Gelatin- and starch-based hydrogels. Part A: Hydrogel development, characterization and coating

•Hydrogel films were developed consisting of methacrylamide-modified gelatin and starch-pentenoate building blocks.•The mechanical properties of the hydrogels were determined by the DS of the gel-MA applied and the chemical composition (ratio gelatin/starch).•The affinity of a bioactive aggrecan-coa...

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Published inCarbohydrate polymers Vol. 152; pp. 129 - 139
Main Authors Van Nieuwenhove, Ine, Salamon, Achim, Peters, Kirsten, Graulus, Geert-Jan, Martins, José C., Frankel, Daniel, Kersemans, Ken, De Vos, Filip, Van Vlierberghe, Sandra, Dubruel, Peter
Format Journal Article
LanguageEnglish
Published England Elsevier Ltd 05.11.2016
Subjects
Aggrecan
Biomaterials
Coated Materials, Biocompatible - chemistry
Gelatin
Gelatin - chemistry
Hydrogels - chemistry
Starch
Starch - chemistry
Tissue Engineering
Aggrecan
Gelatin
Starch
Tissue engineering
Biomaterials
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Abstract •Hydrogel films were developed consisting of methacrylamide-modified gelatin and starch-pentenoate building blocks.•The mechanical properties of the hydrogels were determined by the DS of the gel-MA applied and the chemical composition (ratio gelatin/starch).•The affinity of a bioactive aggrecan-coating for gelatin was successfully demonstrated. The present work aims at constructing the ideal scaffold matrix of which the physico-chemical properties can be altered according to the targeted tissue regeneration application. Ideally, this scaffold should resemble the natural extracellular matrix (ECM) as close as possible both in terms of chemical composition and mechanical properties. Therefore, hydrogel films were developed consisting of methacrylamide-modified gelatin and starch-pentenoate building blocks because the ECM can be considered as a crosslinked hydrogel network consisting of both polysaccharides and structural, signaling and cell-adhesive proteins. For the gelatin hydrogels, three different substitution degrees were evaluated including 31%, 72% and 95%. A substitution degree of 32% was applied for the starch-pentenoate building block. Pure gelatin hydrogels films as well as interpenetrating networks with gelatin and starch were developed. Subsequently, these films were characterized using gel fraction and swelling experiments, high resolution-magic angle spinning 1H NMR spectroscopy, rheology, infrared mapping and atomic force microscopy. The results indicate that both the mechanical properties and the swelling extent of the developed hydrogel films can be controlled by varying the chemical composition and the degree of substitution of the methacrylamide-modified gelatin applied. The storage moduli of the developed materials ranged between 14 and 63kPa. Phase separation was observed for the IPNs for which separated starch domains could be distinguished located in the surrounding gelatin matrix. Furthermore, we evaluated the affinity of aggrecan for gelatin by atomic force microscopy and radiolabeling experiments. We found that aggrecan can be applied as a bioactive coating for gelatin hydrogels by a straightforward physisorption procedure. Thus, we achieved distinct fine-tuning of the physico-chemical properties of these hydrogels which render them promising candidates for tissue engineering approaches.
AbstractList The present work aims at constructing the ideal scaffold matrix of which the physico-chemical properties can be altered according to the targeted tissue regeneration application. Ideally, this scaffold should resemble the natural extracellular matrix (ECM) as close as possible both in terms of chemical composition and mechanical properties. Therefore, hydrogel films were developed consisting of methacrylamide-modified gelatin and starch-pentenoate building blocks because the ECM can be considered as a crosslinked hydrogel network consisting of both polysaccharides and structural, signaling and cell-adhesive proteins. For the gelatin hydrogels, three different substitution degrees were evaluated including 31%, 72% and 95%. A substitution degree of 32% was applied for the starch-pentenoate building block. Pure gelatin hydrogels films as well as interpenetrating networks with gelatin and starch were developed. Subsequently, these films were characterized using gel fraction and swelling experiments, high resolution-magic angle spinning (1)H NMR spectroscopy, rheology, infrared mapping and atomic force microscopy. The results indicate that both the mechanical properties and the swelling extent of the developed hydrogel films can be controlled by varying the chemical composition and the degree of substitution of the methacrylamide-modified gelatin applied. The storage moduli of the developed materials ranged between 14 and 63kPa. Phase separation was observed for the IPNs for which separated starch domains could be distinguished located in the surrounding gelatin matrix. Furthermore, we evaluated the affinity of aggrecan for gelatin by atomic force microscopy and radiolabeling experiments. We found that aggrecan can be applied as a bioactive coating for gelatin hydrogels by a straightforward physisorption procedure. Thus, we achieved distinct fine-tuning of the physico-chemical properties of these hydrogels which render them promising candidates for tissue engineering approaches.
•Hydrogel films were developed consisting of methacrylamide-modified gelatin and starch-pentenoate building blocks.•The mechanical properties of the hydrogels were determined by the DS of the gel-MA applied and the chemical composition (ratio gelatin/starch).•The affinity of a bioactive aggrecan-coating for gelatin was successfully demonstrated. The present work aims at constructing the ideal scaffold matrix of which the physico-chemical properties can be altered according to the targeted tissue regeneration application. Ideally, this scaffold should resemble the natural extracellular matrix (ECM) as close as possible both in terms of chemical composition and mechanical properties. Therefore, hydrogel films were developed consisting of methacrylamide-modified gelatin and starch-pentenoate building blocks because the ECM can be considered as a crosslinked hydrogel network consisting of both polysaccharides and structural, signaling and cell-adhesive proteins. For the gelatin hydrogels, three different substitution degrees were evaluated including 31%, 72% and 95%. A substitution degree of 32% was applied for the starch-pentenoate building block. Pure gelatin hydrogels films as well as interpenetrating networks with gelatin and starch were developed. Subsequently, these films were characterized using gel fraction and swelling experiments, high resolution-magic angle spinning 1H NMR spectroscopy, rheology, infrared mapping and atomic force microscopy. The results indicate that both the mechanical properties and the swelling extent of the developed hydrogel films can be controlled by varying the chemical composition and the degree of substitution of the methacrylamide-modified gelatin applied. The storage moduli of the developed materials ranged between 14 and 63kPa. Phase separation was observed for the IPNs for which separated starch domains could be distinguished located in the surrounding gelatin matrix. Furthermore, we evaluated the affinity of aggrecan for gelatin by atomic force microscopy and radiolabeling experiments. We found that aggrecan can be applied as a bioactive coating for gelatin hydrogels by a straightforward physisorption procedure. Thus, we achieved distinct fine-tuning of the physico-chemical properties of these hydrogels which render them promising candidates for tissue engineering approaches.
Author Peters, Kirsten
De Vos, Filip
Salamon, Achim
Van Nieuwenhove, Ine
Kersemans, Ken
Dubruel, Peter
Martins, José C.
Frankel, Daniel
Van Vlierberghe, Sandra
Graulus, Geert-Jan
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  surname: Van Nieuwenhove
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  organization: Polymer Chemistry & Biomaterials Group, Ghent University, Krijgslaan 281, Building S4-Bis, BE-9000 Ghent, Belgium
– sequence: 2
  givenname: Achim
  surname: Salamon
  fullname: Salamon, Achim
  organization: Department of Cell Biology, Rostock University Medical Center, Schillingallee 69, D-18057 Rostock, Germany
– sequence: 3
  givenname: Kirsten
  surname: Peters
  fullname: Peters, Kirsten
  organization: Department of Cell Biology, Rostock University Medical Center, Schillingallee 69, D-18057 Rostock, Germany
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  givenname: Geert-Jan
  orcidid: 0000-0001-5445-3396
  surname: Graulus
  fullname: Graulus, Geert-Jan
  organization: Polymer Chemistry & Biomaterials Group, Ghent University, Krijgslaan 281, Building S4-Bis, BE-9000 Ghent, Belgium
– sequence: 5
  givenname: José C.
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  fullname: Martins, José C.
  organization: NMR and Structure Analysis Research Group, Ghent University, Krijgslaan 281, Building S4, BE-9000 Ghent, Belgium
– sequence: 6
  givenname: Daniel
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  fullname: Frankel, Daniel
  organization: School of Chemical Engineering and Advanced Materials, University of Newcastle, Mertz Court, Claremont Road, NE1 7RU Newcastle Upon Tyne, United Kingdom
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  givenname: Ken
  surname: Kersemans
  fullname: Kersemans, Ken
  organization: Laboratory of Radiopharmacy, Ghent University, Ottergemsesteenweg 460, BE-9000 Ghent, Belgium
– sequence: 8
  givenname: Filip
  surname: De Vos
  fullname: De Vos, Filip
  organization: Laboratory of Radiopharmacy, Ghent University, Ottergemsesteenweg 460, BE-9000 Ghent, Belgium
– sequence: 9
  givenname: Sandra
  surname: Van Vlierberghe
  fullname: Van Vlierberghe, Sandra
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– sequence: 10
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  surname: Dubruel
  fullname: Dubruel, Peter
  email: peter.dubruel@ugent.be
  organization: Polymer Chemistry & Biomaterials Group, Ghent University, Krijgslaan 281, Building S4-Bis, BE-9000 Ghent, Belgium
BackLink https://www.ncbi.nlm.nih.gov/pubmed/27516257$$D View this record in MEDLINE/PubMed
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Keywords Aggrecan
Gelatin
Starch
Tissue engineering
Biomaterials
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SSID ssj0000610
Score 2.536485
Snippet •Hydrogel films were developed consisting of methacrylamide-modified gelatin and starch-pentenoate building blocks.•The mechanical properties of the hydrogels...
The present work aims at constructing the ideal scaffold matrix of which the physico-chemical properties can be altered according to the targeted tissue...
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crossref
pubmed
elsevier
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StartPage 129
SubjectTerms Aggrecan
Biomaterials
Coated Materials, Biocompatible - chemistry
Gelatin
Gelatin - chemistry
Hydrogels - chemistry
Starch
Starch - chemistry
Tissue Engineering
Title Gelatin- and starch-based hydrogels. Part A: Hydrogel development, characterization and coating
URI https://dx.doi.org/10.1016/j.carbpol.2016.06.098
https://www.ncbi.nlm.nih.gov/pubmed/27516257
https://search.proquest.com/docview/1811299666
Volume 152
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