Electric bandage for accelerated wound recovery

What we claim is: 1. A bandage for wounds on skin comprising: a flexible substrate adapted for retention on the skin at a site of the wound, the substrate having a first surface facing the wound; an electrical generator supported by the substrate to convert mechanical energy harvested from movements of the skin into an electrical potential; and a first and second electrode supported by the substrate in opposition along a plane of the skin and adapted to be positioned over the wound and electrically communicating with the electrical generator for receiving the electrical potential from the electrical generator and applying the electrical potential across the wound wherein the electrical generator comprises a first and second dielectric material brought into contact with the movements of the skin to elicit an electric potential. 2. The bandage of claim 1 wherein the first and second electrodes are flexible to conform to a surface of the skin. 3. The bandage of claim 1 further including flexible conductors communicating between the first and second electrodes and the electrical generator displaced from the wound. 4. The bandage of claim 1 wherein the electrical generator is flexible. 5. The bandage of claim 1 wherein the first and second electrodes further include interdigitated fingers extending across the wound. 6. The bandage of claim 5 wherein a separation between the interdigitated fingers is less than 1 cm. 7. The bandage of claim 1 wherein the first and second electrodes flank the wound and induce an electric field primarily parallel to a surface of the skin. 8. The bandage of claim 1 wherein the first and second electrodes are parallel line electrodes comprising substantially parallel conductors flanking at least one area of the substrate adapted to be positioned over the wound. 9. The bandage of claim 1 wherein an electric potential generated across the first and second electrodes is at least 0.05 volt. 10. The bandage of claim 1 wherein a gradient of an electric field generated between the first and second electrodes is greater than 10 mV per millimeter. 11. The bandage of claim 1 wherein the substrate is air permeable. 12. The bandage of claim 1 further including an adhesive positioned on the first surface of the substrate facing the wound. 13. The bandage of claim 1 wherein the electrical generator is comprises a piezoelectric material. 14. A bandage for wounds on skin comprising: a flexible substrate adapted for retention on the skin at a site of the wound, the substrate having a first surface facing the wound; an electrical generator supported by the substrate to convert mechanical energy harvested from movements of the skin into an electrical potential; a first and second electrode supported by the substrate in opposition along a plane of the skin and adapted to be positioned over the wound and electrically communicating with the electrical generator for receiving the electrical potential from the electrical generator and applying the electrical potential across the wound; and an insulator placed between the first and second electrodes and the skin to minimize current flow across the first and second electrodes. 15. The bandage of claim 14 wherein a current flow across the first and second electrodes is less than 1μA. 16. The bandage of claim 14 wherein the insulator is polydimethylsiloxane (PDMS). 17. A bandage for wounds on skin comprising: a flexible substrate adapted for retention on the skin at a site of the wound, the substrate having a first surface facing the wound; an electrical generator supported by the substrate to convert mechanical energy harvested from movements of the skin into an electrical potential; a first and second electrode supported by the substrate in opposition along a plane of the skin and adapted to be positioned over the wound and electrically communicating with the electrical generator for receiving the electrical potential from the electrical generator and applying the electrical potential across the wound; and an absorbent pad of material placed between the substrate and the first and second electrode. 18. A bandage for wounds on skin comprising: a flexible substrate adapted for retention on the skin at a site of the wound, the substrate having a first surface facing the wound; an electrical generator supported by the substrate to convert mechanical energy harvested from movements of the skin into an electrical potential; a first and second electrode supported by the substrate in opposition along a plane of the skin and adapted to be positioned over the wound and electrically communicating with the electrical generator for receiving the electrical potential from the electrical generator and applying the electrical potential across the wound; and wherein the substrate is a hoop adapted to elastically fit around a limb of a patient having a wound. 19. A method of treating a skin wound comprising: providing a bandage for wounds on skin having a flexible substrate adapted for retention on the skin at a site of the wound, the substrate having a first surface facing the wound; an electrical generator supported by the substrate to convert mechanical energy harvested from movements of the skin into an electrical potential; and a first and second electrode supported by the substrate in opposition along a plane of the skin and adapted to be positioned over the wound and electrically communicating the electrical power generator for receiving the electrical potential from the generator and applying the electrical potential across the wound wherein the electrical generator comprises a first and second dielectric material brought into contact with the movements of the skin to elicit an electric potential; attaching the bandage to the skin wound; and wearing the bandage on the skin wound for at least 24 continuous hours.