In mammals, folliculogenesis begins at the fetal stage and is a complex, dynamic process that involves follicular quiescence, activation, growth, follicular migration, and cell interactions. At birth, the preantral ovarian follicular population, drastically reduced, constitutes >90% of all ovarian follicles, representing the ovarian reserve that will be used throughout the reproductive life. In alpacas, changes in follicular wave growth patterns and ovulation are different from other species; thus, it is important to know the ovarian reserve at fetal stage, as a starting point for future studies. Therefore, the aim of the present study was to establish the morphological characterisation and estimate the population of alpaca preantral follicles in the fetal stage. Ovaries from alpacas (n=5) in the fetal stage (fetus during the last third of gestation) were collected at a local slaughterhouse. Whole ovaries were individually fixed in 4% paraformaldehyde phosphate-buffered saline overnight at room temperature for routine histology. Ovaries were dehydrated in alcohol, cleared with xylene, and embedded in paraffin, and all tissue was serially sectioned at 7μm with a rotating microtome (Leica). The histological sections were mounted and stained with periodic acid-Schiff and hematoxylin. Preantral follicles were classified according to their developmental stage: primordial (one layer of flattened granulosa cells surrounding the oocyte), primary follicle transition (flattened cuboidal granulosa cells surrounding the oocyte), primary (single layer of cuboidal granulosa cells around the oocyte), or secondary (oocyte surrounded by more than one complete layer of cuboidal granulosa cells). We estimated the number of preantral follicles by counting all follicles in each histological section. Only follicles in which the oocyte nucleus was visible were counted. In addition, for each follicle category (n=40 per group), oocyte and follicle diameters were measured using an ocular micrometer. The variable means were compared using unpaired Student's t-test analysis, with significance set at P ≤ 0.05. Estimation of preantral follicular population (mean±standard deviation) was 80 516±14 575 in the ovaries of alpaca fetuses. Most of the follicles found belong to the primordial (49.2%) or primary follicle transition (39.2%) categories, followed by primary (10.8%) and secondary (0.8%) stages. Follicle and oocyte diameters of primordial (33.3±7.2; 21.5±4.6μm) and primary follicle transition stages (36.7±3.0; 23.4±2.6μm) were significantly (P<0.05) smaller than those of primary-stage follicles (77.9±15.8; 50.02±11.1μm). Finally, preantral follicles classified with normal morphological integrity appearance for each developmental stage were 98.2% (primordial), 96.7% (primary follicle transition), 91.5% (primary), and 88.1% (secondary), respectively. In conclusion, this study shows for the first time an estimation of the population of preantral follicles in alpaca fetal ovaries and establishes follicle and oocyte diameters and their normal morphological integrity.
Preantral follicles are the largest ovarian follicle population and represent an important source of potentially competent oocytes. During the lifespan of the female this large population becomes atretic during their growth. In alpacas, there are few studies that estimate the number of preantral follicles. Therefore, the objective of the present study was to compare the population and morphology of preantral follicles in the ovaries of fetal and adult alpacas. Ovaries from alpacas in fetal (fetus during the last third of gestation, n=5) and adult stage (3–4 years, n=5) were collected at a local slaughterhouse. The whole ovaries were individually fixed overnight at room temperature, and later dehydrated in alcohol, cleared with xylene, and embedded in paraffin. Tissue were sectioned at 7μm with a rotating microtome. Then, sections were processed and stained with periodic acid Schiff and haematoxylin. Preantral follicles were classified for their development stage as primordial, transitional, primary, or secondary, according to the layer number and form of granulosa cells. Estimation of the number of preantral follicles was made by counting all follicles in each histological section. Only follicles in which the oocyte nucleus was visible were counted. In addition, for each follicle category (n=30 per group), oocyte and follicle diameters were measured using Motic Images Plus 2.0 software. The population estimate and follicular diameter were compared using Kruskal–Wallis test with significance set at P ≤ 0.05 using SPSS v.2 2 software (IBM Corp.). A total of 2174 histologic sections were analysed. The results showed a higher (P=0.045) number of preantral follicles (80 516.1±3623.9) for fetal alpacas compared with adult alpacas (67 870.8±2267.4). Also, primordial follicles population (31 543.4±2690) and morphologically normal follicles (98.2%) were higher (P=0.04) in fetus compared with those in the adult stage (2244.7±355.37; 76.35%) respectively. On the contrary, the diameters of primordial, transitional, and primary follicles (45.34±3.76; 52.38±6.22; 59.79±5.22µm) from adult alpaca were greater (P=0.04) than those of fetal preantral follicles (33.305±7.2; 36.715±3; 77.985±15.8µm). In conclusion, the preantral follicle population declines dramatically in adult alpaca and animals of this age show an increased percentage of degenerate primordial follicles.
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