초록 ▼

A radiant energy bandage system is disclosed including a plurality of therapeutic lamps and a controller for operating the lamps. Batteries power the lamps and are secured to a wearable fabric layer supporting the lamps and the controller. According to an exemplary embodiment, provided is a photothe

A radiant energy bandage system is disclosed including a plurality of therapeutic lamps and a controller for operating the lamps. Batteries power the lamps and are secured to a wearable fabric layer supporting the lamps and the controller. According to an exemplary embodiment, provided is a phototherapy device comprising a stretchable and/or flexible wearable therapeutic lamp platform including a plurality of radiant lamps configured to provide radiant energy to a user treatment area, a stretchable and/or flexible reflective wall including a plurality of radiant energy communication areas aligned with the radiant lamps and disposed to communicate the radiant energy to the user treatment area; and a stretchable and/or flexible adhesive layer including a first surface and a second surface, the first surface removably attached to the reflective layer and the second surface operatively associated with removably attaching the wearable therapeutic lamp platform to the user treatment area.

대표청구항 ▼

1. A phototherapy device comprising: a wearable therapeutic lamp platform including: a plurality of radiant lamps configured to provide radiant energy to a user treatment area, the plurality of radiant lamps including a mixed combination of different wavelength energy;a control pod including a contr

1. A phototherapy device comprising: a wearable therapeutic lamp platform including: a plurality of radiant lamps configured to provide radiant energy to a user treatment area, the plurality of radiant lamps including a mixed combination of different wavelength energy;a control pod including a controller operatively connected to the plurality of radiant lamps and configured to control the plurality of radiant lamps;a flexible reflective layer including a top surface and a reflective bottom surface, the reflective layer including a plurality of radiant energy communication areas, each of the plurality of radiant energy communication areas directly aligned with a respective one of the plurality of radiant lamps located substantially near the top surface and disposed to communicate the radiant energy from the plurality of radiant lamps through the plurality of radiant energy communication areas and exiting the reflective bottom surface; anda replaceable flexible adhesive layer including a plurality of radiant energy communication areas, each of the adhesive layer plurality of radiant energy communication areas directly aligned with a respective one of the reflective layer plurality of radiant energy communication areas to communicate the radiant energy exiting the reflective bottom surface of the reflective layer through the adhesive layer plurality of radiant energy communication areas to the user treatment area, and the adhesive layer including a top surface and a bottom surface, the top surface adapted to be removably attached by a user to cover the reflective layer reflective bottom surface and the adhesive layer bottom surface adapted to be removably attached by the user to cover the user treatment area. 2. The phototherapy device according to claim 1, wherein the reflective layer radiant energy communication areas include apertures. 3. The phototherapy device according to claim 1, wherein the wearable therapeutic lamp platform is substantially U-shaped. 4. The phototherapy device according to claim 1, wherein the adhesive layer includes a sticky adhesive gel on one or both of the top surface and bottom surface. 5. The phototherapy device according to claim 1, wherein the adhesive layer includes a first sublayer made of a first sublayer material, a second sublayer made of a second material and a third sublayer made of a third sublayer material, the first sublayer adapted to be removably attached by the user to the reflective layer reflective bottom surface and attached to the second sublayer, the second sublayer attached to the first and third sublayer, and the first sublayer adapted to be removably attached to cover the user treatment area and attached to the second sublayer. 6. The phototherapy device according to claim 5, wherein the third sublayer includes one or more of a bioclusive material, a biocompatible material and an anti-microbial material. 7. The phototherapy device according to claim 1, wherein the plurality of radiant lamps include one or both of Red and Infrared wavelength radiant energy. 8. The phototherapy device according to claim 1, further comprising: one or more integrated and wearable batteries. 9. The flexible wearable device according to claim 8, wherein one or more of the reflective layer and adhesive layer is a silicon and/or urethane based material. 10. A flexible wearable phototherapy device comprising: a plurality of pods, each pod including a respective bottom surface, a plurality of radiant lamps including a mixed combination of different wavelength energy and one or more radiant lamp wires operatively connected to the plurality of radiant lamps, one of the plurality of pods configured as a control pod including a controller operatively connected to the radiant lamp wires and configured to control the plurality of radiant lamps of each of the plurality of pods, and each pod communicating radiant energy from the plurality of radiant lamps through the respective bottom surface to a user treatment area; anda plurality of radial flexible radiant lamp wire encasements operatively connecting each of the plurality of pods to one or more other pods to substantially and collectively conform the bottom surface of each pod to a contour of the user treatment area, each of the plurality of radiant lamp wire encasements independently, structurally and electrically connecting one or more adjacent pods and each of the plurality of radiant lamp wire encasements independently radially flexing relative to the connected one or more adjacent pods. 11. The flexible wearable phototherapy device according to claim 10, wherein one of the control pod and the other pods includes a power source to operatively power the plurality of radiant lamps associated with each of the plurality of pods. 12. The flexible wearable phototherapy device according to claim 10, further comprising: a flexible reflective wall including a plurality of radiant energy communication areas aligned with the plurality of radiant lamps and disposed to communicate the radiant energy to the user treatment area. 13. The flexible wearable phototherapy device according to claim 10, further comprising: a flexible adhesive layer including a first surface and a second surface, the first surface removably attached to the reflective layer bottom surface and the second surface adapted to removably attach the wearable phototherapy device and the second surface to the user treatment area. 14. The flexible wearable phototherapy device according to claim 10, wherein the plurality of radiant lamps include one or both of Red and Infrared wavelength radiant energy. 15. The flexible wearable phototherapy device according to claim 13, wherein the adhesive layer is a silicon and/or urethane based material. 16. The flexible wearable phototherapy device according to claim 10, wherein the plurality of radiant lamps are LEDs. 17. The phototherapy device according to claim 1, wherein the flexible adhesive layer radiant energy communication areas include apertures.