Effect of increasing maternal body mass index on oxidative and nitrative stress in the human placenta.
about
Placental origins of adverse pregnancy outcomes: potential molecular targets: an Executive Workshop Summary of the Eunice Kennedy Shriver National Institute of Child Health and Human DevelopmentEndothelial dysfunction and preeclampsia: role of oxidative stressQuantitative assessment of placental perfusion by contrast-enhanced ultrasound in macaques and human subjects.Review: Reactive oxygen and nitrogen species and functional adaptation of the placenta.Immune response gene profiles in the term placenta depend upon maternal muscle mass.Review: The placenta is a programming agent for cardiovascular disease.Increasing maternal body mass index is associated with systemic inflammation in the mother and the activation of distinct placental inflammatory pathways.Obesity-induced down-regulation of the mitochondrial translocator protein (TSPO) impairs placental steroid productionMaternal obesity is associated with a reduction in placental taurine transporter activity.Impact of maternal obesity on fetal programming of cardiovascular diseaseSexual dimorphism in miR-210 expression and mitochondrial dysfunction in the placenta with maternal obesity.Measurement of mitochondrial respiration in trophoblast culture.MIR-210 modulates mitochondrial respiration in placenta with preeclampsia.Distal-less 3 haploinsufficiency results in elevated placental oxidative stress and altered fetal growth kinetics in the mouse.TNF-α stimulates System A amino acid transport in primary human trophoblast cells mediated by p38 MAPK signalingMaternal Body Weight and Gestational Diabetes Differentially Influence Placental and Pregnancy OutcomesObesity: a transgenerational problem linked to nutrition during pregnancy.Placental oleic acid uptake is lower in male offspring of obese women.Sexual dimorphism in activation of placental autophagy in obese women with evidence for fetal programming from a placenta-specific mouse model.Pregnancy Weight Gain Limitation by a Supervised Nutritional Program Influences Placental NF-κB/IKK Complex Expression and Oxidative Stress.Mitochondrial function and glucose metabolism in the placenta with gestational diabetes mellitus: role of miR-143.Reduced total antioxidant status in postterm pregnanciesImpact of oxidative stress on female fertility.Inflammation in rat pregnancy inhibits spiral artery remodeling leading to fetal growth restriction and features of preeclampsiaMaternal obesity is associated with a lipotoxic placental environment.Mitochondrial content, oxidative, and nitrosative stress in human full-term placentas with gestational diabetes mellitus.Developmental aspects of a life course approach to healthy ageing.A decrease in DKK1, a WNT inhibitor, contributes to placental lipid accumulation in an obesity-prone rat model.Association of downregulated HDAC 2 with the impaired mitochondrial function and cytokine secretion in the monocytes/macrophages from gestational diabetes mellitus patients.Sexual dimorphism in the effect of maternal obesity on antioxidant defense mechanisms in the human placenta.The effect of maternal obesity on fatty acid transporter expression and lipid metabolism in the full-term placenta of lean breed swine.Placental morphology in pregnancies associated with pregravid obesity.Recent Advances in Placenta–Heart Interactions.
P2860
Q26766128-53A176A5-1DA8-4D9B-B13A-F53A397C8AFBQ27004643-CD437AD6-F770-46FD-81A3-5B17B9B3A859Q30362041-1344D2A5-72F4-4FFC-A4CB-AD2B09638D93Q33705859-714366AF-9565-4F67-B1C7-6BA418A31F77Q33736368-5EB1B8A5-B7A7-4330-9B05-64395501F1D6Q33755531-C7ACA9A0-5828-49D7-B42C-2782A6F3AD1AQ33888360-2ED62D23-5A24-4B45-B71B-BC97E4E06BC1Q34810997-AAAD9641-8880-406B-825D-3A044296F08FQ35317944-947E2212-0BA3-4D5E-B2D6-16EFD1FF1F17Q35578658-5483BB4B-9E46-48A7-87C4-94D7862C5D16Q35920799-511E134E-EF55-406A-9C36-D3264FF5AF5AQ36108810-FA077AA7-4703-4E98-934F-B79A9E99C2E2Q36227343-BA3C57F7-0781-4E8E-8066-ABCBE75D4240Q36227424-DA9302DB-27D3-4FBC-8C75-E11ECF30A9EEQ36247991-7A196285-85AC-44AD-B925-75AB9E6B21D1Q36431686-82486EAB-E13F-44FD-A842-2DA80CFC7E1FQ36738004-D81E46F1-0BA9-4E3A-9442-A17F2CCB6DA7Q36810237-88BB9C72-B8A9-4BCF-A8DE-389781878490Q36862632-509328F5-0F65-40F7-A055-5AEAD0DFDF98Q36921203-95D1DF17-5328-4F13-81D7-FB74A0FAA9ABQ37033035-24544E65-1005-4921-AA6F-04BF308B42A2Q37082389-E63AFF3E-5B4E-4CA4-9BEE-CE77FADC4F26Q37359330-FFE5A77A-5210-4E5F-991E-0942E453AD93Q37483133-0D677BAD-B481-4D55-88F6-AD9F229AC3B1Q37689149-B0384429-98B1-47B3-BE6B-C927D180FCB1Q37737922-D42F3467-E8DF-45C7-8494-62BDA2E7DEB9Q38620730-458B3D1F-8840-4597-ADD0-C4101C718656Q39434526-4DCE970B-C46F-4932-8E3F-32DF0F8B5E3FQ46586323-9DA550A4-EFDE-4713-8BEE-DD2713A1A387Q47829121-88C056C0-5A77-4414-948A-4286E4E599A6Q48139184-CD45EAD9-A120-4555-9B0A-70CE2698D5BAQ53268358-29777960-867B-4E65-940B-6E7119D67C9AQ55348041-F3C376E8-215E-432A-9600-00D7C568C067
P2860
Effect of increasing maternal body mass index on oxidative and nitrative stress in the human placenta.
description
article científic
@ca
article scientifique
@fr
articolo scientifico
@it
artigo científico
@pt
bilimsel makale
@tr
scientific article published on 18 December 2008
@en
vedecký článok
@sk
vetenskaplig artikel
@sv
videnskabelig artikel
@da
vědecký článek
@cs
name
Effect of increasing maternal ...... stress in the human placenta.
@en
Effect of increasing maternal ...... stress in the human placenta.
@nl
type
label
Effect of increasing maternal ...... stress in the human placenta.
@en
Effect of increasing maternal ...... stress in the human placenta.
@nl
prefLabel
Effect of increasing maternal ...... stress in the human placenta.
@en
Effect of increasing maternal ...... stress in the human placenta.
@nl
P2093
P2860
P1433
P1476
Effect of increasing maternal ...... e stress in the human placenta
@en
P2093
A B Heizer
J L Richardson
V H J Roberts
P2860
P304
P356
10.1016/J.PLACENTA.2008.11.019
P50
P577
2008-12-18T00:00:00Z