Abstract: The present invention relates a system for remote monitoring and programming of an implantable neurostimulator for deep brain stimulation, comprising: an implantable neurostimulator configured to stimulate at least one target site of brain; an external wireless device in communication with the implantable neurostimulator; and a remote mobile device configured to communicate and exchange data with the implantable neurostimulator through the external wireless device over a communication network.
Abstract: Disclosed is a method for executing one or more algorithms for monitoring one or more medical assets within a Bluetooth low energy enabled wireless network, wherein the method comprises of identifying and classifying one or more medical assets to be monitored. Further, the method generates fingerprint based on the vibration pattern using a vibration sensor determined for one or more medical assets. Further, the method associates the generated fingerprint with wireless Radio Frequency Identification (RFID) tags and Real Time Locating System (RTLS) tags and executes the algorithm for monitoring one or more medical assets using the RFID and RTLS tags.
Abstract: Disclosed is a system and method for initializing a therapeutic treatment for normalizing a high-priority physiology data by determining the criticality of the patient. The method monitors the physiology data of the patient and determines the criticality of the patient's condition based on the priority computed for the monitored physiology data. Further, the method initiates a therapeutic treatment to normalize the high-priority monitored physiology data by allowing the user to provide input values.
Abstract: The present invention relates a method of treating heart failure in patients with coincident atrial fibrillation, the method comprising: screening of patients for selection of potential responders to neurostimulation based on heart rate variability; implanting a neurostimulator device around a vagus nerve in the selected patients followed by stimulating the vagus nerve at an electrical stimulus intensity below threshold for heart rate reduction; and remotely monitoring and controlling the neurostimulator based on cardiac health parameters of the patient subjected to vagal nerve stimulation.