Department of Obstetrics and Gynaecology, Division of Reproductive Endocrinology and Infertility, Inonu University School of Medicine, Malatya, Turkey
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Abstract |
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Key words: GnRHa/luteolysis/pregnancy/teratogenicity
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Introduction |
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Since there is no consensus on the appropriate management of GnRHa-exposed pregnancies and these patients have been suffering from infertility for a long period, we report the outcome of five GnRHa-exposed pregnancies.
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Case presentations and results |
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Discussion |
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Since this early drug exposure is not yet preventable, we should address the problems and gather the relevant data regarding effects of agonists on early pregnancy. Most of the data reported to date are related to the use of short-acting GnRHa in IVF procedures. Thus it appears that the pregnancies occurred either just before or at the beginning of GnRHa administration. Therefore the exposure has encompassed only the early stage of embryonic development and not organogenesis. The consequences of this early exposure are mainly luteolytic effects and/or embryotoxicity. Although the delayed effects on children cannot be evaluated, preclinical toxicology studies revealed no malformations in different species (Elefant et al., 1995). The potential for adverse effects from GnRHa exposure in early pregnancy is probably related to the manipulation of the fetal hypothalamicpituitaryplacental axis. Some physiological effects of GnRHa on pregnancy and the fetus have been studied. While GnRHa has been shown to have luteolytic properties, its use in attempts to interrupt pregnancy has been unsuccessful (Skarin et al., 1981
). It appears that HCG from the trophoblast easily overrides the luteolytic effect (Lanzone et al., 1989
). Eley studied the effect of GnRHa in pregnant baboons (Eley, 1987
); while there was a transient decline in progestins, the study could not determine whether abortions were related to it. Cahill et al. have reported pregnancy loss in GnRHa-exposed women not greater than that reported previously in infertile women following natural or IVF conceptions and suggested that there is no need for supplementary treatment (Cahill et al., 1994
). Sopolek and Hodgen found that GnRHa infusion did not affect the maternal hormone concentrations and that in-utero exposure to GnRHa after day 35 had little effect on overt gonadal development (Sopolek and Hodgen, 1987).
Our data are different from the above, since we included patients exposed to long-acting GnRHa. Besides, the length of exposure in our study is longer than the reported cases which appears to be at least 68 weeks of pregnancy possibly extending to the stage of organogenesis. It would be reasonable to assume that luteal function is more likely to be impaired in cases with long-acting GnRHa, since it cannot be interrupted when pregnancy is diagnosed, thus allowing extended fetal exposure to the drug. In our cases, there were no abortions or fetal deaths. The increase in serum ß-HCG concentrations was normal and the progesterone concentrations were consistently >25 ng/ml. Since the pregnancies were diagnosed relatively late, no luteal supplementation was given to the patients. Similarly, Elefant et al. have reported no adverse changes in pregnancy exposed to depot GnRHa (Table II) (Elefant et al., 1995
). The above and our data support previous reports that luteal function is relatively resistant to exogenous GnRHa (Smitz et al., 1991
; Cahill et al., 1994
). These results are further supported in a recent study reporting that continuous GnRHa administration in the luteal phase does not impair corpus luteum function, suggesting that HCG is the main force for the development of the corpus luteum (Valbuena and Simon, 1997
).
Embryotoxicity is potentially the most important issue, which is more difficult to outline since most of the exposed cases encompassed the early stages of embryonic development. Of 79 babies born, there have been only two cases with congenital abnormalities: one with cleft palate (Herman et al., 1992), the other with bilateral talipes equinovarus (Jackson et al., 1992
). To date, there have been no reported series with genetic amniocentesis despite normal pregnancy outcomes. Although we had a small series of patients, all agreed to amniocentesis, which revealed normal karyotypes. In contrast to our findings, in only one earlier case did amniocentesis reveal a trisomy 18 karyotype (Young et al., 1993
). It is clearly evident that in our patients the drug exposure has extended to the stage of organogenesis but resulted in normal pregnancy outcome. Obviously the assessment of fetal risk requires large numbers of cases. However, our results along with others (Abu-Heija et al., 1995
) are reassuring despite some observed abnormalities in rats producing the earlier fears about teratogenicity. Moreover, the genetic testing and the normal pregnancy outcome, despite longer drug exposure, in our patients along with the other reported cases may further question the possible embryotoxicity of GnRHa in humans.
Having no strong evidence of teratogenetic effects of GnRHa in humans, it would be logical not to terminate these pregnancies based on the drug exposure alone despite potential fetal morbidity. Also we may consider ß-HCG concentration measurements in GnRHa-injected women before each injection. Couples should be counselled regarding the possible effects and should be aware of the possible outcome of GnRHa-exposed pregnancies reported. Although possible subtle effects on fetal endocrine organs cannot be disregarded, physicians should proceed with caution and closely follow-up the patients. In addition, delayed evaluation of the exposed children later in their lives should be carried out to observe any effects on their future reproductive function. We agree with others that there should be a central registration for the outcomes of GnRHa-exposed pregnancies to enable the detection of any related defects.
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Notes |
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References |
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Submitted on April 29, 1998; accepted on December 11, 1998.