A Systematic Review on Drug Delivery Systems Based on Their Mechanism of Drug Release and Their Applications

Authors

  • Subhash Chandra Das Girijananda Chowdhury Institute of Pharmaceutical Science, Guwahati, INDIA.
  • Amit Prakash Girijananda Chowdhury Institute of Pharmaceutical Science, Guwahati, INDIA.

Keywords:

Mechanism of Drug, Oral Drug, Nanoparticles, Fluid

Abstract

Oral drug delivery is the most commonly used and preferred route of delivery of pharmaceuticals which has been successfully treating wide number of diseases. The advantages of this method of delivery are patient friendly, cost effective, established delivery system, noninvasiveness and convenient, and In the pharmaceutical field it is the most favored drug delivery system. Oral drug delivery systems along with other effective delivery system types that are effective and promising are discussed in this paper based on the mechanism of drug release.

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References

Jain R, Shah NH, Malick AW, Rhodes CT. Controlled drug delivery by biodegradable poly (ester) devices: Different preparative approaches. Drug Dev Indian Pharm. 1998;24:703–27. [Google Scholar]

Dhiman N, Khuller GK. Protective efficacy of mycobacterial 71-KDa cell wall associated protein using poly (DLlactide- co-glycolide) microparticles as carrier vehicles. FEMS Immunol Med Microbiol. 1998;21:19–28. [Google Scholar]

Chandrashekar G, Udupa N. Biodegradable injectable implant systems for long term drug delivery using poly (lactic- co-glycolic) acid copolymers. J Pharm Pharmacol. 1996;48:669–74. [Google Scholar]

Somayaji BV, Jariwala U, Jayachandran P, Vidyalakshmi K, Dudhani RV. Evaluation of antimicrobial efficacy and release pattern of tetracycline and metronidazole using a local delivery system. J Periodontol. 1998;69:409–13.[Google Scholar]

Ravi Manne, Agilandeswari Devarajan. (2020). Development of Nicotinic Acid Controlled Release Tablets with Natural Phenolic Anti-oxidant Polymer by Encapsulation Technique. Journal of Natural Remedies, 20(4), 139-151. [Google Scholar]

Bhowmik, D., Gopinath, H., Kumar, B. P., Duraivel, S., & Kumar, K. S. (2012). Controlled release drug delivery systems. The Pharma Innovation, 1(10).

https://www.pharmamirror.com/knowledge-base/pharmaceutical-dictionary/delayed-release-drug-delivery/#:~:text=A%20dosage%20form%20that%20releases,most%20common%20delayed%2Drelease%20products.

Kamsali, Akhil; et al. Development and Optimization of Amoxicillin Floating Raft System to effectively treat Helicobacter pylori infection. Ars Pharm, 61(3): 163-168 (2020) http://dx.doi.org/10.30827/ars.v61i3.13718

Jain, K. K. (Ed.). (2008). Drug delivery systems (Vol. 251). Totowa, NJ: Humana Press.

Tiwari, G., Tiwari, R., Sriwastawa, B., Bhati, L., Pandey, S., Pandey, P., &Bannerjee, S. K. (2012). Drug delivery systems: An updated review. International journal of pharmaceutical investigation, 2(1), 2.

Paolino, D., Sinha, P., Fresta, M., & Ferrari, M. (2006). Drug delivery systems. Encyclopedia of medical devices and instrumentation.

Kuno, N., &Fujii, S. (2011). Recent advances in ocular drug delivery systems. Polymers, 3(1), 193-221.

Perrie, Y., &Rades, T. (2012). FASTtrack Pharmaceutics: Drug Delivery and Targeting. Pharmaceutical press.

BUDHA, ROJA RANI, et al. (2021). Multidose studies in rabbits for determining pharmacokinetic and pharmacodynamic interactions of gliclazide with nutraceutical. International Journal of Pharmaceutical Research, 13(1), 3876-3881. [Google Scholar]

Langer, R. (1998). Drug delivery and targeting. Nature, 392(6679 Suppl), 5-10.

Coelho, J. F., Ferreira, P. C., Alves, P., Cordeiro, R., Fonseca, A. C., Góis, J. R., & Gil, M. H. (2010). Drug delivery systems: Advanced technologies potentially applicable in personalized treatments. EPMA journal, 1(1), 164-209.

Yun, Y. H., Lee, B. K., & Park, K. (2015). Controlled Drug Delivery: Historical perspective for the next generation. Journal of Controlled Release, 219, 2-7.

Patil, J. M., Hirlekar, R. S., Gide, P. S., & Kadam, V. J. (2006). Trends in floating drug delivery systems.

Ranade, V. V. (1989). Drug delivery systems. 1. Site‐specific drug delivery using liposomes as carriers. The Journal of Clinical Pharmacology, 29(8), 685-694.

Olusanya, T. O., Haj Ahmad, R. R., Ibegbu, D. M., Smith, J. R., &Elkordy, A. A. (2018). Liposomal drug delivery systems and anticancer drugs. Molecules, 23(4), 907.

Sharma D, Chelvi TP, Kaur J, Chakravorty K, De TK, Maitra A, et al. Novel taxol formulation: Polyvinylpyrrolidone nanoparticle-encapsulated taxol for drug delivery in cancer therapy. Oncol Res. 1996;8:281–6. [PubMed] [Google Scholar]

Deol P, Khuller GK. Lung specific stealth liposomes: Stability, biodistribution and toxicity of liposomal antitubercular drugs in mice. BiochimicaBiophysi Acta. 1997;1334:161–72. [PubMed] [Google Scholar]

Jain NK, Rana AC, Jain SK. Brain drug delivery system bearing dopamine hydrochloride for effective management of parkinsonism. Drug Dev Ind Pharm. 1998;24:671–5. [PubMed] [Google Scholar]

Uppadhyay AK, Dixit VK. Bioadhesive liposomes bearing levonorgestrel as controlled drug delivery system. Pharmazie. 1998;53:421–2. [PubMed] [Google Scholar]

Deo Mr, Sant VP, Parekh SR, Khopade AJ, Banakar UV. Proliposome-based transdermal delivery of levonorgestrel. J Biomat App. 1997;12:77–88. [PubMed] [Google Scholar]

Singh R, Vyas SP. Topical liposomal system for localized and controlled drug delivery. J DermatoI Sci. 1996;13:107–11. [PubMed] [Google Scholar]

Nabar SJ, Nadkarni GD. Effect of size and charge of liposomes on biodistribution of encapsulated 99mTc - DTPA in rats. Indian J Pharmacol. 1998;30:199–202. [Google Scholar]

Sivakumar PA, Mythily S, Alamelu S, Rao PK. Liposome - ibuprofen conjugate and the release characteristics of ibuprofen. Indian Drugs. 1994;31:568–73. [Google Scholar]

Martin DB, Udupa N. Nasal drug delivery of gentamycin sulphate. Indian Drugs. 1994;31:365–9. [Google Scholar]

Narayani R, Rao KP. Polymer-coated gelatin capsules as oral delivery devices and their gastrointestinal tract behavior in humans. J Biomater Sci Polym Ed. 1995;7:39–48. [PubMed] [Google Scholar]

Vanarase SY, Nagarsenkar MS. In-vitro release studies of prochlorperazine pellets coated with ethylcellulose. Indian Drugs. 1995;32:134–8. [Google Scholar]

Rangaiah KV, Madhusudhan S, Verma PR. Sustained release of theophylline from HPMC and Eudragit tablet. Indian Drugs. 1995;32:543–7. [Google Scholar]

Asgar A, Sharma SN. Sustained release through coated microparticles of nifedipine. Indian Drugs. 1996;33:30–5. [Google Scholar]

Asgar A, Radha S, Agarwal SP. Fabrication of a diffusion cell for the determination of drug release from topical aerosol formulations. Indian Drugs. 1997;34:715–7. [Google Scholar]

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Published

2021-05-31

How to Cite

Subhash Chandra Das, & Amit Prakash. (2021). A Systematic Review on Drug Delivery Systems Based on Their Mechanism of Drug Release and Their Applications. International Journal for Research in Applied Sciences and Biotechnology, 8(3), 55–63. Retrieved from https://ijrasb.com/index.php/ijrasb/article/view/128

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