Drug coated balloons and techniques for increasing vascular permeability

What is claimed is: 1 . A medical device comprising: a balloon comprising an outer surface; and a drug coating layer on the outer surface of the balloon, wherein the drug coating layer comprises microcrystals in a haystack orientation having random and a substantial absence of uniformity in placement on the outer surface of the balloon. 2 . The medical device of claim 1 , wherein the microcrystals have a random and a substantial absence of uniformity in angles from the outer surface of the balloon. 3 . The medical device of claim 1 , wherein the drug coating comprises paclitaxel. 4 . The medical device of claim 1 , wherein the outer surface of the balloon comprises a non-porous polymer. 5 . The medical device of claim 1 , wherein the outer surface of the balloon comprises a porous polymer. 6 . The medical device of claim 1 , wherein the balloon comprises a layer material, wherein the layered material comprises a polymer layer adhered to a fluoropolymer layer comprising a porous microstructure, wherein layers are in overlying relationship to each other and the fluoropolymer layer is an outermost layer. 7 . The medical device of claim 6 , wherein the drug coating layer penetrates the outer surface of the balloon by an average penetration depth of from 2 to 10 m. 8 . A medical balloon comprising: a thermoplastic polymeric layer defining an interior chamber; a polymeric layer over at least a portion of the thermoplastic polymeric layer; and a coating layer on at least a portion of the polymeric layer, wherein the coating layer comprises a therapeutic agent and an excipient; and wherein the coating layer comprises microcrystals in a haystack orientation having random and a substantial absence of uniformity in placement on an outer surface of the polymeric layer. 9 . The medical balloon of claim 8 , wherein the polymeric layer is porous. 10 . The medical balloon of claim 8 , wherein the polymeric layer is non-porous. 11 . The medical balloon of claim 8 , wherein a majority of the microcrystals each have a major dimension length that is at least 10 times greater than a major dimension width of the microcrystal. 12 . The medical balloon of claim 8 , wherein the microcrystals have a random and a substantial absence of uniformity in angles from the outer surface of the polymeric layer, and a majority of the microcrystals project from the outer surface at an angle of 50 to 15°. 13 . The medical balloon of claim 8 , wherein the therapeutic agent comprises paclitaxel, docetaxel, protaxel, arsenic trioxide, thalidomide, atorvastatin, cerivastatin, fluvastatin, betamethasone diproprionate, dexamethasone 21-palmitate, sirolimus, everolimus, zotarolimus, biolimus or temsirolimus. 14 . The medical balloon of claim 8 , wherein the coating layer comprises the therapeutic agent and the excipient in a predetermined weight ratio of between 3:1 and 20:1. 15 . The medical balloon of claim 8 , wherein a majority of the microcrystals each have a major dimension length that is at least 13 or at least 15 times a major dimension width. 16 . The medical balloon of claim 8 , wherein a majority of the microcrystals each have a major dimension length that is between 12 μm and 22 μm, and the majority of the microcrystals each have a major dimension width that is between 0.5 μm and 2 μm. 17 . The medical balloon of claim 8 , wherein when the medical balloon is inflated in a vessel lumen for one minute, at least a portion of the coating layer transfers to at least a portion of the vessel lumen such that one hour after the inflation at least 14% of the portion of the vessel lumen is covered by the coating layer. 18 . The medical balloon of claim 8 , wherein when the medical balloon is inflated in a vessel lumen for one minute, at least a portion of the coating layer transfers to at least a portion of the vessel lumen such that one hour after the inflation at least 12% of a portion of a surface of the vessel lumen is covered by the coating layer. 19 . The medical balloon of claim 8 , wherein when the medical balloon is inflated in a vessel lumen for one minute, at least a portion of the coating layer uniformly transfers to the vessel lumen along a length of the vessel lumen. 20 . A method for preparing a tissue for drug application whereby tissue retention is improved, comprising: a) providing one or more medical devices comprising a balloon comprising an outer surface and a drug coating on the outer surface of the balloon; and b) sequentially treating a vascular treatment site n times with the one or more medical devices, wherein a dose amount of a drug from the drug coating that is retained by the tissue at one hour after the sequential treating is greater than the n times a dose amount retained by the tissue at one hour after a single treatment. 21 . The method of claim 20 , wherein the dose amount retained in the tissue at the one hour after the sequential treatment is about six times the dose amount retained by the tissue at the one hour after the single treatment, wherein the dose amount retained by the tissue at the one hour after the single treatment is from 1% to 10% of a loaded dose of the drug coating. 22 . The method of claim 20 , wherein a half-life of the drug retained in the tissue after the sequential treatment is greater than 13 hours. 23 . The method of claim 20 , wherein the balloon is configured to release from 65% to 85% of drug from the drug coating upon inflation. 24 . The method of claim 20 , wherein a dose amount of the drug retained in the tissue at the one hour after the sequentially treating is greater than 750 μg/g. 25 . The method of claim 20 , wherein a dose amount of the drug retained in the tissue at the one hour after the sequentially treating is greater than 1150 μg/g. 26 . The method of claim 20 , wherein the dose amount of the drug retained in the tissue at the one hour after the sequentially treating is greater than 50 μg/g. 27 . The method of claim 20 , wherein the dose amount of the drug retained in the tissue at the one day after the sequentially treating is greater than 1 μg/g. 28 . A method for preparing a vessel for drug application whereby tissue retention is improved, comprising: a) providing a medical device comprising a balloon comprising an outer surface and a drug coating on the outer surface of the balloon, wherein the drug coating comprises microcrystals in a haystack orientation having random and a substantial absence of uniformity in placement on the outer surface of the balloon; and b) treating a vascular treatment site with the medical device. 29 . The method of claim 28 , wherein the drug coating comprises paclitaxel, the treating includes inflating the balloon at the treatment site for 1 minute, and when the balloon is inflated at the treatment site for 1 minute, less than about 35% of the drug coating remains on the outer surface of the balloon. 30 . The method of claim 28 , wherein the balloon comprises a porous material, and wherein the drug coating comprises paclitaxel, the treating includes inflating the balloon at the treatment site for 1 minute, and when the balloon is inflated at the treatment site for 1 minute, between about 15% and about 30% of the drug coating remains on the outer surface of the balloon.