Bioactive hydrogel (ZIF-8@CMC-PVA-SA) as dressing materials for wound healing applications

Muhammad Umar Aslam Khan; Mohamed Hashem; Hassan Fouad; Hayat M. Albishi; Thamir M. Eid; Abdalla Abdal-hay; Anwarul Hasan

doi:10.1016/j.mtcomm.2024.111282

Bioactive hydrogel (ZIF-8@CMC-PVA-SA) as dressing materials for wound healing applications

Muhammad Umar Aslam Khan^*
, Mohamed Hashem
, Hassan Fouad
, Hayat M. Albishi
, Thamir M. Eid
, Abdalla Abdal-hay
, Anwarul Hasan

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

22 Scopus citations

Abstract

Skin wounds are a major medical challenge, requiring dressings that maintain moisture to promote healing in the complex wound environment. In this work, composite hydrogels were developed by crosslinking CMC, PVA, and SA with TEOS using a straightforward blending method. The composite hydrogels integrated with ZiF-8 into the polymeric matrix were characterized using advanced techniques, including FTIR, XRD, SEM-EDX, and AFM. The physicochemical behavior was evaluated by swelling in different media (electrolyte (with different concentrations), Aqueous and PBS (with different pH)), wetting, and biodegradation in PBS media at 37 °C. The hydrogels with maximum ZiF-8 have maximum swelling in aqueous (1692.54 ± 7.2 %), PBS (1409.67 ± 9.5 %), and electrolyte NaCl (954.4 ± 9.3 %), and CaCl₂ (975.95 ± 4.5 %)) media. Cell viability, proliferation, and morphology were used to examine the cytocompatibility behavior against fibroblast (3t3) cell lines. The hydrogel sample SCP-3 exhibited maximum cell viability and proliferation with mature cell morphology. The results showed that the fabricated composite hydrogels are pH-responsive and biocompatible. Collectively, the fabricated composite hydrogels exhibit high potential as bioactive, pH-responsive wound dressings, ideal for managing wound exudate in healing applications.

Original language	English
Article number	111282
Journal	Materials Today Communications
Volume	42
DOIs	https://doi.org/10.1016/j.mtcomm.2024.111282
State	Published - Jan 2025
Externally published	Yes

Bibliographical note

Publisher Copyright:
© 2024 Elsevier Ltd

Keywords

Bioactive hydrogels
Biocompatible
Carboxymethyl cellulose
Metal organic frameworks
PVA
Skin wound healing

ASJC Scopus subject areas

General Materials Science
Mechanics of Materials
Materials Chemistry

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10.1016/j.mtcomm.2024.111282

Cite this

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title = "Bioactive hydrogel (ZIF-8@CMC-PVA-SA) as dressing materials for wound healing applications",

abstract = "Skin wounds are a major medical challenge, requiring dressings that maintain moisture to promote healing in the complex wound environment. In this work, composite hydrogels were developed by crosslinking CMC, PVA, and SA with TEOS using a straightforward blending method. The composite hydrogels integrated with ZiF-8 into the polymeric matrix were characterized using advanced techniques, including FTIR, XRD, SEM-EDX, and AFM. The physicochemical behavior was evaluated by swelling in different media (electrolyte (with different concentrations), Aqueous and PBS (with different pH)), wetting, and biodegradation in PBS media at 37 °C. The hydrogels with maximum ZiF-8 have maximum swelling in aqueous (1692.54 ± 7.2 \%), PBS (1409.67 ± 9.5 \%), and electrolyte NaCl (954.4 ± 9.3 \%), and CaCl2 (975.95 ± 4.5 \%)) media. Cell viability, proliferation, and morphology were used to examine the cytocompatibility behavior against fibroblast (3t3) cell lines. The hydrogel sample SCP-3 exhibited maximum cell viability and proliferation with mature cell morphology. The results showed that the fabricated composite hydrogels are pH-responsive and biocompatible. Collectively, the fabricated composite hydrogels exhibit high potential as bioactive, pH-responsive wound dressings, ideal for managing wound exudate in healing applications.",

keywords = "Bioactive hydrogels, Biocompatible, Carboxymethyl cellulose, Metal organic frameworks, PVA, Skin wound healing",

author = "Khan, \{Muhammad Umar Aslam\} and Mohamed Hashem and Hassan Fouad and Albishi, \{Hayat M.\} and Eid, \{Thamir M.\} and Abdalla Abdal-hay and Anwarul Hasan",

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year = "2025",

month = jan,

doi = "10.1016/j.mtcomm.2024.111282",

language = "English",

volume = "42",

journal = "Materials Today Communications",

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AU - Khan, Muhammad Umar Aslam

AU - Hashem, Mohamed

AU - Fouad, Hassan

AU - Albishi, Hayat M.

AU - Eid, Thamir M.

AU - Abdal-hay, Abdalla

AU - Hasan, Anwarul

PY - 2025/1

Y1 - 2025/1

N2 - Skin wounds are a major medical challenge, requiring dressings that maintain moisture to promote healing in the complex wound environment. In this work, composite hydrogels were developed by crosslinking CMC, PVA, and SA with TEOS using a straightforward blending method. The composite hydrogels integrated with ZiF-8 into the polymeric matrix were characterized using advanced techniques, including FTIR, XRD, SEM-EDX, and AFM. The physicochemical behavior was evaluated by swelling in different media (electrolyte (with different concentrations), Aqueous and PBS (with different pH)), wetting, and biodegradation in PBS media at 37 °C. The hydrogels with maximum ZiF-8 have maximum swelling in aqueous (1692.54 ± 7.2 %), PBS (1409.67 ± 9.5 %), and electrolyte NaCl (954.4 ± 9.3 %), and CaCl2 (975.95 ± 4.5 %)) media. Cell viability, proliferation, and morphology were used to examine the cytocompatibility behavior against fibroblast (3t3) cell lines. The hydrogel sample SCP-3 exhibited maximum cell viability and proliferation with mature cell morphology. The results showed that the fabricated composite hydrogels are pH-responsive and biocompatible. Collectively, the fabricated composite hydrogels exhibit high potential as bioactive, pH-responsive wound dressings, ideal for managing wound exudate in healing applications.

AB - Skin wounds are a major medical challenge, requiring dressings that maintain moisture to promote healing in the complex wound environment. In this work, composite hydrogels were developed by crosslinking CMC, PVA, and SA with TEOS using a straightforward blending method. The composite hydrogels integrated with ZiF-8 into the polymeric matrix were characterized using advanced techniques, including FTIR, XRD, SEM-EDX, and AFM. The physicochemical behavior was evaluated by swelling in different media (electrolyte (with different concentrations), Aqueous and PBS (with different pH)), wetting, and biodegradation in PBS media at 37 °C. The hydrogels with maximum ZiF-8 have maximum swelling in aqueous (1692.54 ± 7.2 %), PBS (1409.67 ± 9.5 %), and electrolyte NaCl (954.4 ± 9.3 %), and CaCl2 (975.95 ± 4.5 %)) media. Cell viability, proliferation, and morphology were used to examine the cytocompatibility behavior against fibroblast (3t3) cell lines. The hydrogel sample SCP-3 exhibited maximum cell viability and proliferation with mature cell morphology. The results showed that the fabricated composite hydrogels are pH-responsive and biocompatible. Collectively, the fabricated composite hydrogels exhibit high potential as bioactive, pH-responsive wound dressings, ideal for managing wound exudate in healing applications.

KW - Bioactive hydrogels

KW - Biocompatible

KW - Carboxymethyl cellulose

KW - Metal organic frameworks

KW - PVA

KW - Skin wound healing

UR - https://www.scopus.com/pages/publications/85212560780

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DO - 10.1016/j.mtcomm.2024.111282

M3 - Article

AN - SCOPUS:85212560780

SN - 2352-4928

VL - 42

JO - Materials Today Communications

JF - Materials Today Communications

M1 - 111282

ER -

Bioactive hydrogel (ZIF-8@CMC-PVA-SA) as dressing materials for wound healing applications

Abstract

Bibliographical note

Keywords

ASJC Scopus subject areas

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