Human umbilical cord blood cells accelerate diabetic wound healing
February 23rd, 2011 - 5:13 pm ICT by ANIWashington, Feb 23 (ANI): Korean scientists have found that transplanting human umbilical cord blood-derived endothelial progenitor cells (EPCs) ’significantly accelerate’ wound closure in diabetic mouse models.
Diabetes is often associated with impaired wound healing, according to study’s corresponding author, Wonhee Suh of the CHA University Stem Cell Institute.
“EPCs are involved in revascularization of injured tissue and tissue repair,” said Suh.
“Wounds associated with diabetes that resist healing are also associated with decreased peripheral blood flow and often resist current therapies.
“Normal wounds, without underlying pathological defects heal readily, but the healing deficiency of diabetic wounds can be attributed to a number of factors, including decreased production of growth factors and reduced revascularization,” he said.
For the study, the researchers transplanted EPCs into an experimental group of mice modeled with diabetes-associated wounds, but did not transplant EPCs into a control group.
They found that the EPCs “prompted wound healing and increased neovascularization” in the experimental group.
“The transplantation of EPCs derived from human umbilical blood cells accelerated wound closure in diabetic mice from the earliest point,” said Suh.
The researchers found that growth factors and cytokines (small proteins secreted by specific cells of the immune system) were “massively produced” at the wounded skin sites and contributed to the healing process.
The study has been published in the current issue of Cell Transplantation. (ANI)
- New study offers hope to those with Alzheimer's, ALS - Mar 08, 2011
- Promising new approach to treat diabetic wounds, chronic ulcers - Feb 09, 2011
- Stem cells from testicles could offer diabetes treatment - Dec 14, 2010
- Growth-factor-containing nanoparticles speed up healing of chronic wounds - Jan 27, 2011
- New discovery to help diabetics with slow-to-heal wounds - Apr 17, 2010
- Nano drug promising in treatment of chronic wounds - Feb 09, 2011
- Study: Ice on injury may prevent healing - Oct 27, 2010
- Umbilical cord blood stem cell transplant may help patients with lung, heart disorders - Nov 24, 2009
- Platelet-rich plasma 'a promising treatment for heart attacks' - Jan 18, 2011
- Newly-created bioactive peptides found to promote wound healing - Dec 08, 2010
- Bone marrow cells that convert into skin cells could revolutionise wound treatment - Apr 05, 2011
- Missing sugar molecule 'increases diabetes risk' - Feb 25, 2011
- New stem cell therapy may help heal acute lung injury - Feb 04, 2010
- Stem cells ageing may be reversible - Jan 31, 2010
- Mechanism limiting scar formation discovered - Jun 11, 2010
Tags: blood cells, cell transplantation, cells of the immune system, control group, diabetic mice, diabetic wounds, endothelial progenitor cells, experimental group, growth factors, healing process, human umbilical cord, korean scientists, mouse models, peripheral blood flow, revascularization, suh, tissue repair, umbilical cord blood, wound closure, wound healing