Development of Gelatin-Alginate Hydrogels for Burn Wound Treatment.

@article{Stubbe2019DevelopmentOG,
  title={Development of Gelatin-Alginate Hydrogels for Burn Wound Treatment.},
  author={Birgit Stubbe and Arn Mignon and Heidi Declercq and Sandra Van Vlierberghe and Peter Dubruel},
  journal={Macromolecular bioscience},
  year={2019},
  pages={
          e1900123
        }
}
Hydrogels are interesting as wound dressing for burn wounds to maintain a moist environment. Especially gelatin and alginate based wound dressings show strong potential. Both polymers are modified by introducing photocrosslinkable functionalities and combined to hydrogel films (gel-MA/alg-MA). In one protocol gel-MA films are incubated in alg-MA solutions and crosslinked afterward into double networks. Another protocol involves blending both and subsequent photocrosslinking. The introduction of… 
View on PubMed
lirias.kuleuven.be
30 Citations
Background Citations
5

30 Citations

Citation Type

Citation Type

Gelatin-Based Versus Alginate-Based Hydrogels: Providing Insight in Wound Healing Potential.
TLDR
Results provide data which support that GelNB films outperform AlgMA films, but both can be used for wound healing applications.
Alginate hydrogel dressings for advanced wound management.
  • Miao Zhang, Xia Zhao
  • Biology, Engineering
    International journal of biological macromolecules
  • 2020
Study of Several Alginate-Based Hydrogels for In Vitro 3D Cell Cultures
TLDR
In this study, several alginate-based composite hydrogels, including gelatin/alginate (G-A) and F-A-AHydrogels are constructed and it is found that the G-a-A and fibrinogen/Alginate/agarose hydrogel are the best hydrogEL for the in vitro 3D cell cultures and pathological model construction.
Photo-Crosslinked Gelatin-Based Hydrogel Films to Support Wound Healing.
TLDR
Overall, gel-MA showed to have the most potential to be applied as wound dressing, and future blending with gel-AA to improve the curing kinetics could lead to dressings able to compete with current commercial dressings.
Berberine carried gelatin/sodium alginate hydrogels with antibacterial and EDTA-induced detachment performances.
Gelatin/poly(vinyl alcohol) based hydrogel film – A potential biomaterial for wound dressing: Experimental design and optimization followed by rotatable central composite design
TLDR
The optimized hydrogel film is elastic, presents good mechanical resistance and swelling capacity in water and exudate solution, is permeable to oxygen, and is capable of adjusting itself and maintains contact close to the skin.
Stem Cell Seeded and Silver Nanoparticles Loaded Bilayer PLGA/PVA Dressings for Wound Healing.
TLDR
It is speculated that the stem cells seeded bilayer dressing would be of great potential for skin tissue engineering, because of its antibacterial activity and safe application of stem cells.
Zn2+-loaded TOBC nanofiber-reinforced biomimetic calcium alginate hydrogel for antibacterial wound dressing.
In situ gelling and dissolvable hydrogels for use as on-demand wound dressings for burns.
TLDR
Results from an in vivo porcine second degree burn model demonstrate functional performance with healing equivalent to conventional treatments with the added benefit of facile, in situ application and subsequent removal via dissolution.
Biopolymer-Based Hydrogel Wound Dressing
...
1
2
3
...

References

SHOWING 1-10 OF 56 REFERENCES
On the characterization of sodium alginate/gelatine‐based hydrogels for wound dressing
TLDR
It could be suggested that the SA/G hydrogel is a potential wound dressing material providing and maintaining the adequate moist environment required to prevent scab formation and the dehydration of the wound bed.
Preparation and Evaluation of Hydrogel-Composites from Methacrylated Hyaluronic Acid, Alginate, and Gelatin for Tissue Engineering
TLDR
Biological testing showed good biocompatibility and cell survival in the presence of all materials discussed, and blends of gelatin, alginate and hyaluronic acid are promising candidates for the generation of non-toxic,Biocompatible hydrogel scaffolds for tissue engineering.
Impact of the composition of alginate and gelatin derivatives in bioconjugated hydrogels on the fabrication of cell sheets and spherical tissues with living cell sheaths.
Alginate hydrogels as biomaterials.
TLDR
Micro-CT images of bone-like constructs that result from transplantation of osteoblasts on gels that degrade over a time frame of several months leading to improved bone formation are presented.
Characterization of photocrosslinked alginate hydrogels for nucleus pulposus cell encapsulation.
TLDR
This study is the first to demonstrate that photocrosslinked alginate can be used for cellular encapsulation and synthesized with tunable material properties that may be tailored for specific applications.
Photofunctionalization of alginate hydrogels to promote adhesion and proliferation of human mesenchymal stem cells.
TLDR
This new biomaterial system may be a useful platform for tissue engineering, drug delivery, and stem cell transplantation with spatial control of cell adhesion ligands within photocrosslinked ALG hydrogels.
Cross-linkable alginate-graft-gelatin copolymers for tissue engineering applications
Photocrosslinkable polysaccharides for in situ hydrogel formation.
TLDR
Two photocrosslinkable polysaccharides composed of alginate and hyaluronan are described that upon photolysis form soft, flexible, and viscoelastic hydrogels that are relevant for biomedical applications such as sealing wounds and reconstructing soft tissues.
Alginate hydrogels as synthetic extracellular matrix materials.
Preparation and characterization of alginate/gelatin blend films for cardiac tissue engineering.
TLDR
The results obtained in the biological characterization allow to select the alginate/gelatin 20:80 blend as a suitable material to prepare scaffolds for myocardial tissue engineering.
...
1
2
3
4
5
...