Litcius/Paper detail

Hydrotropy and co-solvency: Sustainable strategies for enhancing solubility of poorly soluble pharmaceutical active ingredients

Mohamed A. El Hamd, Reem H. Obaydo, Dania Nashed, Mahmoud El‐Maghrabey, Hayam M. Lotfy

2024Talanta Open19 citationsDOIOpen Access PDF

Abstract

• Sustainable Alternatives : Hydrotropy and co-solvency offer eco-friendly methods for enhancing the solubility of poorly soluble PAIs. • Green Chemistry Alignment : Techniques align with Green and White Analytical Chemistry, minimizing environmental impact. • Interpreted Mechanisms : Provides new insights into how hydrotropes and cosolvents improve solubility. • Wide Applicability : Effective in pharmaceutical, industrial, and environmental applications. • Research Opportunities : Highlights gaps for future research in sustainable solubility enhancement. This review explores sustainable strategies for enhancing the solubility of poorly water-soluble pharmaceutical active ingredients (PAIs), focusing on hydrotropy and co-solvency, while comparing their effectiveness, sustainability, and applicability in analytical chemistry, particularly within the frameworks of green and white analytical chemistry (GAC and WAC). Methods like hydrotropy, co-solvency, solid dispersions, and pH modification are discussed, each with distinct advantages and limitations. Hydrotropy, introduced by Carl A. Neuberg in 1916, enhances solubility without altering a drug's UV measurement range and is known for its eco-friendliness, stability, and scalability. Co-solvency modifies the solvent environment using solvents like ethanol but poses environmental concerns. Hydrotropy is safer and more scalable, though it requires more additives, while co-solvency is cost-effective but presents toxicity and precipitation risks. The environmental and safety benefits of hydrotropic solvents align with global sustainability initiatives like the UN SDGs. A case study comparing two UV methods (one with organic solvents and another with hydrotropic solvents) showed hydrotropy's superiority in sensitivity, stability, and sustainability, achieving a sustainability score of 71% versus 29% for methanol. The review also highlights the synergistic effects of multiple hydrotropic agents in improving solubility and drug stability. Overall, hydrotropy, particularly when combined with other solubility-enhancing techniques, represents a promising, sustainable approach for improving PAI solubility, offering significant safety, environmental, and economic benefits over traditional organic solvents.

Topics & Concepts

SolvencySolubilityActive ingredientBiochemical engineeringChemistryBusinessOrganic chemistryPharmacologyMedicineEngineeringMarket liquidityFinanceDrug Solubulity and Delivery SystemsAnalytical Methods in PharmaceuticalsAnalytical Chemistry and Chromatography