Development and characterization of collagen‑based electrospun scaffolds containing silver sulphadiazine and Aspalathus linearis extract for potential wound healing applications
Development and characterization of collagen‑based electrospun scaffolds containing silver sulphadiazine and Aspalathus linearis extract for potential wound healing applications
Bone, skin and soft tissue chronic wounds emanating from burns or bacterial infections which persist due to prolonged tissue inflammation contribute to a delay in wound healing. Electrospun biomimetic scaffolds produced from biodegradable polymers have proven to be a better alternative due to their large surface area to volume ratio and ability to release the drug directly to the wound surface allowing fast and sustained absorbance over the affected wound area. In this study, poly lactic acid (PLA) (20% w/v) and collagen-based (PLA/C) fibrous scaffolds (electrospun at a voltage of 22 kV, flow rate of 0.1 mL/min) containing varying concentrations of silver sulphadiazine (1% w/w, 0.75% w/w) (Ag+S) and Aspalathus linearis (AL) fermented extract (0.025%, 0.1% and 0.5% w/w), were designed and fabricated to increase antimicrobial penetration and cellular biocompatibility. The elastic modulus of samples revealed that incorporating 1% Ag+S and A. linearis extract to PLA solution culminates in a fiber with the superlative stiffness of 2.1.1 GPa. The antimicrobial effect of the scaffolds was evaluated against S. aureus, P. aeruginosa, MRSA and E. coli. PLA/C–Ag+S/AL scaffolds and showed antibacterial activity against both gram +ve and gram −ve bacteria. They were nontoxic to the cells and provided favorable substrates for the neonatal epidermal keratinocytes cells to undergo cell attachment and proliferation. PLA/C–Ag+S/AL scaffolds have a great potential for use in chronic wounds as well as in tissue and bioengineering applications.
Ilomuanya, Margaret O.
74956743-5918-441e-9277-971537821afe
Adebona, Adannaya C.
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Wang, Weiguang
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Sowemimo, Abimbola
f026d726-1026-4b1f-b824-f903b4319a7e
Eziegbo, Chioma L.
80c3fa0a-f8d1-40dc-bd47-f811fac225f7
Silva, Boladale O.
6546aa84-3ca2-4a6c-a2bd-da54d1027bc0
Adeosun, Samson O.
7eb918dd-142a-431a-91e1-b6c37ea80455
Joubert, Elizabeth
fd183278-db40-40e6-9558-d71b8c73aa91
De Beer, Dalene
52c5e387-ef1b-4209-a9f4-a58c3534bcdf
11 April 2020
Ilomuanya, Margaret O.
74956743-5918-441e-9277-971537821afe
Adebona, Adannaya C.
a22c7036-3d9a-4c35-a42e-c234e9ee9fd3
Wang, Weiguang
0cc699c0-e7b3-49d0-8c84-1e9d63f747d8
Sowemimo, Abimbola
f026d726-1026-4b1f-b824-f903b4319a7e
Eziegbo, Chioma L.
80c3fa0a-f8d1-40dc-bd47-f811fac225f7
Silva, Boladale O.
6546aa84-3ca2-4a6c-a2bd-da54d1027bc0
Adeosun, Samson O.
7eb918dd-142a-431a-91e1-b6c37ea80455
Joubert, Elizabeth
fd183278-db40-40e6-9558-d71b8c73aa91
De Beer, Dalene
52c5e387-ef1b-4209-a9f4-a58c3534bcdf
Ilomuanya, Margaret O., Adebona, Adannaya C., Wang, Weiguang, Sowemimo, Abimbola, Eziegbo, Chioma L., Silva, Boladale O., Adeosun, Samson O., Joubert, Elizabeth and De Beer, Dalene
(2020)
Development and characterization of collagen‑based electrospun scaffolds containing silver sulphadiazine and Aspalathus linearis extract for potential wound healing applications.
SN Applied Sciences, 2, [881].
(doi:10.1007/s42452-020-2701-8).
Abstract
Bone, skin and soft tissue chronic wounds emanating from burns or bacterial infections which persist due to prolonged tissue inflammation contribute to a delay in wound healing. Electrospun biomimetic scaffolds produced from biodegradable polymers have proven to be a better alternative due to their large surface area to volume ratio and ability to release the drug directly to the wound surface allowing fast and sustained absorbance over the affected wound area. In this study, poly lactic acid (PLA) (20% w/v) and collagen-based (PLA/C) fibrous scaffolds (electrospun at a voltage of 22 kV, flow rate of 0.1 mL/min) containing varying concentrations of silver sulphadiazine (1% w/w, 0.75% w/w) (Ag+S) and Aspalathus linearis (AL) fermented extract (0.025%, 0.1% and 0.5% w/w), were designed and fabricated to increase antimicrobial penetration and cellular biocompatibility. The elastic modulus of samples revealed that incorporating 1% Ag+S and A. linearis extract to PLA solution culminates in a fiber with the superlative stiffness of 2.1.1 GPa. The antimicrobial effect of the scaffolds was evaluated against S. aureus, P. aeruginosa, MRSA and E. coli. PLA/C–Ag+S/AL scaffolds and showed antibacterial activity against both gram +ve and gram −ve bacteria. They were nontoxic to the cells and provided favorable substrates for the neonatal epidermal keratinocytes cells to undergo cell attachment and proliferation. PLA/C–Ag+S/AL scaffolds have a great potential for use in chronic wounds as well as in tissue and bioengineering applications.
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Accepted/In Press date: 6 April 2020
Published date: 11 April 2020
Identifiers
Local EPrints ID: 497812
URI: http://eprints.soton.ac.uk/id/eprint/497812
ISSN: 2523-3971
PURE UUID: 6f3a6f9b-9c3f-4427-ac5f-67590dabdff2
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Date deposited: 31 Jan 2025 18:09
Last modified: 01 Feb 2025 03:20
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Contributors
Author:
Margaret O. Ilomuanya
Author:
Adannaya C. Adebona
Author:
Weiguang Wang
Author:
Abimbola Sowemimo
Author:
Chioma L. Eziegbo
Author:
Boladale O. Silva
Author:
Samson O. Adeosun
Author:
Elizabeth Joubert
Author:
Dalene De Beer
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