By synthesizing new polymeric materials and combining them with growth factors or cells, new tissues and organs can potentially be created for use in drug testing-thereby potentially reducing animal and human testing- and to treat disease. Examples discussed include blood vessels, heart muscle, spinal cord repair, artifi cial skin, cartilage, and pancreas. </jats:p
Few events in science have captured the same level of sustained interest and imagination of the nons...
Recreating human tissues and organs in the petri dish to establish models as tools in biomedical sci...
Tissue engineering implies the use of a combination of different cell types, methods, and suitable b...
By synthesizing new polymeric materials and combining them with growth factors or cells, new tissue...
Abstract: Tissue engineering and regenerative medicine strategies could offer new hope for patients ...
The hypes and hopes of tissue engineering and associated efforts of researchers to succeed in this a...
During the past century, and particularly in the past three decades, the application of conventional...
Currently, there has been a major health crisis in terms of the shortage of organs. Advances in medi...
While significant advances have been achieved with non-living synthetic cells built from the bottom-...
The ability to regenerate and repair tissues and organs – using science and engineering to supplemen...
Tissue engineering (TE) offers a potential solution for the shortage of transplantable organs and th...
Tissue engineering and regenerative medicine are emerging as future approaches for the treatment of ...
Tissue engineering (TE) strategies are aimed at the restoration of tissue architecture and functions...
Scope: Given the demographic challenges of an ageing population combined with rising patient expecta...
Patients with organ failure often suffer from increased morbidity and decreased quality of life. Cur...
Few events in science have captured the same level of sustained interest and imagination of the nons...
Recreating human tissues and organs in the petri dish to establish models as tools in biomedical sci...
Tissue engineering implies the use of a combination of different cell types, methods, and suitable b...
By synthesizing new polymeric materials and combining them with growth factors or cells, new tissue...
Abstract: Tissue engineering and regenerative medicine strategies could offer new hope for patients ...
The hypes and hopes of tissue engineering and associated efforts of researchers to succeed in this a...
During the past century, and particularly in the past three decades, the application of conventional...
Currently, there has been a major health crisis in terms of the shortage of organs. Advances in medi...
While significant advances have been achieved with non-living synthetic cells built from the bottom-...
The ability to regenerate and repair tissues and organs – using science and engineering to supplemen...
Tissue engineering (TE) offers a potential solution for the shortage of transplantable organs and th...
Tissue engineering and regenerative medicine are emerging as future approaches for the treatment of ...
Tissue engineering (TE) strategies are aimed at the restoration of tissue architecture and functions...
Scope: Given the demographic challenges of an ageing population combined with rising patient expecta...
Patients with organ failure often suffer from increased morbidity and decreased quality of life. Cur...
Few events in science have captured the same level of sustained interest and imagination of the nons...
Recreating human tissues and organs in the petri dish to establish models as tools in biomedical sci...
Tissue engineering implies the use of a combination of different cell types, methods, and suitable b...
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