| CPC A61N 2/002 (2013.01) [A61N 1/40 (2013.01); A61N 2/02 (2013.01); A61N 5/06 (2013.01); G16H 20/30 (2018.01); G16H 40/67 (2018.01); A61B 5/02055 (2013.01); A61B 5/021 (2013.01); A61B 5/02438 (2013.01); A61B 5/4836 (2013.01); A61N 2005/0645 (2013.01); A61N 2005/0652 (2013.01)] | 22 Claims |
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1. A wearable device for promoting health and wellness comprising:
a first layer of translucent or transparent fabric or material, having a flexibility needed to comfortably wrap around a treatment area;
a zipper running around an outer perimeter of the first layer of the wearable device, wherein said zipper allows the wearable device to be attached to a host material in order to be portable or interchangeable between and among the host materials;
a second layer of non-conductive material attached atop of the first layer through mechanical or chemical means, wherein said second layer possesses a flexibility needed to comfortably wrap around the treatment area and possesses the capability to have electronic components embedded within the second layer of non-conductive material, wherein the electronic components embedded within the second layer of non-conductive material, comprise a battery pack, a programmable control module, a universal communications and power port, physiological, biometric, and contextual sensors, and modalities;
wherein the battery pack is embedded in the second layer through mechanical or chemical means;
wherein the physiological, biometric, and contextual sensors are embedded in the second layer through mechanical or chemical means;
wherein said physiological, biometric, and contextual sensors are configured to sense and collect a plurality of physiological, biometric, and contextual data including body temperature, heart rate, and blood pressure;
wherein the modalities are embedded in the second layer through mechanical or chemical means;
wherein said modalities include micro-LED light emitters, magnetic pulse generators, and micro-mmW emitters, the modalities configured to engage DNA molecules and other biological tissues to accelerate healing, pain relief, and performance enhancement;
wherein the programmable control module is embedded in the second layer through mechanical or chemical means;
wherein said programmable control module is configured to tune parameters of the modalities and is configured to allow the wearable device to communicate, through wireless means, with at least one of:
a physiological, biometric, or contextual sensor of the host material,
a physiological, biometric, or contextual sensor of an external device,
the external device,
an integrated companion mobile application of the external device,
or a database;
wherein the universal communications and power port is embedded in the second layer through mechanical or chemical means;
wherein said universal communications and power port is configured to communicate, through wired means, with a sensor on the host material, a sensor of the external device, the external device, the integrated companion mobile application of the external device, or the database; wherein the conductive component within the second layer, is configured for connecting, in any combination, the battery pack, the programmable control module, the universal communications and power port, the physiological, biometric, and contextual sensors, and the modalities;
a third layer of elastic silicone attached atop of the second layer through mechanical or chemical means, wherein said third layer possesses a flexibility to comfortably wrap around the treatment area, secures the conductive component and the electronic components in place, and protects the conductive component and the electronic components of the wearable device; and a fourth layer of a decorative covering attached atop of the third layer through mechanical or chemical means;
wherein said fourth layer possesses a flexibility to comfortably wrap around the treatment area, secures all of the electronic components of the wearable device together, and provides protection against humidity, shock, and drops.
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