Arti, Neha kumara, Nitian Bharti Gupta
Arti*, Neha kumara, Nitian Bharti Gupta
Sri Sai College of Pharmacy, Badhani, Pathankot, Punjab, India.
Volume - 11,
Issue - 2,
Year - 2021
This review's goal is to construct and develop Faviparivan matrix type transdermal drug delivery systems that utilise natural polymers like Pectin/wool. The research was based on Favipiravir transdermal patches with a matrix base. The Solvent casting method was used to create this patch. The purpose of this article is to provide an overview of antiviral medication transdermal patches for improving bioavailability. DDS is locally administerded medicine. This transcutaneous a patch is pharmaceutical preparation of varries size contains one or a lot of API and delivers the drug to circulation. The human skin is instantly external surface drug delivery system. . The human skin surface is containing 10-70 hair follicles and 200-250 sweat ducts on each sq. centimetre of the skin space. It’s the foremost pronto external organs of the shape. This is often thinking about the skin as a web site of drug application each native and general impact. Formulate transcutaneous patches is physically evaluated with relevance thickness,weight variation, drug content, flatness, durability, folding endurance, proportion of wetness content and water vapours transmission rate. All prepare formulations indicate smart physical stability. Transcutaneous drug delivery system is gift to beat the difficulties of drug delivery oral route. A pad is medicated adhesive patch that's deposit on the skin to deliver a particular dose of medication between the skin and into the blood. It promote healing to associate injure space of the body. A transcutaneous drug is self-contained, separate dose kind. It conjointly offer controlled unleash of the drug for extend amount of the time.
Cite this article:
Arti, Neha kumara, Nitian Bharti Gupta. Transdermal patch with natural polymer for sustained release: A review. International Journal of Technology. 2021; 11(2):83-9. doi: 10.52711/2231-3915.2021.00012
Arti, Neha kumara, Nitian Bharti Gupta. Transdermal patch with natural polymer for sustained release: A review. International Journal of Technology. 2021; 11(2):83-9. doi: 10.52711/2231-3915.2021.00012 Available on: https://ijtonline.com/AbstractView.aspx?PID=2021-11-2-8
1. Li Ching, Manish Gupta. Transdermal drug delivery systems in polygenic disorder management: a review. Asian Journal of Pharmaceutical Sciences. 2020; 15(15): 13–25. (www.researchgate.net).
2. Sidra Meer, Muhammad Aslam Tahir, and Muhammad S. A. Abbasi. Formulation based technology advancements in transdermal drug delivery system. Asian Journal of Research Dermatological Science. 2020; 3(3): 20-33.
3. Ch. Nagadev, M. Durga Srinivasa Rao, P. Venkatesh, D. Hepcykalarani, R. Prem. A review on transdermal drug delivery systems. Asian Journal of Research in Pharmaceutical Sciences. 2020; 10(2): 109-114.
4. Sudhir Singh, Anand Singh, Anil Bhandari, Satish Kumar Sharma, Sumer Singh, Dinesh Kumar. Evaluation of transdermal patches of valproic acid. Asian Journal of Pharmaceutical Research and Development. 2020; 8(3): 238 -245.
5. AVS Madhu Latha, T Naga Ravikiran, J N Suresh Kumar. Formulation, optimization and evaluation of glibenclamide transdermal patches by using chitosan polymer. Asian Journal of Pharmacy and Technology. 2019; 9(1): 1-7.
6. Anisree G.S., Ramasamy C, John Wesley I, Bincy Mary K. Formulation of TDDS of metoprolol tarteate and its evaluation. Asian Journal of Pharmaceutical and Health Science. 2011; 1(1): 22-25.
7. P.K. Gaur, S. Mishra, S. Purohit, K. Dave. Review on transdermal drug delivery systems. Asian Journal of Pharmaceutical and Clinical Research. 2009; 2(1): 14-20.
8. Shruti Rather, Alpana Ram. Advancement in TDDS: microneedles. Asian Journal of Pharmaceutical Research and Development. 2017; 5(5): 1-07.
9. Reshmi Jayaprakash, Jahnara Hameed, Anupriya. An overview of transdermal delivery system. Asian Journal of Pharmaceutical and Clinical Research. 2017; 10(5): 36-40.
10. Shinde PV. A review on advance technologies for developing transdermal drug delivery system. Asian Journal of Pharmaceutical Technology and Innovation. 2014; 2(4): 01-13.
11. Syed Abdul Azeez Basha, Mohammad Maimoona. Formulation and in-vitro evaluation of transdermal drug delivery system of captopril by employing natural polymers maimoona. IJIPSR, 2017; 5(8): 30-45.
12. D. Prabhakar, J. Sreekanth, K.N. Jayaveera. Transdermal drug delivery patches: a review. Journal of Drug Delivery and Therapeutics. 2013; 3(4): 213-221.
13. Othman a. al Hanbali, Haji Muhammad Shoaib Khan, Muhammad Sarfraz, Mosab Arafat, Shakeel Ijaz, Abdul Hameed, transdermal patches: design and current approaches to painless. Drug Delivery Acta Pharm, 2019; 69(69): 197–215.
14. Dharmesh Trivedi, Anju Goyal, formulation and evaluation of transdermal patches containing dexketoprofen trometamol. International Journal of Pharmaceutical Chemistry and Analysis. 2020; 7(2): 87–97.
15. Ravi Teja Allena, Hemant K S Yadav, Swetha Sandina, Sarat Chandra Prasad M. Preparation and evaluation of transdermal patches of metformin hydrochloride using natural polymer for sustained release. International Journal of Pharmacy and Pharmaceutical Sciences. 2020; 4(3): 297-302.
16. K. M. Pragati Negi, Yogita Tyagi and Dr. N. G. Raghavendra Rao. A review on transdermal drug delivery system for anti hypertensive drug, WJPLS, 2020; 6(6): 70-75.
17. Zainab E. Jassim, Halah Talal Sulaiman, Saba Abdul Hadi Jabir. Transdermal drug delivery system: a review. Journal of Pharmacy Research, 2018; 12(5): 1-7.
18. Kanabar Vishvesh B, Patel Vipul P, Doshi Sumit M. Formulation and evaluation of transdermal patch of cefdinir with various polymers. The Pharma Innovation Journal. 2018; 4(6): 74-77.
19. Sirisha V and Sailaja AK. Review on recent approaches in transdermal drug delivery system. J Nurs Patient Health Care. 2018; 1(1): 103
20. Asheesh Chauhan, and Kapil Kumar. A comprehensive review on matrix type transdermal patches. World Journal of Advance Healthcare Research. 2020; 4(2): 240 of 245.
21. Nidhi Sharma. A brief review on transdermal patches. Organic and Medical Chem. 2018; 7(2): 555707.
22. Dr. Syed Abdul Azeez Basha, Mohammad Maimoona. Formulation and in-vitro evaluation of transdermal drug delivery system of captopril by employing natural polymers maimoona et.al. IJIPSR, 2017; 5(8): 30-45.
23. Shingade GM, Aamer Quazi, Sabale PM, Grampurohit ND, Gadhave MV, Jadhav SL, Gaikwad DD. Review on: recent trend on transdermal drug delivery system. Journal of Drug Delivery and Therapeutics. 2012; 2(1): 66-75.
24. Himanshi Tanwar and Ruchika Sachdeva. Transdermal drug delivery system: a review. International Journal of Pharmaceutics Science and Research. 2016; 7(6): 2274-2290.
25. Dharmesh Trivedi, Anju Goyal. Formulation and evaluation of transdermal patches containing dexketoprofen trometamol. International Journal of Pharmaceutical Chemistry and Analysis. 2020; 7(2); 87–97.
26. R. K. Tyagi, A. Chandra, D. Singh, MD. A. Rahman. Microneedles an advancement to transdermal drug delivery system approach. International Journal of Pharmaceutics Science and Research. 2011; 2(6): 1379-1388.
27. J. Ashok Kumar, Nikhila Pullakandam, S. Lakshmana Prabu, V. Gopal, transdermal drug delivery system: an overview. International Journal of Pharmaceutical Sciences Review and Research. 2010; 3(2): 49-55.
28. Aparna P., Subash Chandran M.P., Prasobh G.R., Remya S.B. A brief study on transdermal patches: An overview. World Journal of Pharmaceutical and Life Sciences. 2019; 3(12): 87-93.
29. Ashwini Jadhav, Shubhangi Vidhate, Akshay More, Nikhil Bhujbal, Sandip Kshirsagar. Review on transdermal drug delivery system: novel approaches. Scholars Academic Journal of Pharmacy. 2018; 7(9): 407-413.