System and method for generating acupuncture points on reconstructed 3D human body mesh for physical treatment are disclosed. The computing device obtains a first two-dimensional image of a human subject that captures at least a predefined portion of the human subject; processes the first two-dimensional image of the first human subject using a trained human body recovery model to obtain a plurality of parameters representing a three-dimensional human body mesh with corresponding acupuncture points. The trained human body recovery model includes an iterative three-dimensional regression module that is supervised by a discriminator and that minimizes a combined loss below a preset threshold. The combined loss includes a discriminator error that provides a measure of whether the obtained three-dimensional human body mesh with corresponding acupuncture points correspond to real human shape, pose, and acupuncture points.

Systems and methods for lean muscle mass monitoring of patients and for identifying and treating at least one of Cachexia or Sarcopenia are disclosed. The system may include a dynamometer provided to patients, the dynamometer being configured to perform remote monitoring. The dynamometer may be used and data may be collected by patients without the supervision of a healthcare professional. Using the collected data, lean muscle mass may be tracked over time, to provide fast and accurate assessment of conditions. Using such an assessment, early treatment options can be targeted to patients to avoid progression into various disease states, for examples, more severe states of at least one of Cachexia or Sarcopenia.

In embodiments, a wearable cardioverter defibrillator (WCD) system includes a support structure for wearing by an ambulatory patient. When worn, the support structure maintains electrodes on the patient's body. Different pairs of these electrodes define different channels, and different patient ECG signals can be sensed from the channels. The ECG signals can be analyzed to determine which one is the best to use, for the WCD system to make a shock/no shock decision. The analysis can be according to widths of the QRS complexes, consistency of the QRS complexes, or heart rate agreement statistics.

A detection device for detecting posture and movement of a user is provided. The detection device has a main body insertable or integrated in a footwear, a detection group embedded in the main body and having at least one detection member having at least one accelerometer element and at least one gyroscope element. The detection device has a power supply group embedded in the main body and having a generator organ of alternating current, and a generator organ of direct current connected to the generator organ of alternating current to receive and transform alternating current into direct current to supply electricity to the detection group.

Embodiments of the present disclosure relate to implantable biosensors configured to be implanted into tissue of a subject at an implantation site. In an exemplary embodiment, the implantable biosensor comprising: an electronic module and a compliant sensing tether extending from the electronic module. The compliant sensing tether comprising a proximal portion coupled to the electronic module, a distal portion spaced apart from the electronics module, and an intermediate portion joining the proximal portion to the distal portion. The proximal portion has a first flexibility and the distal portion having a second flexibility. The second flexibility of the distal portion being greater than the first flexibility of the proximal portion. The distal portion comprises a sensor configured to sense a signal corresponding to an analyte of the subject, wherein the signal corresponding to the analyte is transferred to the electronics module via the compliant sensing tether.

A joint motion measurement apparatus includes securing mechanisms that secure sensors to various body parts such as the leg, including the femur, tibia, malleoli and/or calcaneus. The sensors are configured to measure a position and/or motion of the various parts of the leg relative to one another. The sensor data is usable to determine kinematic and/or muscle properties of the leg including knee laxity, tibiofemoral measurements and/or spastic properties.

Described herein are systems, devices, and methods for remote assessment and correction of baseline pressure instability of medical pressure sensors. The present disclosure enables centralized surveillance of baseline pressure instability, which provides a technical solution for manufacturers of pressure sensors and/or pressure transducer systems to monitor the proper function of their products. Moreover, health care personnel are provided with means to assess pressure sensor instability and get corrected pressure scores, neither of which are presently unavailable. The disclosure thereby provides a technical solution to a problem of medical pressure sensors that represents risk of harm to patients.

A data transmission system for transmitting an electrical data to a nerve cell. A data receiving system for receiving an electrical data from a nerve cell has at least two phototransistor crystals that is stimulated by light to form an electrical signal; an image source that allows the light to be sent to the phototransistor crystals and allows controlling the amount of light transmitted to each phototransistor crystal independently of each other, and at least one control unit that is connected to the image source that controls the amount of light transmitted from the image source to each of the phototransistor crystals.

A system is disclosed herein for providing a kinetic assessment and preparation of a prosthetic joint comprising one or more prosthetic components. The system comprises a prosthetic component including sensors and circuitry configured to measure load, position of load on a curved surface, joint stability, range of motion, and impingement. In one embodiment, the system is for a ball and socket joint of a musculoskeletal system. The system further includes a computer having a display configured to graphical display quantitative measurement data to support rapid assimilation of the information. The kinetic assessment measures joint alignment under loading that will be similar to that of a final joint installation. The kinetic assessment can use trial or permanent prosthetic components. Furthermore, adjustments can be made to the applied load magnitude, position of load, and joint alignment by various means to fine-tune an installation.

A tremor-reduction system is provided that delivers electric current to a body region of a subject that is associated with a tremor. A computing device stores received data associated with a tremulous movement of the body region and determines measurements associated with the stored data. If a magnitude of the most recent tremulous movement is the same as or greater than magnitudes associated with prior tremulous movements, characteristics of a subsequent electric current to be applied to the body region may be adjusted.