Biomedical patches with aligned fibers

What is claimed is: 1. A three-dimensional electrospun nanofiber scaffold for use in repairing a defect in a tissue substrate, the three-dimensional electrospun nanofiber scaffold comprising: a flexible deposited electrospun fiber network of varying density, the deposited electrospun fiber network comprising: a first set of deposited electrospun fibers comprising a first bioresorbable polymer, wherein the first bioresorbable polymer comprises polyglycolic acid; and a second set of deposited electrospun fibers comprising a second bioresorbable polymer, the second set of deposited electrospun fibers coupled to the first set of deposited electrospun fibers, wherein the first bioresorbable polymer comprises a different composition from the second bioresorbable polymer, wherein a first portion of the flexible deposited electrospun fiber network comprises a higher density of fibers than a second portion of the flexible deposited electrospun fiber network, and wherein the first portion comprises a higher tensile strength than the second portion; wherein the three-dimensional electrospun nanofiber scaffold comprises varying density to be sufficiently flexible to facilitate application of the three-dimensional electrospun nanofiber scaffold to uneven surfaces of the tissue substrate; wherein the three-dimensional electrospun nanofiber scaffold comprises varying density to be sufficiently flexible to enable movement of the three-dimensional electrospun nanofiber scaffold by the tissue substrate, wherein the first set of deposited electrospun fibers and the second set of deposited electrospun fibers are configured to degrade within three months after application to the tissue substrate, and wherein each fiber of the deposited electrospun fiber network comprises a diameter of 1-1000 nanometers. 2. The three-dimensional electrospun nanofiber scaffold of claim 1 , wherein the second bioresorbable polymer comprises caprolactone. 3. The three-dimensional electrospun nanofiber scaffold of claim 1 , wherein at least one of the first set of deposited electrospun fibers and the second set of deposited electrospun fibers are radially aligned. 4. The three-dimensional electrospun nanofiber scaffold of claim 1 , wherein at least one of the first set of deposited electrospun fibers and the second set of deposited electrospun fibers are non-radially aligned. 5. The three-dimensional electrospun nanofiber scaffold of claim 1 , wherein at least one of the first set of deposited electrospun fibers and the second set of deposited electrospun fibers are randomly oriented. 6. The three-dimensional electrospun nanofiber scaffold of claim 1 , wherein the deposited electrospun fiber network comprises a single layer. 7. The three-dimensional electrospun nanofiber scaffold of claim 1 , wherein the deposited electrospun fiber network comprises multiple layers. 8. A three-dimensional electrospun nanofiber scaffold for use in repairing a defect in a tissue substrate, the three-dimensional electrospun nanofiber scaffold comprising: a flexible deposited electrospun fiber network of varying density, the deposited electrospun fiber network comprising: a first set of deposited electrospun fibers comprising a first bioresorbable polymer, wherein the first bioresorbable polymer comprises glycolic acid; and a second set of deposited electrospun fibers comprising a second bioresorbable polymer, the second set of deposited electrospun fibers coupled to the first set of deposited electrospun fibers, wherein the first bioresorbable polymer comprises a different composition from the second bioresorbable polymer, wherein at least a first portion of the flexible deposited electrospun fiber network comprises a higher density of fibers than a second portion of the flexible deposited electrospun fiber network, and wherein the first portion comprises a higher tensile strength than the second portion; wherein the three-dimensional electrospun nanofiber scaffold comprises varying density to be conformable to the defect in the tissue substrate, wherein the three-dimensional electrospun nanofiber scaffold comprises varying density to be sufficiently flexible to enable movement of the three-dimensional electrospun nanofiber scaffold by the tissue substrate, wherein the first set of deposited electrospun fibers and the second set of deposited electrospun fibers are configured to separate from each other within three months after application to the tissue substrate, and wherein each fiber of the deposited electrospun fiber network comprises a diameter of 1-1000 nanometers. 9. The three-dimensional electrospun nanofiber scaffold of claim 8 , wherein the second bioresorbable polymer comprises caprolactone. 10. The three-dimensional electrospun nanofiber scaffold of claim 8 , wherein at least one of the first set of deposited electrospun fibers and the second set of deposited electrospun fibers are radially aligned. 11. The three-dimensional electrospun nanofiber scaffold of claim 8 , wherein at least one of the first set of deposited electrospun fibers and the second set of deposited electrospun fibers are non-radially aligned. 12. The three-dimensional electrospun nanofiber scaffold of claim 8 , wherein at least one of the first set of deposited electrospun fibers and the second set of deposited electrospun fibers are randomly oriented. 13. The three-dimensional electrospun nanofiber scaffold of claim 8 , wherein the deposited electrospun fiber network comprises a single layer. 14. The three-dimensional electrospun nanofiber scaffold of claim 8 , wherein the deposited electrospun fiber network comprises multiple layers. 15. A monolayer electrospun nanofiber patch for use in repairing a defect in a tissue substrate, the monolayer electrospun nanofiber patch comprising: a flexible deposited electrospun fiber network of varying density, the deposited electrospun fiber network comprising: a first set of deposited electrospun fibers comprising a first bioresorbable polymer, wherein the first bioresorbable polymer comprises glycolic acid; and a second set of deposited electrospun fibers comprising a second bioresorbable polymer, the second set of deposited electrospun fibers coupled to the first set of deposited electrospun fibers, wherein the first bioresorbable polymer comprises a different composition from the second bioresorbable polymer, wherein an inner portion of the monolayer electrospun nanofiber patch comprises a different fiber density than an outer portion of the monolayer electrospun nanofiber patch; wherein the monolayer electrospun nanofiber patch comprises varying density to be conformable to the defect in the tissue substrate, wherein the monolayer electrospun nanofiber patch comprises varying density to be sufficiently flexible to enable movement of the monolayer electrospun nanofiber patch by the tissue substrate, wherein the first set of deposited electrospun fibers and the second set of deposited electrospun fibers are configured to degrade within three months after application to the tissue substrate, and wherein each fiber of the deposited electrospun fiber network comprises a diameter of 1-1000 nanometers. 16. The monolayer electrospun nanofiber patch of claim 15 , wherein the second bioresorbable polymer comprises caprolactone. 17. The monolayer electrospun nanofiber patch of claim 15 , wherein at least one of the first set of deposited electrospun fibers and the second set of deposited electrospun fibers are radially aligned. 18. The monolayer electrospun nanofiber p