Therapeutic Potential of Nanocarrier Mediated Delivery of Peptides for Wound Healing: Current Status, Challenges and Future Prospective
- PMID: 38730090
- DOI: 10.1208/s12249-024-02827-5
Therapeutic Potential of Nanocarrier Mediated Delivery of Peptides for Wound Healing: Current Status, Challenges and Future Prospective
Abstract
Wound healing presents a complex physiological process that involves a sequence of events orchestrated by various cellular and molecular mechanisms. In recent years, there has been growing interest in leveraging nanomaterials and peptides to enhance wound healing outcomes. Nanocarriers offer unique properties such as high surface area-to-volume ratio, tunable physicochemical characteristics, and the ability to deliver therapeutic agents in a controlled manner. Similarly, peptides, with their diverse biological activities and low immunogenicity, hold great promise as therapeutics in wound healing applications. In this review, authors explore the potential of peptides as bioactive components in wound healing formulations, focusing on their antimicrobial, anti-inflammatory, and pro-regenerative properties. Despite the significant progress made in this field, several challenges remain, including the need for standardized characterization methods, optimization of biocompatibility and safety profiles, and translation from bench to bedside. Furthermore, developing multifunctional nanomaterial-peptide hybrid systems represents promising avenues for future research. Overall, the integration of nanomaterials made up of natural or synthetic polymers with peptide-based formulations holds tremendous therapeutic potential in advancing the field of wound healing and improving clinical outcomes for patients with acute and chronic wounds.
Keywords: nanocarriers; peptide; polymers; wound healing.
© 2024. The Author(s), under exclusive licence to American Association of Pharmaceutical Scientists.
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References
-
- Kumar M, Mandal UK, Mahmood S. Dermatological formulations. 1st ed. 2024;613–42.
-
- Honari G. Skin structure and function. Sensitive Ski Syndr. CRC Press; 2017. p. 16–22.
-
- Yousef H, Alhajj M, Sharma S. Anatomy, skin (integument), epidermis. 2017.
-
- Norahan MH, Pedroza-González SC, Sánchez-Salazar MG, Álvarez MM, de Santiago GT. Structural and biological engineering of 3D hydrogels for wound healing. Bioact Mater. 2023;24:197–235. - PubMed
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