Connect with us

Hi, what are you looking for?

Jewish Business News

Health New Researches

Technion breakthrough improves chances tissue Transplant will survive and thrive

A better understanding of the effect of mechanical forces on blood vessel assembly in engineered tissues aids optimal growth of new blood vessels after tissue transplantation

Prof. Shulamit Levenberg. Technion

 

Researchers from the Technion-Israel Institute of Technology and colleagues in the U.S. have developed technology to tailor grafted tissues that can respond to certain natural forces affecting blood vessels. The researchers also found that matching the structure of the engineered vessels to the structure of the host tissues at the site of implantation helps the tissue implant integration, improving the chances that grafted tissues will survive better. The findings were published recently in The Proceedings of the National Academy of Sciences (PNAS).

“Developing functional and mature three-dimensional (3D) blood vessel networks in implantable tissues is critical when using these engineered tissues to treat a number of conditions, such as cardiovascular disease and trauma injuries, ” said lead researcher Prof. Shulamit Levenberg of the Technion Department of Biomedical Engineering. “Matching the tissue structures will improve the long term viability and strength of tissue grafts when new blood vessel growth – called ‘angiogenesis’ – can be manipulated and exploited for the purpose of attaining optimal blood supply.”

Please help us out :
Will you offer us a hand? Every gift, regardless of size, fuels our future.
Your critical contribution enables us to maintain our independence from shareholders or wealthy owners, allowing us to keep up reporting without bias. It means we can continue to make Jewish Business News available to everyone.
You can support us for as little as $1 via PayPal at [email protected].
Thank you.

The team’s laboratory studies were aimed at determining just how vascular networks are regulated by various kinds of “tensile forces”- by stretching the constructs (3D engineered tissues).

“Although mechanical forces play a central role in all biological processes as well as influence the shape and organization of cells, mechanical forces had not been previously investigated in relation to vascular networks in 3D, ” explained Prof. Levenberg. “Our study used a number of techniques to monitor the impact of tensile forces on vascular network construction and properties.”

The researchers examined the effects of cell-induced forces on vascular networks by applying variety of stretching forces, both cyclic (on-and-off) and static (constant) forces.  The researchers found that the vessels aligned in response to the stretch.

To test the effects vessel alignments on tissue integration, the researchers grafted engineered tissues into mouse abdominal muscles with the vessel direction placed both parallel and vertically to the natural mouse muscle fibers (host tissues).  They found that tissues with vertically implanted blood vessels had greater stiffness and strength when they corresponded to the vertical direction of the host tissue fibers.

This study was conducted in collaboration with Professor Dave Mooney, of Harvard University, who hosted Prof. Levenberg during her sabbatical year. The project was carried out by Dr. Dekel Dado-Rosenfeld as part of her PhD thesis, under the mentorship of Prof. Levenberg. Dr. Dado-Rosenfeld is currently a postdoc at the Massachusetts Institute of Technology, under the auspices of the MIT-Technion Post-Doctoral Fellowship

Newsletter



You May Also Like

World News

In the 15th Nov 2015 edition of Israel’s good news, the highlights include:   ·         A new Israeli treatment brings hope to relapsed leukemia...

Life-Style Health

Medint’s medical researchers provide data-driven insights to help patients make decisions; It is affordable- hundreds rather than thousands of dollars

Entertainment

The Movie The Professional is what made Natalie Portman a Lolita.

History & Archeology

A groundbreaking discovery in the Manot Cave in the Western Galilee, Israel has unearthed the earliest evidence in the Levant (and among the world's...