Altered breast development in young girls from an agricultural environment.

In several human populations, the age at which female breast development begins is reported to have declined over the last five decades. Much debate has occurred over whether this reported decline has actually occurred and what factors contribute to it. However, geographical patterns reflecting earlier developmental onset in some human populations suggest environmental factors influence this phenomenon. These factors include interactions between genetic makeup, nutrition, and possible cumulative exposure to estrogens, both endogenous as well as environmental beginning during in utero development. We examined the onset of breast development in a group of peripubertal girls from the Yaqui Valley of Sonora, Mexico. We observed that girls from valley towns, areas using modern agricultural practices, exhibited larger breast fields than those of girls living in the foothills who exhibited similar stature [e.g., weight, height, body mass index (BMI)], and genetic background. Further, girls from valley towns displayed a poorly defined relationship between breast size and mammary gland development, whereas girls from the Yaqui foothills, where traditional ranching occurs, show a robust positive relationship between breast size and mammary size. The differences noted were obtained by a medically based exam involving morphometric analysis and palpation of tissues, in contrast to visual staging alone. In fact, use of the Tanner scale, involving visual staging of breast development for puberty, detected no differences between the study populations. Mammary tissue, determined by palpation, was absent in 18.5% of the girls living in agricultural areas, although palpable breast adipose tissue was present. No relationship was seen between mammary diameter and weight or BMI in either population. These data suggest that future in-depth studies examining mammary tissue growth and fat deposition in breast tissue are required if we are to understand environmental influences on these phenomena.

Ovarian folliculogenesis in the oviparous Mexican lizard Ctenosaura pectinata.

The ovarian follicles of Ctenosaura pectinata exhibit a clear seasonal cycle in morphology. Early in development, each oocyte is surrounded by a granulosa composed of a single layer of cuboidal or squamous cells and thin thecal layers. As folliculogenesis progresses, the granulosa becomes multilayered and composed of three distinct cell types. After vitellogenesis begins and active sequestration of yolk into the ooplasm is initiated, the granulosa is reduced to a single cell type. We observed a striking change in the appearance of the ooplasm during folliculogenesis. Early ovarian development is characterized by an ooplasm with homogeneously distributed fine fibrils, but as development progresses, the ooplasm contains dense clumps of fibers aggregated into distinctive bundles. The ooplasm displays further complexity in morphology as previtellogenic growth continues and as different regions exhibit various combinations of fibers and vacuoles. Yolk platelet formation is complex, with distinctive stages generating platelets with varying morphologies. © 1996 Wiley-Liss, Inc.