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Curcumin-loaded, alginate–gelatin composite fibers for wound healing applications

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Abstract

The wound healing process is characterized by varied biological and molecular cascades including inflammation, tissue proliferation, and remodeling phase. To augment and maintain these cascades, an all-natural matrix system is proposed. Biocompatible biopolymers, sodium alginate and gelatin, were employed to prepare microfibers via extrusion-gelation into a physical crosslinking solution. Curcumin, an anti-inflammatory, anti-oxidant and wound healing agent, was loaded into the fibers as a natural bioactive compound. Curcumin-loaded composite microfibers and blank microfibers were fabricated using biopolymers such as sodium alginate and gelatin. The formulation batches were coded as A1G9-A10G0 according to the varied concentrations of sodium alginate and gelatin. The molecular transitions within the composite microfibers were characterized using FTIR and were further corroborated using molecular mechanics analysis. In mechanical properties tensile strength and elongation-at-break (extensibility) were ranging between 1.08 ± 0.01 to 3.53 ± 0.41 N/mm2 and 3.89 ± 0.18 to 0.61 ± 0.03%. The morphological analysis confirmed the formation and fabrication of the microfibers. In addition, physical evaluation including matrix degradation and entrapment efficiency was performed to give a comparative account of various formulations. The water uptake capacity of the blank and curcumin-loaded composite fibers was found to be in the range of 30.77 ± 2.17 to 100.00 ± 5.99 and 22.34 ± 1.11 to 56.34 ± 4.68, respectively. Composite microfibers presented a cumulative release of 85% in 72 h, confirming the prolonged release potential of the composite fibers. The drug release followed an anomalous (non-Fickian) release behavior asserting the role of degradation and diffusion. In an in vivo full-thickness cutaneous wound model, the composite microfibers provided higher degree of contraction 96.89 ± 3.76% as compared to the marketed formulation (Vicco turmeric cream). In conclusion, this all-natural, alginate–gelatin–curcumin composite has the potential to be explored as a cost-effective wound healing platform.

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Acknowledgements

The authors are thankful to Dr. Madhu Chitkara, Vice-Chancellor, Chitkara University, Punjab, India; Dr. Ashok Chitkara, Chancellor, Chitkara University, Punjab, India and Dr. Sandeep Arora, Director, Chitkara University, Punjab, India for constant encouragement and providing necessary facilities.

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Correspondence to Inderbir Singh.

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The authors declare no conflict of interest.

Ethical approval

The animal study was conducted in accordance with the protocol approved by the Animal Ethics Committee of Chitkara College of Pharmacy, Chitkara University, Patiala, Punjab (1181/PO/ReBi/S/08/CPCSEA).

In vivo animal study

In vivo wound healing studies were conducted in a full-thickness wound model and were approved by the Animal Ethics Committee (AEC), Chitkara University, Patiala, Punjab (118/PO/ReBi/S/08/CPCSEA).

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Sharma, A., Mittal, A., Puri, V. et al. Curcumin-loaded, alginate–gelatin composite fibers for wound healing applications. 3 Biotech 10, 464 (2020). https://doi.org/10.1007/s13205-020-02453-5

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  • DOI: https://doi.org/10.1007/s13205-020-02453-5

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