Scientists develop ’scaffold’ to regenerate lost or damaged bones, tissues
October 20th, 2009 - 5:08 pm ICT by ANIWashington, Oct 20 (ANI): Lizard has a unique ability to regrow body tissue that is damaged or torn. If its tail is pulled off, it grows right back. It’s an impressive feat, and one that humans are quite incapable of.
Now, researchers at Tel Aviv University have developed a new technology meant to aide the human body in growing new bone.
One of the largest hurdles in tissue engineering is the development of bone, which requires certain chemical signals to grow.
While researches have long known what these signals are, they have yet to be able to deliver them in a way that leads to proper bone growth.
TAU researchers have developed a flexible scaffolding of soluble fibers that promote the growth by trapping the growth-stimulating drugs within the scaffold, preventing them from being metabolized too quickly by the body, and holding them in specific locations to dictate the growth pattern of the new bone.
While the technology is far from being ready to test in human subjects, the scientists predict that the technology could be used at first to grow new bone for dental implants.
Further developments could eventually allow the technology to be adapted for cosmetic surgeries, allowing patients to grow their own implants.
“Our fibers provide all the advantages that clinicians in tissue regeneration are calling for. Being thin, they’re ideal when delicate scaffolds are called for. But they can also be the basic building blocks of bones and tissues when bigger structures are needed, ” Professor Meital Zilberman of TAU’s Department of Biomedical Engineering said.
Further research will be aimed at growing new types of tissues, and eventually developing complete sets of tissues. We may never be able to grow a new arm on our own, but science may give us a way in the future.
The study has appeared in the journal Acta Biomaterialia. (ANI)
- Novel bio-technique can help regenerate bones too - Oct 20, 2009
- Research may pave way for new regenerative therapies - May 04, 2011
- New scaffold designed to fix a broken heart - Aug 10, 2010
- Revolutionary dressing heals wound - Nov 18, 2009
- Smart coating helps surgical implants bond with bone, ward off infection - Feb 04, 2010
- Scientists closer to making transplantable tissue in lab - Jan 13, 2011
- Scientists devise safer way to reconstruct breasts - Dec 07, 2011
- Soon, stem cells to help repair brain damage - Apr 14, 2010
- Scientists apply industrial monitoring technique to orthopedic diagnoses - Nov 24, 2010
- Bone-like material created with 3D printer - Dec 01, 2011
- Now, dissolving dressing for wounds to speed up healing - Nov 18, 2009
- Researcher develops biodegradable stent for hearts patients - Nov 25, 2009
- How to keep stem cells 'forever young' - Dec 29, 2009
- Natural lung material can be used to engineer lung tissue from stem cells - Aug 20, 2010
- Stem cells help women regrow breasts after surgery - Feb 20, 2011
Tags: basic building blocks, biomedical engineering, body tissue, bone growth, chemical signals, cosmetic surgeries, dental implants, human subjects, impressive feat, proper bone, researches, scaffold, scaffolding, scaffolds, soluble fibers, tel aviv university, tissue engineering, tissue regeneration, types of tissues, zilberman
