based service are used to show motion in real time of the teeth and jaws depicting six degrees of freedom. The computer receives anatomically correct 3D images of any portion of the craniomandibular system with a position sensor(s) attached. The position sensor data is then transferred with wireless attachments to the patient to generate true to life motion of the digital 3D models of the teeth and jaws. The 3D models are then employed to provide various techniques for treating bite disorders. | 2016-05-12 |
20160128625 | METHOD AND APPARATUS FOR ADVISING PHYSICAL CONDITION AND RECORDING MEDIUM USING THE METHOD - A method and an apparatus for advising physical condition and a recording medium using the method are provided. In the method, multiple sensing devices are configured for a user to measure data related to the physical condition of the user. The data measured by the sensing devices is collected and integrated to estimate a current physical condition of the user. An advice is concluded at least based on the current physical condition of the user, and prompted for the user. | 2016-05-12 |
20160128626 | EMERGENCY MEDICAL SERVICES SMART WATCH - A system comprising: a wrist-worn device configured to be worn on the wrist of a rescuer performing cardiopulmonary resuscitation (CPR), the wrist-worn device including: one or more sensors coupled with the wrist-worn device, the one or more sensors being configured to sense one or more parameters indicative of a fatigue level of the rescuer; and a sensor interface configured to provide the sensed parameters to one or more external computing devices via an interface; and a wearable computing device configured to be worn by a rescuer, the wearable computing device including: a device interface for receiving information related to CPR; and a display for displaying an indication of the received information. | 2016-05-12 |
20160128627 | IMAGING SYSTEM AND METHOD FOR ENHANCED VISUALIZATION OF NEAR SURFACE VASCULAR STRUCTURES - A sub-dermal structure visualization system and method is disclosed. The system may use an illumination module including: a near-infrared (NIR) light source adapted to substantially uniformly illuminate an imaged area including sub-dermal regions thereof with NIR light; and a first optical system including at least one optical element for controlling at least one of spectral and polarization properties of the NIR light prior to illuminating the imaged area. An imaging module rejects unwanted signals from an imaged area while passing desired optical signals that are to be received by an image acquisition module. The desired optical signals can comprise a vein visualization signal to assist in visualizing a vascular structure below a skin layer of a patient. | 2016-05-12 |
20160128628 | PROJECTED CAPACITIVE DETECTING SYSTEM FOR DETECTING HUMAN ACTIVITIES - A projected capacitive detecting system comprises a sensing pad device and a monitoring module. The sensing pad device comprises at least one sensing array unit and at least one control unit. The at least one sensing array unit comprises multiple sensing electrodes arranged in an array. The at least one control unit is electrically connected to the multiple sensing electrodes to receive capacitances of the multiple sensing electrodes. The at least one control unit performs a capacitance conversion to convert the capacitances of the multiple sensing electrodes to obtain multiple capacitive sensing values and digitize the multiple capacitive sensing values to obtain Boolean true/false results. The monitoring module is electrically connected to the at least one control unit to receive and display the multiple capacitive sensing values and the Boolean true/false results as references for determining human activities. | 2016-05-12 |
20160128629 | APNEA DETECTION SYSTEM AND METHOD - Provided is a method and system to predict a sleep apnea event based upon a sequence of sleep events and mitigate the deleterious effects such an event may have on a person. Some embodiments receive a sequence of sleep events from sensors taking physiological measurements of a person sleeping. These sleep events are compared against grouped sleep apnea events previously gathered from other sleepers with a similar sleep architecture to predict if the person is likely to have a sleep apnea event within an apnea prediction window. If a similar pattern is found, the method sends a sleep apnea warning event responsive to the requested comparison indicating that the person sleeping is likely to experience an imminent sleep apnea event. Various types of sleep entrainment operations may be performed to rouse the person from the sleep to sufficiently to mitigate potential harm from the imminent sleep apnea event. | 2016-05-12 |
20160128630 | Methods and Devices for Accurately Classifying Cardiac Activity - Methods, systems, and devices for signal analysis in an implanted cardiac monitoring and treatment device such as an implantable cardioverter defibrillator. In some examples, captured data including detected events is analyzed to identify likely overdetection of cardiac events. In some illustrative examples, when overdetection is identified, data may be modified to correct for overdetection, to reduce the impact of overdetection, or to ignore overdetected data. Several examples emphasize the use of morphology analysis using correlation to static templates and/or inter-event correlation analysis. | 2016-05-12 |
20160128631 | VAPORIZATION HEAT LOSS MEASURING APPARATUS, METABOLIC EXPENDITURE MEASURING APPARATUS AND METHOD OF MEASURING VAPORIZATION HEAT LOSS - A vaporization heat loss measuring apparatus measures humidity and a temperature of an atmosphere of a surrounding environment using an environmental humidity measuring part and an environmental temperature measuring part. Further, the apparatus measures humidity and a temperature of an atmosphere near a surface of a measuring object using an object humidity measuring part and an object temperature measuring part. Further, the apparatus calculates a vaporization heat loss from the surface of the measuring object using the environmental humidity, the environmental temperature, the object humidity, and the object temperature. Furthermore, the apparatus calculates a non-evaporative heat loss based on a measurement result of a heat flow measuring part, and calculates a metabolic expenditure using the vaporization heat loss and the non-evaporative heat loss. | 2016-05-12 |
20160128632 | GARMENT INTEGRATED SENSING SYSTEM AND METHOD - A system for monitoring biometric signals of a user comprising: a set of wireless sensor interfaces coupled to a garment, each of the wireless sensor interfaces comprising: 1) an electrode layer comprising a receiving region, 2) a positional identifier, associated with a position on the garment, and 3) a retention subsystem; a set of wireless sensor modules, each of the set of wireless sensor modules comprising: a contact region electrically coupleable to the receiving region of the electrode layer, a set of sensors configured to detect a set of biometric signal types, and a positional interrogator configured to identify the position associated with the corresponding wireless sensor interface; and a control module, communicatively coupled to the set of wireless sensor modules, wherein the control module queries a subset of the set of biometric signal types for transmission from each of the set of wireless sensor modules based on their positions. | 2016-05-12 |
20160128633 | CPR Chest Compression Monitor With Reference Sensor - Methods and devices for chest compression depth measurement for CPR. | 2016-05-12 |
20160128634 | MEASURING SYSTEM AND METHOD FOR EVALUATING CONDITION OF PATIENT - A measuring system includes a first sensor, a second sensor, a first measurement value calculator that, based on a change of an amount of received light that is measured by the first sensor, calculates a first measurement value indicating an index related to a blood oxygen saturation or a blood refill time, a second measurement value calculator that, based on a change of an amount of received light that is measured by the second sensor, calculates a second measurement value indicating an index related to a blood oxygen saturation or a blood refill time, and a pressure controller that controls the first sensor and the second sensor so that a time difference between a start of compression release by the first sensor and a start of compression release by the second sensor is within a predetermined time period. | 2016-05-12 |
20160128635 | EVALUATION OF THE QUALITY OF ELECTRODE CONTACT WITH A SKIN SURFACE - An instrument that utilizes body contact electrodes evaluates the quality of the connections made between the electrodes and the body. An electrode contact quality evaluation circuit performs the quality evaluation, such as by determining contact impedances for the electrodes. The corresponding contact quality of each electrode is conveyed to the user. | 2016-05-12 |
20160128636 | FABRICATION, METHODS, APPARATUSES, AND SYSTEMS FOR ULTRA-COMPLIANT PROBES FOR NEURAL AND OTHER TISSUES - Methods, systems and apparatuses of ultra-miniature, ultra-compliant probe arrays that allows for design flexibility to match the stiffness of the tissue it is being applied to, such as the brain tissue, in all three axes (x, y and z), with interconnect cross section smaller than cell dimensions. Stiffness matching requires specific geometric and fabrication approaches, commonly leading to ultra-thin probe wires. Sizing of the electrodes for specific cell dimensions reduces glial formation. Further reduction in stiffness is obtained by incorporating different geometric features to the electrode, such as meandering the electrode wires. The small thickness and geometric features of the wires commonly result in very high compliance. To enable effective insertion of the probes to the tissue, the present invention uses stiff biodisolvable and/or biodegradable polymers, including single use or combinations of carboxymethyl cellulose, polyvinylpyrrolidone, polyvinyl alcohol, maltose, other sugar molecules, polylactic acid and its co-polymers. | 2016-05-12 |
20160128637 | Apparatus for Generating Data Output Containing Physiological and Motion-Related Information - A method of generating a data string containing physiological and motion-related information includes sensing physical activity of a subject via at least one motion sensor attached to the subject, sensing physiological information from the subject via at least one photoplethysmography (PPG) sensor attached to the subject, and processing signals from the at least one motion sensor and signals from the at least one PPG sensor into a serial data string of physiological information and motion-related information. A plurality of subject physiological parameters can be extracted from the physiological information, and a plurality of subject physical activity parameters can be extracted from the motion-related information. The serial data string is parsed out such that an application-specific interface can utilize the physiological information and motion-related information for an application that generates statistical relationships between subject physiological parameters and subject physical activity parameters in the physiological information and motion-related information. | 2016-05-12 |
20160128638 | SYSTEM AND METHOD FOR DETECTING AND QUANTIFYING DEVIATIONS FROM PHYSIOLOGICAL SIGNALS NORMALITY - A system for detecting and quantifying deviations from physiological signals normality and methods for making and using same. Each subject physiology follows unique patterns. The physiological signals can be affected by one or more factors such as circadian rhythm, disease and/or external stressors. Deviations of physiological signals from the normality of a subject can be indicative of external events that might require proper lifestyle management or just in time interventions, such as being exposed to high stress or the progress/onset of specific disease conditions. The disclosed system advantageously can quantify such deviations. | 2016-05-12 |
20160128639 | GRAPHICAL TECHNIQUE FOR DETECTING CONGESTIVE HEART FAILURE - The invention provides a system to better detect the onset of congestive heart failure (CHF). The system consists of two primary components—the CHF Index Graph (CHFIG) and a body-worn sensor for measuring the necessary parameters—that correctly measure and analyze a set of parameters related to CHF. The CHFIG typically consists of 7 or 8 unique axes, each corresponding to a different CHF-related parameter. Each axis is normalized and scaled so that the plotted values trend outwards as a patient's trajectory towards CHF worsens. Titus, the area of a region constructed from the plotted values of the parameters increases as the values move further away from the center of the graph; this indicates the patient is trending towards CHF. Conversely, a healthy patient's parameters will be clustered relatively close to the center of the graph, creating a region with a much smaller area. | 2016-05-12 |
20160128640 | DETECTING APPARATUS FOR ARRHYTHMIA AND DETECTING METHOD OF THE DETECTING APPARATUS - An apparatus ( | 2016-05-12 |
20160128641 | ACTIGRAPHY METHODS AND APPARATUSES - An actigraphy method includes receiving a physiological parameter signal as a function of time for a physiological parameter other than body motion (such as electrocardiography or a respiration monitor), computing a body motion artifact (BMA) signal as a function of time from the physiological parameter signal (for example, using a local signal power signal, a local variance signal, a short-time Fourier transform, or a wavelet transform over epochs of duration on order a few minutes or less), and computing an actigraphy signal as a function of time from the BMA signal, for example by applying a linear transform to the BMA signal and optionally applying filtering such as median removal and/or high-pass filtering. | 2016-05-12 |
20160128642 | Method and System for Functional Balance Assessment - A system comprising: at least one platform configured for, in use, having a person on it, said platform comprising a plurality of sensors configured for capturing information of forces/pressures applied by the feet of the person or of the position of the person's feet; means for, from said captured information, respectively extracting either a center of pressure or the position of the feet; at least one reference signal disposed at a known location with respect to said platform; at least one sensor which, in use, is connected to the body of the person situated on said platform, the sensor being configured for capturing said at least one reference signal; processing means for extracting information from said at least one captured reference signal and for estimating the position and/or orientation of said at least one sensor; processing means for estimating the position and/or orientation of the body of said person; processing means for calculating a stability index from said position and/or orientation of the body of said person and from said extracted feet position or center of pressure. | 2016-05-12 |
20160128643 | SIGNAL PROCESSING APPARATUS, IMAGING APPARATUS, AND SIGNAL PROCESSING METHOD - In one embodiment, a signal processing apparatus includes a storage circuit and processing circuitry configured to (a) generate detection parameters for detecting a specific signal included in a biosignal relevant to a heartbeat, based on a waveform of the biosignal, (b) store the detection parameters in the storage circuit, (c) detect the specific signal by using the detection parameters, and (d) generate a synchronization signal for performing heartbeat synchronization imaging based on the specific signal. | 2016-05-12 |
20160128644 | EARLY CONFIRMATION OF A PROLONGED APERIODIC MEASUREMENT - A medical device ( | 2016-05-12 |
20160128645 | Alarm Characterization for Analyte Monitoring Devices and Systems - Methods and apparatus including determining a rate of occurrence of a glycemic excursion event, determining a frequency of an alarm activation associated with the glycemic excursion event, determining an analyte level associated with the alarm activation, and setting an alarm parameter based on one or more of the determined rate of occurrence of the glycemic excursion event, the frequency of the alarm activation associated with the glycemic excursion event or the determined analyte level are provided. | 2016-05-12 |
20160128646 | Medical device with context-specific interfaces - A medical device includes: a processor; a display; and memory encoding instructions that, when executed by the processor, cause the processor to create an interface on the display, the interface including: a login area including one or more prompts for information identifying a user of the medical device; a profile selection area including two or more profiles offered by the device, wherein each of the profiles is a series of tasks to be performed by the medical device, and a description of each profile is provided in the profile selection area; a vital signs area programmed to display a plurality of vital signs associated with a patient; and an additional parameters area programmed to capture one or more additional parameters associated with the vital signs displayed in the vital signs area. | 2016-05-12 |
20160128647 | Medical Device With Enhanced Viewing Mode - A medical device includes: a processor; a display; and memory encoding instructions that, when executed by the processor, cause the processor to create an interface on the display, the interface including: a plurality of vital signs data positioned on the interface, with each vital sign being displayed in an enlarged font and being listed in order of importance; and a control for accessing other functionality of the medical device. | 2016-05-12 |
20160128648 | CONTROL DEVICE FOR CONTROLLING TOMOSYNTHESIS IMAGING, IMAGING APPARATUS, IMAGING SYSTEM, CONTROL METHOD, AND PROGRAM FOR CAUSING COMPUTER TO EXECUTE THE CONTROL METHOD - In tomosynthesis imaging for obtaining a tomosynthesis image from a projected image group captured by irradiating an object with X-rays from a plurality of different angles by using an X-ray generation unit and an X-ray detection unit, in association with a process for setting data of a projected image group as a reject, data of a tomosynthesis image generated on the basis of the projected image group is set as a reject. | 2016-05-12 |
20160128649 | CONTROL DEVICE FOR CONTROLLING TOMOSYNTHESIS IMAGING, IMAGING APPARATUS,IMAGING SYSTEM, CONTROL METHOD, AND PROGRAM FOR CAUSING COMPUTER TO EXECUTE THE CONTROL METHOD - In tomosynthesis imaging for obtaining a tomosynthesis image from a projected image group captured by irradiating an object with X-rays from a plurality of different angles by using an X-ray generation unit and an X-ray detection unit, whether or not to cause a new icon corresponding to set process conditions to be displayed on a display unit is controlled in accordance with process conditions set by a condition setting unit | 2016-05-12 |
20160128650 | Hybrid Detector Modules and Dynamic Thresholding for Spectral CT - A system and method that comprises an X-ray source configured to emit an X-ray beam; an object positioned to receive the X-ray beam; a detector configured to receive an attenuated beam of the X-rays through the object for measuring projection data from various orientations that can be used to generate spectral images in terms of energy-dependent linear attenuation coefficients, and a detector, as described above, comprising one or more energy-integrating detector elements and one or more photon counting detector elements in one or more detectors array or separate detector arrays. The photon counting detector elements may also use dynamic thresholds to define energy windows. | 2016-05-12 |
20160128651 | RADIATION DETECTION MODULE AND RADIATION DETECTION UNIT - A radiation detection module for a CT device that detects radiation includes a detecting section configured to detect radiation, a processing section configured to process a signal from the detecting section, and a heat radiating member thermally coupled to the processing section and configured to dissipate heat generated by the processing section. The heat radiating member has a plurality of fins. The plurality of fins is spaced apart from each other in a first direction along a slice direction of the CT device. Each of the plurality of fins has a plate shape extending so as to intersect the first direction. | 2016-05-12 |
20160128652 | PRODUCTION METHOD FOR RADIATION DETECTION UNIT - According to a method for producing a radiation detection unit, in a first step, a side portion of a first radiation detection module and a first protrusion are abutted. In a second step, a second radiation detection module is arranged within a region from which the first protrusion has been removed, and a side portion of the second radiation detection module and a second protrusion are abutted, after the first step. In a third step, each of the mounting portion of the first radiation detection module and the mounting portion of the second radiation detection module is arranged opposing a frame while spaced apart from the frame, and each of the first radiation detection module and the second radiation detection module is mounted on the frame. | 2016-05-12 |
20160128653 | RADIOLOGICAL IMAGING DEVICE WITH IMPROVED FUNCTIONALITY - A radiological imaging device including a gantry defining an analysis zone in which at least a part of the patient is placed, a source suitable to emit radiation, and a detector arranged to receive the radiation and to generate data signals based on the radiation received. The device also includes a horizontal gantry rotation apparatus having a ring to which the source and the detector are mounted and a rotational bearing member configured to rotate the ring. Also included is a control unit adapted to acquire an image from data signals received from the detector while the horizontal gantry rotation apparatus rotates the ring to scan the patient. The radiological imaging device can include at least one of a vertical gantry rotation apparatus, a lifter system, a roller support system, a cooling system, a source tilting device, and a translational apparatus configured to translation a position of the detector. | 2016-05-12 |
20160128654 | Systems and Methods for Intra-Operative Image Analysis - A system and method that acquire (i) at least a reference image including one of a preoperative image of a surgical site with skeletal and articulating bones and a contralateral image on an opposite side of the patient from the surgical site, and (ii) at least an intraoperative image of the site after an implant has been affixed to the articulating bone. The system generates at least one reference landmark point on at least one anatomical feature on the articulating bone in the reference image and at least one intraoperative landmark point on that anatomical feature in the intraoperative image. The reference and intraoperative images are compared, and differences between the orientation of the articulating bone in the two images are utilized to analyze at least one of offset and length differential. | 2016-05-12 |
20160128655 | SENSOR HOLDING APPARATUS FOR FACILITATING DENTAL IMAGING - A sensor holding apparatus for facilitating dental imaging, in accordance with one embodiment of the present invention, comprises a handle, an elongated shaft, and a sensor holder. The holder includes a coupling component configured to removably attach to a portal end of the shaft. The shaft comprises a cross-section adapted to receive a user's bite, the cross-section having a substantially polygonal perimeter to aid manipulation of the sensor inside the patient's mouth. The sensor holder further comprises a substantially flat body having a substantially flat surface adapted for removably attaching a sensor to the sensor holder. Furthermore, the substantially flat surface of the body of the sensor holder may comprise at least one edge that is adapted for removably attaching the sensor to the sensor holder by a pressure, or the sensor holder may be configured to receive an adhesive for removably attaching the sensor to the sensor holder. | 2016-05-12 |
20160128656 | DRIVE SYSTEM FOR IMAGING DEVICE - A drive mechanism for a mobile imaging system comprises a main drive geared into a drive wheel for propelling the imaging system, including a base and one or more imaging components, across a surface. The drive mechanism can also include a scan drive that moves the drive mechanism and the one or more imaging components along an axis relative to the base to provide an imaging scan, and a suspension drive that extends the drive wheel relative to a bottom surface when the imaging system is in a transport mode and retracts the drive wheel relative to the bottom surface of the base when the imaging system is in an imaging mode. The drive wheel supports the weight of the imaging components, but does not directly support the base assembly, which can include pedestal and tabletop support. One or more casters located on the base can support the weight of the base assembly. | 2016-05-12 |
20160128657 | Portable Cadmium Zinc Telluride (CZT) Image Identification System - There is provided a portable cadmium zinc telluride image identification system that uses an X-ray source with a novel sensing mitt that can be worn or held by the user. The sensing mitt is connected to a display that may be a stand-alone display, worn as glasses or otherwise integrated into the sensing mitt. The sensing mitt contains a detector array such as, but not limited to, a cadmium zinc telluride crystal or a plurality of crystals in a matrix. A collimator is placed in front of the sensing surface of the cadmium zinc telluride crystal and a processor is used to convert a representation of the electrical signals received from the cadmium zinc telluride crystal or similar detector array into display signals that are used by the display to provide an image of the subject of interest. | 2016-05-12 |
20160128658 | METHOD AND SYSTEM FOR DETECTING A PORTABLE DIRECT RADIOGRAPHIC PANEL IN A MULTI-STAND RADIOGRAPHIC EXPOSURE ROOM - A method for detecting the presence of a portable direct radiographic panel in a medical imaging system including radiographic exposure stands, each stand and each panel being provided with an NFC tag, includes positioning a panel in an exposure stand such that the NFC tags of the panel and the stand are in each other's operating range, detecting the presence of the panel in the exposure stand by a-communication between the NFC tags, and communicating the presence of the panel in the exposure stand to the medical imaging system. | 2016-05-12 |
20160128659 | METHOD OF CONTRAST ENHANCED BREAST IMAGING, AND CONTRAST AGENT REFERENCE INSERT - A method of contrast enhanced breast imaging, comprising injecting a contrast agent in a breast of a patient, imaging at the same time both said breast and a reference insert containing at least one known concentration of said contrast agent, quantifying enhancement of contrast enhanced breast image by comparing said breast image and reference insert image. | 2016-05-12 |
20160128660 | AMYLOID PET BRAIN SCAN QUANTIFICATION BASED ON CORTICAL PROFILES - A medical system ( | 2016-05-12 |
20160128661 | METHOD AND SYSTEM FOR IMAGE PROCESSING TO DETERMINE PATIENT-SPECIFIC BLOOD FLOW CHARACTERISTICS - Embodiments include a system for determining cardiovascular information for a patient. The system may include at least one computer system configured to receive patient-specific data regarding a geometry of the patient's heart, and create a three-dimensional model representing at least a portion of the patient's heart based on the patient-specific data. The at least one computer system may be further configured to create a physics-based model relating to a blood flow characteristic of the patient's heart and determine a fractional flow reserve within the patient's heart based on the three-dimensional model and the physics-based model. | 2016-05-12 |