Ryan J Orbus scite author profile

Pregnant ewes were exposed chronically to thermoneutral (TN; 20 2 C, 30% relative humidity; n=8) or hyperthermic (HT; 40 2 C 12 h/day, 35 2 C 12 h/day, 30% relative humidity, n=6) environments between days 37 and 93 of pregnancy. Ewes were killed following 56 days of exposure to either environment (days in treatment (dit)), corresponding to 93 1 day post coitus (dpc). Maternal core body temperatures (CBT) in HT ewes were significantly elevated above the TN ewes (HT; 39·86 0·1 C vs TN; 39·20 0·1 C; P<0·001). Both groups of animals displayed circadian CBT, though HT ewes had elevated amplitudes (HT; 0·181 0·002 C vs TN; 0·091 0·002 C; P<0·001) and increased phase shift constants (HT; 2100 h vs TN; 1800 h; P<0·001). Ewes exposed to chronic heat stress had significantly reduced progesterone and ovine placental lactogen (oPL) concentrations from 72 and 62 dpc respectively (P<0·05), corresponding to approximately 30 dit. However, when compared with the TN ewes, HT cotyledonary tissue oPL mRNA and protein concentrations were not significantly different (P>0·1). Prolactin concentrations rose immediately upon entry into the HT environment, reaching concentrations approximately four times that of TN ewes, a level maintained throughout the study (HT; 216·31 32·82 vs TN; 54·40 10·0; P<0·0001). Despite similar feed intakes and euglycemia in both groups of ewes, HT fetal body weights were significantly reduced when compared with TN fetuses (HT; 514·6 48·7 vs TN; 703·4 44·8; P<0·05), while placental weights (HT; 363·6 63·3 vs TN; 571·2 95·9) were not significantly affected by 56 days of heat exposure. Furthermore, the relationship between body weight and fetal length, the ponderal index, was significantly reduced in HT fetuses (HT; 3·01 0·13 vs TN; 3·57 0·18; P<0·05). HT fetal liver weights were also significantly reduced (HT; 27·31 4·73 vs TN; 45·16 6·16; P<0·05) and as a result, the brain/liver weight ratio was increased. This study demonstrates that chronic heat exposure lowers circulating placental hormone concentrations. The observation that PL mRNA and protein contents are similar across the two treatments, suggests that reduced hormone concentrations are the result of impaired trophoblast cell development, specifically trophoblast migration. Furthermore, the impact of heat exposure during maximal placental growth is great enough to restrict early fetal development, even before the fetal maximal growth phase (100 dpc-term). These data highlight that intrauterine growth retardation (IUGR) may result primarily from placental trophoblast cell dysfunction, and secondarily from later reduced placental size.

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Placental Expression of Angiopoietin-1, Angiopoietin-2 and Tie-2 during Placental Development in an Ovine Model of Placental Insufficiency-Fetal Growth Restriction

Hagen

Orbus

Wilkening

et al. 2005

Pediatr Res

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Effects of early gestation GH administration on placental and fetal development in sheep

Wright

Orbus²,

Regnault³

et al. 2008

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Ovine GH (oGH) is synthesized in placental tissue during maximal placental growth and development. Our objectives were to localize oGH mRNA in the placenta, and study the impact of exogenous GH on twin pregnancies during the normal window (35-55 days of gestational age; dGA) of placental expression. In situ hybridization localized oGH mRNA in uterine luminal epithelium but not in tissues of fetal origin. While maternal GH and IGF-I concentrations were increased (P!0 . 001) approximately tenfold, uterine, uterine fluid, placental, and fetal weights were unaffected by treatment at either 55 or 135 dGA. Fetal length, liver weight, and liver weight per kg of body weight were unaffected by maternal GH treatment. However, in the cotyledon, IGF-binding protein (BP)-1 and IGFBP-4 mRNA concentrations were increased (P!0 . 05), while IGFBP-2 mRNA was decreased (P!0 . 05).The concentration of mRNA for IGFBP-3 was unaffected by treatment. Within the caruncle, IGFBP-1 mRNA was decreased (P!0 . 05), while IGFBP-3 and IGFBP-4 mRNA were increased (P!0 . 05), and IGFBP-2 mRNA was unchanged due to GH treatment. While our data indicate that elevated maternal GH and IGF-I concentrations during early and mid-gestation do not enhance placental and fetal growth in twin pregnancies, localization of GH mRNA in uterine luminal epithelium could explain GHs transitory expression from 35 to 55 dGA, since by the end of this period the majority of the uterine luminal epithelium has fused with chorionic binucleate cells forming the placental syncytium.

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Ryan J Orbus

Placental Expression of VEGF, PlGF and their Receptors in a Model of Placental Insufficiency—Intrauterine Growth Restriction (PI-IUGR)

Altered arterial concentrations of placental hormones during maximal placental growth in a model of placental insufficiency

Placental Expression of Angiopoietin-1, Angiopoietin-2 and Tie-2 during Placental Development in an Ovine Model of Placental Insufficiency-Fetal Growth Restriction

Effects of early gestation GH administration on placental and fetal development in sheep

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