Solubility Enhancement by Solid Dispersion Method: An Overview

Authors

  • Vaishnavi Jadhav Department of Pharmaceutics, Navashyadri Institute of Pharmacy, Pune 412213, Maharashtra, India.
  • Pooja Kashid Department of Pharmaceutics, Navashyadri Institute of Pharmacy, Pune 412213, Maharashtra, India.
  • Kishor Otari Department of Pharmaceutics, Navashyadri Institute of Pharmacy, Pune 412213, Maharashtra, India.
  • Mohini Yadav Department of Pharmaceutics, Navashyadri Institute of Pharmacy, Pune 412213, Maharashtra, India.

DOI:

https://doi.org/10.22270/ajprd.v12i4.1450

Abstract

To improve dissolution of poorly water-soluble drugs and thus enhancing their bioavailability, the dispersion of one or moreactive pharmaceutical ingredient in a carrier at solid state is used. This process is known as solid dispersion. It has engrossed significant interest as an efficient means of improving the dissolution rate. It happens due to dispersions of poorly water-soluble drugs with water-soluble carriers. The one of the most challenging aspects in formulation development is solubility behaviour of drugs. The number of poor water-soluble compounds has radically increased. Compared to conventional formulations such as tablets or capsules, solid dispersions prepared by various methods can be used which have many benefits over the above conventional dosage form. For the preparation of solid dispersions, few of the aspects are to be considered such as; selection of carrier and methods of physicochemical characterization. In this review, an emphasis is put on solubility, various types of solid dispersions, BCS classification, carriers, solid dispersion techniques, mechanism to enhance dissolution in solid dispersion, characterization, advantages, disadvantages and the application of the solid dispersions.

 

 

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Author Biographies

Vaishnavi Jadhav, Department of Pharmaceutics, Navashyadri Institute of Pharmacy, Pune 412213, Maharashtra, India.

Department of Pharmaceutics, Navashyadri Institute of Pharmacy, Pune 412213, Maharashtra, India.

Pooja Kashid, Department of Pharmaceutics, Navashyadri Institute of Pharmacy, Pune 412213, Maharashtra, India.

Department of Pharmaceutics, Navashyadri Institute of Pharmacy, Pune 412213, Maharashtra, India.

Kishor Otari, Department of Pharmaceutics, Navashyadri Institute of Pharmacy, Pune 412213, Maharashtra, India.

Department of Pharmaceutics, Navashyadri Institute of Pharmacy, Pune 412213, Maharashtra, India.

Mohini Yadav, Department of Pharmaceutics, Navashyadri Institute of Pharmacy, Pune 412213, Maharashtra, India.

Department of Pharmaceutics, Navashyadri Institute of Pharmacy, Pune 412213, Maharashtra, India.

References

Jurel, Priyanka; Garg, Anuj, Recent advances in solid dispersion technique for enhancing biopharmaceutical properties of lumefantrinean overview,Egyptian Pharmaceutical Journal, 2023;22(1): 1-10.

Mundada A. S,Solid Dispersion: A Review. International Journal of Pharmacy Research & Technology,2023;11(2):1-16.

Sunil Kumar Yadav, Babita Yadav, & Manish Kumar Gupta, A Comprehensive Review on Solid Dispersion Technique to Enhance the Solubility and Bioavailability of Poorly Water-Soluble Drugs. International Journal of Pharma Professional’s Research, 2023;14(3):106-117.

Arif Budiman, Eli Lailasari, Neng Vera Nurani, Ellen Nathania Yunita, Gracia Anastasya, Ternary Solid Dispersions: A Review of the Preparation, Characterization, Mechanism of Drug Release, and Physical Stability,Pharmaceutics 2023;15(8):2116.

R. Bhaskar, Monika OLA and Ravindra M. Ghongade Review: Solid Dispersion Technique for Enhancement of Solubility of Poorly Soluble Drug, Indian Journal Pharmaceutical. Biological. Research. 2018; 6(2):43-52.

N. M. Hande,Solid Dispersion: Strategies To Enhance Solubility And Dissolution Rate Of Poorly Water-Soluble Drug,International Journal of Pharmaceutical Sciences and Research,2024;15(2): 340-352.

Agus Rusdin, Amirah Mohd Gazzali, Nur Ain Thomas, Sandra Megantara, Diah Lia Aulifa, Arif Budiman, Muchtaridi Muchtaridi, Advancing drug delivery paradigms: Polyvinyl pyrolidone (PVP)-based amorphous solid dispersion for enhanced physicochemical properties and therapeutic efficacy. Polymers, 2024;16(2):286.

Avinash Ramrao Tekade, Jyoti Narayan Yadav, A review on solid dispersion and carriers used therein for solubility enhancement of poorly water soluble drugs. Advanced pharmaceutical bulletin, 2020;10 (3):359.

Srushti Tambe, Divya Jain, Sai Kishore Meruva, Gopinath Rongala, Abhishek Juluri, Girish Nihalani, Hemanth Kumar Mamidi, Pavan Kumar Nukala, Pradeep Kumar Bolla, Recent advances in amorphous solid dispersions: preformulation, formulation strategies, technological advancements and characterization. Pharmaceutics, 2022;14(10):2203.

Vikrant K Nikam, Shubham K Shete, Jyoti P Khapare, Most promising solid dispersion technique of oral dispersible tablet. Beni-Suef University Journal of Basic and Applied Sciences, 2020;(9):1-16.

Elizabeth Uttaro, Madhu Pudipeddi, Anne Schweighardt, Fang Zhao, To crush or not to crush: A brief review of novel tablets and capsules prepared from nanocrystal and amorphous solid dispersion technologies. American Journal of Health-System Pharmacy, 2021;78(5):389-394.

Laura Modica De Mohac, Bahijja Raimi-Abraham, Roberto Caruana, Giammona Gaetano, Mariano Licciardi, Multicomponent solid dispersion a new generation of solid dispersion produced by spray-drying. Journal of Drug Delivery Science and Technology,2020;(57),101-750.

SV Shimple, RK Mishra, SS Chakorkar, SS Shewale, Advances in Solid Dispersion Technologies for Enhanced Drug Delivery. Advances in Pharmaceutical Research 2023; 67.

Pratchaya Tipduangta, Sunee Chansakaow, Pimpimon Tansakul, Rungarun Meungjai, Piyameth Dilokthornsakul, Polymer Matrix and Manufacturing Methods in Solid Dispersion System for Enhancing Andrographolide Solubility and Absorption: A Systematic Review. Pharmaceutics, 2024;16 (5):688.

Serena Bertoni, Beatrice Albertini, Nadia Passerini, Spray congealing: An emerging technology to prepare solid dispersions with enhanced oral bioavailability of poorly water soluble drugs. Molecules, 2019;24(19):3471.

Hetvi Triboandas, Kendal Pitt, Mariana Bezerra, Delphine Ach-Hubert, Walkiria Schlindwein, Itraconazole amorphous solid dispersion tablets: formulation and compaction process optimization using quality by design principles and tools. Pharmaceutics, 2022;14(11):2398.

Phuong Tran, Yong-Chul Pyo, Dong-Hyun Kim, Sang-Eun Lee, Jin-Ki Kim, Jeong-Sook Park, Overview of the manufacturing methods of solid dispersion technology for improving the solubility of poorly water-soluble drugs and application to anticancer drugs. Pharmaceutics, 2019;11(3):132.

Mayank Chaturvedi, Manish Kumar, Kamla Pathak, Shailendra Bhatt, Vipin Saini, Surface solid dispersion and solid dispersion of meloxicam: comparison and product development. Advanced pharmaceutical bulletin, 2017;7(4):569.

Pallavi Swarup, Gopal Prasad Agrawal, Solid dispersion: A mechanistic and realistic approach on antihypertensive drug as a drug carrier system. ASSAY and Drug Development Technologies, 2021;19 (5):282-289.

Vaibhav Sihorkar, Thomas Dürig, The role of polymers and excipients in developing amorphous solid dispersions: an industrial perspective. Drug Delivery Aspects, 2020;79-113.

Rakshika M Agrawal, Suparna S Bakhle, Juhi M Makode, Sakshi V Bhope, Nikita D Shukla, Enhancement of Solubility of Poorly Soluble Drug Through Solid Dispersion: A Review. World Journal of Pharmaceutical Research, 2024;13(12):140-153.

Kaushika Patel, Vijay Kevlani, Shreeraj Shah, A novel Posaconazole oral formulation using spray dried solid dispersion technology: in-vitro and in-vivo study. Drug Delivery and Translational Research, 2024;14(5):1253-1276.

Anja Autzen Virtanen, Monika Myślińska, Anne Marie Healy, Eoin Power, Atif Madi, Mia Sivén, The challenge of downstream processing of spray dried amorphous solid dispersions into minitablets designed for the paediatric population–A sustainable product development approach. European Journal of Pharmaceutical Sciences, 2024;196.

LS Usmanova, MA Ziganshin, IT Rakipov, NM Lyadov, AE Klimovitskii, TA Mukhametzyanov, AV Gerasimov, Micro spherical particles of solid dispersion of polyvinylpyrrolidone K29‐32 for inhalation administration. BioMed Research International 2018;(1):241-256.

Qin Shi, Haibiao Chen, Yanan Wang, Ruoxun Wang, Jia Xu, Chen Zhang, Amorphous solid dispersions: role of the polymer and its importance in physical stability and in vitro performance. Pharmaceutics, 2022;14(8):1747.

Simon Samsoen, Emeline Dudognon, Gaëlle Le Fer, David Fournier, Patrice Woisel, Frédéric Affouard, Impact of the polymer dispersity on the properties of curcumin/polyvinylpyrrolidone amorphous solid dispersions. International Journal of Pharmaceutics, 2024;653.

Poovizhi Ponnammal, Parijat Kanaujia, Yin Yani, Wai Kiong Ng, Reginald BH Tan, Orally disintegrating tablets containing melt extruded amorphous solid dispersion of tacrolimus for dissolution enhancement. Pharmaceutics, 2018;10(1):35.

Ziyue Xi, Yali Fei, Yuxin Wang, Qing Lin, Qidong Ke, Guotai Feng, Lu Xu, Solubility improvement of curcumin by crystallization inhibition from polymeric surfactants in amorphous solid dispersions. Journal of Drug Delivery Science and Technology, 2023;83:104351.

Marius Monschke, Karl G Wagner, Impact of HPMCAS on the dissolution performance of polyvinyl alcohol celecoxib amorphous solid dispersions. Pharmaceutics, 2020;12(6):541.

Hakim Bangun, Anayanti Arianto, Yuni Sari Bangun, Marline Nainggolan, Antibacterial activity of mucoadhesive gastroretentive drug delivery system of alginate beads containing turmeric extract-pvp solid dispersion. Open access Macedonian journal of medical sciences, 2019;7(22):3868.

Published

2024-08-15

How to Cite

Vaishnavi Jadhav, Pooja Kashid, Kishor Otari, & Mohini Yadav. (2024). Solubility Enhancement by Solid Dispersion Method: An Overview. Asian Journal of Pharmaceutical Research and Development, 12(4), 113–118. https://doi.org/10.22270/ajprd.v12i4.1450