'Non-Cultured Minimally-Processed Adipose-Derived Stem Cells Improve Radiated Fracture Healing'
Autor: | Chris Stephan, Alexandra O. Luby, Alexis Donneys, Kevin M. Urlaub, Jeremy V. Lynn, Kavitha Ranganathan, Noah S. Nelson, Steven R. Buchman |
---|---|
Jazyk: | angličtina |
Rok vydání: | 2020 |
Předmět: |
medicine.medical_specialty
Angiogenesis medicine.medical_treatment Urology Adipose tissue Bone healing 030230 surgery Article 03 medical and health sciences External fixation 0302 clinical medicine Adipocytes Medicine Animals Cells Cultured Fracture Healing business.industry Cell growth Stem Cells Mesenchymal stem cell Rats Adipose Tissue Cell culture Rats Inbred Lew 030220 oncology & carcinogenesis Surgery Stem cell business |
Zdroj: | Ann Plast Surg |
Popis: | Adipose-derived stem cells mitigate deleterious effects of radiation on bone and enhance radiated fracture healing by replacing damaged cells and stimulating angiogenesis. However, adipose-derived stem cell harvest and delivery techniques must be refined to comply with the US Food and Drug Administration restrictions on implantation of cultured cells into human subjects prior to clinical translation. The purpose of this study is to demonstrate the preservation of efficacy of adipose-derived stem cells to remediate the injurious effects of radiation on fracture healing utilizing a novel harvest and delivery technique that avoids the need for cell culture. Forty-four Lewis rats were divided into 4 groups: fracture control (Fx), radiated fracture control (XFx), radiated fracture treated with cultured adipose-derived stem cells (ASC), and radiated fracture treated with noncultured minimally processed adipose-derived stem cells (MP-ASC). Excluding the Fx group, all rats received a fractionated human-equivalent dose of radiation. All groups underwent mandibular osteotomy with external fixation. Following sacrifice on postoperative day 40, union rate, mineralization, and biomechanical strength were compared between groups at P < 0.05 significance. Compared with Fx controls, the XFx group demonstrated decreased union rate (100% vs 20%), bone volume fraction (P = 0.003), and ultimate load (P < 0.001). Compared with XFx controls, the MP-ASC group tripled the union rate (20% vs 60%) and demonstrated statistically significant increases in both bone volume fraction (P = 0.005) and ultimate load (P = 0.025). Compared with the MP-ASC group, the ASC group showed increased union rate (60% vs 100%) and no significant difference in bone volume fraction (P = 0.936) and ultimate load (P = 0.202). Noncultured minimally processed adipose-derived stem cells demonstrate the capacity to improve irradiated fracture healing without the need for cell proliferation in culture. Further refinement of the cell harvest and delivery techniques demonstrated in this report will enhance the ability of noncultured minimally processed adipose-derived stem cells to improve union rate and bone quality, thereby optimizing clinical translation. |
Databáze: | OpenAIRE |
Externí odkaz: |