Alteration of microvascular permeability in acute kidney injury
about
Exposure to perfluoroalkyl acids and markers of kidney function among children and adolescents living near a chemical plantPerfluoroalkyl chemicals and chronic kidney disease in US adultsPerfluorooctanesulfonate Mediates Renal Tubular Cell Apoptosis through PPARgamma InactivationThe Synthetic Tie2 Agonist Peptide Vasculotide Protects Renal Vascular Barrier Function In Experimental Acute Kidney Injury.Advances in understanding ischemic acute kidney injury.Biology of sepsis: its relevance to pediatric nephrology.Blood kidney injury molecule-1 is a biomarker of acute and chronic kidney injury and predicts progression to ESRD in type I diabetesIschemic kidney injury and mechanisms of tissue repair.Mitochondria-targeted peptide accelerates ATP recovery and reduces ischemic kidney injuryAngiopoietin/Tie2 Dysbalance Is Associated with Acute Kidney Injury after Cardiac Surgery Assisted by Cardiopulmonary Bypass.Role of biomarkers of nephrotoxic acute kidney injury in deliberate poisoning and envenomation in less developed countriesResveratrol improves renal microcirculation, protects the tubular epithelium, and prolongs survival in a mouse model of sepsis-induced acute kidney injury.Development of oxidative stress in the peritubular capillary microenvironment mediates sepsis-induced renal microcirculatory failure and acute kidney injury.Toll-like receptor 4 regulates early endothelial activation during ischemic acute kidney injury.Pathophysiology of acute kidney injuryAcute kidney injury: a conspiracy of Toll-like receptor 4 on endothelia, leukocytes, and tubules.Pharmacological targets in the renal peritubular microenvironment: implications for therapy for sepsis-induced acute kidney injury.A review of oxidative stress in acute kidney injury: protective role of medicinal plants-derived antioxidants.Innate Immune Response in Kidney Ischemia/Reperfusion Injury: Potential Target for Therapy.Inhibition of αvβ5 Integrin Attenuates Vascular Permeability and Protects against Renal Ischemia-Reperfusion Injury.Endothelial colony-forming cells and pro-angiogenic cells: clarifying definitions and their potential role in mitigating acute kidney injury.Unilateral renal ischaemia in rats induces a rapid secretion of inflammatory markers to renal lymph and increased capillary permeability.Three-dimensional biomimetic vascular model reveals a RhoA, Rac1, and N-cadherin balance in mural cell-endothelial cell-regulated barrier function.The synthetic tie2 agonist peptide vasculotide protects against vascular leakage and reduces mortality in murine abdominal sepsis.Heart-kidney crosstalk and role of humoral signaling in critical illnessRenal inflammatory changes in acute hepatic failure-associated acute kidney injury.Neutrophil gelatinase-associated lipocalin (NGAL) may play a protective role against rats ischemia/reperfusion renal injury via inhibiting tubular epithelial cell apoptosis.Distant effects of unilateral renal ischemia/reperfusion on contralateral kidney but not lung in rats: the roles of ROS and iNOS.Heparin-binding protein as a biomarker of acute kidney injury in critical illness.Quantification of vascular damage in acute kidney injury with fluorine magnetic resonance imaging and spectroscopy.Contrast-Induced Nephropathy and Oxygen Pretreatment in Patients With Impaired Renal Function.Targeting Murine Mesenchymal Stem Cells to Kidney Injury Molecule-1 Improves Their Therapeutic Efficacy in Chronic Ischemic Kidney Injury.Cyclodextrin curcumin formulation improves outcome in a preclinical pig model of marginal kidney transplantation.
P2860
Q28383912-8DFA6247-2C40-4C0D-A582-1FF470D4FE2EQ28393763-7FC3C033-F5E3-4C80-B295-A0BE11ECE3C7Q28394126-F39D0202-6B5D-4EDE-AC87-CD4CFD62BD94Q30389402-495236C5-AAB1-461A-9AA4-DDB266CF4E7AQ33810644-17AFD98E-507C-48D2-AA08-383C42BD6FC8Q33882451-E344056F-D523-4A4E-8253-019F6CF1E1BDQ34260018-CF6E7B92-74C0-44D3-AB65-5112DC039369Q34928175-E98944E5-70EE-42D6-B083-72A1EC190658Q35012392-FC91F8B5-16D2-4DF3-98CA-692DC20A3789Q35756239-48A1D500-8743-4750-AB0E-4DB3010167D7Q35846103-6034A053-66E9-4EF3-A10E-302EA33CC087Q35889075-83E3C72D-5C5C-4979-AF69-AC854BE39493Q35951888-4A942F75-2094-4A6D-9302-0E1AB73D8B41Q36114632-F9974780-7256-460D-A55A-2802FD41F726Q37574787-9F9DC915-566C-4CF4-A2DA-FF5AF9462875Q37950251-CF4EFD96-4447-4E0D-AFF0-3419D82CF868Q37978478-3FD0E31B-B242-4F94-8DEB-65616B1E2344Q38154565-92F8BA31-A0FB-4289-9B07-80F8F9795E60Q38662811-D9BA1392-412F-464A-A20B-890DB8D5A697Q38773717-7E58F578-5A2D-470E-AF47-ABBFC9FC64D9Q39401838-064EAA6D-B576-45B7-B0B8-1FFA8494557BQ40302117-F274BFA8-4A96-4B58-8455-2B701A112648Q41476840-EAA10286-8D84-44EC-ADF1-9AFDA3E0696DQ42018928-D2E264D6-70A2-4C61-9059-8216C9BA89BCQ42696824-CA1D7958-2D84-4DE2-8DC1-24866372BAD2Q44202870-651B33CB-5112-4DF8-89D2-54EC1D2B38DDQ46351608-038DC060-E4D2-4326-A706-B0C7C56BA41DQ46599038-A26372B0-82D6-48D1-B16E-7FAC7E2D3F51Q47288635-64258678-445E-4C6A-BDF3-2B118D1931DEQ47338726-EFF359B6-6ECD-4AFC-A1BA-F1966CBEA1B3Q48534697-D49D7B75-406F-4A47-BB55-6EC56C4DE525Q49987830-D8D2EF32-AEDB-4193-89C5-A1C6A1B826F1Q50711738-E1242998-C131-49EA-8787-E2239D792AAE
P2860
Alteration of microvascular permeability in acute kidney injury
description
article científic
@ca
article scientifique
@fr
articolo scientifico
@it
artigo científico
@pt
bilimsel makale
@tr
scientific article published on 25 September 2008
@en
vedecký článok
@sk
vetenskaplig artikel
@sv
videnskabelig artikel
@da
vědecký článek
@cs
name
Alteration of microvascular permeability in acute kidney injury
@en
Alteration of microvascular permeability in acute kidney injury.
@nl
type
label
Alteration of microvascular permeability in acute kidney injury
@en
Alteration of microvascular permeability in acute kidney injury.
@nl
prefLabel
Alteration of microvascular permeability in acute kidney injury
@en
Alteration of microvascular permeability in acute kidney injury.
@nl
P2860
P1476
Alteration of microvascular permeability in acute kidney injury
@en
P2093
Timothy A Sutton
P2860
P356
10.1016/J.MVR.2008.09.004
P577
2008-09-25T00:00:00Z