Refine by
Locations
- USA
- Alabama
- Alaska
- Arizona
- Arkansas
- California
- Colorado
- Connecticut
- Delaware
- District Of Columbia
- Florida
- Georgia (Us)
- Hawaii
- Idaho
- Illinois
- Indiana
- Iowa
- Kansas
- Kentucky
- Louisiana
- Maine
- Maryland
- Massachusetts
- Michigan
- Minnesota
- Mississippi
- Missouri
- Montana
- Nebraska
- Nevada
- New Hampshire
- New Jersey
- New Mexico
- New York
- North Carolina
- North Dakota
- Ohio
- Oklahoma
- Oregon
- Pennsylvania
- Rhode Island
- South Carolina
- South Dakota
- Tennessee
- Texas
- Utah
- Vermont
- Virginia
- Washington
- West Virginia
- Wisconsin
- Wyoming
Synthetic Biomaterials Equipment Supplied In Usa
4 equipment items found
Manufactured by:Allevi, Inc. based inPhiladelphia, PENNSYLVANIA (USA)
Bioinks are natural or synthetic biomaterials that mimic the extracellular matrix (ECM) to support the adhesion, proliferation, and differentiation of living cells. These materials give cells important cues they need to live, grow, and create functional 3D ...
Manufactured by:Vascudyne, Inc. based inStillwater, MINNESOTA (USA)
Tissue patches are routinely used in surgery for soft tissue repair and reconstruction throughout the body in cardiovascular, orthopedic, abdominal and thoracic wall applications. Current therapies are predominantly xenogeneic, allogeneic or synthetic biomaterials such as bovine pericardium, ePTFE, small intestinal submucosa, and dermal grafts. However, issues ...
Manufactured by:Vascudyne, Inc. based inStillwater, MINNESOTA (USA)
Our proprietary TRUE Tissue technology platform is currently available for investigational use only. TRUE Tissue developed from cells isolated from donor tissue and is 100% biological. There are no synthetic materials or chemical fixation used, and implanted tissues are completely cell-derived and acellular. That’s how we make tissues that are TRUE to ...
Manufactured by:Healionics based inSeattle, WASHINGTON (USA)
Healionics’ proprietary STAR (Sphere Templated Angiogenic Regeneration) biomaterial scaffold is a breakthrough in biointegration and tissue regeneration. It is the result of a sustained effort to discover the “sweet spot” – the exact pore size and structure that enables angiogenesis and healing while reducing Foreign Body Response. In contrast to many porous biomaterials ...