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Query: UMLS:C0036690 (sepsis)
59,461 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Current therapy of septic/vasodilatory cardiovascular failure includes volume resuscitation and infusion of inotropic and vasopressor agents. Norepinephrine is the first-line vasoconstrictor, and can stabilize hemodynamic variables in most patients. Nonetheless, irreversible cardiovascular failure which is resistant to conventional hemodynamic therapies still is the main cause of death in patients with severe sepsis and septic shock. In such advanced, catecholamine-resistant shock states, arginine-vasopressin (AVP) has repeatedly caused an increase in mean arterial blood pressure, a decrease in toxic norepinephrine-dosages, as well as further beneficial hemodynamic, endocrinologic and renal effects. Although AVP exerted negative inotropic effects in previous clinical trials and in selected animal experiments, a continuous low-dose AVP infusion during advanced septic/vasodilatory shock caused a decrease in cardiac index only in patients with a hyperdynamic circulation. Adverse effects on gastrointestinal circulation and the systemic microcirculation can not be excluded, but have not yet been confirmed in clinical prospective trials. Negative side effects of a supplementary AVP therapy are an increase in total bilirubin concentrations, and a decrease in platelet count. A transient increase in hepatic transaminases during AVP infusion is most likely related to preceding hypotensive episodes. Important points which must be considered when using AVP as a "rescue vasopressor" in septic/vasodilatory shock states are: 1) AVP infusion only in advanced shock states that can not be adequately reversed by conventional hemodynamic therapy (e.g. norepinephrine >0,5-0,6 mug/kg/min), 2) presence of normovolemia, 3) AVP infusion only in combination with norepinephrine, 4) strict avoidance of bolus injections and dosages >4 IU/h. Effects of a supplementary AVP infusion in advanced vasodilatory shock on survival are currently examined in a large, prospective multicenter trial in North America and Australia.
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PMID:[Arginine-vasopressin in septic and vasodilatorial shock]. 1715 83

Cardiovascular dysfunction in septic shock (SS) is ascribed to the release of inflammatory mediators. Norepinephrine (NE) is often administered to treat low MAP in SS. We recently found that lysozyme c (Lzm-S) released from leukocytes was a mediator of myocardial depression in an Escherichia coil model of SS in dogs. This effect can be blocked in an in vitro preparation by chitobiose, a competitive inhibitor of Lzm-S. In the present study, we examined whether chitobiose treatment can reverse myocardial depression and obviate NE requirements in two respective canine E. coli preparations. In a 6-h study, we administered chitobiose after 3.5 h of E. coli bacteremia and compared stroke work (SW) and MAP at 6 h with a sepsis control group. In a 12-h study, we determined whether chitobiose treatment can reduce the need for NE requirements during 12 h of bacteremia. In the latter study, either chitobiose or NE was given when MAP decreased approximately 20% from the presepsis value in respective groups. In anesthetized, mechanically ventilated dogs, we monitored hemodynamic parameters during continuous E. coli infusion. In the 6-h study, chitobiose improved SW and MAP at the 6-h period as compared with the nontreated sepsis group. In the 12-h study, SW and MAP increased after chitobiose without the necessity of NE administration. These results suggest that inhibitors of Lzm-S such as chitobiose may improve myocardial depression and reduce the need for NE requirements in SS.
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PMID:N,N'-diacetylchitobiose, an inhibitor of lysozyme, reverses myocardial depression and lessens norepinephrine requirements in Escherichia coli sepsis in dogs. 1788 42

Severe sepsis and septic shock have an increasing incidence and unchanged high mortality. Early diagnosis is necessary to slow the progression of organ dysfunction and improve outcome. Early administration of broad-spectrum antimicrobial therapy, early and aggressive hemodynamic therapy, and surgical source control are the most promising therapeutic approaches. Norepinephrine is the first choice as a vasopressor. Starches for volume resuscitation, intensive insulin therapy (aiming at 80-110 mg/dl), and low-dose hydrocortisone are not recommended outside randomized trials. Recombinant activated protein C is one choice for certain patients. The German Sepsis Competence Network (SepNet) is currently investigating other open questions.
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PMID:[Sepsis therapy: present guidelines and their application]. 1832 Jan 53

Various definitions of acute kidney injury (AKI) exist, making comparisons among studies difficult. Despite this, significant changes have occurred in the epidemiology of AKI during the last decade. Recent studies, including PICARD and BEST, have examined the epidemiology of ICU-related AKI in the USA and worldwide, respectively, and found that AKI remains a major cause of morbidity and mortality. The incidence of AKI has increased, most likely due to a trend toward older, more severely and chronically ill patients admitted to the hospital. Sepsis and multi-organ system failure continue to be strongly associated with AKI, as well as pre-morbid chronic kidney disease. The proportion of patients with AKI requiring dialysis is high. The mortality of ICU-related AKI, although still very elevated, may be decreasing. Understanding these changes, in the context of standardized definitions, will be essential for the design of successful interventional studies.
Nephron Clin Pract 2008
PMID:The epidemiology of severe acute kidney injury: from BEST to PICARD, in acute kidney injury: new concepts. 1880 66

Over the past several years, advances in our understanding of the pathogenesis of acute kidney injury (AKI) have demonstrated the role of oxidant stress and reactive oxygen metabolites (ROM) in the development of AKI in a variety of clinical settings. This review serves to define the pathways that lead to the generation of ROM following a variety of insults, as well as to review the current literature concerning the role of antioxidant therapy in the prevention and treatment of AKI in several clinical settings. Investigators have explored the potential therapeutic role of anti-oxidants in both experimental animal models and human studies of AKI in several clinical settings, including cardiac and aortic occlusive surgeries, sepsis, drug nephrotoxicity (cisplatin and gentamicin), as well as rhabdomyolysis. While the experimental animal studies have generally been more successful, taken together this literature supports the hypothesis that oxidant stress-induced production of ROM plays a major role in the pathogenesis of many forms of AKI, and continues to suggest the potential utility of antioxidant therapy in human AKI. Ongoing trials in concert with improved diagnostic techniques will hopefully lead to improved outcomes in the setting of AKI through the prophylactic or early therapeutic use of antioxidant therapy.
Nephron Exp Nephrol 2008
PMID:Antioxidants. Do they have a place in the prevention or therapy of acute kidney injury? 1880 73

The treatment of severe acute kidney injury (AKI) with dialysis or hemofiltration remains suboptimal with high levels of morbidity and mortality. Current renal replacement therapies substitute for the small solute clearance function of the kidney but do not replace the lost reclamation, metabolic and endocrine functions of this organ. Cell therapy and tissue engineering offer hope of fuller replacement of kidney function in renal failure patients. A renal tubule assist device (RAD) that includes a conventional hemodialysis filter and a bioreactor containing living renal proximal tubule cells has been successfully engineered. Differentiated activity of these cells and survival advantages have been demonstrated in large-animal models of sepsis and AKI. Data from phase I/II and phase II clinical studies have shown that the addition of renal tubule cell therapy to conventional continuous renal replacement therapy (CRRT) treatment resulted in a significant clinical impact on survival, and that RAD treatment demonstrated an acceptable safety profile. Another substantive advance for the treatment of AKI will be the development of nanofabrication technology to further improve the clearance function of the kidney to replicate glomerular permselectivity while retaining high rates of hydraulic permeability. New developments in this translational research area will improve the unmet medical needs of patients with renal failure.
Nephron Exp Nephrol 2008
PMID:The bioartificial kidney and bioengineered membranes in acute kidney injury. 1880 74

Acute kidney injury (AKI) is a serious condition that affects many ICU patients. The most common causes of AKI in ICU are severe sepsis and septic shock. The mortality of AKI in septic critically ill patients remains high despite of our increasing ability to support vital organs. This is partly due to our poor understanding of the pathogenesis of sepsis-induced renal dysfunction. However, new concepts are emerging to explain the pathogenesis of septic AKI, which challenge previously held dogma. Throughout the past half century, septic AKI has essentially been considered secondary to kidney ischemia. However, recent models of experimental sepsis have challenged this notion by demonstrating that, in experimental states, which simulate the hemodynamic picture most typically seen in man (e.g. hyperdynamic sepsis) renal blood flow, actually increases as renal vascular resistance decreases. These experimental observations provide proof of concept that septic AKI can occur in the setting of renal hyperemia and that ischemia is not necessary for loss of glomerular filtration rate (GFR) to occur. They also suggest that similar hemodynamic event may occur in man. In addition, preliminary studies in septic sheep show that, when ATP is measured using an implanted phosphorus coil and magnetic resonance technology, renal bioenergetics are preserved in the setting of advanced septic shock. While these findings need to be confirmed, they challenge established paradigms and offer a new conceptual framework of reference for further investigation and intervention in man.
Nephron Exp Nephrol 2008
PMID:Septic acute kidney injury: new concepts. 1880 75

Dialytic therapies have undergone major technological developments in the last decade and emerging techniques are promoted not only for acute kidney injury, but also for sepsis, acute decompensated heart failure, and acute and acute-on-chronic liver failure. New devices specifically target the pathophysiological mechanisms involved in these conditions. In septic shock and sepsis, high-volume hemofiltration, coupled plasma filtration adsorption, cascade hemofiltration and high permeability hemofiltration enhance removal of pro-inflammatory mediators, while in liver failure, Molecular Adsorbents recycling System (MARS) and Prometheus favor the elimination of albumin-bound toxins such as bilirubin. In acute decompensated heart failure, simplified ultrafiltration machines are used to reach negative fluid balance in a minimalist setting. In the context of limited resources and growing expansion in the availability of technologies, a critical assessment is required and the use of these devices needs to be put in perspective. This article reviews the mechanisms, advantages and limitations of these techniques along with the current evidence available regarding their influence on major clinical outcomes.
Nephron Physiol 2008
PMID:Emerging therapies for extracorporeal support. 1880 80

Calcium plays an important role in determining vascular smooth muscle tone. Norepinephrine (NE)-induced vascular contraction contains two components: 1) Ca2+ release from the sarcoplasmic reticulum as the fast phase and 2) Ca2+ influx via a voltage-dependent calcium channel as the slow phase. This study used functional isometric tension recording to evaluate mediators contributing to abnormal NE-induced Ca2+ handling and reactivity in isolated thoracic aortas from septic rats. Sepsis was induced by cecal ligation and puncture (CLP), and thoracic aortas were removed at 18 h after CLP. Our results showed that rats that received CLP for 18 h manifested severe hypotension and vascular hyporeactivity to NE in vivo. This vascular hyporeactivity to NE was also observed in the aorta obtained from CLP-induced sepsis rat. Both the fast and slow phases of NE-induced contraction were reduced in aortas from sepsis rats. To clarify what possible mediators contribute to the abnormal Ca2+ handling in aortas from sepsis animals, inhibitors of Ca2+ channel and release were used. Inhibition by 2-aminoethoxy-diphenyl borane, ryanodine, and cyclopiazonic acid of the NE-induced contraction in Ca2+-free solution was greater in the aorta from sepsis rats and inhibitions of cyclopiazonic acid and ryanodine, but not of 2-aminoethoxy-diphenyl borane, were attenuated by NOS inhibitor N[omega]-nitro-l-arginine methyl ester. In addition, the attenuation of NE-induced contraction by nifedipine in the aorta was also greater in the CLP group. Our results suggest that abnormal NE-induced Ca2+ handling associated with vascular hyporeactivity in the CLP-induced sepsis is caused by a major decrease in sarcoplasmic reticulum function and a minor impairment of voltage-dependent Ca2+ channels on membrane to Ca2+ handling, at least, in the aorta, and this could be attributed to an overproduction of NO in sepsis.
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PMID:NO contributes to abnormal vascular calcium regulation and reactivity induced by peritonitis-associated septic shock in rats. 1974 6

Sepsis is a common cause of acute renal failure in intensive care units (ICU) with mortality rates as high as 60%. In this study, the clinical and laboratory predictors of acute kidney injury (AKI) in critically ill Turkish patients with sepsis/systemic inflammatory response syndrome were identified. We studied 139 (67 females/72 males) patients admitted to our ICUs with sepsis/systemic inflammatory response syndrome without renal failure. The clinical and laboratory parameters and treatments were recorded. Patients were classified as those without AKI (n = 60; 43.20%) and those with AKI (n = 79; 56.80%) based on the RIFLE (Risk, Injury, Failure, Loss, End-stage renal disease) criteria. Those with AKI were further classified as: risk in 27 (19%), injury in 25 (17.9%), failure in 25 (17.9%), and loss in 2 (1.4%). We found that the mortality rate increased with the severity of renal involvement: 56% in risk, 68% in injury, 72% in failure, and 100% in loss categories. Patients with AKI had a more positive fluid balance, higher central venous pressure, more vasopressor use, and lower systolic blood pressure. In multivariate analysis, the sequential organ failure assessment score, blood pressure, serum creatinine, and fluid balance were risk factors for the development of AKI. In this population, the incidence of AKI was higher and contrary to previous knowledge. A positive fluid balance also carries a risk for AKI and mortality in septic ICU patients. The RIFLE criteria were found to be applicable to our ICU population.
Nephron Clin Pract 2010
PMID:Evaluation of sepsis/systemic inflammatory response syndrome, acute kidney injury, and RIFLE criteria in two tertiary hospital intensive care units in Turkey. 2042 78

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