Primawan Putra Nugrahadi scite author profile

Over the past few decades, there has been a tremendous increase in the utilization of therapeutic peptides. Therapeutic peptides are usually administered via the parenteral route, requiring an aqueous formulation. Unfortunately, peptides are often unstable in aqueous solutions, affecting stability and bioactivity. Although a stable and dry formulation for reconstitution might be designed, from a pharmaco-economic and practical convenience point of view, a peptide formulation in an aqueous liquid form is preferred. Designing formulation strategies that optimize peptide stability may improve bioavailability and increase therapeutic efficacy. This literature review provides an overview of various degradation pathways and formulation strategies to stabilize therapeutic peptides in aqueous solutions. First, we introduce the major peptide stability issues in liquid formulations and the degradation mechanisms. Then, we present a variety of known strategies to inhibit or slow down peptide degradation. Overall, the most practical approaches to peptide stabilization are pH optimization and selecting the appropriate type of buffer. Other practical strategies to reduce peptide degradation rates in solution are the application of co-solvency, air exclusion, viscosity enhancement, PEGylation, and using polyol excipients.

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Kajian Sistematis tentang Peptida Parenteral: Instabilitas, Mekanisme Degradasi, dan Strategi Formulasinya

Nugrahadi

Avanti

2023

JFI

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The trend of using peptides, short chains of amino acids, as therapeutic agents has been increasing in recent decades. Therapeutic peptides usually use the parenteral route as systemic delivery system, requiring an aqueous formulation. However, in aqueous formulation, peptides are often unstable. The most stable form of therapeutic peptide is a lyophilized powder. Unfortunately, for tropical and developing countries such as Indonesia, as well as from pharmaco-economic point of view, if stable, peptide formulations in aqueous solution are preferred. This systematic literature review provides the various degradation pathways potentially experienced by therapeutic peptides available in Indonesia in aqueous solution. Then present various known strategies to prevent peptide degradation based on recent research. Article were searched on the PubMed, ScienceDirect, Wiley Online Library, and Google Scholar databases. Search results with keywords: therapeutic peptide OR peptide drug AND stability OR stabilization AND degradation OR degradation pathway found 20 articles that met the inclusion and exclusion criteria. Results showed that aggregation is the most common degradation pathway, followed by deamidation, hydrolysis, β-elimination, and disulphide exchange. The main strategies to improve peptide stability in solution are buffer selection and/or pH adjustment, addition of antioxidants/preservatives, combination of buffer with divalent metal ions, avoiding light exposure, and storage in cold temperature.

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Primawan Putra Nugrahadi

Designing Formulation Strategies for Enhanced Stability of Therapeutic Peptides in Aqueous Solutions: A Review

Kajian Sistematis tentang Peptida Parenteral: Instabilitas, Mekanisme Degradasi, dan Strategi Formulasinya

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