Abstract: The disclosure includes a system for sensing physiologic data. The system can include a flexible configured to wrap around a finger of a user, a first electrode coupled to the flexible strap, and a second electrode coupled to the flexible strap. The system can also include a sensor housing comprising at least one sensor configured to detect physiologic data from the finger and a data receiving module communicatively coupled to the first electrode, the second electrode, and the at least one sensor. The data receiving module can be configured to receive physiologic data from the at least one sensor.
Abstract: The disclosure includes a system for sensing physiologic data. The system can include a flexible configured to wrap around a finger of a user, a first electrode coupled to the flexible strap, and a second electrode coupled to the flexible strap. The system can also include a sensor housing comprising at least one sensor configured to detect physiologic data from the finger and a data receiving module communicatively coupled to the first electrode, the second electrode, and the at least one sensor. The data receiving module can be configured to receive physiologic data from the at least one sensor.
Abstract: The disclosure includes a system for sensing physiologic data. The system can include a flexible configured to wrap around a finger of a user, a first electrode coupled to the flexible strap, and a second electrode coupled to the flexible strap. The system can also include a sensor housing comprising at least one sensor configured to detect physiologic data from the finger and a data receiving module communicatively coupled to the first electrode, the second electrode, and the at least one sensor. The data receiving module can be configured to receive physiologic data from the at least one sensor.
Abstract: The disclosure includes a system for sensing physiologic data. The system can include a flexible configured to wrap around a finger of a user, a first electrode coupled to the flexible strap, and a second electrode coupled to the flexible strap. The system can also include a sensor housing comprising at least one sensor configured to detect physiologic data from the finger and a data receiving module communicatively coupled to the first electrode, the second electrode, and the at least one sensor. The data receiving module can be configured to receive physiologic data from the at least one sensor.
Abstract: A device configured to detect, measure, and/or monitor physiological signals of a mammal. The device and system can detect a pulse and/or skin bioimpedance of a mammal and determine one or more physiological parameters based on the detected pulse and/or dermal bioimpedance. The device and system converts one or more physiological signals detected by the one or more sensors into one or more physiological parameters and stores the physiological parameters as electronic data, the electronic data being related to a physiological condition of the mammal.
Type:
Application
Filed:
February 22, 2013
Publication date:
January 29, 2015
Applicant:
ACLARIS MEDICAL, LLC
Inventors:
Mark James Bly, Scott Mazar, Kevin Daniel Ruda