Volume : 12, Issue : 10, October – 2025

Title:

ROLE OF NATURAL POLYMERS IN DESIGNING CONTROLLED-RELEASE MATRIX TABLETS: A REVIEW

Authors :

Mukesh Chaudhari*, Reena Shende, Satkar Prasad, Sailesh Kumar Ghatuary

Abstract :

Sustained-release (SR) oral formulations have emerged as a crucial strategy to maintain therapeutic drug levels over extended periods, reduce dosing frequency, minimize side effects, and improve patient adherence. Among SR systems, matrix tablets are widely used due to their simplicity, cost-effectiveness, and predictable performance. Natural polymers, including xanthan gum, guar gum, chitosan, sodium alginate, and starch derivatives, have gained significant attention as matrix formers owing to their biocompatibility, biodegradability, availability, and regulatory acceptance. These polymers modulate drug release through swelling, erosion, and diffusion mechanisms, allowing for tailored release profiles suitable for drugs with short half-lives, pH-dependent solubility, or narrow absorption windows. This review comprehensively discusses the selection of drugs and natural polymers, formulation considerations, choice of excipients, methods of tablet preparation, and characterization of SR tablets. Advantages and limitations of using natural polymers are also highlighted, emphasizing their potential to provide safe, effective, and environmentally sustainable controlled-release drug delivery systems. Insights into polymer combinations, release kinetics, and in-vitro evaluation are provided to guide future research and formulation optimization.
Keywords: Sustained-release, Natural polymers, Matrix tablets, Drug delivery, Controlled release, Xanthan gum, Guar gum, Chitosan, Sodium alginate, Formulation optimization

Cite This Article:

Please cite this article in press Mukesh Chaudhari et al., Role Of Natural Polymers In Designing Controlled-Release Matrix Tablets: A Review, Indo Am. J. P. Sci, 2025; 12(10).

REFERENCES:

1. Singh S, Dadabhau GD, Singh K, et al. Review on sustained release dosage form: a novel approach and its evaluation. J Surv Fish Sci. 2022;8(3):570–7.
2. Atre P, Rizvi SA, et al. Advances in Oral Solid Drug Delivery Systems: Quality by Design Approach in Development of Controlled Release Tablets. BioChem. 2025 Apr 25;5(2):9.
3. Basha SK, Muzammil MS, Dhandayuthabani R, Kumari VS, et al. Polysaccharides as excipient in drug delivery system. Mater Today Proc. 2021 Jan 1;36:280–9.
4. Varma MV, Kaushal AM, Garg A, Garg S, et al. Factors affecting mechanism and kinetics of drug release from matrix-based oral controlled drug delivery systems. Am J Drug Deliv. 2004 Mar;2(1):43–57.
5. Benet LZ, Kroetz D, Sheiner L, Hardman J, Limbird L, et al. Pharmacokinetics: the dynamics of drug absorption, distribution, metabolism, and elimination. In: Goodman and Gilman’s the pharmacological basis of therapeutics. 3rd ed. 1996; e27.
6. Urlacher B, Dalbe B, et al. Xanthan gum. In: Thickening and gelling agents for food. Boston, MA: Springer US; 1997. p. 202–26.
7. Bhardwaj TR, Kanwar M, Lal R, Gupta A, et al. Natural gums and modified natural gums as sustained-release carriers. Drug Dev Ind Pharm. 2000 Jan 1;26(10):1025–38.
8. Monteiro Jr OA, Airoldi C, et al. Some thermodynamic data on copper–chitin and copper–chitosan biopolymer interactions. J Colloid Interface Sci. 1999 Apr 15;212(2):212–9.
9. Sarkar A, Barman S, Mandal S, et al. Sodium Alginate in Mucoadhesive Drug Delivery Systems: A Comprehensive Review of Properties, Dosage Forms, and Characterization Methods. Int J Pharm Sci. 2025;3:906–28.
10. Labelle MA, Ispas‐Szabo P, Mateescu MA, et al. Structure‐functions relationship of modified starches for pharmaceutical and biomedical applications. Starch-Stärke. 2020 Jul;72(7–8):2000002.
11. Bhatt P, Kumar V, Singh S, Garg S, Kumar M, Wong LS, et al. Enzymatic Debranching of Starch: Techniques for Improving Drug Delivery and Industrial Applications. Starch-Stärke. 2025 Apr;77(4):e202400224.
12. Jambhekar SS, et al. Physicochemical and biopharmaceutical properties of drug substances and pharmacokinetics. In: Foye’s Principles of Medicinal Chemistry. 2008;61–105.
13. Bhatia S, et al. Natural polymers vs synthetic polymer. In: Natural polymer drug delivery systems: nanoparticles, plants, and algae. Cham: Springer International Publishing; 2016 Sep 24. p. 95–118.
14. Nagendrakumar D, Keshavshetti GG, Shardor AG, et al. An overview: Matrix tablets as sustained release. Recent Res Sci Technol. 2014 Jan 14;5(4).
15. Kumar A, Jain SK, Mishra DK, Gautam R, et al. Influence of Drug Properties and Routes of Drug Administration on Design of Sustained and Controlled Release Systems. In: Novel Carrier Systems for Targeted and Controlled Drug Delivery. Singapore: Springer Nature Singapore; 2024 Dec 24. p. 1–46.
16. Shah N, Oza C, Trivedi S, Shah N, Shah S, et al. Review on sustained release matrix tablets: An approach to prolong the release of drug. J Pharm Sci Biosci Res. 2015;3.