Patent ID: 9579024
Date: 2017-02-28
CPC Classifications: A61B,G16H

Claim:
1. A system for analyzing sweat from a human and transmitting and storing sweat data from the human comprising: an apparatus for sensing and analyzing sweat, wherein the apparatus includes an electronic layer comprising at least one electrochemical sensor, a microcontroller, and a transceiver antenna coil; at least one remote transceiver device; and at least one remote computer server; wherein the apparatus analyzes at least one sweat biomarker, calculates at least one output datum of the at least one sweat biomarker using at least one algorithm, and transmits the at least one output datum to the at least one remote transceiver device; wherein the at least one algorithm calculates the at least one output datum using an estimated body surface area of a human and input data, wherein the input data includes at least a height and a weight of the human, and wherein the height and the weight of the human are used to estimate the estimated body surface area of the human; wherein the at least one remote transceiver device transmits the at least one output datum to the at least one remote computer server or at least one remote computing device or database for storage; wherein the apparatus and the at least one remote transceiver device have real-time or near-real-time two-way communication; and wherein the apparatus is flexible and further includes: wherein the macrofluidic, double-sided adhesive layer is intimately adhered to an exterior layer of human skin; wherein the microfluidic management layer is positioned between the macrofluidic, double-sided adhesive layer and the electronic layer; wherein the microfluidic management layer circumferentially surrounds the at least one electrochemical sensor of the electronic layer; wherein the at least one electrochemical sensor of the electronic layer is facing the exterior layer of human skin; wherein the electronic layer is intimately adhered to the macrofluidic, double-sided adhesive layer; wherein the vapor porous, top protective layer is placed on and completely covers the microfluidic management layer and the electronic layer; and wherein the vapor porous, top protective layer is intimately adhered to the macrofluidic, double-sided adhesive layer.