External Volume Expansion in Irradiated Tissue: Effects on the Recipient Site

External Volume Expansion in Irradiated Tissue: Effects on the Recipient Site

External volume expansion prepares recipient sites to improve outcomes of fat grafting. For patients receiving radiotherapy after mastectomy, results with external volume expansion vary, and the relationship between radiotherapy and expansion remains unexplored. Thus, the authors developed a new tra...

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Bibliographic Details
Published in:Plastic and reconstructive surgery (1963) Vol. 137; no. 5; pp. 799e - 807e
Main Authors: Chin, Michael S., Lujan-Hernandez, Jorge, Babchenko, Oksana, Bannon, Elizabeth, Perry, Dylan J., Chappell, Ava G., Lo, Yuan-Chyuan, Fitzgerald, Thomas J., Lalikos, Janice F.
Format: Journal Article
Language:English
Published: United States by the American Society of Plastic Surgeons 01-05-2016
Subjects:
Adipose Tissue - transplantation
Animals
Beta Particles - adverse effects
Collagen - analysis
Disease Models, Animal
Edema - etiology
Edema - therapy
Female
Fibrosis
Humans
Mammaplasty
Mice
Mice, Hairless
Negative-Pressure Wound Therapy
Neovascularization, Physiologic
Oxygen - blood
Radiation Injuries, Experimental - therapy
Radiodermatitis - therapy
Skin - blood supply
Skin - chemistry
Skin - radiation effects
Skin Ulcer - etiology
Skin Ulcer - therapy
Tissue Expansion - methods
Tissue Expansion Devices
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Summary:External volume expansion prepares recipient sites to improve outcomes of fat grafting. For patients receiving radiotherapy after mastectomy, results with external volume expansion vary, and the relationship between radiotherapy and expansion remains unexplored. Thus, the authors developed a new translational model to investigate the effects in chronic skin fibrosis after radiation exposure. Twenty-four SKH1-E mice received 50 Gy of β-radiation to each flank and were monitored until fibrosis developed (8 weeks). External volume expansion was then applied at -25 mmHg to one side for 6 hours for 5 days. The opposite side served as the control. Perfusion changes were assessed with hyperspectral imaging. Mice were euthanized at 5 (n = 12) and 15 days (n = 12) after the last expansion application. Tissue samples were analyzed with immunohistochemistry for CD31 and Ki67, Masson trichrome for skin thickness, and picrosirius red to analyze collagen composition. All animals developed skin fibrosis 8 weeks after radiotherapy and became hypoperfused based on hyperspectral imaging. Expansion induced edema on treated sides after stimulation. Perfusion was decreased by 13 percent on the expansion side (p < 0.001) compared with the control side for 5 days after stimulation. Perfusion returned to control-side levels by day 15. Dermal vasculature increased 38 percent by day 15 (p < 0.01) in expansion versus control. No difference was found in collagen composition. External volume expansion temporarily reduces perfusion, likely because of transient ischemia or edema. Together with mechanotransduction, these effects encourage a proangiogenic and proliferative environment in fibrotic tissue after radiotherapy in the authors' mouse model. Further studies are needed to assess these changes in fat graft retention.
ISSN:0032-1052
1529-4242
DOI:10.1097/PRS.0000000000002081