ABSTRACT Reduced fetal growth is known to be associated with a reduced ovarian fraction of primordial follicles, with ovarian hyperandrogenism and anovulation in late adolescence. In this

study, we examined whether adolescent girls born small for gestational age also present an abnormality in uterine or ovarian size. Standardized ultrasound measurements of the internal

genitalia were performed in 36 healthy post-menarcheal girls (mean age 14 y) born with a size that was either appropriate for gestational age (AGA) or small (SGA), birth weight averaging 0.1

and −3.0 SD, respectively; clinical and endocrine characteristics were documented concomitantly. Compared with AGA girls, the SGA girls had a smaller uterus (mean difference of 20%;_p_ <

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27 September 2023 MAIN Reduced fetal growth is known to be associated with a reduced ovarian fraction of primordial follicles (1), ovarian hyperandrogenism (2), and anovulation in late

adolescence (3). In this study, we examined whether adolescent girls born small for gestational age also present an abnormality in uterine or ovarian size. SUBJECTS AND METHODS STUDY

POPULATION AND DESIGN. The study population consisted of 36 healthy girls (age 14.2 ± 1.2 y; range 12.6–17.0 y) who had been recruited for this study at the time of discharge from the

hospital after an intercurrent, minor illness. The inclusion criteria were:_1_) A birth weight for gestational age that was either appropriate (AGA) or small [SGA; below 10th percentile

(4)], _2_) menarche between 1.5 and 3 y before study, _3_) regular menstrual cycles with a duration between 21 and 45 d, and _4_) normal body mass index (5). The exclusion criteria were:

evidence for a syndromic, chromosomal, or infectious etiology of low birth weight; hirsutism [defined as a score of 8 or more on the Ferriman and Gallwey scale (6)]; thyroid dysfunction;

Cushing syndrome; hyperprolactinemia; previous or current use of oral contraceptive medication. Pelvic ultrasound examinations were performed together with blood sampling for measurement of

plasma LH, FSH, estradiol, testosterone, and sex hormone-binding globulin (SHBG) in the follicular phase (range: day 5 ± 3) of the menstrual cycle. Birth weight and gestational age data were

obtained from hospital records and transformed into SD scores, as previously described (2). ULTRASONOGRAPHY. The ultrasound examinations were performed with a full bladder. Scans were

obtained by a single observer (GE) using the Acuson 128 XP10 model (Mountain View, CA) with a 5-MHz sector probe. The observer remained blinded for the girls' birth weight throughout

the study. Longitudinal and transverse views of the uterus were obtained and measurements made of uterine length (from the top of the fundus to the cervix), anteroposterior diameters of the

cervix and fundus, and uterine cross-sectional area (uterine length × uterine anteroposterior diameter). Longitudinal and transverse views of the ovaries were obtained for measurement of

length, breadth, and depth of each ovary. Ovarian volume (right and left) was calculated using the formula for a modified prolate ellipsoid (depth × breadth × length/2) (7–9). For

comparisons between AGA and SGA groups, average volumes of right and left ovary of each girl were used. ENDOCRINOLOGY. LH and FSH were measured using a commercially available microparticle

enzyme immunoassay (IMX System, Abbott, Chicago, IL). The intra-assay and inter-assay coefficients of variation (CVs) were 3.0% and 5.4% for LH and, respectively, 4.1% and 6.9% for FSH.

Serum testosterone and estradiol concentrations were determined by RIA (10) and SHBG levels by enzymo-immuno-chemiluminiscence (11). STATISTICS AND ETHICS. Results are expressed as mean ±

SEM, unless stated otherwise. Independent variables were compared by Mann-Whitney test;_p_ values < 0.05 were considered statistically significant. The study protocol was approved by the

Institutional Review Board of the Barcelona Hospital. Informed consent was obtained from the parents and assent from the girls. RESULTS Table 1 summarizes clinical characteristics and

endocrine results. SGA girls had higher serum FSH levels than AGA girls (_p_ = 0.03), while LH, estradiol, testosterone, and SHBG concentrations were similar. As shown in Figure 1, SGA girls

had a markedly reduced uterine cross-sectional area (mean difference 20%;_p_ < 0.006) and strikingly reduced ovarian volumes (mean difference 38%;_p_ < 0.0002). Uterine cervix

dimensions were comparable (data not shown). The differences in uterine and ovarian size between AGA and SGA girls remained similar and significant after matching AGA and SGA subpopulations

for height, weight, and BMI, suggesting that the reduced size of the internal genitalia in SGA girls is essentially independent of the reduction of total body size. DISCUSSION Adolescent

girls born small were found to have a reduced size of the uterus and the ovaria. This observation indicates either that fetal growth restriction may have a long-term impact on the size of

the female internal genitalia, or that a common mechanism participates in the regulation of prenatal growth and the subsequent development of the internal genitalia. The finding of reduced

ovarian size after prenatal growth restriction complements recent insights linking growth before birth to ovarian function later in life. Reduced fetal growth has been associated with a

reduced fraction of primordial follicles (1), with ovarian hyperandrogenism in adolescent girls (2), and with anovulation, particularly dating from late adolescence (3). It has been firmly

established that the prime factor accounting for the variability of birth weight of infants is the birth weight of the mother (12–14), and that women born SGA are at risk for delivering SGA

and preterm infants (13, 14). However, the mechanisms governing these intergenerational effects remain elusive. Reduced prenatal growth was now found to be followed by a reduced size of the

uterus. This may be one of the mechanisms underpinning the intergenerational effects of maternal birth weight. Indeed, mammalian embryo transfer and cross-breeding experiments have shown

that the size of the conceptus at birth relates to the size of the maternal environment in which it grows (reviewed in Ref. (15). Conceivably, such a nongenomic mechanism provides a survival

advantage, as it allows to adapt fetal growth in each generation, according to the growth conditions that the mother herself experienced as fetus. Ovarian size was found to be reduced in

SGA girls in the presence of elevated serum FSH concentrations, a combination pointing toward impaired ovarian responsiveness rather than to a lack of gonadotropic drive. In conclusion, the

gynecological correlates of prenatal growth restriction are herewith extended to include a reduced size of the uterus and the ovaries, and slightly increased serum concentrations of FSH.

Disorders such as ovarian hyperandrogenism and ovulatory dysfunction in the presence of a small uterus and small ovaries may have a prenatal origin, particularly when occurring after

precocious pubarche and in a context of short stature, hyperinsulinism, and dyslipidemia (2, 3, 16, 17). ABBREVIATIONS * AGA: appropriate for gestational age * SGA: small for gestational age

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Scholar  Download references AUTHOR INFORMATION AUTHORS AND AFFILIATIONS * Endocrinology Unit, Hospital Sant Joan de Déu, University of Barcelona, Passeig de Sant Joan de Déu 2, Esplugues,

08950, Barcelona, Spain Lourdes Ibáñez * Hormonal Laboratory, Autonomous University of Barcelona, Passeig Vall d'Hebron 119–129, Barcelona, 08035, Spain Neus Potau * Department of

Radiology, Hospital Materno-Infantil Vall d'Hebron, Autonomous University of Barcelona, Passeig Vall d'Hebron 119–129, Barcelona, 08035, Spain Goya Enriquez * Department of

Pediatrics, University of Leuven, Leuven, 3000, Belgium Francis De Zegher Authors * Lourdes Ibáñez View author publications You can also search for this author inPubMed Google Scholar * Neus

Potau View author publications You can also search for this author inPubMed Google Scholar * Goya Enriquez View author publications You can also search for this author inPubMed Google

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ARTICLE Ibáñez, L., Potau, N., Enriquez, G. _et al._ Reduced Uterine and Ovarian Size in Adolescent Girls Born Small for Gestational Age. _Pediatr Res_ 47, 575–577 (2000).

https://doi.org/10.1203/00006450-200005000-00003 Download citation * Received: 07 October 1999 * Accepted: 07 January 2000 * Issue Date: 01 May 2000 * DOI:

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