Intrauterine growth restriction, preeclampsia, and intrauterine mortality at high altitude in Bolivia.
about
Arterial oxygen saturation in healthy newborns delivered at term in Cerro de Pasco (4340 m) and Lima (150 m).Fetal endocrine and metabolic adaptations to hypoxia: the role of the hypothalamic-pituitary-adrenal axisThe placental pursuit for an adequate oxidant balance between the mother and the fetusA brief overview of preeclampsiaIron behaving badly: inappropriate iron chelation as a major contributor to the aetiology of vascular and other progressive inflammatory and degenerative diseasesEvolutionary adaptation to high altitude: a view from in uteroShort-term exposure to hypoxia for work and leisure activities in health and disease: which level of hypoxia is safe?Do anti-angiogenic or angiogenic factors contribute to the protection of birth weight at high altitude afforded by Andean ancestry?Do cytokines contribute to the Andean-associated protection from reduced fetal growth at high altitude?High-end arteriolar resistance limits uterine artery blood flow and restricts fetal growth in preeclampsia and gestational hypertension at high altitudeMaternal and fetoplacental hypoxia do not alter circulating angiogenic growth effectors during human pregnancy.The role of inflammation in the pathology of preeclampsiaGestational hypoxia up-regulates protein kinase C and inhibits calcium-activated potassium channels in ovine uterine arteries.Chronic hypoxia inhibits sex steroid hormone-mediated attenuation of ovine uterine arterial myogenic tone in pregnancy.Maternal PRKAA1 and EDNRA genotypes are associated with birth weight, and PRKAA1 with uterine artery diameter and metabolic homeostasis at high altitude.Causes and mechanisms of intrauterine hypoxia and its impact on the fetal cardiovascular system: a review.The role of redox changes in oxygen sensing.Long-term exposure to high-altitude chronic hypoxia during gestation induces neonatal pulmonary hypertension at sea level.Suppression of mitochondrial electron transport chain function in the hypoxic human placenta: a role for miRNA-210 and protein synthesis inhibition.Effects of maternal obstructive sleep apnoea on fetal growth: a prospective cohort study.Diagnosis and management of fetal growth restriction.Chronic hypoxia during gestation enhances uterine arterial myogenic tone via heightened oxidative stress.Uterine artery blood flow, fetal hypoxia and fetal growth.PKC regulates alpha(1)-adrenoceptor-mediated contractions and baseline Ca(2+) sensitivity in the uterine arteries of nonpregnant and pregnant sheep acclimatized to high altitude hypoxia.Humans at high altitude: hypoxia and fetal growth.Gestational hypoxia increases reactive oxygen species and inhibits steroid hormone-mediated upregulation of Ca(2+)-activated K(+) channel function in uterine arteries.Chronic hypoxia differentially up-regulates protein kinase C-mediated ovine uterine arterial contraction via actin polymerization signaling in pregnancy.Role of cytokines in altitude-associated preeclampsia.Disturbances in Maternal Steroidogenesis and Appearance of Intrauterine Growth Retardation at High-Altitude Environments Are Established from Early Pregnancy. Effects of Treatment with Antioxidant Vitamins.Evidence of endoplasmic reticulum stress and protein synthesis inhibition in the placenta of non-native women at high altitude.Perinatal hypoxia increases susceptibility to high-altitude polycythemia and attendant pulmonary vascular dysfunction.Chronic hypoxia in vivo reduces placental oxidative stressMolecular mechanisms underlying the fetal programming of adult disease.Chronic hypoxia during gestation causes epigenetic repression of the estrogen receptor-α gene in ovine uterine arteries via heightened promoter methylation.Effects of altitude changes on Doppler flow parameters for uterine, umbilical, and mid-cerebral arteries in term pregnancy: A pilot study.Maternal and neonatal outcomes of hospital vaginal deliveries in Tibet.Unique DNA Methylation Patterns in Offspring of Hypertensive PregnancyHuman behaviour and development under high-altitude conditions.Living on higher ground reduces child neurodevelopment-evidence from South America.Chronic hypoxia suppresses pregnancy-induced upregulation of large-conductance Ca2+-activated K+ channel activity in uterine arteries
P2860
Q21245559-6615F8DF-8FAD-43AB-8E3A-214207526DEBQ26801899-D2F69666-B3A6-414C-B49E-79173FA6D831Q26851513-D6131A0E-405D-4B89-84EF-964C8A57F316Q27003730-99DA24DD-966C-4BED-8C6B-AB51BCEFD1AFQ28388335-3384B965-EC4F-49BB-8440-2D435E3B334BQ28748156-76803C65-4216-4F14-855F-82904484160CQ33450173-F32E913C-1CFE-44EF-A22D-946445477BB1Q33624964-E10CFF43-D2C0-4FFF-9C2F-146466727EBCQ33692624-D9F45365-F31D-4123-92EA-8D293EAB555AQ33821845-3A883FCF-D5B1-4A9E-86A8-DFD487DA000DQ33826353-13468D2C-258C-441E-A6E1-7F6F137F3A3BQ33834419-1419FB75-C357-4F10-8906-7126013A779FQ33843854-26798ED4-D95D-4ABA-9FC1-F55BDC842CBEQ34134366-8171251B-61DE-496B-B276-E09AAFE11D73Q34200862-A897E77F-83F5-4506-8A58-1D109CEA5D83Q34235812-764DF26E-EE36-41C0-99CB-88A07C430155Q34349433-0B470DA6-A6D2-40CF-B972-1563A010CF13Q34429190-90FFBB38-CBBE-444C-965D-79C9F4318585Q34576197-260AC872-54FF-467B-9175-33482F661ABDQ34872541-C3AA67C7-83FC-412C-95BD-F99F3DC85CC0Q34919926-8B020C6F-672F-4A1D-BE6D-28B694788418Q34997076-54BE34FC-B798-46E5-B21D-7DBFB06D5FA1Q35008450-CB6C79CC-61A1-43F5-A50B-54C6CC90E233Q35042708-DB2142C0-C8A5-49E0-B8B7-EACB9F99967BQ35136535-D2668358-7453-4FCA-BFBC-E4939CEB58DCQ35229928-51A9ED82-FFF9-4FA6-BDF5-FBB05AFFFE1DQ35618396-5F05E5F9-356D-4E3A-88F2-AE660FEE1DA3Q35669266-C6BE75AA-F0C5-4100-8265-0F36075DD4C3Q35839092-AD657A79-AB07-4308-BE69-2A4EB1C43D4DQ35913027-C75E7479-3044-450D-8740-FF3CA72E0FA4Q35958620-A70E6C31-80D7-4DF2-88DA-9A7032F633A2Q36026745-BE36D1DE-1B3D-432F-B572-1C5D798769BFQ36170057-BA29CA30-8671-4E9A-A5F5-84C1E664C84EQ36170231-2407F534-B12F-443D-AC20-54A4687CB644Q36331742-4C5DF75A-903F-4115-BE82-3014231FF93DQ36373056-57A18BE1-4F9E-4854-A62A-F9243FC6FE41Q36437233-0C791D43-8E13-4933-A17F-6C723401EE4CQ36501658-0EF4F42A-F628-494B-AADF-60960B22AFFDQ36565414-F82564C0-D9F6-4508-9BA4-F40309314A82Q36582232-18AAD95F-07A1-4409-AEA7-A49B6C58A331
P2860
Intrauterine growth restriction, preeclampsia, and intrauterine mortality at high altitude in Bolivia.
description
2003 nî lūn-bûn
@nan
2003年の論文
@ja
2003年学术文章
@wuu
2003年学术文章
@zh
2003年学术文章
@zh-cn
2003年学术文章
@zh-hans
2003年学术文章
@zh-my
2003年学术文章
@zh-sg
2003年學術文章
@yue
2003年學術文章
@zh-hant
name
Intrauterine growth restrictio ...... y at high altitude in Bolivia.
@en
Intrauterine growth restrictio ...... y at high altitude in Bolivia.
@nl
type
label
Intrauterine growth restrictio ...... y at high altitude in Bolivia.
@en
Intrauterine growth restrictio ...... y at high altitude in Bolivia.
@nl
prefLabel
Intrauterine growth restrictio ...... y at high altitude in Bolivia.
@en
Intrauterine growth restrictio ...... y at high altitude in Bolivia.
@nl
P2093
P921
P1433
P1476
Intrauterine growth restrictio ...... y at high altitude in Bolivia.
@en
P2093
David A Young
Enrique Vargas
J Fernando Armaza
Linda E Keyes
Susan Niermeyer
P356
10.1203/01.PDR.0000069846.64389.DC
P407
P577
2003-04-16T00:00:00Z
P5875
P6179
1038888435