Who would have thought ten years ago that it would be
possible to rebuild missing and damaged bone with a microchip-like patch? With the rate of technological advancement on a
rise, the time has come for electronic health devices to change the future of treatments
in the medical field. Experiments performed by researchers at the University of
Iowa, have shown successful results in the regrowth of skull wounds in test animals using a newly designed
bio patch. Human bone marrow stromal cells also reacted to the bio patch by stimulating new growth. The bio patch works by sending bone-producing instructions directly
into the existing bone cells, using microscopic particles embedded with DNA, to
allow those cells to produce more of the proteins that aid in bone regeneration.
This is made possible by using a fragment of DNA that encodes for a
platelet-derived growth factor known as PDGF-B, in which is involved in
many cellular processes. Aliasger Salem, a professor in the College of Pharmacy
and co-corresponding author on the published article, explains that by
delivering the DNA into the cells, that produce the desired protein needed to
repair the bone tissue, they can rely on the cells to administer the appropriate
amount of protein needed rather than having to constantly deliver the protein
in continuous injections.
With the new invention, researchers believe that the patch
could be use to repair birth defects of those who were born without bone around
their head or face. The field of dentistry can also use the new device to
rebuild bone in the gum area to serve as a sturdy foundation for dental
implants, enabling those who were not able to get implants due to a shortage of
bone in the surrounding area, to meet the criteria.
According to Satheesh Elangovan, an assistant professor in the
UI’s College of Dentistry, they were able to create a scaffold in the actual shape
and size of the defect site, which is similar to being able to recreate a
missing puzzle piece to perfectly fit in the empty spot. Salem elaborates, that
by loading the scaffold with synthetically created plasmids, the bone cells (that
are already present in the body) meet and take up the plasmid, which then encodes
to start producing PDGF-B. Results have
shown that using the bio patch that contained the plasmid grew 44-times more
bone and soft tissue than with the scaffold alone. Researchers also added in
that the device has a nonviral delivery system, which would mean that the
plasmid is not likely to cause an immune response, and it is easier to mass
produce, making it a possible commercial item in the future.
It is amazing how far technology has come, especially in the medical field. I think this new bio-patch invention is just brilliant. This bio-patch can help millions of people who have sustained a skeletal injury such as broken bones or fractures as well as those born with birth defects mentioned in the article. I was astounded to read that the bio-patch containing the plasmids, which produced PDGF-B, grew 44 times more bone and soft tissue than with the scaffold alone! This article was extremely intriguing. I can see this bio-patch becoming the next best thing in medicine and a form of treatment that everyone can use.
ReplyDeleteI think that this has many exciting treatments possible.The first thing that came to my mind was how this can be used in professional sports. When a player breaks a bone that can cost him or her a whole season. To hear that this technology helps bones grow 44x faster is truly amazing and can help these players get back into the game !
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