Near infrared light-induced disassembly of polymeric micelles based on methylene blue conjugated polyethylene glycol |
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| Authors: | Huy Minh Dao Amit Raviraj Pillai Rishi Thakkar Sanjiv Parajuli Esteban Urena-Benavides Seongbong Jo |
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| Affiliation: | 1. Department of Pharmaceutics and Drug Delivery, University of Mississippi, Oxford, Mississippi, USA;2. Department of Chemical Engineering, University of Mississippi, Oxford, Mississippi, USA |
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| Abstract: | Light-sensitive drug delivery systems are considered ideal for applications in the biomedical fields for their ability to release the payload in an on-demand spatiotemporal controlled manner through the manipulation of the light source. Among the broad radiation spectrum, near infrared (NIR) light is considered advantageous compared to UV and visible light, due to its inherently lower photodamage to normal tissues and deeper penetration to lesion areas. In this study, we report a successful synthesis of a polymer capable of undergoing partial degradation upon irradiation with NIR light by conjugating 10-N-carbamoyl linkage methylene blue (MB) moiety, a NIR photocleavable ligand, with polyethylene glycol (PEG). Through effective coupling of MB, a hydrophobic moiety, to the hydrophilic PEG molecule, an amphiphilic polymer was synthesized, as demonstrated by a lowered surface tension (55 mN/m at 0.1% wt/vol). Subsequently, photo-induced reversal of surface activity associated with self-assembled structure disruption, was displayed by surface tension measurements, size distribution analysis, and burst release profile of paclitaxel (PTX) from polymeric micelles upon the exposure to NIR irradiation. |
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| Keywords: | biomedical applications drug delivery systems surfactants |
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