A method and system for expediting the rescue of victims experiencing sudden cardiac arrest (SCA) when used in conjunction with an automated external defibrillator (AED). The system involves an apparatus that calls for help (i.e. 911), detects SCA and cardiac arrhythmias, locates an AED, guides the rescuer through CPR and connection of the AED. A second apparatus is in the enclosure that contains the AED, sends location information to the other apparatus, triggers audible and visual indicators, and provides information on the victim's location.

The exemplary embodiments herein provide an electrocardiograph device having a harness with a slot and an electrode comprising an electrode body, a proximate base extending away from the electrode body, and a conductive post extending away from the proximate base and located within the slot, said conductive post preferably having a shaft which connects to a distal tip. A retaining element is preferably located between the harness and the distal tip and slidably secures the conductive post within the slot.

Medical radar devices, including ultra-wideband (UWB) devices, for use in assisting and/or guiding cardiopulmonary resuscitation (CPR) by indicating one or more of: compression depth, compression frequency, and a return to spontaneous circulation. The devices and methods described herein may use reflected energy applied to a patient's chest to determine cardiac motion and/or chest compression and provide feedback to the person applying the CPR. In some variations the device is incorporated as a part of another resuscitation device, such as a defibrillator or automatic compression device.

Example defibrillator electrode assemblies compression assemblies are described that may be dimensioned and configured for use on a patient despite physical constraints that limit the area or locations on a patient onto which an electrode assembly may be placed. A cardio pulmonary resuscitation (CPR) assembly is also described that protects a patient with a transthoracic incision from further injury during application of CPR compressions proximate to the incision.

A system for use in health care, configured to diagnose, instruct, and plan treatment for a patient. The system comprises a controller having three modes of operation: an autonomous decision-making mode; a patient interactive mode; and a doctor interactive mode. The controller is configured to use artificial intelligence in operation of the modes to analyze data obtained from at least some of the patient, health care provider, a diagnostic test, or a medical database. If indicated by an output from the analyzed data, the controller recommends diagnostic tests or clinical procedures, or provides instruction to robotically perform the test. Iterative operation of the system refines the output of analyzed data, enabling the system to provide a diagnosis and treatment plan for a patient. The system may be configured to process an outpatient visit to the emergency room from presentation to discharge.

An envelope is comprised of two sheets of material that are placed one on top of each other with their interior sides facing each other with their edges sealed to each other with an adhesive to form an airtight enclosure. The envelope has at least one medical patch inside it that is attached to the interior side of at least one of the sheets and a layer of medical grade pressure sensitive adhesive surrounding the at least one medical patch. The pressure sensitive adhesive is applied to a part of the surface of the interior side of the sheet in order to attach the sheet of material and the at least one medical patch to the body of a patient. The medical patch can be an electrode for measuring a patient's vital signs or delivering an electric shock or a transdermal patch for delivering a drug to a patient.

A device for first responders and medical professionals to assist during the administration of cardiopulmonary resuscitation (CPR) on a patient in need thereof. The device may also be used to train individuals on how to properly perform cardiopulmonary resuscitation by providing initial instructions about the process as well as real-time monitoring of the student's technique and providing real-time instructive feedback to the student so that the student may improve their skills. The invention also includes a method of using the device to coach first responders and medical professionals as they perform cardiopulmonary resuscitation (CPR) on a patient in need thereof as well as a method of using the device to teach students about cardiopulmonary resuscitation (CPR).

Methods and systems that analyze electrocardiogram (ECG) data to identify whether it would be beneficial for a caregiver to administer an electric shock to the heart in an effort to get the heart back into a normal pattern and a consistent, strong beat. By conducting a running check for conditions that are pre-validated by a comprehensive patient database to have high predictive value (e.g., with a low false-positive rate), a shockable rhythm can be identified fast (e.g., less than 6 seconds, less than 3 seconds, possibly in less than a second) and without having to analyze ECG data for longer time segments than would otherwise be required using conventional methods.

The invention is autonomous aircraft disease detection system including an on-board medical device for obtaining medical samples from passengers, flight crew or from the cabin air, a pathogen testing station for analyzing the medical samples, and air samples, and a disease detection docking station using a data processor to produce disease detection results, and a transmitter automatically notifying ground-based facilities of any indication of a viral pathogen.

The present disclosure describes a closed-loop fluid resuscitation and/or cardiovascular drug administration system that uses continuous measurements and adaptive control architecture. The adaptive control architecture uses a function approximator to identify unknown dynamics and physiological parameters of a patient to compute appropriate infusion rates and to regulate the endpoint of resuscitation.