Biological study of skin wound treated with Alginate/Carboxymethyl cellulose/chorion membrane, diopside nanoparticles, and Botox A

A hydrogel-based wound dressing with desirable properties is necessary for achieving functional skin integrity post-injury. This study focuses on preparing a hydrogel using Alginate/Carboxymethyl cellulose (Alg/CMC) as a base material. To evaluate its regenerative effects on full-thickness wounds, d...

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Vydáno v:	npj Regenerative medicine Ročník 9; číslo 1; s. 9 - 20
Hlavní autoři:	Mahheidari, Naimeh, Kamalabadi-Farahani, Mohammad, Nourani, Mohammad Reza, Atashi, Amir, Alizadeh, Morteza, Aldaghi, Niloofar, Salehi, Majid
Médium:	Journal Article
Jazyk:	angličtina
Vydáno:	London Nature Publishing Group UK 27.02.2024 Nature Publishing Group Nature Portfolio
Témata:	631/61/490 692/308/1426 Biomaterials Biomedical and Life Sciences Biomedicine Blood vessels Botulinum toxin Cell adhesion & migration Cell Biology Cellulose Connective tissue Extracellular matrix Growth factors Hydrogels Immunology Morphology Nanoparticles Regenerative medicine Regenerative Medicine/Tissue Engineering Skin integrity Spectrum analysis Stem Cells Tissue engineering Wound healing
ISSN:	2057-3995, 2057-3995
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Abstract	A hydrogel-based wound dressing with desirable properties is necessary for achieving functional skin integrity post-injury. This study focuses on preparing a hydrogel using Alginate/Carboxymethyl cellulose (Alg/CMC) as a base material. To evaluate its regenerative effects on full-thickness wounds, diopside nanoparticles and Botulinum toxin A (BTX-A) were incorporated into the hydrogel along with chorion membrane. The diopside nanoparticles (DNPs) act as a proangiogenic factor, promoting proliferation and regulating inflammation, while the chorion membrane facilitates these processes. Additionally, BTX-A prevents scar formation and aids in wound closure. The nanoparticles and hydrogel were characterized using various techniques, and their cytocompatibility was assessed. In vivo studies and quantitative polymerase chain reaction analysis showed that wound area reduction was significant after two weeks of treatment with the Alg/CMC/ChNPs/DNPs/BTX-A hydrogel. Overall, this scaffold demonstrated potential for promoting tissue regeneration and new epithelization formation, making it a promising candidate for enhancing skin restoration in wound treatments.
AbstractList	Abstract A hydrogel-based wound dressing with desirable properties is necessary for achieving functional skin integrity post-injury. This study focuses on preparing a hydrogel using Alginate/Carboxymethyl cellulose (Alg/CMC) as a base material. To evaluate its regenerative effects on full-thickness wounds, diopside nanoparticles and Botulinum toxin A (BTX-A) were incorporated into the hydrogel along with chorion membrane. The diopside nanoparticles (DNPs) act as a proangiogenic factor, promoting proliferation and regulating inflammation, while the chorion membrane facilitates these processes. Additionally, BTX-A prevents scar formation and aids in wound closure. The nanoparticles and hydrogel were characterized using various techniques, and their cytocompatibility was assessed. In vivo studies and quantitative polymerase chain reaction analysis showed that wound area reduction was significant after two weeks of treatment with the Alg/CMC/ChNPs/DNPs/BTX-A hydrogel. Overall, this scaffold demonstrated potential for promoting tissue regeneration and new epithelization formation, making it a promising candidate for enhancing skin restoration in wound treatments. A hydrogel-based wound dressing with desirable properties is necessary for achieving functional skin integrity post-injury. This study focuses on preparing a hydrogel using Alginate/Carboxymethyl cellulose (Alg/CMC) as a base material. To evaluate its regenerative effects on full-thickness wounds, diopside nanoparticles and Botulinum toxin A (BTX-A) were incorporated into the hydrogel along with chorion membrane. The diopside nanoparticles (DNPs) act as a proangiogenic factor, promoting proliferation and regulating inflammation, while the chorion membrane facilitates these processes. Additionally, BTX-A prevents scar formation and aids in wound closure. The nanoparticles and hydrogel were characterized using various techniques, and their cytocompatibility was assessed. In vivo studies and quantitative polymerase chain reaction analysis showed that wound area reduction was significant after two weeks of treatment with the Alg/CMC/ChNPs/DNPs/BTX-A hydrogel. Overall, this scaffold demonstrated potential for promoting tissue regeneration and new epithelization formation, making it a promising candidate for enhancing skin restoration in wound treatments. A hydrogel-based wound dressing with desirable properties is necessary for achieving functional skin integrity post-injury. This study focuses on preparing a hydrogel using Alginate/Carboxymethyl cellulose (Alg/CMC) as a base material. To evaluate its regenerative effects on full-thickness wounds, diopside nanoparticles and Botulinum toxin A (BTX-A) were incorporated into the hydrogel along with chorion membrane. The diopside nanoparticles (DNPs) act as a proangiogenic factor, promoting proliferation and regulating inflammation, while the chorion membrane facilitates these processes. Additionally, BTX-A prevents scar formation and aids in wound closure. The nanoparticles and hydrogel were characterized using various techniques, and their cytocompatibility was assessed. In vivo studies and quantitative polymerase chain reaction analysis showed that wound area reduction was significant after two weeks of treatment with the Alg/CMC/ChNPs/DNPs/BTX-A hydrogel. Overall, this scaffold demonstrated potential for promoting tissue regeneration and new epithelization formation, making it a promising candidate for enhancing skin restoration in wound treatments.A hydrogel-based wound dressing with desirable properties is necessary for achieving functional skin integrity post-injury. This study focuses on preparing a hydrogel using Alginate/Carboxymethyl cellulose (Alg/CMC) as a base material. To evaluate its regenerative effects on full-thickness wounds, diopside nanoparticles and Botulinum toxin A (BTX-A) were incorporated into the hydrogel along with chorion membrane. The diopside nanoparticles (DNPs) act as a proangiogenic factor, promoting proliferation and regulating inflammation, while the chorion membrane facilitates these processes. Additionally, BTX-A prevents scar formation and aids in wound closure. The nanoparticles and hydrogel were characterized using various techniques, and their cytocompatibility was assessed. In vivo studies and quantitative polymerase chain reaction analysis showed that wound area reduction was significant after two weeks of treatment with the Alg/CMC/ChNPs/DNPs/BTX-A hydrogel. Overall, this scaffold demonstrated potential for promoting tissue regeneration and new epithelization formation, making it a promising candidate for enhancing skin restoration in wound treatments.
ArticleNumber	9
Author	Atashi, Amir Nourani, Mohammad Reza Salehi, Majid Aldaghi, Niloofar Alizadeh, Morteza Mahheidari, Naimeh Kamalabadi-Farahani, Mohammad
Author_xml	– sequence: 1 givenname: Naimeh orcidid: 0000-0003-3150-2145 surname: Mahheidari fullname: Mahheidari, Naimeh organization: Student Research Committee, School of Medicine, Shahroud University of Medical Sciences – sequence: 2 givenname: Mohammad orcidid: 0000-0002-4768-2577 surname: Kamalabadi-Farahani fullname: Kamalabadi-Farahani, Mohammad organization: Department of Tissue Engineering, School of Medicine, Shahroud University of Medical Sciences – sequence: 3 givenname: Mohammad Reza orcidid: 0000-0001-5343-1355 surname: Nourani fullname: Nourani, Mohammad Reza organization: Tissue Engineering and Regenerative Medicine Research Center, Baqiyatallah University of Medical Sciences, Department of Dental and Biomedical Materials Science, School of Dentistry, Nagasaki University – sequence: 4 givenname: Amir surname: Atashi fullname: Atashi, Amir organization: Tissue Engineering and stem cells research center, Shahroud University of Medical Sciences, Department of Hematology, School of Allied Medical Sciences, Shahroud University of Medical Sciences – sequence: 5 givenname: Morteza orcidid: 0000-0003-4214-6502 surname: Alizadeh fullname: Alizadeh, Morteza organization: Department of Tissue Engineering, School of Medicine, Shahroud University of Medical Sciences – sequence: 6 givenname: Niloofar orcidid: 0000-0002-0592-120X surname: Aldaghi fullname: Aldaghi, Niloofar organization: Student Research Committee, School of Medicine, Shahroud University of Medical Sciences – sequence: 7 givenname: Majid orcidid: 0000-0001-6283-8181 surname: Salehi fullname: Salehi, Majid email: msalehi.te1392@gmail.com organization: Department of Tissue Engineering, School of Medicine, Shahroud University of Medical Sciences, Tissue Engineering and stem cells research center, Shahroud University of Medical Sciences, Health Technology Incubator Center, Shahroud University of Medical Sciences
BackLink	https://www.ncbi.nlm.nih.gov/pubmed/38413625$$D View this record in MEDLINE/PubMed
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SubjectTerms	631/61/490 692/308/1426 Biomaterials Biomedical and Life Sciences Biomedicine Blood vessels Botulinum toxin Cell adhesion & migration Cell Biology Cellulose Connective tissue Extracellular matrix Growth factors Hydrogels Immunology Morphology Nanoparticles Regenerative medicine Regenerative Medicine/Tissue Engineering Skin integrity Spectrum analysis Stem Cells Tissue engineering Wound healing
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Title	Biological study of skin wound treated with Alginate/Carboxymethyl cellulose/chorion membrane, diopside nanoparticles, and Botox A
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