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Supramolecular Gels by Design: Towards the Development of Topical Gels for Self‐Delivery Application
Authors:Rumana Parveen  Prof. Dr. Parthasarathi Dastidar
Affiliation:1. Department of Organic Chemistry, Indian Association for the Cultivation of Science, Kolkata, India;2. (+91)?33‐2473‐2805 0000-0002-1011-2386 Department of Organic Chemistry, Indian Association for the Cultivation of Science, Kolkata, India
Abstract:Following a supramolecular synthon approach, simple salt formation has been employed to gain access to a series of supramolecular gelators derived from the well‐known non‐steroidal anti‐inflammatory drug (NSAID) ibuprofen. A well‐studied gel‐inducing supramolecular synthon, namely primary ammonium monocarboxylate (PAM), has been exploited to generate a series of PAM salts by reacting ibuprofen with various primary amines. Remarkably, all of the salts ( S1 – S7 ) thus synthesized proved to be good to moderate gelators of various polar and nonpolar solvents. Single‐crystal and powder X‐ray diffraction studies established the existence of the PAM synthons in the gel network, confirming the efficacy of the supramolecular synthon approach employed. Most importantly, the majority of the salts ( S2 , S3 , S6 , and S7 ) were capable of gelling methyl salicylate (MS), an important ingredient found in many commercial topical gels. In vitro experiments (MTT and PGE2 assays) revealed that all of the salts (except S3 and S7 ) were biocompatible (up to 0.5 mm concentration), and the most suited one, S6 , displayed anti‐inflammatory ability as good as that of the parent drug ibuprofen. A topical gel of S6 with methyl salicylate and menthol was found to be suitable for delivering the gelator drug in a self‐delivery fashion in treating skin inflammation in mice. Histological studies, including immunohistology, were performed to further probe the role of the gelator drug S6 in treating inflammation. Cell imaging studies supported cellular uptake of the gelator drug in such biomedical application.
Keywords:anti-inflammatory compounds  crystal engineering  drug delivery  SAFiNs  supramolecular gels
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