A system and method for providing health care diagnosis, and more specifically, to a system and method for providing automated health condition review and diagnosis with testing recommendations is disclosed. The system includes a condition analyzer server coupled to online prior medical records sources, a current treating facility processor for generating a set of current patient data, the current patient data comprises observations, conditions, vital signs, and complaints, and a data storage device containing one or more sets of one or more predetermined criteria from reference sources and record results. The condition analyzer server return a report containing recommendations potential diagnosis, additional testing recommendations, and reference source materials utilized in generating the potential diagnosis, and additional testing recommendations to the current treating facility.

An external wearable medical device includes a plurality of electrocardiogram (ECG) sensors, at least one accelerometer configured to be disposed on a patient, and at least one processor operatively coupled plurality of ECG sensors and the at least one accelerometer. The at least one processor is configured to receive an ECG signal from the plurality of ECG sensors, receive patient activity data from the at least one accelerometer, and detect, based on the patient activity data from the at least one accelerometer, data indicative of an impending syncope event. The at least one processor is configured to issue a notification of the impending syncope event, and store in a memory during a first time period data comprising the ECG signal in association with information descriptive of impending syncope event, and transmit to a remote server during a second time period the stored data for analysis at the remote server.

Methods, systems, and apparatuses for employing nanobubbles for theranostic purposes are provided. In one embodiment, a method comprising introducing a photothermal nanobubble into a malaria-infected red blood cell is provided.

Systems and methods to provide remote patient monitoring for viral-respiratory symptoms, including coronavirus or COVID-19 symptoms are disclosed, including a signal receiver circuit configured to receive first and second physiologic information of a patient, the first physiologic information comprising respiration rate information of a patient and the second physiologic information different than the first physiologic information, and an assessment circuit configured to determine an indication of patient viral-respiratory disease using the received first and second physiologic information.

A method of using a sensor platform of a garment of a wearer in order to interact with a remote networked device using a plurality of sensed biometric data, the method comprising: receiving from the sensors a set of the plurality of biometric data; comparing the set to a data model including a plurality of model data parameters; determining whether said comparing indicates a need for a command to be sent to the remote networked device in order to effect a change in an operational characteristic of the networked device; sending the command to the networked device; receiving a further set of the plurality of biometric data; further comparing the further set to the data model; and determining whether said further comparing indicates a need for a further command to be sent to the remote networked device in order to further effect a change in an operational characteristic of the networked device.

According to some embodiments, a wearable medical device capable of treating a patient presenting with syncope is provided. The wearable medical device includes a memory storing event profile information, a battery, at least one treatment electrode coupled to the battery, at least one processor coupled to the memory and the at least one treatment electrode, and an event manager executed by the at least one processor. The event manager is configured to detect an event associated with syncope; store, in the memory, data descriptive of the event in association with an indication that the data includes data descriptive of a syncopal event; and address the event.

An external wearable defibrillator for monitoring a patient for cardiac-related events is provided. The defibrillator includes ECG sensors configured to be disposed about a torso of the patient, therapy electrodes, and at least one motion sensor. The ECG sensors, therapy electrodes, and at least one motion sensor are configured to be worn continuously for an extended period of time. The defibrillator includes a wearable medical device controller including at least one processor configured to receive ECG data, receive motion data, identify at least one of ventricular tachycardia or ventricular fibrillation, initiate a treatment protocol including a defibrillation shock, and, using at least one of the ECG data or the motion data, identify a predetermined pattern for syncope. The predetermined pattern includes bradycardia. The at least one processor is further configured to record the predetermined pattern in a memory and perform an intervening action to address the predetermined pattern.

An in-vivo observation system including: an excitation device (150) that vibrates an object in a living body; an event vision sensor (200) that detects, as an event, a change due to the vibration in a luminance value of light emitted from the object; and an estimation unit (528) that estimates a characteristic of the object on a basis of sensing data from the event vision sensor is provided.

Provided is a biological information processing method and a device, a recording medium and a program that are able to predict and control changes in the state of an organism. The expression level of molecules in an organism is measured over a specific time interval; the measured time-series data is divided into a periodic component, an environmental stimulus response component and a baseline component; constant regions of the time-series data are identified from variations in the baseline component or from the amplitude or periodic variations of the periodic component; and causal relation between the identified constant regions is identified. The relation between the external environment and variations in the internal environment is identified and from the identified causal relation between the constant regions, changes in the state of the organism are inferred.

Disclosed is a method for selecting a suitable inhaler device to a user. The method comprises using a spirometer and a computer comprising a display. The method comprising the following steps: A) connecting the spirometer and the computer; B) the computer, or spirometer, indicating to the user to inhale through the spirometer; C) the spirometer sending flow over time data of the inhalation made to the computer; and D) the computer comparing the flow over time data with dose emission over time data for a range of inhalers and indicating the suitable inhaler from the range of inhalers as the inhaler with the largest dose emission within the flow over time data. Disclosed is also a system for establishing a suitable inhaler device. The system comprises a spirometer and a computer connectable to each other for data transfer. The spirometer or the computer is configured to indicate to the user to inhale through the spirometer. The spirometer is configured to send flow over time data of the inhalation made to the computer. The computer is configured to compare the flow over time data with dose emission over time data for a range of inhalers and indicating the suitable inhaler of the range of inhalers as the inhaler with the largest dose emission within the flow over time data.