358 The Risk of Second Trimester Amniocentesis in Twin Gestations

358 The Risk of Second Trimester Amniocentesis in Twin Gestations

SPO Abstracts Volume 168 Number I, Part 2 357 DILATION AND EVACUATION AFTER DETECTING FETAL ABNORMALITIES: A RELIABLE TECHNIQUE FOR CONFIRMING PREN...

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SPO Abstracts

Volume 168 Number I, Part 2

357

DILATION AND EVACUATION AFTER DETECTING FETAL ABNORMALITIES: A RELIABLE TECHNIQUE FOR CONFIRMING PRENATAL DIAGNOSES. Lp Shylman S Elias, JS Dungan X , C Grevengood'<, SJ Grossx, PJ Kingx. University of Tennessee, Memphis. OBJECTIVE: We sought to determine whether abnormal prenatal diagnoses would be consistently confirmed in pregnancies terminated in !he second trimester by dilation and eV8wation (0 and E). STUDY DESIGN: The study population was deriYed from among WOOlen referred to our center between February 1987 and June 1992 and consisted of women determined to be carrying fetuses with genetic disorders or ultrasonographically.
359 KSDUCBD PAIRING OF a-SA%BLLITB REGIONS IN

358

THE RISK OF SECOND TRIMESTER AMNIOCENTESIS IN TWIN GESTATIONS. A GbjdjnjX, L. lynch, C . Hicks x , G . Berkowitz x, C.J. lockwood. MI.Sinai School of Medicine, NY,NY.

360 TISSUE SPECIFIC MJSAICISM

OBJECTIVE : There are no case..:ontrol studies in the literature assessing the risks of genetic amniocentesis in uncomplicated twin pregnancies. We retrospectively compared pregnancy outcomes in 102 consecutive patients with twin pregnancies undergoing amniocentesis for fetal karyotype with 109 twin pregnancies undergoing routine sonographic studies at similar gestational ages. STUDY DESIGN: All spontaneous and induced twin gestations that underwent an ultrasound examination between 14 and 20 weeks were compiled for the period of Jan . 1987 to Jan. 1992. Excluded were patients having undergone mult~etal reductions or chorionic villous samplings and those with fetal anatomic or chromosomal anomalies, discordant growth (>20%) at the time of initial ultrasound, death or a monoamniotic sac detected at ultrasound. Follow-up was available in 95% of cases and 96% of controls. RESULTS: Amniocenteses were successful in 99.5% of cases. The mean maternal age was sign~icant/y higher among cases than controls [35.2 (±3.5) vs. 30.4 (±5.3) years; p < 0.0001]. No differences were noted between cases and controls for mean graVidity, parity, number of prior spontaneous losses and gestational age at uttrasound. Among the 204 case fetuses there were a total of 7 losses (3.4%): both twins at 22, 23 and 25 weeks, and one twin at 36 weeks. No losses occurred within 3 weeks of amniocentesis. Among the 218 control fetuses there were also 7 losses (3.2%): both twins at 18, 20 and 26 weeks, and one at 32 weeks. The relative risk of amniocentesis was 1.1 (95% confidence intervals: 0.4; 3.0). No differences were noted between cases and controls for gestational age at delivery, birth weight, mean Apgar scores at 1 and 5 minutes, length of neonatal stay and occurrence of respiratory distress syndrome. CONCLUSION : Second trimester amniocentesis in twin pregnancies appears to be a safe procedure.

397

BUNAR PBMALB MBIOSIS. BY Cheng, SM Gartler. Departments of OB/GYN and Medical Genetics, University of Washington, Seattle, WA. OBJBcrIV., To evaluate the role of centromeric a-satellite DNA repeats in chromosome pairing during meiosis. STUDY DBSIONI Using probes for the X chromosome a-satellite repeat and unique sequences obtained from an X chromosome library, the fluorescence hybridization pairing patterns of centric heterochromatin and euchromatic (unique) sequences in the X chromosomes of fetal oocytes were compared. RBSULTBI Of 31 zygotene cells displaying hybridization with the x chromosome library, 7 cells had 2 unpaired signals (23\), 14 cells had partially paired signals (45%), and pairing appeared complete in 9 cells (29%). In contrast, the a-satellite repeats were unpaired in 46 of 64 zygotenes (72\). Of 149 pachytenes with hybridization signals for the unique sequences, pairing was complete in 147 cells (>98\) and partial in 2 cells «2\), whereas 85 of 153 (56\) pachytenes were unpaired for the a-satellite repeat. An a-satellite probe for chromosome 18 demonstrated similar results, with 33 of 131 (26\) pachytenes unpaired at this region. CONCLUSION I These data suggest that highly repeated a-satellite sequences are not involved in meiotic pairing. possibly, these sequences are excluded from pairing in order to lower the frequency of unequal recombination.

AM)NG

FETUSES WITH

PRENATALLY DIAGl'USED DIAPHRAGMATIC HERNIA. A.

Donnenfeld, J. Bell, R. Librizzi, M. Nazir,-Y. Byers, A. Ludomirsky, S. weiner. MFM Sect. Dept. Ob/Gyn, Pennsylvania Hospital, Phila., PA. OBJECTIVE: 'lb determine i f cytogenetic discrepancies between fetal blood and amniotic fluid are present in fetuses with prenatally diagnosed diaphragmatic hernia (D-hernia). STUDY DESIGN: 14 fetuses with prenatally diagnosed D-hernia were studied by both amniotic fluid and fetal blood chromosome analysis. RESULTS: In one fetus with a normal karyotype on fetal blood, amniotic fluid mosaicism for a supernumerary isochromosome 12p (iso12p) was identified. Concordant aneuploidy in both fetal blood and amniocytes was found in 5 of the remaining 13 fetuses (38%) (3 with trisomy 18, 1 with mosaic supernumerary iso12p in both fetal blood and amniocytes, 1 with an unbalanced translocation, and 8 with normal karyotypes). CONCLUSIONS: Since D-hernia is a common component of mosaic supernumerary iso12p syndrome and this chromosome abnormality is predominantly found in fibroblasts but not lymphocytes, an amniocentesis may be more accurate than fetal blood sampling in defining the true fetal chromosome status when diaphragmatic hernia is prenatally diagnosed.