Garland E. Twitty

Fetal cells in maternal blood: recovery by charge flow separation

Fetal blood cells can be recovered from the maternal circulation by charge flow separation (CFS), a method that obviates the risks associated with amniocentesis and chorionic villus sampling. By CFS, we processed blood samples from 13 women carrying male fetuses, 2 carrying fetuses with trisomy 21, and 1 who had delivered a stillborn infant with trisomy 18. On average more than 2000 fetal nucleated red blood cells were recovered per 20-ml sample of maternal blood. Recovery of fetal cells was confirmed by fluorescence in situ hybridization with probes for chromosomes Y, 18 and 21. After culturing of CFS-processed cells, amplification by the polymerase chain reaction revealed Y-chromosomal DNA in clones from four of six women bearing male fetuses, but not in clones from three women bearing female fetuses.

Charge flow separation: quantification of nucleated red blood cells in maternal blood during pregnancy.

We set out to ascertain the numbers of fetal cells that enter the maternal blood stream during pregnancy. Samples of 15–16 ml of whole blood were collected from 225 women—mostly 10–18 weeks pregnant—and then processed by charge flow separation, a novel method based on free flow electrophoresis in a buffer counterflow gradient. After their recovery in four different separation instruments, nucleated red blood cells (NRBC) were enumerated histologically. In some cases fetal NRBC were identified and enumerated by fluorescence in situ hybridization with probes for the X and Y chromosomes and fetal haemoglobin mRNA. Recoveries were consistent among the four separation instruments: the median numbers of NRBC obtained were 4190, 1590, 2805 and 3860. Our data show that approximately 30 per cent of those cells were fetal. Thus, recent reports on the separation of fetal NRBC by other methods, give underestimates of their frequency in maternal blood.