用微插管收获浅层脂肪,并分离脂肪组织源性基质血管细胞。
Harvest of superficial layers of fat with a microcannula and isolation of adipose tissue-derived stromal and vascular cells.
机构信息
Dr Trivisonno is a plastic surgeon in private practice in Rome, Italy; Dr Trivisonno is also a PhD student and Professor Monti is Director of the Interdisciplinary Operative Unit of General and Reconstructive Surgery in the Department of Surgical Science F. Durante, Policlinico Umberto I, University of Rome La Sapienza, Rome, Italy.
出版信息
Aesthet Surg J. 2014 May 1;34(4):601-13. doi: 10.1177/1090820X14528000. Epub 2014 Mar 31.
BACKGROUND
Adipose tissue is a source of stromal and vascular cells suitable for regenerative medical applications. Cell recovery depends on several factors, including the characteristics of the cannula used to harvest tissue.
OBJECTIVES
The authors assess whether aspiration of superficial layers of adipose tissue performed with a microcannula, rather than a standard cannula, allows for improved isolation of stromal and vascular cells, and they evaluate the angiogenic potential of the isolated cells in vitro and in vivo.
METHODS
Adipose-derived stromal and stem cells (ADSC) were collected from the lipoaspirate of the abdomen and hip regions of 6 healthy female donors. For adipose tissue harvest, several options were compared: (1) a rounded-tip cannula with a length of 170 mm, a diameter of 3 mm, and a single elliptic suction port on the side near its distal end (port diameter: 3 × 9 mm) or (2) a rounded-tip infiltration cannula with a length of 170 mm, a diameter of 2 mm, and 5 round ports placed spirally along the sides of the distal cannula shaft (each port diameter: 1 mm) (Shipper Medical Technologies Corporation, Centennial, Colorado). Isolated cells were characterized for (1) expression of the endothelial specific marker CD31 by immunohistochemical and cytofluorimetric analyses and (2) tubular-like structure formation using a 3-dimensional angiogenesis assay on Matrigel. Human ADSC were transduced to express firefly luciferase as a marker suitable for bioluminescent tracking and transplantation studies into immunosuppressed mice were performed.
RESULTS
ADSC yield was determined to be significantly higher in samples collected with the microcannula (P = .04). Moreover, isolated cells acquired typical endothelial-like morphology in vitro, formed capillary-like structures, and expressed the distinctive endothelial cell marker CD31. Cells implanted into immunosuppressed mice persisted for several weeks in areas undergoing neovascularization.
CONCLUSIONS
These results suggest that aspiration of adipose tissue with a microcannula can be a minimally invasive method to obtain clinically relevant numbers of stromal and vascular cells useful for autologous transplant procedures and for promoting tissue regeneration and neovascularization.
背景
脂肪组织是适合再生医学应用的基质和血管细胞的来源。细胞回收取决于几个因素,包括用于收获组织的套管的特性。
目的
作者评估使用微套管而非标准套管抽吸脂肪组织的浅层是否可以更好地分离基质和血管细胞,并评估分离细胞的体外和体内血管生成潜力。
方法
从 6 名健康女性供体的腹部和臀部脂肪抽吸物中收集脂肪来源的基质和干细胞 (ADSC)。对于脂肪组织采集,比较了几种选择:(1) 长 170mm、直径 3mm、远端附近侧面有单个椭圆形抽吸口的圆形尖端套管(端口直径:3×9mm)或 (2) 长 170mm、直径 2mm、远端套管轴侧面螺旋排列 5 个圆形端口的圆形尖端渗透套管(每个端口直径:1mm)(Shipper Medical Technologies Corporation,科罗拉多州森特尼尔)。分离的细胞通过免疫组织化学和细胞荧光分析来评估 (1) 内皮特异性标志物 CD31 的表达,通过三维血管生成试验在 Matrigel 上评估 (2) 管状结构的形成。将人 ADSC 转导以表达萤火虫荧光素酶作为适合生物发光跟踪的标记物,并进行移植到免疫抑制小鼠的研究。
结果
使用微套管收集的样本中 ADSC 的产量明显更高(P=0.04)。此外,分离的细胞在体外获得典型的内皮样形态,形成毛细血管样结构,并表达独特的内皮细胞标志物 CD31。植入免疫抑制小鼠的细胞在经历新血管生成的区域中持续数周。
结论
这些结果表明,使用微套管抽吸脂肪组织是一种微创方法,可以获得临床上相关数量的基质和血管细胞,用于自体移植程序,并促进组织再生和新血管生成。
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