A Review on Transdermal patch loaded with capecitabine nanopaticles used for breast cancer therapy

Authors

  • Sarvepalli Revathi Associate Professor, Department of Pharmaceutics, Ratnam Institute of Pharmacy, Pidathapolur (V), Muthukur (M), SPSR Nellore District-523446 Author https://orcid.org/0009-0009-4339-2693
  • Venugopalaiah Penabaka Professor & HOD, Department of Pharmaceutics, Ratnam Institute of Pharmacy, Pidathapolur (V), Muthukur (M), SPSR Nellore District-523446 Author
  • K. Sai Sreya Student of B.Pharmacy, Ratnam institute of Pharmacy, Pidathapolur (V), Muthukur (M), SPSR, Nellore District-524346 Author
  • Y. Bhargavi Student of B.Pharmacy, Ratnam institute of Pharmacy, Pidathapolur (V), Muthukur (M), SPSR, Nellore District-524346 Author
  • Y. Naga Lakshmaiah Student of B.Pharmacy, Ratnam Institute of Pharmacy, Pidathapolur, Nellore, A.P, India Author
  • B. Nithin Student of B.Pharmacy, Ratnam Institute of Pharmacy, Pidathapolur, Nellore, A.P, India Author
  • G. Sai Sarath Kumar Student of B.Pharmacy, Ratnam institute of Pharmacy, Pidathapolur (V), Muthukur (M), SPSR, Nellore District-524346 Author

DOI:

https://doi.org/10.30904/j.ijctpr.2025.4758

Keywords:

Nanoparticle, capecitabine, transdermal patch, breast cancer, targeted therapy

Abstract

Nanoparticle based drugs are an advanced approach in Cancer treatment using nanoscale particles to deliver drugs more effectively to cancer cell. While minimising damage to healthy cells. Nano particles typically range from 1to 100 Nanometre in size. Breast Cancer is a Leading Cause of Cancer - related deaths in women. To address these challenges, we developed a nanoparticle Mediated Capecitabine transdermal patch for targeted breast Cancer therapy. Polymeric nanoparticles Loaded with Capecitabine Were prepared using Solvent Evaporation method and characterized for size, Morphology, and drug release. Compared to oral capecitabine, the Novel delivery system offers a promising approach for Enhance breast cancer therapy, with potential for improve patient outcomes and quality of life. The Nano particles, Were then incorporated into a transdermal patch, which was Evaluated for in vitro skin permeation pharmacokinetics. Results showed enhanced skin permeation and controlled drug release leading to increased bioavailability and reduced toxicity.

Published

2025-01-05

Issue

Vol. 13 No. 1 (2025): Volume 13, Issue 1, 2025

Section

Articles

License

Copyright (c) 2025 Author

Creative Commons License

This work is licensed under a Creative Commons Attribution-NonCommercial 4.0 International License.

How to Cite

Sarvepalli, R., Penabaka, V., K, S. S., Y, B., Y, N. L., B, N., & G, S. S. K. (2025). A Review on Transdermal patch loaded with capecitabine nanopaticles used for breast cancer therapy. International Journal of Current Trends in Pharmaceutical Research, 13(1), 23-29. https://doi.org/10.30904/j.ijctpr.2025.4758