Sarcoidose no Brasil

Three experiments involving 192 crossbred boars evaluated the effects of dietary Se (0 or .5 ppm) and vitamin E (0 or 220 IU/kg) on growth, tissue Se, and alpha-tocopherol concentrations, and on semen quality and its subsequent effect on fertilization rate in mature gilts. Diets formulated used torula yeast and dextrose or cornstarch as the basal feedstuffs and were provided from weaning through sexual maturity. The basal diets averaged .063 ppm Se and 3.46 mg alpha-tocopherol/kg diet. Experiment 1 was a 2 x 2 factorial and conducted as a randomized complete block design in six replicates. Boars were allotted at weaning (initial BW 7.7 kg) with growth and feed performance determined to 145 kg BW. Five boars were killed at weaning and three from each treatment group at periodic intervals to 145 kg BW. Serum and tissue Se and alpha-tocopherol concentration and glutathione peroxidase (GSH-Px) activity were subsequently determined. No performance benefit from either nutrient was demonstrated. Tissue (serum, liver, and testis) GSH-Px activity and Se and alpha-tocopherol concentrations were higher (P < .01) at each period when that respective nutrient fortified the diet. Testis GSH-Px activity increased from weaning to 145 kg BW even when Se was not added to the diet. Experiment 2 was conducted after training three boars from each treatment group of Exp. 1 for semen collection. From 9 mo of age and for a 16-wk period, semen was collected three times weekly and the volume, sperm concentration, motility, and percentage of normal and abnormal sperm were determined. Boars fed either the nonfortified Se or vitamin E diets had sperm with lower motilities (P < .01) and a higher percentage of sperm cells with bent and shoehook tails (P < .01). Diets low in added Se seemed to have a greater detrimental effect on the percentage of motile and abnormal sperm than diets inadequate in vitamin E. Sperm cells had a high concentration of Se and alpha-tocopherol, and a high GSH-Px activity. Experiment 3 was conducted using the boars from Exp. 2; 34 mature gilts were inseminated at 12 and 24 h after estrus. Gilts were killed 5 to 7 d postcoitum and the reproductive tracts were recovered. The semen from boars fed the nonfortified Se diet had a lower fertilization rate of oocytes with fewer accessory sperm penetrating the zona pellucida. The results from these experiments indicate that dietary Se and vitamin E can affect boar semen quality, but the greater effect seemed to be from Se.

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Uterine Asynchrony: A Cause of Embryonic Loss12

Pope

1988

152

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During early gestation, hormonal events associated with corpora lutea formation and embryonic synthesis of proteins, prostaglandins, and steroids result in synthesis and release of endometrial secretory products into the uterine lumen. The embryo, inherently and in response to secretory products of the uterus, develops and grows. However, considerable embryonic mortality occurs when uterine secretions become altered in such a manner that they are asynchronous to the developing embryo. Factors that advance or retard development of the uterus and embryo have been utilized to document utero-embryonic asynchrony, and it has been observed that the uterus will not "wait" for embryos to become synchronous. However, the reverse is possible: embryonic development can be accelerated or decelerated. Furthermore within the uterus, localized areas might also exist that favor development of some embryos at the expense of others. This review will consider causes of utero-embryonic asynchrony and offer models of embryonic loss associated with an asynchronous environment in cattle, sheep, and swine.

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Factors affecting the survival of pig embryos

1985

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Effect of Electrocautery of Nonovulated Day 1 Follicles on Subsequent Morphological Variation among Day 11 Porcine Embryos1

Pope

Wilde

Xie

1988

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One hundred and thirteen crossbred gilts were used in three experiments to examine the relationship between the pattern or sequence of ovulation and subsequent variation in the morphology of Day 11 embryos. In the first experiment, the percentage of follicles that had ovulated was determined in individual gilts at 26, 30, 34, or 38 h after the onset of estrus (n = 20) and 39, 41, 43, 45, or 47 h post-injection of human chorionic gonadotropin (n = 25; hCG, 1000 IU). The second experiment consisted of observing the percentage of follicles ovulated in 52 additional gilts at 34 h after the onset of estrus (Day 0). In the third experiment, the morphological variation among littermate embryos was compared on Day 11 between sham-operated control gilts (n = 8) and gilts whose nonovulated follicles were destroyed by electrocautery (n = 8) on Day 1. Results of these experiments indicated that the pattern of ovulation in gilts was skewed (p less than 0.01). Ovulation, induced with hCG, appeared to occur in a majority of follicles during a short period of time, whereas the remaining ovulations occurred over a longer interval. Of the 57 gilts observed at 34 h after natural estrus, ovaries of 25 gilts contained corpora hemorrhagica (CH) and follicles; one gilt had 1 CH and 17 follicles, and 24 others had 10-17 CH with 1-4 follicles remaining. Destruction of these nonovulated follicles resulted in a more (p less than 0.01) uniform group of Day 11 embryos and with fewer (p less than 0.05) small embryos. These data demonstrated that the pattern of ovulation may affect morphological variation in embryonic development such that some of the later ovulating follicles may represent smaller embryos within a litter.

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Androgen receptor and follicle‐stimulating hormone receptor in the pig ovary during the follicular phase of the estrous cycle*

Cárdenas

Pope

2002

Molecular Reproduction Devel

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Follicle-stimulating hormone (FSH) is an important regulator of follicular development. Some effects of FSH on ovarian follicles might be enhanced by androgens. The main objectives of the present study were to examine expression of the androgen receptor (AR) and FSH receptor (FSHR) in late developing follicles in pigs. Ovaries were collected from gilts on days 13, 15, 17, and 19 of the estrous cycle (day 0 = first day of estrus, n = 4 gilts/day), a period coincident with the follicular phase. One ovary was processed for immunohistochemistry (IHC) of AR. Samples of surface wall from the largest follicles (4-5 per gilt) were dissected from the other ovary, pooled and processed for determination of AR and FSHR mRNAs using reverse transcription-polymerase chain reaction (RT-PCR). Intense AR immunostaining was present in nuclei of granulosa cells of preantral and antral follicles. AR immunoreactivity was also present in the nuclei of oocytes. Weak staining for AR was observed in cells of the theca interna, ovarian surface epithelium, and in most cells of the ovarian stroma. Relative amounts of immunoreactive AR in granulosa cells of late developing follicles, or small antral follicles (< 2 mm), did not differ between days 13, 15, 17, and 19. However, amounts of AR in granulosa cells of small antral follicles was greater (P < 0.05) than in the largest follicles present in the same ovary. The relative amounts of AR mRNA in tissue from the largest follicles on days 13, 15, 17, and 19 did not differ; however, amounts of FSHR mRNA in the same follicles were not different between days 13, 15, and 17, but decreased (P < 0.05) by day 19. Results indicate that during the follicular phase in gilts, the AR protein is mainly present in granulosa cells. Relative amounts of AR protein in granulosa cells and mRNA in walls of late developing follicles did not significantly change from day 13 to 19; however, amounts of FSHR mRNA decreased in preovulatory follicles by day 19 of the estrous cycle.

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W. F. Pope

Effects of dietary selenium and vitamin E on boar performance and tissue responses, semen quality, and subsequent fertilization rates in mature gilts.

Uterine Asynchrony: A Cause of Embryonic Loss12

Factors affecting the survival of pig embryos

Effect of Electrocautery of Nonovulated Day 1 Follicles on Subsequent Morphological Variation among Day 11 Porcine Embryos1

Androgen receptor and follicle‐stimulating hormone receptor in the pig ovary during the follicular phase of the estrous cycle*

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