Pharmacetutical and Economical Prospective of Microsponges Drug Delivery System
DOI:
https://doi.org/10.22270/ajprd.v13i1.1507Abstract
Microsponges are considered as one among the most proficient carrier for the delivery of Active Pharmaceutical Ingredients (API).In the recent past many articles have been published on the microsponges because of its long lasting efficacy. The uses of microsponges are basically focused on the treatments of skin ailments. Cosmeceuticals are cosmetic products with bioactive ingredients purported to have medical benefits where microsponges plays the vital role as drug delivery carrier. In the present article the focus is to highlight the pharmaceutical as well as the economical prospect of the microsponges.
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Yuan S, Ma T, Zhang YN, Wang N, Baloch Z, Ma K. Novel drug delivery strategies for antidepressant active ingredients from natural medicinal plants: the state of the art. Journal of Nanobiotechnology 2023; 21, 391.
Makeshwar KB, Wasankar SR. Niosome: A Novel Drug Delivery System. Asian Journal of Pharmaceutical Research 2013; 3(1): 16-20.
Prashar D, Sharma D. Cubosomes: A sustained Drug delivery carrier. Asian Journal of Research in Pharmaceutical Sciences 2011; 1(3): 59-62.
Prashar D, Namrata, Kiran S , Dhiman A , Kumar V , Kumar S. Cubosomes: A Promising Vehicle for Drug Delivery. International Journal of Pharmacy and Pharmaceutical Research 2023, 26(4): 235-246.
Prashar D, Kumar S, Sharma S, Thakur P, Mani L. Liposomal World - An Economical Overview. Asian Journal of Pharmaceutical Technology 2013; 3(3): 132-134.
Kumar A, Ravishankar K, Varma AK, Prashar D, Mohammed JS, Billah AM. Liposome Nano-Particles for Therapeutic and Diagnostic Applications. Journal of Advances in Medicine and Medical Research 2022; 34 (20):101-112.
Liga S, Paul C, Moaca EA, Peter F. Niosomes: Composition, Formulation Techniques, and Recent Progress as Delivery Systems in Cancer Therapy. Pharmaceutics 2024; 16(2): 223.
Riccardi D, Baldino L, Reverchon E. Liposomes, Transfersomes And Niosomes: Production Methods And Their Applications In The Vaccinal Field. Journal of Translational Medicine 2024; 22: 339.
Kaity S, Maiti S, Ghosh AK, Pal D, Ghosh A, Banerjee S. Microsponges: A novel strategy for drug delivery system. Journal of Advanced Pharmaceutical Technology & Research 2010; 1(3):283-290.
Biharee A, Bhartiya S, Yadav A, Thareja S, Jain AK. Microsponges as Drug Delivery System: Past, Present, and Future Perspectives. Current Pharmaceutical Design 2023; 29(13):1026-1045.
Singhvi G, Manchanda P, Hans N, Dubey SK, Gupta G. Microsponge: An emerging drug delivery strategy. Drug Development Research 2019; 80(2): 200-208.
Qureshi S, Alavi SE, Mohammed Y. Microsponges: Development, Characterization, and Key Physicochemical Properties. ASSAY and Drug Development Technologies 2024 l; 22(5): 229-245.
Kumar L, Kumar R, Hussain SB, Kumari S, Pal Y. Development and Characterization of Polymeric Microsponge as a New Vehicle to Deliver Urea Topically. Recent Patents on Nanotechnology 2023; 17(2): 131-143.
Sher M, Sarfaraz RM, Iqbal S, Hussain MA, Naeem-Ul Hassan M, Hassan F, Bukhari SNA. Formulation and Evaluation of Hydroxypropylmethylcellulose-dicyclomine Microsponges for Colon Targeted Drug Delivery: In Vitro and In Vivo Evaluation. Current Drug Delivery 2022; 19(6):686-696.
Taghi HS, Abdulbaqi MR, Samein LH, Rahmani MHP. Formulation and In Vitro Evaluation of a Ramipril Entrapped in a Microsponge-based Drug-delivery System. International Journal of Pharmaceutical Compounding 2023; 27(4): 340-346.
Patole VC, Awari D, Chaudhari S. Resveratrol-Loaded Microsponge Gel for Wound Healing: In Vitro and In Vivo Characterization. Turkish Journal of Pharmaceutical Sciences 2023; 20(1): 23-34.
Li M, Gan J, Xu X, Zhang S, Li Y, Bian L, Dong Z. Preparation, Characterisation and In Vitro Anti-Inflammatory Activity Of Baicalin Microsponges. Heliyon 2024; 10(7): e29151.
Patidar K, Soni M, Saxena C, Soni P, Sharma DK. Microspongea Versatile Vesicular Approach For Transdermal Drug Delivery System. Journal of Global Pharma Technology 2010; 2(3): 154- 164.
Ingale DJ, Aloorkar NH, Kulkarni AS, Patil, RAP. Microsponges as Innovative Drug Delivery Systems. International Journal of Pharmaceutical Sciences and Nanotechnology 2012; 5 (1): 1597–1606.
D Souza J, Masvekar R, Pattekari P, Pudi S, More H. Microspongic Delivery of Fluconazole for Topical Application. 1st Indo Japanese International Conference on Advances in Pharmaceutical Research and Technology 2005, 25–29.
Roy A. Microsponge As A Novel Drug Carrier System: A Review. World Journal of Pharmaceutical Research 2015; 4(12): 680–701.
Sharma A, Hooda A, Chaudhary H. Formulation And Evaluation Of Topical Microsponges Of Sertaconazole. World Journal of Pharmaceutical Research 2016; 5(11): 1444–1461.
Vitthal JP, Rajasekaran S. Novel Approaches Of Herbal Microsponges Design, Formulation And Characterization: An Overview. International Journal of Pharmaceutical Research and Applications 2011; 7(5): 1280–1291.
Kar AK, Kar BS, Parya H, Kundu S, Hirawat R. A Novel Approach on microsponges: Multifunctional Modern Dosage Form. International Journal of Pharmaceutical Sciences Review and Research 2018; 51(2): 64-72.
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Copyright (c) 2025 Deepak Prashar, Rohit Kumar Jilta, Avneet Gupta, Priya Thakur, Vivek Kumar
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