Drug delivery devices and methods of making and using same

What is claimed is: 1. A drug delivery device, consisting of a multi-layer film, wherein the multi-layer film comprises at least a first layer comprising a first anti-fibrotic drug associated with a first biodegradable polymer film; and, at least a second layer comprising a second anti-fibrotic drug associated with a second biodegradable polymer film, wherein the first layer of the drug delivery system is configured to provide a sustained release of the first anti-fibrotic drug and the second layer of the drug delivery system is configured to provide a burst release of the second anti-fibrotic drug on contact with the aqueous humor, where the first biodegradable polymer film and the second biodegradable polymer film comprise a poly lactic-co-glycolic acid (“PLGA”), and at least the first biodegradable polymer film further comprises a polyethyleneglycol (“PEG”) in a ratio of about 1:9 of PLGA:PEG. 2. A drug delivery device according to claim 1 , wherein the first anti-fibrotic drug is 5-flurouracil (“5-FU”) and the second anti-fibrotic drug is mitomycin C (“MMC”). 3. A drug delivery device according to claim 2 , wherein the 5-FU is released over a period of at least 30 days, and the MMC is released in a period of about 24 hours. 4. A drug delivery device according to claim 3 , wherein sustained release of the 5-FU begins after about 24 hours. 5. A drug delivery device according to claim 4 , wherein sustained release of the 5-FU begins after about 3-5 days. 6. A drug delivery device according to claim 1 , wherein the first biodegradable polymer film and the second biodegradable polymer film degrade within about 3 months after contact with aqueous humor. 7. A drug delivery device according to claim 1 , wherein the first biodegradable polymer film and the second biodegradable polymer film degrade in from about 30-60 days. 8. A drug delivery device according to claim 1 , wherein the first biodegradable polymer film and the second biodegradable polymer film are made using a breath figure technique. 9. A drug delivery device according to claim 1 , wherein the first anti-fibrotic drug is dispersed within the first polymeric film. 10. A drug delivery device according to claim 1 , wherein the first layer is made by a process comprising spin coating the first anti-fibrotic drug with a polymer solution comprising the first biodegradable polymer, the second polymeric film is spin coated onto the first layer, and the second therapeutic agent is a second anti-fibrotic drug which is loaded into pores of the second polymeric film after the second polymeric film is made. 11. A drug delivery device according to claim according to claim 10 , wherein: the first anti-fibrotic drug is 5-FU; the second anti-fibrotic drug is MMC; the multi-layer film is a dual-layer film; and, the first layer is formed by spin-coating 5-FU dissolved into a PLGA solution and the second layer is formed by loading MMC into the pores of an already-prepared second biodegradable PLGA film. 12. A drug delivery device according to claim 1 , wherein upon contact with the aqueous humor during glaucoma surgery, the first layer of the drug decreases fibroblast activity for up to about four weeks, and the second layer of the drug decreases immediate post-operative wound healing response. 13. A method of making the drug delivery device according to claim 1 , comprising dissolving the first biodegradable polymer in a solvent to form a polymer solution, and spin coating the polymer solution along with the first anti-fibrotic drug in a humid environment to form the first layer; casting the second biodegradable polymer on top of the first layer to form the second layer; and, loading the second anti-fibrotic drug into pores of the second layer wherein the first biodegradable polymer comprises PLGA and PEG in a ratio of about 1:9 and the second biodegradable polymer comprises a PLGA. 14. A method of treating glaucoma, comprising implanting a drug delivery device according to claim 1 in a subconjunctival space of a patient. 15. A method according to claim 14 , wherein the first anti-fibrotic drug is 5-FU and the second therapeutic drug is MMC.