Pathophysiology of histological changes in early pregnancy loss.
about
Deletion of the orphan nuclear receptor COUP-TFII in uterus leads to placental deficiencyOverexpression of the SK3 channel alters vascular remodeling during pregnancy, leading to fetal demise.Proteomic analysis on the alteration of protein expression in the placental villous tissue of early pregnancy loss.Early embryo mortality in natural human reproduction: What the data say.Changes in cell proliferation, but not in vascularisation are characteristic for human endometrium in different reproductive failures--a pilot study.Insufficient maintenance DNA methylation is associated with abnormal embryonic development.Maternal activating KIRs protect against human reproductive failure mediated by fetal HLA-C2.Routine histopathologic analysis of product of conception following first-trimester spontaneous miscarriages.An imbalance between angiogenic and anti-angiogenic factors precedes fetal death in a subset of patients: results of a longitudinal study.Soluble Flt-1 and PlGF: new markers of early pregnancy loss?Cortisol levels and very early pregnancy loss in humansSphingosine-1-phosphate promotes extravillous trophoblast cell invasion by activating MEK/ERK/MMP-2 signaling pathways via S1P/S1PR1 axis activationInflammatory cytokines in maternal circulation and placenta of chromosomally abnormal first trimester miscarriages.How does variability of immune system genes affect placentation?Placental-related diseases of pregnancy: Involvement of oxidative stress and implications in human evolution.The Peter Pan paradigm.Stat3 and Socs3 expression patterns during murine placenta development.Can we measure the spiral and uterine artery blood flow by real-time sonography and Doppler indices to predict spontaneous miscarriage in a normal-risk population?Proteomics study reveals that the dysregulation of focal adhesion and ribosome contribute to early pregnancy loss.The evolution of embryo implantation.The Relevance of Mammalian Peroxiredoxins to the Gametogenesis, Embryogenesis, and Pregnancy Outcomes.Expression of P-cadherin (cadherin-3) and E-selectin in the villous trophoblast of first trimester human placenta.Loss of Endometrial Sodium Glucose Cotransporter SGLT1 is Detrimental to Embryo Survival and Fetal Growth in Pregnancy.Quantitative proteomics analysis of altered protein expression in the placental villous tissue of early pregnancy loss using isobaric tandem mass tags.Maternal N-Carbamylglutamate Supplementation during Early Pregnancy Enhances Embryonic Survival and Development through Modulation of the Endometrial Proteome in Gilts.Maternal diabetes affects specific extracellular matrix components during placentation.Association of maternal killer-cell immunoglobulin-like receptors and parental HLA-C genotypes with recurrent miscarriage.Down-regulation of miR-378a-3p induces decidual cell apoptosis: a possible mechanism for early pregnancy loss.Preconception Blood Pressure Levels and Reproductive Outcomes in a Prospective Cohort of Women Attempting Pregnancy.Placental C4d deposition is a feature of defective placentation: observations in cases of preeclampsia and miscarriage.Overexpressed HO-1 is associated with reduced STAT3 activation in preeclampsia placenta and inhibits STAT3 phosphorylation in placental JEG-3 cells under hypoxia.
P2860
Q28585841-4B7D7D37-2C3F-421A-92D2-19EE4B798E7DQ30448538-F214B4F0-4E2A-435D-A561-9B9A541DCBCEQ33245316-D754569A-4C9D-4F18-B435-E929189F9D3BQ33724337-D37C0B3F-A027-4BE1-9F42-4348BD84BEE4Q33995983-7D3127A3-2003-46D8-BED9-7957766A5CA7Q34194196-F49356C1-E072-4184-88AC-17866B2C1339Q34245469-07F9A6F3-0621-45E4-92CB-BE3B68BDC9BBQ34475122-3F4121E0-FAC7-4BD1-9DBA-A88BB92EE160Q34505090-7C11F1F2-CB85-453C-85F4-800C10C58A51Q34712652-5820C6BA-049D-4F41-9253-E6314A35BBCAQ34944253-25B1901A-CAB2-40BB-A905-E873B6BFD67FQ35238341-A1620676-0410-4EFF-9701-2E62F1770A7BQ35251002-B229815B-0BFD-4031-A516-83053E39013BQ35456420-8A0D6D9B-C0C1-4078-82B3-A7E93F642FB6Q35810254-7A22D962-2755-4242-A539-03F8ADAE24AEQ36473575-BE4D9287-511D-45BF-9D7E-CD43F99EBBCBQ37224109-DD4D8063-5B78-4D2D-A1A8-6FBFA1D69F32Q37259360-8A80A3D9-0996-4436-B6FA-A9E1005B0581Q37375478-AC8E8507-92B1-47C5-B2FC-80799E0016C3Q38229464-63F2ADE0-B826-4A07-A9F0-8583D1C3434FQ38953521-D3E9E78E-1997-4472-8F76-021F56971FC4Q39047289-41775886-21BB-46D9-93E6-F343B34EA9DDQ42282571-68419023-2213-48A9-8C69-9BDBD3F3A5DDQ42383930-AA75469E-A93C-43CF-8C02-70430D47EF6EQ42481294-B78D84C1-62BE-4272-847C-9B484235927EQ46859838-9A351856-E1DF-4526-9F4B-CBC44FF6148BQ48540664-E9DFD99B-EB5A-4E17-A589-D2A53124E3E9Q49808307-B547051E-D27D-4929-8347-BF757C3D76DFQ53076009-17BBF611-EB11-42C2-8DE7-31FA5325A0C6Q53565891-3AD68778-3ADA-4B09-95C8-638D16ED72DBQ54985974-F3255D7F-379C-4145-9874-203C6AE993F9
P2860
Pathophysiology of histological changes in early pregnancy loss.
description
2005 nî lūn-bûn
@nan
2005年の論文
@ja
2005年論文
@yue
2005年論文
@zh-hant
2005年論文
@zh-hk
2005年論文
@zh-mo
2005年論文
@zh-tw
2005年论文
@wuu
2005年论文
@zh
2005年论文
@zh-cn
name
Pathophysiology of histological changes in early pregnancy loss.
@ast
Pathophysiology of histological changes in early pregnancy loss.
@en
type
label
Pathophysiology of histological changes in early pregnancy loss.
@ast
Pathophysiology of histological changes in early pregnancy loss.
@en
prefLabel
Pathophysiology of histological changes in early pregnancy loss.
@ast
Pathophysiology of histological changes in early pregnancy loss.
@en
P1433
P1476
Pathophysiology of histological changes in early pregnancy loss.
@en
P2093
P304
P356
10.1016/J.PLACENTA.2004.05.011
P577
2005-02-01T00:00:00Z