Nucleated Red Blood Cells in Uncomplicated Prolonged Pregnancy

The Placenta and Neonatal Encephalopathy with a Focus on Hypoxic-Ischemic Encephalopathy

Background: Placental examination is important for its diagnostic immediacy to correlate with maternal and/or fetal complications and parturitional difficulties. In a broader context, clinicopathologic studies of the placenta have addressed a range of pathogenetic questions that have led to conclusive and inconclusive results and interpretations. Methods: Recent standardized morphologic criteria and terminology of placental lesions have facilitated the ability to compare findings from studies that have focused on complications and outcomes of pregnancy. This review is an evaluation of recent studies on placental lesions associated with hypoxic-ischemic encephalopathy (HIE). Conclusion: No apparent consensus exists on whether it is fetal inflammation with the release of cytokines or chronic maternal and/or fetal vascular malperfusion is responsible for HIE with a lowering of the threshold for hypoxic ischemia. The counter argument is that HIE occurs solely as an intrapartum event. Additional investigation is necessary.

Guidelines for the management of postterm pregnancy

A pregnancy reaching 42 completed weeks (294 days) is defined as postterm (PT). The use of ultrasound in early pregnancy for precise dating significantly reduces the number of PT pregnancies compared to dating based on the last menstrual period. Although the fetal, maternal and neonatal risks increase beyond 41 weeks, there is no conclusive evidence that prolongation of pregnancy, per se, is the major risk factor. Other specific risk factors for adverse outcomes have been identified, the most important of which are restricted fetal growth and fetal malformations. In order to prevent PT and associated complications routine induction before 42 weeks has been proposed. There is no conclusive evidence that this policy improves fetal, maternal and neonatal outcomes as compared to expectant management. It is also unclear if the rate of cesarean sections is different between the two management strategies. After careful identification and exclusion of specific risks, it would seem appropriate to let women make an informed decision about which management they wish to undertake. There is consensus that the number of inductions necessary to possibly avoid one stillbirth is very high. If induction is preferred, procedures for cervical ripening should be used, especially in nulliparous women. Close intrapartum fetal surveillance should be offered, irrespective of whether labor was induced or not.

Do placental sections accurately reflect umbilical cord nucleated red blood cell and white blood cell differential counts?

OBJECTIVE

Elevated levels of umbilical cord nucleated red blood cells (nRBCs) have been used to assess in utero hypoxia. Although the umbilical nRBC value has been the 'gold standard', umbilical blood may not be obtained at delivery. We determined if the levels of nRBCs and white blood cell (WBC) counts in fixed placental sections might serve as a proxy for cord blood values.

STUDY DESIGN

Umbilical blood and placenta were collected from 25 deliveries at Harbor-UCLA Medical Center. Umbilical blood and placental sections were analyzed for nRBCs (per 100 WBC) and WBC differential, and compared with the t-test or the Mann-Whitney rank sum test.

RESULTS

nRBC counts were equivalent in umbilical cord and placental sections (5 vs. 4/100 WBC). Umbilical lymphocyte and polymorphonuclear leukocyte (PMN) counts were normally distributed, averaging 35 +/- 9 and 56 +/- 2/100 WBC, respectively. Placental lymphocyte (33 +/- 2/100 WBC) and PMN (60 +/- 2/100 WBC) counts were equivalent to cord blood values.

CONCLUSION

WBC differentials and nRBC counts are equivalent in umbilical cord blood and processed placental pathology sections. For infants in whom cord blood cell counts are desired though umbilical cord samples are unavailable, fixed placental sections may serve as a proxy.

Cord blood hematopoietic progenitor cell concentration and infant sex

BACKGROUND

Characterization of cord blood facilitates understanding of the factors affecting cord blood transplant quality and improvement of transplantation results. Cord blood obtained from male and female infants has not been thoroughly characterized.

STUDY DESIGN AND METHODS

A study was performed to test the hypothesis that the cord blood hematopoietic progenitor cell content-of which the CD34+ cell and colony-forming unit (CFU) concentrations were taken as markers-would not only associate with birth weight but also with sex. The hematopoietic progenitor cell concentrations of 1999 healthy infants (47% female) were analyzed in a cord blood bank setting.

RESULTS

Male infants had significantly higher median CD34+ cell concentrations than female infants (31.8/microL vs. 30.2/microL, respectively; p = 0.03). Although the disparity in absolute concentrations was small, it was 5.3 percent. In CFU subgroup analysis, the median CFU-mixed concentration of male infants (11.1/microL) was higher than in female infants (9.9/microL; p = 0.03). The difference was more pronounced when cumulative frequencies of the CFU-mixed concentrations from cesarean section deliveries were compared. In multivariate linear regression analysis, the positive influence of male sex on the CD34+ cell concentration was significant (p < 0.05). The expected higher median nucleated cell concentration of female compared to male infants (13.9 x 10(9)/L vs. 13.3 x 10(9)/L, respectively; p = 0.0001) was mainly due to the higher neutrophil concentration of female infants (7.1 x 10(9)/L vs. 6.5 x 10(9)/L, respectively, p < 0.0001).

CONCLUSION

Cord blood hematopoietic progenitor cell concentration was higher in male infants, even after correcting for birth weight. Sex may affect the hematopoietic potential of cord blood transplants.