A cardiac catheter inspection apparatus comprising: an acquiring section (31) which is configured to acquire a first waveform of heart beats during sinus rhythm, and an arrhythmia waveform during arrhythmia; a measuring section (31) which is configured to measure a second electrocardiogram; a first calculating section (32) which is configured to calculate correction coefficients for statistically matching the first electrocardiogram and the second electrocardiogram with each other; a waveform producing section (34) which is configured to produce a comparison waveform that functions as an object to be compared with a response waveform of pacing performed by a cardiac catheter; and a second calculating section (36) which is configured to calculate a matching rate of the response waveform and the comparison waveform.

A system of estimating acclimatization to environmental conditions and providing a corrected fitness level estimates based on the acclimatization level. The environmental conditions are particularly related to heat and altitude. At first previous training history is provided including a plurality of day records, where each day record includes a date stamp and information regarding altitude and optionally temperature and humidity and training history including timestamp and training load data from executed exercises in stored records.

The present invention relates to a magnetic resonance imaging system (1) comprising an infrared camera system for monitoring a subject when undergoing an examination while positioned in an examination zone (11) of the magnetic resonance imaging system. The infrared camera system comprises an infrared camera (21). The magnetic resonance imaging system further comprises a coating (2) on at least one wall of a room housing the magnetic resonance imaging system, and/or on an interior wall of a magnet assembly (10) around the examination zone and/or on auxiliary equipment of the magnetic resonance system for use inside the examination zone, in which the is adapted to absorb and/or diffusely reflect infrared light, so as to avoid spurious reflections and/or to provide diffuse auxiliary lighting.

Methods and systems for patient participatory care and monitoring are provided for applications including respiratory care, ECG monitoring, capnography, infusion pump alarm prevention/management, pressure sore prevention, incentive spirometry, consciousness monitoring during sedation, pain management and other care and monitoring modalities. A patient in-the-loop system includes an input interface for receiving data acquired from a monitoring, controlling or sensing device, a storage device for storing the data at a first location, and a processor for analyzing artifacts in the data and determining whether the patient provided a deliberate action with respect to the device as a response to a prompt or query. The processor can further initiate a variety of prompts and/or output queries stored in the storage device at a second location to the patient. The data derived from these patient-in-the-loop techniques are formatted to be received and interpreted by electronic medical record and electronic record keeping systems.

Methods and systems for patient participatory care and monitoring are provided for applications including respiratory care, ECG monitoring, capnography, infusion pump alarm prevention/management, pressure sore prevention, incentive spirometry, consciousness monitoring during sedation, pain management and other care and monitoring modalities. A patient in-the-loop system includes an input interface for receiving data acquired from a monitoring, controlling or sensing device, a storage device for storing the data at a first location, and a processor for analyzing artifacts in the data and determining whether the patient provided a deliberate action with respect to the device as a response to a prompt or query. The processor can further initiate a variety of prompts and/or output queries stored in the storage device at a second location to the patient. The data derived from these patient-in-the-loop techniques are formatted to be received and interpreted by electronic medical record and electronic record keeping systems.

A radiation suite includes a room having a floor, a ceiling, and one or more walls, a radiation system including a gantry enclosing a radiation source and a couch, and an image projection system operable to project an image on a projection surface on at least a portion of the gantry and/or the couch, providing a calming environment for a patient to relax. The image projection system comprises a computer and one or more projectors operably controlled by the computer. The computer comprises a mapping software operable to map an image file to the projection surface. The one or more projectors are operable to project the mapped image file on the projection surface.

Apparatuses, components, devices, methods, and systems for determining jaw movement are provided. An example patient assembly for capturing motion data of a patient includes a clutch configured to be worn by the patient on a dentition of the patient. The clutch includes a dentition coupling device configured to couple to the dentition of the patient and includes an extension member configured to protrude through the patient's mouth. The clutch also includes a position indicating system rigidly connected to the dentition coupling device. An example position indicating system emits a plurality of light beams. Some examples also include an imaging system and a motion determining device. An example imaging system captures a plurality of image sets that each include at least one of a plurality of screens upon which the light beams project. An example motion determining device processes the captured image sets to determine the motion of the patient's dentition.

The present invention provides methods and apparatuses to assess vascular stiffness of a subject, and to assess diabetes or hypertension from the assessment of vascular stiffness. Example embodiments comprise determining arrival at a peripheral site of a blood pressure wave as a function of time relative to the cardiac cycle of the subject at a plurality of measurement conditions, wherein at least two of the conditions are characterized by at least one of: (a) different central transmural pressure, (b) different peripheral transmural pressure; assessing vascular stiffness from the determinations at the plurality of measurement conditions.

Disclosed are a method and a device for obtaining a safe interval of a human body parameter in a built environment, a terminal device, and a storage medium. The method includes: obtaining a first facial image, a benchmark human body parameter, and a human body posture analysis result of a target user in a target built environment; inputting the first facial image into an emotion analysis model to obtain an emotion analysis result; and obtaining the safe interval of the human body parameter of the target user according to the emotion analysis result, the human body posture analysis result, and the benchmark human body parameter.

Systems, methods, and non-transitory computer-readable storage media for constructing a clinically-derived and personalized blood cell mobilization prediction models, enhancing the understanding of a blood tests by excluding the contemporary effect of the contemporary activity from the contemporary blood sample data, optimizing a vaccine by maximizing a concentration of a collection of immune cells which interact with the collection of antigens present in the vaccine can be prescribed, and enhancing the reliability of activity data by accounting for inconsistencies, gaps in data, etc. that is collected from telemetric devices.