Intact fetal cell isolation from maternal blood: improved isolation using a simple whole blood progenitor cell enrichment approach (RosetteSep^™)

Abstract: Isolation and analysis of intact fetal cells in maternal blood is an attractive method of non-invasive prenatal diagnosis; however, detection levels are not optimal. The poor sensitivity and inconsistent recovery of fetal cells is compounded by small numbers of circulating fetal cells and loss of fetal cells during enrichment procedures. Optimizing selection criteria by utilizing less complicated methods for target cell enrichment is essential. We report here salutary results using a simple density-based deple… Show more

“…Likewise, foetal cells crossing the placenta barrier into the maternal peripheral blood are extremely rare -estimated to be around one per five million PBMC [2].…”

Microselection - affinity selecting antibodies against a single Rare cell in a heterogeneous population

“…Likewise, foetal cells crossing the placenta barrier into the maternal peripheral blood are extremely rare -estimated to be around one per five million PBMC [2].…”

Microselection - affinity selecting antibodies against a single Rare cell in a heterogeneous population

“…Numerous studies have shown that both fetal cells and cff DNA circulate freely in the maternal circulation (Lo et al, , 1998Bischoff et al, 2003;Bianchi, 2004). There has been much speculation as to the source of cff DNA; one possible source is fetal nucleated red blood cells, which undergo apoptosis in the maternal circulation.…”

Noninvasive prenatal diagnosis of aneuploidy using cell‐free nucleic acids in maternal blood: promises and unanswered questions

“…All the available information indicates that MACS technology allows the collection of cell populations significantly enriched in fetal erythroblasts or trophoblasts (19,30,(73)(74)(75). A combination of the MACS procedure with other strategies for isolation of rare cells is highly needed to obtain almost a pure cell population.…”

“…Detection of levels of fetal cells with these two methods is however difficult in relation to the small numbers of circulating fetal cells and the loss of fetal cells during the enrichment procedures. Bischoff et al (30) reported a simple and rapid-density-based progenitor cell enrichment approach. The samples were labeled with a RosetteSep™ progenitor antibody cocktail to remove unwanted maternal white cells (mature T-cells, B-cells, granulocytes, natural killer, neutrophils and myelomonocytic cells).…”

“…This method targets progenitor cells that are not necessarily of the erythroid lineage and may also allow expansion in culture and characterization of the fetal cell types that circulate in maternal blood. Some lymphocytes are long lived, and with this approach there is concern that enriched progenitors may be the vestiges of previous pregnancies and do not represent the true fetal genetic status of the current pregnancy (30). Charge flow separation (CFS) is an antibody-independent selection method of fetal cells that relies on the behaviour of cells in an electric field and a buffer counterflow gradient (31).…”

New trends in non-invasive prenatal diagnosis: Applications of dielectrophoresis-based Lab-on-a-chip platforms to the identification and manipulation of rare cells (Review)