Cet ouvrage fait partie de la bibliothèque YouScribe
Obtenez un accès à la bibliothèque pour le lire en ligne
En savoir plus

State-of-the-Art Tissue Engineering and Organ Regeneration Technologies Yield Healthcare Market Disruption

7 pages
State-of-the-Art Tissue Engineering andState-of-the-Art Tissue Engineering and Organ Regeneration Technologies Yield Healthcare Market Disruption PR Newswire MOUNTAIN VIEW, California, Dec. 18, 2013 -- Frost & Sullivan: An increasing number of revolutionary applications emerge, conceivably overcoming global organ shortage Tissue engineering is a rapidly diversifying technology that emerged as a regenerative or reparative medicine with potential to circumvent organ shortage globally. Extensive developments in tissue engineering, which involve leveraging technologies from biomaterials, molecular medicine, biochemistry, nanotechnology, genetic, and biomedical engineering, target the restructure and/or repair of human organs through regeneration and cell expansion. In recent years, cell-based technologies and the integration of genetics – with the use of biological substitutes that aim to restore, maintain or enhance tissue function – have been a popular approach for tissue regeneration and reparation treatment, according to Frost & Sullivan's Advances in Tissue Engineering and Organ Regeneration: Technology Market Penetration and Roadmapping analysis (http://www.technicalinsights.frost.com). For more information on this research, please email Jennifer Carson, Corporate Communications, at jennifer.carson@frost.com. Tissue engineering has been a field marked by extensive research and development (R&D), and companies take several years to commercially launch products.
Voir plus Voir moins
State-of-the-Art Tissue Engineering and Organ Regeneration Technologies Yield Healthcare Market Disruption

PR Newswire

-- Frost & Sullivan: An increasing number of revolutionary applications emerge, conceivably overcoming global organ shortage  

Tissue engineering is a rapidly diversifying technology that emerged as a regenerative or reparative medicine with potential to circumvent organ shortage globally. Extensive developments in tissue engineering, which involve leveraging technologies from biomaterials, molecular medicine, biochemistry, nanotechnology, genetic, and biomedical engineering, target the restructure and/or repair of human organs through regeneration and cell expansion.