Systems, methods and devices for reducing noise in cardiac monitoring including wearable monitoring devices having at least one electrode for cardiac monitoring; in some implementations, the wearable device using a composite adhesive having at least one conductive portion applied adjacent the electrode; and, in some implementations, including circuitry adaptations for the at least one electrode to act as a proxy driven right leg electrode.

Systems, methods and devices for reducing noise in health monitoring including monitoring systems, methods and/or devices receiving a health signal and/or having at least one electrode or sensor for health monitoring.

Systems, methods and devices for reducing noise in cardiac monitoring including wearable monitoring devices having at least one electrode for cardiac monitoring; in some implementations, the wearable device using a composite adhesive having at least one conductive portion applied adjacent the electrode; and, in some implementations, including circuitry adaptations for the at least one electrode to act as a proxy driven right leg electrode.

Systems, methods and devices for reducing noise in health monitoring including monitoring systems, methods and/or devices receiving a health signal and/or having at least one electrode or sensor for health monitoring.

Systems, methods and devices for reducing noise in health monitoring including monitoring systems, methods and/or devices receiving a health signal and/or having at least one electrode or sensor for health monitoring.

A system, a method, and a computer program product for providing wearable continuous blood glucose monitoring. In some embodiments, there is provided a method that includes receiving, at a smartwatch, an alert representative of a glucose state of a host-patient coupled to a glucose sensor; detecting, at the smartwatch, a predetermined action indicative of a request to generate a glance view providing an indication of the glucose state of the host-patient; and presenting, at the smartwatch and in response to the detecting, the glance view providing the indication of the glucose state of the host-patient.

Systems and methods are disclosed that employ several or numerous factors in the determination of a glycemic urgency index (GUI), which may be based on a measured blood glucose level as well as other factors. The other factors may include time derivatives of the glucose level and/or other factors, e.g., user-entered data, data measured by other sensors or received from a network source, or historical data. The GUI is then presented to the user in an interesting way, e.g., via a background color or other inconspicuous notifier, e.g., on a mobile device such as a smart phone. The GUI may also be employed in the triggering of actionable alerts and alarms on an electronic device for the user. The GUI, or another index calculated from combinations of the variables and parameters described, may further be employed to drive a medicament delivery device such as a pump.

An incentive spirometry monitoring device and method of use. The device can be integrated to/made a part of an incentive spirometer and is capable of monitoring inspiration within the incentive spirometer. The incentive spirometry monitoring device has a user interface for inputting a variety of different parameters, including a desired air volume, as well as attempt thresholds. Results can be stored such that medical personnel can review attempts by a patient to monitor therapeutic use, as well as encouraging patient use.

Systems, methods and devices for reducing noise in health monitoring including monitoring systems, methods and/or devices receiving a health signal and/or having at least one electrode or sensor for health monitoring.

This disclosure describes a remote patient monitoring system configured to monitor one or more patient parameters via one or more monitoring apparatuses for transmitting patient data to a remote, central data-processing facility via a network. The system further includes an interactive voice recognition (IVR) system and mobile interfaces for health data collection and transmission via direction communication with the patient. According to embodiments, with the information received from the patient monitoring system, one or more scored indicative of a patient's health status is calculated. The scores are compared to threshold values and, based on the comparisons, further action is taken. For example, a medical caregiver can evaluate the patient's condition, including the effectiveness of the drug therapy, patient compliance, whether the patient's condition is improving, whether the patient requires hospitalization or an office consultation to prevent the condition from getting worse, etc. Enabling medical caregivers to remotely monitor and manage a patient's condition may reduce hospitalizations by early identification of health issues.