Dramatic advances in the fields of biochemistry, cell and molecular biology, genetics, biomedical engineering and materials science have given rise to the remarkable new cross-disciplinary field of tissue engineering. Tissue engineering uses synthetic or naturally derived, engineered biomaterials to replace damaged or defective tissues, such as bone, skin, and even organs.
New technology developed by University of Virginia inventors involving adipose stem cells - adult stem cells found in fatty tissue - could one day be used to treat patients with severe wounds and other serious conditions.
ULURU Inc. announced today that advanced applications of the Nanoflex technology, related to future products in drug delivery and tissue engineering, will be presented at the 11th annual New Cardiovascular Horizons Meeting to be held in New Orleans, Louisiana on June 2-5, 2010. This meeting is the largest medical meeting that focuses on peripheral artery disease and peripheral interventions, including wound care for vascular ulcers, the application of advanced therapies for limb salvage and amputation prevention.
A compound found in sunless tanning spray may help to heal wounds following surgery, according to new results published by plastic surgeons from NewYork-Presbyterian Hospital/Weill Cornell Medical Center in New York City and biomedical engineers at Cornell University in Ithaca, N.Y., where the novel compound was developed.
A two-year, $12 million contract with the U.S. Department of Defense Office of Technology Transition (OTT) will jumpstart human trials of three innovative research programs that aim to replace scars and defects with healthy, functional tissues, announced officials of the University of Pittsburgh and the McGowan Institute for Regenerative Medicine today at the Institute's Second Annual Open Session, Soldiers and Sailors Memorial Hall, Oakland.
A collaboration of French and Canadian researchers have found that sucking a portion of a spherical globule of cells into a tiny pipette provides information about the adhesion between cells and the elastic properties of the tissue. The method is a novel approach for the study of the structural properties of tissues, and should offer insights into processes such as embryonic development, tissue growth and cancer. A paper describing the research appears online in Physical Review Letters on May 24.
When we think of ultrasound, it's usually imaging the inside of the body that springs to mind. However, while ultrasound imaging typically requires frequencies that are 50 to 2500 times higher than those human ear can detect, recent increasing evidence indicates that ultrasound at lower frequency can also be used to help certain body tissues to heal and regenerate. Now research that appears in Open Access Journal of Tissue Engineering published by SAGE-Hindawi suggests that ultrasound could also help tissue grafts to survive and thrive following surgery.
t2cure GmbH, a biopharmaceutical company developing and marketing stem cell-based regenerative therapies, announced today that the quality of its lead product t2c001 has been certified by the European Medicines Agency.
A technique pioneered in the Tissue Engineering and Regenerative Medicine Laboratory of Dr. Jeremy Mao, the Edward V. Zegarelli Professor of Dental Medicine at Columbia University Medical Center, can orchestrate stem cells to migrate to a three-dimensional scaffold infused with growth factor, holding the translational potential to yield an anatomically correct tooth in as soon as nine weeks once implanted.
The Automation Partnership, a world leader in the design and development of innovative automation for life science applications, is pleased to announce it will be unveiling RAFT (Real Architecture for 3D Tissue), its innovative system for generating reproducible, 3D collagen tissue constructs on TAP Stand 1 at the Tissue Engineering and Regenerative Medicine International Society Conference on June 13-17, in Galway, Ireland.
Tufts University's School of Arts and Sciences has received a $9.5 million grant to create research space that will house a Collaborative Cluster in Genome Structure and Developmental Patterning in Health and Disease.
Tissue engineering has long held promise for building new organs to replace damaged livers, blood vessels and other body parts. However, one major obstacle is getting cells grown in a lab dish to form 3-D shapes instead of flat layers.
David T. Corr, assistant professor in the Department of Biomedical Engineering at Rensselaer Polytechnic Institute, has won a Faculty Early Career Development Award from the National Science Foundation.
Beike Biotechnology Co. Ltd., one of the world's leading biotechnology companies focusing on adult stem cell therapies, and the Jiangsu government's China Medical City (CMC) opened China's state-of-the-art stem cell storage and processing facility today. The 20,000 square-meter Stem Cell Regenerative Medicine Industrial Project of National Bio-Industry Base (NBPD) houses China's first comprehensive regenerative medicine technology center and its largest international stem cell bank.
Anglers rely on fish finders to help them locate the big catch. Now Tel Aviv University researchers in tissue engineering have developed a "fat finder" that can help scientists accelerate their research into new fat-melting drugs.
Techniques for using digital technology in separating conjoined twins, developing facial prostheses and acquiring data from anthropologic specimens will be among the topics presented at a symposium sponsored by the American Association of Anatomists (AAA; www.Anatomy.org) on April 28. The symposium is part of the Experimental Biology 2010 conference being held April 24-28, 2010 at the Anaheim Convention Center.
"Children are not small adults"—pediatricians say that's what makes their specialty different from the practice of medicine in adults. For similar reasons, researchers exploring the medical uses of nanotechnology believe that the use of molecular-level nanomedicine techniques in children will also require its own specialty.
The University of Illinois at Chicago College of Dentistry has received a $10 million federal grant to transform its research facilities into a state-of-the-art clinical and translational research center.
Richard Goldstein, PhD, a professor of pediatrics, division of pediatric infectious diseases, at Boston University School of Medicine, has been awarded an Individual Biomedical Research Award by The Hartwell Foundation and will receive $300,000 over three years as a Hartwell Investigator for his project titled, "A Vaccine Against Streptococcus Pneumoniae Based on Bacterial Surface Proteins Phylogenically Certified as Highly Conserved."
ZenBio, Inc. announced that it has been awarded a Phase I SBIR grant to establish novel human cell-based models of non-alcoholic fatty liver disease (NAFLD) that will be useful for basic research and as a potential drug development platform. The project stems from recent efforts at ZenBio, Inc. to develop methods for differentiating adipose tissue derived progenitor cells into hepatocyte-like cells.
The publication of the new book Advances in Wound Care, addresses this major and escalating health problem. The first in an annual book series, Volume 1 strengthens the interdisciplinary continuum of wound care to synchronize the numerous disciplines the wound care community represents.
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