The timing of "catch-up growth" affects metabolism and appetite regulation in male rats born with intrauterine growth restriction.
about
Early life adversity increases foraging and information gathering in European starlings, Sturnus vulgaris.The memory of hunger: developmental plasticity of dietary selectivity in the European starling, Sturnus vulgarisPostnatal growth after intrauterine growth restriction alters central leptin signal and energy homeostasis.Maternal protein restriction during pregnancy and lactation alters central leptin signalling, increases food intake, and decreases bone mass in 1 year old rat offspringA high protein diet during pregnancy affects hepatic gene expression of energy sensing pathways along ontogenesis in a porcine model.Does early mismatched nutrition predispose to hypertension and atherosclerosis, in male mice?A gestational high protein diet affects the abundance of muscle transcripts related to cell cycle regulation throughout development in porcine progeny.Intrauterine growth retardation increases the susceptibility of pigs to high-fat diet-induced mitochondrial dysfunction in skeletal muscle.Programmed hyperphagia secondary to increased hypothalamic SIRT1Birth weight and adult bone metabolism are unrelated: results from birth weight-discordant monozygotic twins.Excess of methyl donor in the perinatal period reduces postnatal leptin secretion in rat and interacts with the effect of protein content in dietDevelopmental programming of cardiovascular disease following intrauterine growth restriction: findings utilising a rat model of maternal protein restriction.Metabolic adaptations to early life protein restriction differ by offspring sex and post-weaning diet in the mouse.Maternal nutrient restriction during late gestation and early postnatal growth in sheep differentially reset the control of energy metabolism in the gastric mucosaFeed your head: neurodevelopmental control of feeding and metabolismThe Changes They are A-Timed: Metabolism, Endogenous Clocks, and the Timing of Puberty.The evolution of human adiposity and obesity: where did it all go wrong?Exposure to a Highly Caloric Palatable Diet during the Perinatal Period Affects the Expression of the Endogenous Cannabinoid System in the Brain, Liver and Adipose Tissue of Adult Rat OffspringSlow Physical Growth, Delayed Reflex Ontogeny, and Permanent Behavioral as Well as Cognitive Impairments in Rats Following Intra-generational Protein Malnutrition.Metabolic programming of obesity by energy restriction during the perinatal period: different outcomes depending on gender and period, type and severity of restriction.Maternal protein restriction induces alterations in insulin signaling and ATP sensitive potassium channel protein in hypothalami of intrauterine growth restriction fetal ratsThrifty metabolic programming in rats is induced by both maternal undernutrition and postnatal leptin treatment, but masked in the presence of both: implications for models of developmental programming.Loss of Vagal Sensitivity to Cholecystokinin in Rats Born with Intrauterine Growth Retardation and Consequence on Food IntakeEpigenetics and parental effects.Obesity as malnutrition: the role of capitalism in the obesity global epidemic.Obesity as malnutrition: the dimensions beyond energy balance.Maternal prenatal undernutrition programs adipose tissue gene expression in adult male rat offspring under high-fat diet.Use of water turnover method to measure mother's milk flow in a rat model: Application to dams receiving a low protein diet during gestation and lactation.Early growth and postprandial appetite regulatory hormone responses.Relative contribution of foetal and post-natal nutritional periods on feeding regulation in adult rats.L-Citrulline Supplementation Enhances Fetal Growth and Protein Synthesis in Rats with Intrauterine Growth Restriction.Restricted nutrition-induced low birth weight, low number of nephrons and glomerular mesangium injury in Japanese quail.Adverse metabolic phenotype in low-birth-weight lambs and its modification by postnatal nutrition.Ribosome abundance regulates the recovery of skeletal muscle protein mass upon recuperation from postnatal undernutrition in mice.Transcriptional response of skeletal muscle to a low-protein gestation diet in porcine offspring accumulates in growth- and cell cycle-regulating pathways.Influence of maternal low protein diet during pregnancy on hepatic gene expression signature in juvenile female porcine offspring.
P2860
Q27333754-88135B0A-99B2-460A-92B7-D896F15766C3Q30579899-122A3CE3-58BB-4382-AFF3-97685F148DB9Q31047289-B1AF6914-21AE-4345-87DB-26009B6296C3Q33817543-BE14FFD4-D87B-4161-9B86-0F74C862E01EQ33971079-C394A00C-F471-4CCC-A180-0DB84169230EQ34115292-E9A4C313-368C-459F-B328-A6071194DDCBQ34230188-D35EA5C5-5808-447A-A5E2-37C6C0BD7101Q34241712-8589060F-690E-4AEB-A42B-EBC4C3420FFAQ34623319-71797F80-74AC-4423-A5C9-743989707C7FQ34736992-8A55FF96-39AA-49E5-B15C-4F21C0379ABAQ34809154-7E16E54E-8D23-4138-A764-479629137304Q35003747-D3A6A7CE-28DB-4345-8CDA-16FAC96AB5D9Q35242480-F3D7EC2D-5412-45C7-B43D-034DEEB3EE2EQ35334769-68112194-EB41-4082-81F9-17AC03009B7EQ35881564-54C6B4EE-33FE-4316-B04A-AA7725D553E3Q35971076-D310397F-2EE6-453D-B5DA-61525D8ED8E7Q36179949-7AD29E0E-E5C7-4BDD-BE08-E98124EFFE85Q36180483-9500BECB-FE1B-4F29-B619-0BD35FD783E1Q36352960-E89FEA0C-780B-4D1D-9F26-77454C018AB8Q36417694-528D0E81-7D45-4D6D-8121-E7357987321EQ36521921-2DB6C1C1-74D1-4008-98FE-68D6D8FD3C9BQ37506844-93303B63-4F2A-4A43-859F-92ACEB05CCB6Q37742845-216FBCFC-52CE-42A2-B42D-FF355D0920D9Q37774968-F235E3F7-D926-447D-9E10-B5BC7EFDF552Q37989881-F0A9B4B8-F526-496D-A293-A20199876F7FQ38084904-E925F818-519B-4535-95F9-3571E6CBEB62Q38333885-D0F94E4B-7040-4021-BE32-753918AFF9ADQ41035661-9569A588-50FA-4EE6-A171-D65A8BF8D56BQ44388926-2596DA0D-660A-488D-966F-1A3B21A078F0Q44725043-D8E5A100-6016-4D20-B3C1-0AFD62D76F56Q46309473-53BC0278-876B-45F5-A630-2502A7D1ACEDQ47237514-EEC9B5F9-D0CF-4806-9CF3-8AB95CC0CE07Q47367740-A2595BD6-0E30-45D1-8EEF-C80D315E14CAQ50633573-0C0435BE-01DA-4CA8-A3E4-68E924A5F8D0Q50797977-261FE45A-1E03-4EB5-A6D5-49B5B6216BC9Q51292737-5B68EB53-A7D3-4D75-878D-2CB4DBBE7E6F
P2860
The timing of "catch-up growth" affects metabolism and appetite regulation in male rats born with intrauterine growth restriction.
description
2009 nî lūn-bûn
@nan
2009年の論文
@ja
2009年学术文章
@wuu
2009年学术文章
@zh-cn
2009年学术文章
@zh-hans
2009年学术文章
@zh-my
2009年学术文章
@zh-sg
2009年學術文章
@yue
2009年學術文章
@zh
2009年學術文章
@zh-hant
name
The timing of "catch-up growth ...... trauterine growth restriction.
@en
The timing of "catch-up growth ...... trauterine growth restriction.
@nl
type
label
The timing of "catch-up growth ...... trauterine growth restriction.
@en
The timing of "catch-up growth ...... trauterine growth restriction.
@nl
prefLabel
The timing of "catch-up growth ...... trauterine growth restriction.
@en
The timing of "catch-up growth ...... trauterine growth restriction.
@nl
P2093
P2860
P1476
The timing of "catch-up growth ...... trauterine growth restriction.
@en
P2093
Bérengère Coupé
Dominique Darmaun
Isabelle Grit
Patricia Parnet
P2860
P304
P356
10.1152/AJPREGU.00201.2009
P577
2009-07-15T00:00:00Z