Results 161 to 170 of about 592,129 (187)
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Tissue-engineered airway and “in situ tissue engineering”
General Thoracic and Cardiovascular Surgery, 2011Since the 1980s, tissue engineering has become one of the major areas of endeavor in medical research, applying the principles of biology and engineering to the development of functional substitutes for damaged tissue. Using this technology, various attempts have been made to create and apply a tissue-engineered prosthetic trachea, or airway.
Koichi Ohmori +2 more
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Clinics in Plastic Surgery, 2003
Tissue engineering will potentially change the practice of plastic surgery more than any other clinical specialty. It is an interdisciplinary field that promises new methods of tissue repair. There has been more than $3.5 billion invested in this field since 1990.
Michael J, Miller, Charles W, Patrick
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Tissue engineering will potentially change the practice of plastic surgery more than any other clinical specialty. It is an interdisciplinary field that promises new methods of tissue repair. There has been more than $3.5 billion invested in this field since 1990.
Michael J, Miller, Charles W, Patrick
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Science, 1993
The loss or failure of an organ or tissue is one of the most frequent, devastating, and costly problems in human health care. A new field, tissue engineering, applies the principles of biology and engineering to the development of functional substitutes for damaged tissue.
R, Langer, J P, Vacanti
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The loss or failure of an organ or tissue is one of the most frequent, devastating, and costly problems in human health care. A new field, tissue engineering, applies the principles of biology and engineering to the development of functional substitutes for damaged tissue.
R, Langer, J P, Vacanti
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Tissue engineering of the meniscus
Biomaterials, 2004Meniscus lesions are among the most frequent injuries in orthopaedic practice and they will inevitably lead to degeneration of the knee articular cartilage. The fibro-cartilage-like tissue of the meniscus is notorious for its limited regenerative capacity.
Buma, P. +3 more
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Advances in Surgery, 2014
Ultimately much work remains to be done in the companion fields of biomaterials and stem cells. Nonetheless, the monumental progress in TE that has been reported in the studies summarized here demonstrates that regenerative approaches to problems in general surgery need to be explored in more depth.
Ravi S, Katari +2 more
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Ultimately much work remains to be done in the companion fields of biomaterials and stem cells. Nonetheless, the monumental progress in TE that has been reported in the studies summarized here demonstrates that regenerative approaches to problems in general surgery need to be explored in more depth.
Ravi S, Katari +2 more
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Vascularization in tissue engineering
Trends in Biotechnology, 2008Tissue engineering has been an active field of research for several decades now. However, the amount of clinical applications in the field of tissue engineering is still limited. One of the current limitations of tissue engineering is its inability to provide sufficient blood supply in the initial phase after implantation.
Nicolas C. Rivron +2 more
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Current Opinion in Otolaryngology & Head and Neck Surgery, 2005
Regenerative medicine holds promise for the restoration of tissues and organs damaged by wear, trauma, neoplasm, or congenital deformity. Tissue engineering combines the disciplines of cell biology and biomedical engineering to effect the design and maturation of various tissues. Despite progress in some areas of tissue regeneration, there has not been
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Regenerative medicine holds promise for the restoration of tissues and organs damaged by wear, trauma, neoplasm, or congenital deformity. Tissue engineering combines the disciplines of cell biology and biomedical engineering to effect the design and maturation of various tissues. Despite progress in some areas of tissue regeneration, there has not been
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Burns, 2010
The engineering of skin substitutes and their application on human patients has become a reality. However, cell biologists, biochemists, technical engineers, and surgeons are still struggling with the generation of complex skin substitutes that can readily be transplanted in large quantities, possibly in only one surgical intervention and without ...
Böttcher-Haberzeth, S +2 more
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The engineering of skin substitutes and their application on human patients has become a reality. However, cell biologists, biochemists, technical engineers, and surgeons are still struggling with the generation of complex skin substitutes that can readily be transplanted in large quantities, possibly in only one surgical intervention and without ...
Böttcher-Haberzeth, S +2 more
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In the Spotlight: Tissue Engineering
IEEE Reviews in Biomedical Engineering, 2010There are numerous studies that are being conducted in elucidating the biophysical effects of cells. The papers highlighted in this review present several different approaches to tease out the contribution of multiple factors in these highly complex systems.
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In vivo tissue engineering of musculoskeletal tissues
Current Opinion in Biotechnology, 2011Tissue engineering of musculoskeletal tissues often involves the in vitro manipulation and culture of progenitor cells, growth factors and biomaterial scaffolds. Though in vitro tissue engineering has greatly increased our understanding of cellular behavior and cell-material interactions, this methodology is often unable to recreate tissue with the ...
Andre Chow +2 more
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