Overcoming functional challenges in autologous and engineered fat grafting trends
Autologous fat grafting offers significant promise for the repair of soft tissue deformities; however, high resorption rates indicate that engineered solutions are required to improve adipose tissue (AT) survival. Advances in material development and biofabrication have laid the foundation for the g...
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Published in | Trends in biotechnology (Regular ed.) Vol. 40; no. 1; pp. 77 - 92 |
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Main Authors | , , , |
Format | Journal Article |
Language | English |
Published |
England
Elsevier Ltd
01.01.2022
Elsevier Limited |
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Abstract | Autologous fat grafting offers significant promise for the repair of soft tissue deformities; however, high resorption rates indicate that engineered solutions are required to improve adipose tissue (AT) survival. Advances in material development and biofabrication have laid the foundation for the generation of functional AT constructs; however, a balance needs to be struck between clinically feasible delivery and improved structural integrity of the grafts. A new approach combining the objectives from both the clinical and research communities will assist in developing morphologically and genetically mature AT constructs, with controlled spatial arrangement and increased potential for neovascularization. In a rapidly progressing field, this review addresses research in both the preclinical and bioengineering domains and assesses their ability to resolve functional challenges.
The current and emerging adipose tissue regeneration strategies are somewhat misaligned, without a clear focus on the appropriate structural and functional demands required in vivo.The development of biomimetic materials has been rigorous, but these materials now need to be unified with established biofabrication strategies to meet the clinical design challenges.Efforts to prevascularize adipose tissue constructs have been significant; however, scalability and surgical feasibility remain an issue.Generating mature adipose tissue constructs is a major challenge in the field; however, refined culture strategies and adjuvant factors have made headway, laying the foundation for future clinical relevance.There is a clear trade-off between minimally invasive delivery and architectural control in vivo. Striking a balance between these will be key to fast-tracking engineered adipose tissue grafting. |
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AbstractList | Autologous fat grafting offers significant promise for the repair of soft tissue deformities; however, high resorption rates indicate that engineered solutions are required to improve adipose tissue (AT) survival. Advances in material development and biofabrication have laid the foundation for the generation of functional AT constructs; however, a balance needs to be struck between clinically feasible delivery and improved structural integrity of the grafts. A new approach combining the objectives from both the clinical and research communities will assist in developing morphologically and genetically mature AT constructs, with controlled spatial arrangement and increased potential for neovascularization. In a rapidly progressing field, this review addresses research in both the preclinical and bioengineering domains and assesses their ability to resolve functional challenges.
The current and emerging adipose tissue regeneration strategies are somewhat misaligned, without a clear focus on the appropriate structural and functional demands required in vivo.The development of biomimetic materials has been rigorous, but these materials now need to be unified with established biofabrication strategies to meet the clinical design challenges.Efforts to prevascularize adipose tissue constructs have been significant; however, scalability and surgical feasibility remain an issue.Generating mature adipose tissue constructs is a major challenge in the field; however, refined culture strategies and adjuvant factors have made headway, laying the foundation for future clinical relevance.There is a clear trade-off between minimally invasive delivery and architectural control in vivo. Striking a balance between these will be key to fast-tracking engineered adipose tissue grafting. Autologous fat grafting offers significant promise for the repair of soft tissue deformities; however, high resorption rates indicate that engineered solutions are required to improve adipose tissue (AT) survival. Advances in material development and biofabrication have laid the foundation for the generation of functional AT constructs; however, a balance needs to be struck between clinically feasible delivery and improved structural integrity of the grafts. A new approach combining the objectives from both the clinical and research communities will assist in developing morphologically and genetically mature AT constructs, with controlled spatial arrangement and increased potential for neovascularization. In a rapidly progressing field, this review addresses research in both the preclinical and bioengineering domains and assesses their ability to resolve functional challenges. |
Author | Simcock, Jeremy W. Woodfield, Tim B.F. Major, Gretel S. Lim, Khoon S. |
Author_xml | – sequence: 1 givenname: Gretel S. surname: Major fullname: Major, Gretel S. organization: Christchurch Regenerative Medicine and Tissue Engineering (CReaTE) Group, Department of Orthopaedic Surgery and Musculoskeletal Medicine, University of Otago Christchurch, Christchurch 8011, New Zealand – sequence: 2 givenname: Jeremy W. surname: Simcock fullname: Simcock, Jeremy W. organization: Department of Surgery, University of Otago, Christchurch 8011, New Zealand – sequence: 3 givenname: Tim B.F. surname: Woodfield fullname: Woodfield, Tim B.F. email: tim.woodfield@otago.ac.nz organization: Christchurch Regenerative Medicine and Tissue Engineering (CReaTE) Group, Department of Orthopaedic Surgery and Musculoskeletal Medicine, University of Otago Christchurch, Christchurch 8011, New Zealand – sequence: 4 givenname: Khoon S. surname: Lim fullname: Lim, Khoon S. email: khoon.lim@otago.ac.nz organization: Christchurch Regenerative Medicine and Tissue Engineering (CReaTE) Group, Department of Orthopaedic Surgery and Musculoskeletal Medicine, University of Otago Christchurch, Christchurch 8011, New Zealand |
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Keywords | lipoaspirate adipose tissue contour deformities autologous fat grafting soft tissue regeneration breast reconstruction |
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SubjectTerms | Adipocytes Adipose Tissue Angiogenesis Apoptosis Autografts autologous fat grafting Bioengineering Biomedical materials Body fat breast reconstruction contour deformities Grafting Grafts Ischemia lipoaspirate Reconstructive surgery Retention soft tissue regeneration Soft tissues Structural integrity Transplantation, Autologous Transplants & implants Vascularization |
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