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  1. Rajendran MAP, Allada R, Sajid SS
    Recent Adv Drug Deliv Formul, 2021;15(1):15-36.
    PMID: 34602030 DOI: 10.2174/2667387815666210203151209
    Co-crystal is an attractive alternative and a new class of solid forms because that can be engineered to have desired physicochemical properties. Co-crystals have gained considerable attention from the generic pharmaceutical industry after the USFDA released its finalized guidlines in the year 2018 on the regulatory classification of co-crystals. In this review, we discussed how co-crystals could be explored as a potential alternative solid form for the development of a generic product that meets the legal, regulatory, and bioequivalence requirements. In the contents, we discussed in detail concepts such as the selection of coformers, various ways of making co-crystals, the strategy of characterization to discriminate between co-crystal and salt, polymorphism in co-crystals, the aspects of intellectual property and, finally, the regulatory aspects of co-crystals.
  2. Lokman Hakim NYD, A/P Joginder Singh HK, Kang Nien H, Siau Hui M, Zee Wei L
    PMID: 37038680 DOI: 10.2174/2667387817666230406091232
    Kojic acid (KA), a fungal secondary metabolite, is commonly used in the cosmetic industry as a skin-whitening agent because of its ability to inhibit tyrosinase, the enzyme involved in melanin production. However, KA has shown poor depigmenting effects and becomes unstable after prolonged storage. Its use in cosmetics products has also been restricted due to its hydrophilic nature. To overcome these limitations, the structure of KA can be altered to form KA derivatives, such as KA ester (KAE), with improved chemical and biological properties. For instance, multiple studies have shown that KAE is more effective at inhibiting tyrosinase, is less toxic and more stable than KA, thus making it more beneficial. Aside from structural modification, nanotechnology applications such as nanoemulsion, and others have shown the ability to strengthen the efficacy of both KA and KAE by increasing skin permeability and delivering the drug more precisely to the targeted site with better controlled release rate. Therefore, the aim of this review article is to discuss the importance of modifying KA's chemical structure as well as the role of nanoemulsion, solid lipid nanoparticles (SLN), nanostructured lipid carrier (NLC), liposomes and ethosomes in improving topical delivery of KA and KAE for cosmetic and pharmaceutical applications.
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