Abstract

AbstractIn this study, we evaluated the drug release behavior of diameter customized TiO2 nanotube layers fabricated by anodization with various applied voltage sequences: conventional constant applied potentials of 20 V (45 nm) and 60 V (80 nm), a 20/60 V stepped potential (50 nm [two‐diameter]), and a 20–60 V swept potential (49 nm [full‐tapered]) (values in parentheses indicate the inner tube diameter at the top part of nanotube layers). The structures of the 50 nm (two‐diameter) and 49 nm (full‐tapered) samples had smaller inner diameters at the top part of nanotube layers than that of the 80 nm sample, while the outer diameters at the bottom part of nanotube layers were almost the same size as the 80 nm sample. The 80 nm sample, which had the largest nanotube diameter and length, exhibited the greatest burst release, followed by the 50 nm (two‐diameter), 49 nm (full‐tapered), and 45 nm samples. The initial burst released drug amounts and release rates from the 50 nm (two‐diameter) and 49 nm (full‐tapered) samples were significantly suppressed by the smaller tube top. On the other hand, the largest proportion of the slow released drug amount to the total released drug amount was observed for the 50 nm (two‐diameter) sample. Thus, 50 nm (two‐diameter) achieved suppressed initial burst release and large storage capacity. Therefore, this study has, for the first time, applied TiO2 nanotube layers with modulated diameters (two‐diameter and full‐tapered) to the realization of a localized drug delivery system (LDDS) with customized drug release properties.

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