We use cookies to understand how you use our site and to improve your experience. This includes personalizing content and advertising. To learn more, click here. By continuing to use our site, you accept our use of cookies. Cookie Policy.

LabMedica

Download Mobile App
Recent News Expo Medica 2024 Clinical Chem. Molecular Diagnostics Hematology Immunology Microbiology Pathology Technology Industry Focus

Highly Elastic Protein Gel Encourages Wound Healing

By LabMedica International staff writers
Posted on 16 Jul 2015
A new study describes a protein-based gel that mimics many of the properties of elastic tissue—such as skin and blood vessels—when exposed to light.

Researchers at Brigham and Women's Hospital (Boston, MA, USA) and King Abdulaziz University (KAU; Jeddah, Saudi Arabia) successfully developed a photo-crosslinked elastin-like polypeptide (ELP) that contained only canonical amino acids and thiols from a pair of cysteine residues. The thiols embedded into the ELP sequence caused formation of disulfide bonds when exposed to UV light. This allowed the researchers to create a highly elastic hydrogel with mechanical and swelling behavior properties that can be tuned by controlling ELP concentrations.

They then examined the biocompatibility of the engineered ELP hydrogels in vitro, as well as in vivo with subcutaneous implantation in rats. The ELP constructs demonstrated long-term structural stability in vivo and early and progressive host integration without immune response, suggesting their potential for supporting wound repair and as an in vivo hemostatic material for treating bleeding wounds. The researchers also found that combining the hydrogel with silica nanoparticles formed an even more powerful barrier. The study was published in the July 2015 issue of Advanced Functional Materials.

“Our hydrogel has many applications: it could be used as a scaffold to grow cells, or it can be incorporated with cells in a dish and then injected to stimulate tissue growth,” said co-senior author Nasim Annabi, PhD, of the Brigham biomedical engineering division. “In addition, the material can be used as a sealant, sticking to the tissue at the site of injury and creating a barrier over a wound. We see great potential for use in the clinic. Our method is simple, the material is biocompatible, and we hope to see it solve clinical problems in the future.”

“Hydrogels, jelly-like materials that can mimic the properties of human tissue, are widely used in biomedicine, but currently available materials have limitations,” added co-senior author Ali Khademhosseini, PhD, of Brigham and KAU.” Some synthetic gels degrade into toxic chemicals over time, and some natural gels are not strong enough to withstand the flow of arterial blood through them.”

Related Links:

Brigham and Women's Hospital
King Abdulaziz University



Gold Member
Turnkey Packaging Solution
HLX
Automated Blood Typing System
IH-500 NEXT
New
Vitamin B12 Test
CHORUS CLIA VIT B12
New
Anti-Secukinumab ELISA
LISA-TRACKER anti-Secukinumab

Latest BioResearch News

Genome Analysis Predicts Likelihood of Neurodisability in Oxygen-Deprived Newborns

Gene Panel Predicts Disease Progession for Patients with B-cell Lymphoma

New Method Simplifies Preparation of Tumor Genomic DNA Libraries