Marco Pagliano

No evidence of fetal DNA persistence in maternal plasma after pregnancy

Short- and long-term persistence of fetal DNA in maternal plasma has been investigated. Short-term persistence at very low concentration was detected in 47 out of 105 women within two days after delivery. Twelve out of 13 samples re-tested within three days scored negative. No long-term persistence was detected in 172 women who had previous sons or abortions. Molecular microchimerism due to circulating fetal DNA persisting from previous pregnancies should not hamper non-invasive plasma-based prenatal testing.

Fetal DNA detection in maternal plasma throughout gestation

The presence of fetal DNA in maternal plasma may represent a source of genetic material which can be obtained noninvasively. We wanted to assess whether fetal DNA is detectable in all pregnant women, to define the range and distribution of fetal DNA concentration at different gestational ages, to identify the optimal period to obtain a maternal blood sample yielding an adequate amount of fetal DNA for prenatal diagnosis, and to evaluate accuracy and predictive values of this approach. This information is crucial to develop safe and reliable non-invasive genetic testing in early pregnancy and monitoring of pregnancy complications in late gestation. Fetal DNA quantification in maternal plasma was carried out by real-time PCR on the SRY gene in male-bearing pregnancies to distinguish between maternal and fetal DNA. A cohort of 1,837 pregnant women was investigated. Fetal DNA could be detected from the sixth week and could be retrieved at any gestational week. No false-positive results were obtained in 163 women with previous embryo loss or previous male babies. Fetal DNA analysis performed blindly on a subset of 464 women displayed 99.4, 97.8 and 100% accuracy in fetal gender determination during the first, second, and third trimester of pregnancy, respectively. No SRY amplification was obtained in seven out of the 246 (2.8%) male-bearing pregnancies. Fetal DNA from maternal plasma seems to be an adequate and reliable source of genetic material for a noninvasive prenatal diagnostic approach.

Fetal growth velocity: kinetic, clinical, and biological aspects.

With the aim of determining fetal growth kinetics, prenatal data were analysed which had been longitudinally collected in the framework of a perinatal growth survey. The sample comprised 238 singleton normal pregnancies, selected in Genoa and Turin (between 1987 and 1990), and repeatedly assessed by ultrasound scans (five to nine per pregnancy). Five morphometric traits were considered: BPD (biparietal diameter), OFD (occipitofrontal diameter), HC (head circumference), FDL (femur diaphysis length) and AC (abdomen circumference). Growth rate seemed to increase in the early part of the second trimester, and decrease subsequently: velocity peaks were steeper and earlier for head diameters and circumference (about 18 weeks) than for femur length (20 weeks) and abdomen circumference (22 weeks). Velocity standards were traced using a longitudinal two-stage linear model: this ensures unbiased description of the shape of the growth curve, even when growth kinetics are asynchronous, and efficient estimation of the outer centiles--the most useful for diagnostic purposes.

Feasibility study for a microchip-based approach for noninvasive prenatal diagnosis of genetic diseases

Abstract: Fetal DNA in maternal plasma may represent a source of genetic material for prenatal noninvasive diagnosis of genetic diseases. We evaluated a cohort of physiological pregnancies to determine if fetal DNA can be retrieved at any gestational week in sufficient quantity to be analyzed with advanced mutation detection technologies. We performed fetal DNA quantification by real‐time polymerase chain reaction (PCR) on the SRY gene in 356 women sampled from 6 to 40 gestational weeks. Fetal DNA was retrieved at any week. All female fetuses were correctly identified. In 5 of 188 (2.6%) male‐bearing pregnancies, no amplification was obtained. For noninvasive testing, complete clearance of fetal DNA after delivery is mandatory. Long‐term persistence was not detected in women with previous sons or abortions. These findings confirm that maternal plasma may represent the optimal source of fetal genetic material. For noninvasive diagnosis of genetic diseases, we evaluated microchip technology. The detection limit for a minority allele determined by diluting a mutated DNA into a wild‐type plasma sample was 5 genome equivalents, indicating that the test might be applied to the identification of paternally inherited fetal alleles in maternal plasma. The addition of peptide nucleic acids (PNAs) to either the PCR reaction or the chip hybridization mixture allowed approximately 50% inhibition of wild‐type allele signals.

Fetal DNA in maternal plasma in twin pregnancies

Twin pregnancies have increased in recent years as assisted reproductive technologies have been adapted. The maternal age of women undergoing assisted reproduction is generally higher than that of women with spontaneous pregnancies. This also implies a higher risk of fetal aneuploidies. Furthermore, twin pregnancies are known to have a higher risk of developing complications such as preeclampsia, intrauterine growth retardation, and preterm labor [for a review, see Ref. (1)]. Of note is that women who have been trying for years to become pregnant and have finally undergone cumbersome therapeutic interventions could be particularly reluctant to expose their pregnancy to any invasive prenatal diagnostic procedure. Thus, noninvasive screening or diagnostic tests could be particularly welcome in this subset of pregnant women. Noncellular fetal DNA circulating in maternal plasma may represent a suitable source of fetal genetic material that can be obtained noninvasively. Several studies have shown a significantly higher concentration of fetal DNA in maternal plasma in some fetal aneuploidies and placental pathologies (2)(3)(4)(5)(6). Nevertheless, existing data about fetal DNA concentrations in maternal blood under physiologic and pathologic conditions refer only to singleton pregnancies, and reference values for twins are still missing. The origin of the fetal DNA released into maternal plasma is still unclear. Although there is evidence that some of the cell-free fetal DNA in the maternal plasma is derived from blood elements, several authors favor the hypothesis that the majority is derived from the placenta (7)(8). Interestingly, twin pregnancies may present with one or two placentas, and although dizygotic twins must have two placentas, monozygotic twins can be either mono- or bichorionic. It has been reported that monozygotic twins exhibit smaller uteroplacental junctional areas than do …

Longitudinal distance standards of fetal growth

Background. Most ultrasonographic fetal growth norms are derived from cross‐sectional data or from longitudinal data treated as coming from cross‐sectional studies, although only longitudinal models may detect particular aspects of fetal growth shape, such as peak of growth velocity.

Uterus didelphys and unilateral imperforate vagina: Two cases and suggested reparative surgery

Abstract Uterine and vaginal duplication is the result of abnormal embryological mullerian development. The etiology is unknown and renal agenesis is associated. The symptomatology depends on the obstructive component and on the disorders of the urinary tract. We present two adolescents, both 13 years old, who underwent a double surgical operation: vaginal septum excision followed by abdominal metroplasy. The uterine cervix associated with the imperforate hemivagina was hypoplastic in both cases. One of the patients required ovarian resection because of a large endometriotic cyst. In the case of cervical hypoplasia, surgery on the vagina only may prove inadequate. To enhance fertility, we recommend reparative and conservative surgery rather than a hemihysterectomy. Early diagnosis and immediate treatment are necessary in order to avoid progressive endometriosis and pelvic adhesions, which are commonly present in the case of obstructive malformations.