Nano sponges Drug Delivery System Role in Cancer Therapy
Abstract
A kind of nanoparticles known as "nano sponges" is distinguished by high loading capacity due to its surface resembling a sponge. Cancer has a high death rate and necessitates careful management that doesn't damage the body. Because of this, drugs must be targeted to tumors using nanoparticles. The creation of new colloidal, porous, microscopic mesh-like carriers called Nano sponges, which have a size range of 1 μm and provide regulated medication delivery to a particular spot in the treatment of cancer. Drug delivery can be targeted in a regulated way with the help of nano sponges. Drugs of all kinds, both hydrophilic and lipophilic, can be placed onto nano sponges to target drug delivery and ultimately increase the solubility and bioavailability of the same medication. The body as a whole can be filled with nano sponge.
Keywords:
Nanosponges, Nanoparticles, Silver Nansponges, Bioavailability, Crosslinker, Polymers
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References
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2. Steeg PS. Targeting metastasis. Nature reviews cancer. 2016 Apr;16(4):201-18.
3. Aung WH, Kitreerawutiwong N, Keeratisiroj O, Jariya W. Health service readiness, availability, and utilization of primary health care facilities for non-Communicable diseases in Shan state, Myanmar. Iranian Journal of Public Health. 2022 Jun;51(6):1303.
4. Rani TT, Brahmaiah B, Revathi B, Nama S, Baburao C. TARGETING OF ANTI CANCER DRUGS THROUGH NANOPARTICLES.
5. Namballa M, Adimulapu A, Jesudasan RE. QbD Assisted Optimization of Microwave-assisted Synthesis of Polyacrylamide Grafted Tragacanth: Characterization and Instrumental Analysis. Current Microwave Chemistry. 2024 Apr 1;11(1):16-29.
6. Rani TT, Brahmaiah B, Revathi B, Nama S, Baburao C. TARGETING OF ANTI CANCER DRUGS THROUGH NANOPARTICLES.
7. David F. Nanosponge drug delivery system more effective than direct injection. 2010.
8. Alongi J, Poskovic M, Frache A, Trotta F. Role of β-cyclodextrin nanosponges in polypropylene photooxidation. Carbohydrate Polymers. 2011 Aug 1;86(1):127-35.
9. Singh BG, Baburao C, Pispati V, Pathipati H, Muthy N, Prassana SR, Rathode BG. Carbon nanotubes. A novel drug delivery system. International Journal of Research in Pharmacy and Chemistry. 2012;2(2):523-32.
10. Selvamuthukumar S, Anandam S, Krishnamoorthy K, Rajappan M. Nanosponges: A novel class of drug delivery system-review. Journal of Pharmacy & Pharmaceutical Sciences. 2012 Jan 17;15(1):103-11.
11. Thakre AR, Gholse YN, Kasliwal RH. Nanosponges: a novel approach of drug delivery system. J Med Pharm Allied Sci. 2016 Jun 12;78(92):78.
12. Jilsha G, Viswanad V. Nanosponges: A novel approach of drug delivery system. Int J Pharm Sci Rev Res. 2013;19(2):119-23.
13. Thakre AR, Gholse YN, Kasliwal RH. Nanosponges: a novel approach of drug delivery system. J Med Pharm Allied Sci. 2016 Jun 12;78(92):78.
14. Taka AL, Pillay K, Mbianda XY. Nanosponge cyclodextrin polyurethanes and their modification with nanomaterials for the removal of pollutants from waste water: A review. Carbohydrate polymers. 2017 Mar 1;159:94-107.
15. Arkas M, Allabashi R, Tsiourvas D, Mattausch EM, Perfler R. Organic/inorganic hybrid filters based on dendritic and cyclodextrin “nanosponges” for the removal of organic pollutants from water. Environmental science & technology. 2006 Apr 15;40(8):2771-7.
16. Chowdary KP, Chandra DU, Mahesh N, Reddy TM, Gopaiah KV. Enhancement of dissolution rate and formulation development of pioglitazone-a BCS class II drug. J. Pharm. Res. 2011 Nov;4:3862-3.
17. Jani RK, Patel N, Patel Z, Chakraborthy GS, Upadhye V. Nanosponges as a biocatalyst carrier—An innovative drug delivery technology for enzymes, proteins, vaccines, and antibodies. Biocatalysis and Agricultural Biotechnology. 2022 Jul 1;42:102329.
18. dos Passos Menezes P, de Araújo Andrade T, Frank LA, Trindade GD, Trindade IA, Serafini MR, Guterres SS, de Souza Araújo AA. Advances of nanosystems containing cyclodextrins and their applications in pharmaceuticals. International Journal of Pharmaceutics. 2019 Mar 25;559:312-28.
19. Lee JS, Oh H, Kim S, Lee JH, Shin YC, Choi WI. A novel chitosan nanosponge as a vehicle for transepidermal drug delivery. Pharmaceutics. 2021 Aug 25;13(9):1329.
20. Jacob JM, Sinharoy A, Lens PN. Photocatalytic degradation of Congo Red by zinc sulfide quantum dots produced by anaerobic granular sludge. Environmental Technology. 2022 May 25;43(12):1882-91.
21. Jacob JM, Sinharoy A, Lens PN. Photocatalytic degradation of Congo Red by zinc sulfide quantum dots produced by anaerobic granular sludge. Environmental Technology. 2022 May 25;43(12):1882-91.
22. Thakre AR, Gholse YN, Kasliwal RH. Nanosponges: a novel approach of drug delivery system. J Med Pharm Allied Sci. 2016 Jun 12;78(92):78.
23. Nacht S, Katz M. The microsponge: a novel topical programmable delivery system. Drugs and the pharmaceutical sciences. 1990;42:299-325.
Published
30/06/2024
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How to Cite
Pilli, S. “Nano Sponges Drug Delivery System Role in Cancer Therapy”. International Journal of Health Care and Biological Sciences, Vol. 5, no. 2, June 2024, pp. 1-6, doi:10.46795/ijhcbs.v5i2.611.
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Review Articles
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