2017
DOI: 10.1002/term.2407
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Comparison of intraoperative procedures for isolation of clinical grade stromal vascular fraction for regenerative purposes: a systematic review

Abstract: Intraoperative application of the stromal vascular fraction (SVF) of adipose tissue requires a fast and efficient isolation procedure of adipose tissue. This review was performed to systematically assess and compare procedures currently used for the intraoperative isolation of cellular SVF (cSVF) and tissue SVF (tSVF) that still contain the extracellular matrix. Pubmed, EMBASE and the Cochrane central register of controlled trials databases were searched for studies that compare procedures for intraoperative i… Show more

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Cited by 82 publications
(101 citation statements)
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“…A number of enzymatic and non-enzymatic methods were reported for isolating human ADRCs (Tables 1 and 2; c.f. also Fig 1 and [35][36][37][38]). For enzymatic methods, cell yield between 0.0 [39] and 387×10 5 cells per ml lipoaspirate [63] were reported (Table 1) (mean, 14.6×10 5 ; standard deviation, 61.5×10 5 ; median, 3.1×10 5 ; for 90% of the methods listed in Table 1 cell yield between 0.0 and 12.2×10 5 cells per ml lipoaspirate was reported; Fig 1).…”
Section: Introductionmentioning
confidence: 71%
“…A number of enzymatic and non-enzymatic methods were reported for isolating human ADRCs (Tables 1 and 2; c.f. also Fig 1 and [35][36][37][38]). For enzymatic methods, cell yield between 0.0 [39] and 387×10 5 cells per ml lipoaspirate [63] were reported (Table 1) (mean, 14.6×10 5 ; standard deviation, 61.5×10 5 ; median, 3.1×10 5 ; for 90% of the methods listed in Table 1 cell yield between 0.0 and 12.2×10 5 cells per ml lipoaspirate was reported; Fig 1).…”
Section: Introductionmentioning
confidence: 71%
“…Concentration of the SVF of adipose tissue, that is, to get rid it of the large amounts of adipocytes and thereby reducing volume, might augment the clinical observed regenerative potential compared with standard autologous fat grafting. To concentrate SVF, the SVF can be isolated enzymatically or mechanically (van Dongen, Tuin, et al, ). Enzymatic isolation destructs the ECM and its interaction with cells and thus yields a suspension of single SVF cells (cellular SVF or cSVF).…”
Section: Introductionmentioning
confidence: 99%
“…Enzymatic isolation destructs the ECM and its interaction with cells and thus yields a suspension of single SVF cells (cellular SVF or cSVF). Via centrifugation, adipocytes are readily removed with enzymatic isolation (van Dongen, Tuin, et al, 2017). When a nonenzymatic isolation procedure is used, adipocytes are mechanically destructed and the ECM is still intact as are its interactions with bound cells, and it also acts for sustained release of bound factors (tissue-like SVF or tSVF) (van Dongen, Stevens et al, 2017;van Dongen, Tuin, et al, 2017).…”
Section: Introductionmentioning
confidence: 99%
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“…26 Underlying mechanisms include the natural interplay of endothelial cells, adipocytes, and stem cells and their secreted factors. 28 Therefore, SVF seems to be a promising cell source for translation into clinical practice, as its use is cost-effective, a one-step intraoperative application is possible, 29 devices for automatized procession exist, [30][31][32] and no adverse effects following patient application have been reported to date. 27 To our knowledge, no earlier investigation has compared ASCs and SVF cells with regard to their tissue formation capacities in adipose tissue engineering.…”
Section: Introductionmentioning
confidence: 99%