Hemodynamic changes in the kidney in a pediatric rat model of sepsis-induced acute kidney injury.
about
Renal macro- and microcirculation autoregulatory capacity during early sepsis and norepinephrine infusion in rats.Pathophysiological role of different tubular epithelial cell death modes in acute kidney injuryTherapeutic translation in acute kidney injury: the epithelial/endothelial axisWhy do they die? Comparison of selected aspects of organ injury and dysfunction in mice surviving and dying in acute abdominal sepsisRolipram Improves Outcome in a Rat Model of Infant Sepsis-Induced Cardiorenal SyndromeThe effects of acute renal denervation on kidney perfusion and metabolism in experimental septic shockTargeting mitochondrial oxidants may facilitate recovery of renal function during infant sepsis.Pharmacologic targeting of sphingosine-1-phosphate receptor 1 improves the renal microcirculation during sepsis in the mouse.Effect of melilotus extract on lung injury by upregulating the expression of cannabinoid CB2 receptors in septic rats.Resveratrol improves renal microcirculation, protects the tubular epithelium, and prolongs survival in a mouse model of sepsis-induced acute kidney injury.THE ENDOTHELIUM IN SEPSIS.Could Biomarkers Direct Therapy for the Septic Patient?Use of Biotelemetry to Define Physiology-Based Deterioration Thresholds in a Murine Cecal Ligation and Puncture Model of Sepsis.Rolipram improves renal perfusion and function during sepsis in the mouse.Pharmacological targets in the renal peritubular microenvironment: implications for therapy for sepsis-induced acute kidney injury.Pathophysiology and management of septic acute kidney injury.A unified theory of sepsis-induced acute kidney injury: inflammation, microcirculatory dysfunction, bioenergetics, and the tubular cell adaptation to injury.Sepsis-induced acute kidney injury revisited: pathophysiology, prevention and future therapiesEndothelial glycocalyx-the battleground for complications of sepsis and kidney injury.Sepsis-induced acute kidney injury.How has urinary proteomics contributed to the discovery of early biomarkers of acute kidney injury?Low-dose carvedilol protects against acute septic renal injury in rats during the early and late phases.Effect of Melilotus suaveolens extract on pulmonary microvascular permeability by downregulating vascular endothelial growth factor expression in rats with sepsisEffect of Melilotus extract on lung injury via the upregulation of tumor necrosis factor-α-induced protein-8-like 2 in septic mice.Slow induction of brain death leads to decreased renal function and increased hepatic apoptosis in rats.Ischemic preconditioning attenuates lipid peroxidation and apoptosis in the cecal ligation and puncture model of sepsis.The tubule pathology of septic acute kidney injury: a neglected area of research comes of age.Hydrogen Sulfide Attenuates LPS-Induced Acute Kidney Injury by Inhibiting Inflammation and Oxidative Stress.The effects of dexmedetomidine on secondary acute lung and kidney injuries in the rat model of intra-abdominal sepsis.
P2860
Q22000722-3C799D5E-F80E-4B12-941A-BA92AB6FA6FDQ26785893-2CA17CB9-51A2-40C5-BEDC-A939ABF50133Q30583254-BEE1EE2D-E566-44A5-89C4-7F083E1A77E0Q30658795-704492C8-D7A9-4664-9658-A4BFF0B74595Q33627994-8B661198-0C6F-468A-A2D4-650F2468F6C9Q33749793-D50AEBC9-C65B-4EB6-B123-4578F9F8D03CQ34567990-7498AF65-3643-4208-83BF-6BD023B907FBQ34785608-6411AA36-A150-415A-B840-AC9DACD32B20Q35115683-29BD62A3-5B9E-4A55-B11F-606CA1967617Q35889075-A236AE92-358B-403C-9063-037B271213FCQ35922159-0AE74236-3AEA-4810-9BB4-BEF3DB06E106Q36852546-06F4BDC9-87D2-4FCA-9F8A-54B51AAFC3C6Q36905589-8C872C21-EC4E-43A5-A20B-FA6C47AE6063Q37252021-5BB353FB-DE2B-4ED4-B10D-1EFC3748736FQ37978478-1DA8D7CD-6E5A-4B0D-A7C7-9BEAD2056A82Q38080775-755806FA-3494-4892-BD08-0D7A52E56F05Q38171999-6AC31448-C979-4C67-9811-0017BC945CCFQ38260709-39619B47-CC0F-4A1E-B79B-B55B2A0CA4D4Q38768931-3F6EEDA0-E831-483C-B2FC-2D4F63C7E5BAQ38962675-59E6C137-15EB-4AE9-B3F1-3710A625C30BQ39170612-CF8F5F95-8AE1-4F9B-AAE7-DA5FEE003736Q41269792-A82E35F5-02AE-4E84-8393-ECA8C022EF59Q41555255-5BED0D54-0D88-4F57-B922-1DA4BDB181CDQ41657284-C7FF23D1-4D0A-42DA-BAA8-943CBAC8B0B9Q42038607-E33B80BC-B44D-4840-871A-9ACF3B1AEFB0Q42098845-B1630A2D-6F73-4279-85E5-C9C99E00F8C0Q42234703-A0EA0F9D-51E8-4B12-9A94-260ACA8017C0Q52595127-2FB238AA-1C9D-4963-8631-19A14D3C8709Q55113956-BE2C7A29-134D-4349-BF40-559327BE9F41
P2860
Hemodynamic changes in the kidney in a pediatric rat model of sepsis-induced acute kidney injury.
description
2011 nî lūn-bûn
@nan
2011 թուականի Ապրիլին հրատարակուած գիտական յօդուած
@hyw
2011 թվականի ապրիլին հրատարակված գիտական հոդված
@hy
2011年の論文
@ja
2011年学术文章
@wuu
2011年学术文章
@zh-cn
2011年学术文章
@zh-hans
2011年学术文章
@zh-my
2011年学术文章
@zh-sg
2011年學術文章
@yue
name
Hemodynamic changes in the kid ...... s-induced acute kidney injury.
@ast
Hemodynamic changes in the kid ...... s-induced acute kidney injury.
@en
type
label
Hemodynamic changes in the kid ...... s-induced acute kidney injury.
@ast
Hemodynamic changes in the kid ...... s-induced acute kidney injury.
@en
prefLabel
Hemodynamic changes in the kid ...... s-induced acute kidney injury.
@ast
Hemodynamic changes in the kid ...... s-induced acute kidney injury.
@en
P2093
P2860
P1476
Hemodynamic changes in the kid ...... s-induced acute kidney injury.
@en
P2093
Joseph H Holthoff
Kathryn A Seely
Keshari M Thakali
Neriman Gokden
Philip R Mayeux
Samuel T Burns
Sung W Rhee
P2860
P304
P356
10.1152/AJPRENAL.00687.2010
P577
2011-04-20T00:00:00Z