D Vanmontfort scite author profile

The objective of this study was to determine whether there exists a critical period during rearing when restricted feeding of broiler breeder hens can be most beneficial on subsequent egg production. Broiler breeder pullets were subjected to combinations of either ad libitum or restricted feeding during three periods before sexual maturity. Body weight gain, feed intake, and egg production were recorded. Ovary and oviduct weights were noted at age of first oviposition. At 15 and 18 wk of age and at age of first oviposition, chicken luteinizing hormone releasing hormone-I (cLHRH-I) in the median eminence and the levels of luteinizing hormone (LH) and follicle-stimulating hormone (FSH) in the pituitary and plasma were determined. The results demonstrated that alternation between ad libitum and restricted feeding during rearing changed the growth curves of the birds. Feed restriction from 7 to 15 wk followed by either ad libitum or restricted feeding led to improved reproductive performance, suggesting that long-term feed restriction may not be necessary to attain good reproductive performance. The birds restricted from 7 to 15 wk of age had higher proportional weights of ovary (> or = 1.7%) and oviduct (> or = 1.58%) at age of sexual maturity. The cLHRH-I levels in the median eminence and gonadotrophin contents in the pituitary followed that of growth in response to feeding levels and timing of feeding and could be related to the timing of the onset of lay. At age of first egg, all groups had similar levels of cLHRH-I, LH, and FSH. However, no clear effect of level of feed intake or time period of restriction could be observed for plasma LH or FSH concentrations.

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The Effect of Food Intake from Two Weeks of Age to Sexual Maturity on Plasma Growth Hormone, Insulin-like Growth Factor-I, Insulin-like Growth Factor-Binding Proteins, and Thyroid Hormones in Female Broiler Breeder Chickens

Bruggeman

Vanmontfort

Renaville

et al. 1997

General and Comparative Endocrinology

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Circulating concentrations of inhibin-related proteins during the ovulatory cycle of the domestic fowl (Gallus domesticus) and after induced cessation of egg laying

Lovell

Vanmontfort²,

Bruggeman³

et al. 2000

Reproduction

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Source of Immunoreactive Inhibin in the Chicken Ovary1

Vanmontfort

Rombauts

Decuypere

et al. 1992

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High concentrations of immunoreactive inhibin were detected in the plasma of the laying domestic hen using a heterologous RIA validated for use in the chicken. Cessation of egg production induced by restricting the intake of nutrients decreased circulating inhibin to approximately 20% of its original concentration within 8 days, indicating that the ovary is the major source of the measured material. Dissection of ovarian follicles revealed that inhibin is nearly exclusively produced in the granulosa cell layer. When expressed per milligram cell protein the concentration of inhibin decreased significantly in granulosa layers of follicles of succeeding order in the hierarchy (F4 to F1). The concentration of progesterone increased in the granulosa layers of the same follicles whereas oestradiol in the surrounding theca layers decreased. In vitro culture of granulosa cells derived from follicles at different stages of development confirmed the decrease in inhibin secretion as a function of follicular growth observed in vivo. The granulosa cell inhibin secretion is stimulated by LH as well as by FSH, the former being the most effective one. The physiological significance of these changes in inhibin concentration during follicular maturation requires further investigation. It may be concluded, however, that the chicken presents a useful model for the study of the endocrine as well as the paracrine function of ovarian inhibin.

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Developmental changes in immunoreactive inhibin and FSH in plasma of chickens from hatch to sexual maturity

Vanmontfort¹,

Berghman²,

Rombauts³

et al. 1995

British Poultry Science

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1. The relationship between immunoreactive inhibin and follicle-stimulating hormone (FSH) was studied in male and female chickens from hatch to sexual maturity. Plasma inhibin was estimated by a heterologous radioimmunoassay validated for use in the chicken. FSH was measured by a recently developed homologous radioimmunoassay. 2. In a cross-sectional study, blood samples and gonads were collected from chickens of both sexes at 1, 3, 5, 7, 14, 21 and 28 d after hatching and subsequently at 14-day intervals until 182 d of age. 3. In the female, plasma progesterone concentration (P4) progressively increased during sexual development. The plasma luteinising hormone (LH) concentration rose during the first week after hatching, and fluctuated thereafter, with troughs at 6 and 14 weeks and peaks at weeks 10 and 18. The plasma inhibin and FSH concentrations remained low until the start of puberty and increased simultaneously thereafter. However, from week 18 on, plasma inhibin continued to rise while plasma FSH fell. Hence, FSH and inhibin were positively correlated before puberty, but developed a negative correlation during sexual maturation. 4. In the male, plasma testosterone and LH concentrations increased 38- and 3.7-fold respectively over the period studied. Inhibin and FSH followed similar time courses and were consequently positively correlated. 5. These results suggest sex differences in the role of inhibin in regulating FSH secretion during development. The FSH-inhibin feedback loop may become operational at the onset of sexual maturity in the hens. In male chickens, the similar pattern of inhibin and FSH secretion suggests that inhibin secretion is driven by FSH.

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D Vanmontfort

Effects of timing and duration of feed restriction during rearing on reproductive characteristics in broiler breeder females

The Effect of Food Intake from Two Weeks of Age to Sexual Maturity on Plasma Growth Hormone, Insulin-like Growth Factor-I, Insulin-like Growth Factor-Binding Proteins, and Thyroid Hormones in Female Broiler Breeder Chickens

Circulating concentrations of inhibin-related proteins during the ovulatory cycle of the domestic fowl (Gallus domesticus) and after induced cessation of egg laying

Source of Immunoreactive Inhibin in the Chicken Ovary1

Developmental changes in immunoreactive inhibin and FSH in plasma of chickens from hatch to sexual maturity

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