			Home About us Contact

Newborn Lamb (newborn + lamb)

Distribution by Scientific Domains

Life Sciences	66%
Medical Sciences	33%

Selected Abstracts

Autoregulation of the cerebral circulation during sleep in newborn lambs

THE JOURNAL OF PHYSIOLOGY, Issue 3 2005
Daniel A. Grant
Autoregulation is a vital protective mechanism that maintains stable cerebral blood flow as cerebral perfusion pressure changes. We contrasted cerebral autoregulation across sleep,wake states, as little is known about its effectiveness during sleep. Newborn lambs (n= 9) were instrumented to measure cerebral blood flow (flow probe on the superior sagittal sinus) and cerebral perfusion pressure, then studied during active sleep (AS), quiet sleep (QS) and quiet wakefulness (QW). We generated cerebral autoregulation curves by inflating an occluder cuff around the brachiocephalic artery thereby lowering cerebral perfusion pressure. Baseline cerebral blood flow was higher (P < 0.05) and cerebral vascular resistance lower (P < 0.05) in AS than in QW (76 ± 8% and 133 ± 15%, respectively, of the AS value, mean ±s.d.) and in QS (66 ± 11% and 158 ± 30%). The autoregulation curve in AS differed from that in QS and QW in three key respects: firstly, the plateau was elevated relative to QS and QW (P < 0.05); secondly, the lower limit of the curve (breakpoint) was higher (P < 0.05) in AS (50 mmHg) than QS (45 mmHg); and thirdly, the slope of the descending limb below the breakpoint was greater (P < 0.05) in AS than QS (56% of AS) or QW (56% of AS). Although autoregulation functions in AS, the higher breakpoint and greater slope of the descending limb may place the brain at risk for vascular compromise should hypotension occur. [source]

Behavioural and neurobiological effects of colostrum ingestion in the newborn lamb associated with filial bonding

EUROPEAN JOURNAL OF NEUROSCIENCE, Issue 4 2009
David Val-Laillet
Abstract In sheep, the onset of filial bonding relies on early intake of colostrum. The aim of our work was to describe in the newborn lamb housed with its mother the immediate post-ingestive effects of colostrum intake, in terms of behaviour and brain activity. In Experiment 1, lambs received five nasogastric infusions of colostrum, or saline, or sham intubations during the first 6 h after birth. Mother,young interactions were recorded before and after the first, third and fifth infusions. The activity of the dam and of the young, which diminished over time in all groups, was temporarily increased in both partners just after each intubation procedure. The number of high-pitched bleats was significantly lower in lambs that received colostrum than in the sham group, suggesting soothing or satiating properties of colostrum. In Experiment 2, newborn lambs received a single nasogastric infusion of colostrum or saline 4.5 h after birth, or were sham intubated. Neuronal activation was investigated 1.5 h later for maximum c-Fos activity. Infusion of colostrum and saline induced different patterns of c-Fos-like immunoreactivity in the paraventricular and supraoptic nuclei of the hypothalamus as compared with the sham group. A specific oxytocinergic/vasopressinergic (OT/VSP) cell population in the paraventricular nucleus was activated following colostrum and saline infusion, but not sham intubation. Only colostrum induced the activation of the cortical amygdala and insular cortex, two structures involved in learning, associative processes, reward and emotion. We hypothesize that filial bonding may be triggered through colostrum-rewarded learning/calming processes and that the OT/VSP system may play a role. [source]

Redistribution of the sheep neonatal Fc receptor in the mammary gland around the time of parturition in ewes and its localization in the small intestine of neonatal lambs

IMMUNOLOGY, Issue 3 2002
Balázs Mayer
Summary Maternal immunity is mediated exclusively by colostral immunoglobulins in ruminants. As the neonatal Fc receptor (FcRn) is suggested to be involved in the transport of immunoglobulin G (IgG) in the mammary gland, we cloned this receptor from sheep and analysed its expression in the mammary gland around the time of parturition and also in the small intestine from the newborn lamb. FcRn heavy-chain mRNA was detected (by using in situ hybridization) exclusively in the acinar and ductal epithelial cells in mammary gland biopsies both before and after parturition. Immunohistochemistry revealed that the cytoplasm of the epithelial cells of the acini and ducts in the mammary gland biopsies stained homogeneously before parturition. A remarkable difference was observed in the pattern after lambing, where the apical side of the cells was strongly stained. The presence of the FcRn in the acinar and ductal epithelial cells of the mammary gland, and the obvious change in distribution before and after parturition, indicate that the FcRn plays an important role in the transport of IgG during colostrum formation in ruminants. Immunohistochemical analysis detected a strong apical and a weak basal FcRn signal in the duodenal crypt cells of a neonatal lamb, which have been previously demonstrated to secrete IgG1 in newborn ruminants. The FcRn was not detected in the duodenal enterocytes, which absorb intact IgG from the colostrum in a non-specific manner. These data suggest that FcRn is involved in IgG1 secretion in ruminant epithelial cells. [source]

Age-associated plasticity in the intrinsic innervation of the ovine rumen

JOURNAL OF ANATOMY, Issue 3 2003
Helga Pfannkuche
Abstract The rumen of adult sheep functions as a large fermentation chamber. In the newborn suckling ruminant, the rumen is bypassed and milk enters the abomasum directly. It was the aim of our study to investigate whether the transmitter content of intrinsic nerves changes with the developmental stage. The neurochemical code of myenteric neurons in the rumen from suckling lambs, fattened lambs and adult sheep was determined by using quadruple immunohistochemistry against choline-acetyltransferase (ChAT), nitric oxide synthase (NOS), substance P (SP) and vasoactive intestinal peptide (VIP). Three neurochemically distinct subpopulations were identified within the rumen. They expressed the code ChAT/,, ChAT/SP and NOS/VIP. The number of ChAT/SP neurons did not change during development. It was 62% in the newborn lamb and remained stable in fattened lambs (63%) and adult sheep (63%). By contrast, the number of ChAT/, neurons decreased significantly from 20% in suckling lambs to 11% and 7% in fattened lambs and adult sheep, respectively. Simultaneously, the proportion of NOS/VIP neurons increased from 16% in suckling lambs to 29% in adult sheep. The increase in the proportion of NOS/VIP immunoreactive neurons indicates an adaptation to large volumes of ingesta at the beginning of roughage intake and rumination. We conclude that the age-associated changes in neurochemical code of myenteric neurons in the forestomach are related to the adaption of the rumen to different functional properties during development. [source]

Behavioural and neurobiological effects of colostrum ingestion in the newborn lamb associated with filial bonding

Correlation of tracheal smooth muscle function with structure and protein expression during early development,

PEDIATRIC PULMONOLOGY, Issue 5 2007
Aaron B. Cullen MD
Abstract With increased survival of premature infants, understanding the impact of development on airway function and structure is imperative. Airway smooth muscle plays a primary role in the modulation of airway function. The purpose of this study is to correlate the functional maturation of airway smooth muscle during the perinatal period with structural alterations at the cellular, ultrastructural, and molecular levels. Length-tension and dose-response analyses were performed on tracheal rings acquired from preterm and term newborn lambs. Subsequent structural analyses included isolated airway smooth muscle cell length, electron microscopy, and myosin heavy chain isoform expression measurements. Functionally the compliance, contractility, and agonist sensitivity of the tracheal rings matured during preterm to term development. Structurally, isolated cell lengths and electron microscopic ultrastructure were not significantly altered during perinatal development. However, expression of myosin heavy chain isoforms increased significantly across the age range analyzed, correlating with the maturational increase in smooth muscle contractility. In conclusion, the developmental alterations in tracheal function appear due, in part, to enhanced smooth muscle myosin heavy chain expression. Pediatr Pulmonol. 2007; 42:421,432. © 2007 Wiley-Liss, Inc. [source]

Autoregulation of the cerebral circulation during sleep in newborn lambs

Acute decrease of coronary flow after indomethacin delivery in newborn lambs

ACTA PAEDIATRICA, Issue 10 2007
Solweig Harling
Abstract Aim: To document the effects of indomethacin (IND) on coronary flow. Methods: We studied nine premature lambs during the first day of life. The gestational age varied between 132 and 134 days (term 145 days) and weight 3.1,4.7 kg. Coronary flow velocities were recorded with an intracoronary Doppler guide wire in the proximal left anterior descending coronary artery (LAD). Average peak flow velocity was measured before, during and after an intravenous IND injection of 0.2 mg per kilogram of body weight. Results: IND increased systemic blood pressure (p < 0.05) and rate pressure product (RPP; p < 0.05) indicating that IND increased cardiac workload. IND decreased coronary average peak flow velocity in all lambs (p < 0.05). The maximal fall in coronary velocity appeared after 3 min (range 1,7 min) and was regained 10 min (range 4,53 min) after the drug delivery. The maximal reduction of coronary average peak flow velocity was 52% (median 26). The recovery time was directly related to the maximal reduction of the coronary average peak flow velocity (R = 0.91, R2 0.84, p < 0.002). Conclusion: Coronary flow velocity decreased markedly in premature born lambs given a bolus dose of IND. [source]