Mechanisms of Organ Dysfunction in Sepsis

被引：275

作者：

Pool, Rachel ^{[1
]}

Gomez, Hernando ^{[2
]}

Kellum, John A. ^{[2
]}

机构：

[1] Univ Pittsburgh, Med Ctr, Dept Anesthesiol, 200 Lothrop St, Pittsburgh, PA 15213 USA

[2] Univ Pittsburgh, CRISMA Clin Res Invest & Syst Modeling Acute Illn, Ctr Crit Care Nephrol, Dept Crit Care Med, 3347 Forbes Ave,Suite 220, Pittsburgh, PA 15213 USA

来源：

CRITICAL CARE CLINICS | 2018年 / 34卷 / 01期

关键词：

Sepsis; Organ dysfunction; Microcirculation; Mitochondria; Metabolism; Inflammation; MICROVASCULAR BLOOD-FLOW; ACUTE-RENAL-FAILURE; ACUTE KIDNEY INJURY; NITRIC-OXIDE; OXIDATIVE STRESS; CELL-DEATH; MICROCIRCULATORY ALTERATIONS; MITOCHONDRIAL DYSFUNCTION; CRITICAL ILLNESS; SEPTIC SHOCK;

D O I：

10.1016/j.ccc.2017.08.003

中图分类号：

R4 [临床医学];

学科分类号：

100218 [急诊医学];

摘要：

Sepsis-associated organ dysfunction involves multiple responses to inflammation, including endothelial and microvascular dysfunction, immune and autonomic dysregulation, and cellular metabolic reprogramming. The effect of targeting these mechanistic pathways on short- and long-term outcomes depends highly on the timing of therapeutic intervention. Furthermore, there is a need to understand the adaptive or maladaptive character of these mechanisms, to discover phase-specific biomarkers to guide therapy, and to conceptualize these mechanisms in terms of resistance and tolerance.

引用

页码：63 / +

页数：19

共 109 条

[1]

Sepsis induces albuminuria and alterations in the glomerular filtration barrier: a morphofunctional study in the rat [J].

Adembri, Chiara ;

Sgambati, Eleonora ;

Vitali, Luca ;

Selmi, Valentina ;

Margheri, Martina ;

Tani, Alessia ;

Bonaccini, Laura ;

Nosi, Daniele ;

Caldini, Anna L. ;

Formigli, Lucia ;

De Gaudio, Angelo R. .

CRITICAL CARE, 2011, 15 (06)

[2]

MICROVASCULAR FUNCTION AND RHEOLOGICAL CHANGES IN HYPERDYNAMIC SEPSIS [J].

ASTIZ, ME ;

DEGENT, GE ;

LIN, RY ;

RACKOW, EC .

CRITICAL CARE MEDICINE, 1995, 23 (02) :265-271

[3]

Oxidative stress and S-nitrosylation of proteins in cells [J].

Beltrán, B ;

Orsi, A ;

Clementi, E ;

Moncada, S .

BRITISH JOURNAL OF PHARMACOLOGY, 2000, 129 (05) :953-960

[4]

Vagus nerve stimulation attenuates the systemic inflammatory response to endotoxin [J].

Borovikova, LV ;

Ivanova, S ;

Zhang, MH ;

Yang, H ;

Botchkina, GI ;

Watkins, LR ;

Wang, HC ;

Abumrad, N ;

Eaton, JW ;

Tracey, KJ .

NATURE, 2000, 405 (6785) :458-462

[5]

Mitochondrial dysfunction in a long-term rodent model of sepsis and organ failure [J].

Brealey, D ;

Karyampudi, S ;

Jacques, TS ;

Novelli, M ;

Stidwill, R ;

Taylor, V ;

Smolenski, RT ;

Singer, M .

AMERICAN JOURNAL OF PHYSIOLOGY-REGULATORY INTEGRATIVE AND COMPARATIVE PHYSIOLOGY, 2004, 286 (03) :R491-R497

[6]

Association between mitochondrial dysfunction and severity and outcome of septic shock [J].

Brealey, D ;

Brand, M ;

Hargreaves, I ;

Heales, S ;

Land, J ;

Smolenski, R ;

Davies, NA ;

Cooper, CE ;

Singer, M .

LANCET, 2002, 360 (9328) :219-223

[7]

ANOXIC SUPPRESSION OF NA+-K+-ATPASE AND CONSTANT MEMBRANE-POTENTIAL IN HEPATOCYTES - SUPPORT FOR CHANNEL ARREST [J].

BUCK, LT ;

HOCHACHKA, PW .

AMERICAN JOURNAL OF PHYSIOLOGY, 1993, 265 (05) :R1020-R1025

[8]

Severe Sepsis and Septic Shock REPLY [J].

Angus, Derek C. ;

van der Poll, Tom .

NEW ENGLAND JOURNAL OF MEDICINE, 2013, 369 (21) :2063-2063

[9]

Immune system to brain signaling: Neuropsychopharmacological implications [J].

Capuron, Lucile ;

Miller, Andrew H. .

PHARMACOLOGY & THERAPEUTICS, 2011, 130 (02) :226-238

[10]

Experimental sepsis-induced mitochondrial biogenesis is dependent on autophagy, TLR4, and TLR9 signaling in liver [J].

Carchman, Evie H. ;

Whelan, Sean ;

Loughran, Patricia ;

Mollen, Kevin ;

Stratamirovic, Sladjana ;

Shiva, Sruti ;

Rosengart, Matthew R. ;

Zuckerbraun, Brian S. .

FASEB JOURNAL, 2013, 27 (12) :4703-4711

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