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Query: UMLS:C0243026 (sepsis)
52,417 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Blood lactate elevation in critically ill patients commonly is taken as a sign of impaired tissue perfusion. Simultaneous elevation of lactate to pyruvate ratio (L/P ratio) may be helpful in discriminating between different mechanisms of hyperlactatemia and thus in determining the relevance of the finding. We studied prospectively the prevalence and the time pattern of hyperlactatemia and simultaneous L/P ratio elevation in 98 consecutive emergency admission patients in a 23-bed surgical-medical University Hospital intensive care unit. Blood lactate, L/P ratio, and blood gases were measured at 2-h intervals during the initial 24 h of intensive care unit admission. Hyperlactatemia (blood lactate over 2 mmol/L) was found in 48 (49%) patients, and the median peak value of the non-survivors was higher than that of the survivors [5.3 (interquartile range 1.9-7.5) vs. 1.9 (1.3-2.9) mmol/L, respectively, p = 0.003]. Hyperlactatemia at admission (n = 31) was associated with a higher hospital mortality than hyperlactatemia developing later (n = 17) (29.0% vs. 5.9%, P = 0.003). Sustained admission hyperlactatemia (>6 h) was associated with higher mortality than short-lasting hyperlactatemia (36.8% vs. 0%, P = 0.008). Simultaneously elevated L/P ratio (L/P ratio > 18; n = 16) was associated with higher mortality than hyperlactatemia with normal L/P ratio (n = 32; 37.5% vs. 12.5%, respectively, P = 0.03) and was found mainly in patients who had severe circulatory failure. The hyperlactatemia of patients with sepsis was not associated with L/P ratio elevation. We conclude that hyperlactatemia is common in emergency admission patients. Hyperlactatemia with L/P ratio elevation and lactic acidosis is likely to be associated with inadequate tissue perfusion. Hyperlactatemia persisting more than 6 h and simultaneous elevation of L/P ratio are associated with increased mortality.
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PMID:Time-pattern of lactate and lactate to pyruvate ratio in the first 24 hours of intensive care emergency admissions. 1090 86

Our objective was to describe clinical features and predisposing factors attributed to lactic acidosis in 4 HIV-infected patients on long-term nucleoside reverse transcriptase inhibitor (NRTI) therapy. All patients had received at least 6-20 months of NRTI-containing antiretroviral therapy: all used stavudine (d4T), in one combined with lamivudine (3TC), in the other 3 with didanosine (ddI); in one hydroxyurea was added. In all, the initial symptoms were gastrointestinal (nausea and vomiting), followed by tachypnoea preceding the lactic acidosis; death followed 6-22 days after admission (liver failure and uncontrollable arrhythmias). Treatment with riboflavin was unsuccessful in one patient. The only definite risk factor in all cases was NRTI-induced mitochondrial toxicity; one patient was concomitantly treated for Kaposi's sarcoma (with bleomycin and vinblastine) and one just recovered from pneumococcal sepsis. None of the patients had a history of chronic hepatitis B virus (HBV) or hepatitis C virus (HCV) infection. In all patients, some sort of toxicity to other previously used NRTIs had occurred earlier. Lactic acidosis occurred after months of NRTI therapy in patients who had already suffered other forms of NRTI toxicity. Concomitant diseases or comedication might have aggravated the mitochondrial toxicity of the NRTIs. Screening methods to detect mitochondrial toxicity are necessary, since lactic acidosis occurs rather unexpectedly, with a rapid, fatal course.
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PMID:Clinical features and risk factors of lactic acidosis following long-term antiretroviral therapy: 4 fatal cases. 1099 8

Continuous renal replacement therapies (CRRT) are now being used by nephrologists, intensivists, and anesthesiologists. The various CRRT modalities differ in the kind of vascular access, the application of diffusive or convective clearances (or a combination of both), and in the location where the replacement fluid enters the circuit. CRRTs have certainly made the management of critically ill patients with acute renal failure (ARF) combined with cardiovascular instability, severe fluid overload, hypercatabolism, cerebral edema, adult respiratory distress syndrome, lactic acidosis, sepsis or other inflammatory syndromes, crush syndrome, congestive heart failure, and cardiopulmonary bypass easier. Continuous therapies incorporate several advantages including improved hemodynamic stability, optimal fluid balance, gradual urea removal, elimination of septic mediators, and the possibility of unlimited parenteral nutrition. Major difficulties and unsolved problems of CRRT are the ongoing necessity of continuous anticoagulation, considerable loss of amino acids, vitamins, trace elements, potassium, phosphate, and some drugs, as well as immobilization of the patient. The advantages of CRRT should theoretically translate into improved outcomes of critically ill ARF patients, but the superiority of continuous modalities in terms of outcome is still controversial, despite encouraging results in some clinical trials. Currently used CRRT with sophisticated treatment devices has become more expensive than hemodialysis, but the cost cannot be used as an argument against the continuous treatment modalities.
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PMID:Slow continuous renal replacement therapies: an update. 1102 12

In the time it has taken medicine to develop the techniques to describe the circulatory changes of severe infections, both pattern and process have been profoundly influenced by the use of intravenous fluids, vasopressors, antibiotics, steroids, mechanical ventilation and haemoflltration. Constant features of severe sepsis include a reduction in peripheral vascular tone on both the arterial and venous sides of the circulation, a defect in oxygen utilisation resulting in lactic acidosis, and varying degrees of myocardial dysfunction. These events have a temporal progression, the precise pattern observed depending on the tempo of the infection, the influence of therapeutic manoeuvres, the age and comorbidities of the patient, and the time the observations are made in the course of events. Early sepsis is accompanied by a decrease in systemic vascular resistance and a metabolic acidosis. The clinical picture includes fever, tachycardia, tachypnoea, respiratory alkalosis and an increased cardiac output with warm, dry peripheries and a bounding pulse. Advanced sepsis involves varying degrees of venous and myocardial contractile failure, and is characterised by progressive acidaemia, respiratory failure and marked sympathetic adrenergic activation. In the absence of vigorous fluid resuscitation, the cardiac output is decreased and the patients are cold, clammy peripherally shut down, and frequently confused, obtunded or comatose. In infections with a silent primary focus (predominantly involving Gram-negative organisms), this stage is frequently the first to attract the attention of attending staff. Late sepsis is characterised by profound acidaemia, vascular hypo-responsiveness, multiple organ failure and death.
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PMID:The haemodynamics of human septic shock. 1116 73

Lactic acidosis has been described in persons with HIV infection particularly in association with the use of nucleoside reverse transcriptase inhibitors (NRTIs). Little is known about the epidemiology of this problem. We reviewed the records of all HIV-infected adults with elevated lactate levels admitted to Barnes-Jewish hospital from 1996 to 1998. There were 37 patients identified with elevated lactate levels. The annual rate of elevated lactate levels was 22.6, 33.9, and 30.8 per 1,000 admissions in 1996, 1997, and 1998, respectively. The median age of the patients was 40.4 years; median CD4(+) count was 148 cells/mm(3); and the median HIV-1 RNA level was 4,401 copies/ml. The median lactate level was 4.5 mmol/liter (range, 2.2-19 mmol/liter). Twenty-nine patients (78%) had elevated lactate levels at admission. Elevated lactate levels were associated with sepsis (48.7%), pancreatitis (13.5%), liver failure (8.1%), multiorgan failure (8.1%), and other conditions. Five patients had lactic acidosis associated with the use of antiretroviral medications; one patient with unexplained lactic acidosis and four patients with pancreatitis. The mortality rate was 45.9% (17/37). Higher lactate levels were associated with increased mortality. In conclusion, elevated lactate levels were uncommon but not rare in hospitalized patients with HIV infection. Sepsis was the most commonly associated condition and antiretroviral medications were the second most frequently associated factor. There was no significant increase in the annual rate of lactic acidosis during this 3-year period.
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PMID:Elevated lactate levels in hospitalized persons with HIV infection. 1117 1

Sepsis-associated purpura fulminans is defined as septicemia, shock, disseminated intravascular coagulation and circulatory failure leading to multiple organ dysfunction. 40-70% of patients with sepsis-associated purpura fulminans die. Early prognostic factors in adults have not been well delineated yet. Aim of our study was 1) to evaluate currently used scoring systems for meningococcal septicemia in the setting of sepsis-associated purpura fulminans and 2) to assess if other parameters are feasible as early prognostic factors. From 1.1 1994-31.12.1998 twelve patients (female: 7; mean age: 31 (21; 43) years) were studied. Six patients (50%) died within 2 hours and 7 days after admission despite standard intensive treatment. On admission non-survivors had a more pronounced degree of disseminated intravascular coagulation compared to survivors (platelet count 18000 (15000; 45000) G/l vs. 119.000 (111000; 152000) G/l, (p = 0.03); fibrinogen 67 (50; 108) mg/dl vs. 356 (234; 483) mg/dl, (p = 0.02); PTZ 28% (20%; 30%) vs. 44% (35%; 51%), (p = 0.05); aPTT 120 (120; 128) sec vs. 46 (44; 69) sec, (p = 0.001). Severity of lactic acidosis was significantly higher in non-survivors than in survivors (pH 7.08 (6.92; 7.21) vs. pH 7.4 (7.25; 7.4), (p = 0.02); lactate 13.5 (11; 15) mval/l vs. 6.0 (4.4; 6) mval/l, (p = 0.02); data presented as median (25-75% interquartile range). In our patients the Glasgow Meningococcal Septicemia Prognostic Score (GMSPS) and the Niklasson-Score failed to distinguish between survivors and non-survivors (GMSPS 7 (6; 11) vs 7.5 (7; 9) out of 15; predicted mortality according to Niklasson-Score 73% vs 88%). There was no difference in the APACHE II Score (22 (18.5, 24) vs 22 (20.25, 26)). The severity of disseminated intravascular coagulation assessed by routine laboratory parameters and the degree of lactic acidosis on admission were the strongest predictors of outcome in patients with sepsis-associated purpura fulminans. Scoring systems developed for patients with meningococcal septicemia are of limited value in the setting of sepsis-associated purpura fulminans.
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PMID:Sepsis-associated purpura fulminans in adults. 1125 35

Severe lactic acidosis has been increasingly reported as a potentially fatal complication of HIV treatment. We report on an asymptomatic HIV-infected woman treated with stavudine, lamivudine and indinavir for one year. She was hospitalized because of progressive dispnoea, oedema, cyanosis and severe lactic acidosis. Arterial blood pH was 6.98, bicarbonate 4.4 mmol/l (normal value 22-26), blood lactate: 29.7 mmol/l (normal value <2.2). Hepatic function was normal. She had an impressively rapid response (within a few hours) to empirical treatment with thiamine (100 mg i.v.). No evidence of sepsis or malabsorption were identified and vitamin B1 level was not tested before thiamine infusion. Three months later she was re-started successfully on nelfinavir plus nevirapine. The rapid response to thiamine infusion deserves a careful attention and such an approach should be considered in similar cases as a support treatment of this potentially life-threatening complication of HIV therapy.
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PMID:Severe lactic acidosis and thiamine administration in an HIV-infected patient on HAART. 1136 26

Because of several factors, including a change in the hormonal behavior, the postoperative period is at high risk for the diabetic patient to present a metabolic complication. On the other hand, a diabetic metabolic disorder may be secondary and reveal a severe underlying complication (sepsis...). Ketoacidosis is the consequence of an absolute or relative lack of insulin and occurs mainly in insulin dependent diabetic patients. Its incidence should be very low during the postoperative period since insulin protocols are systematically used. The main clinical and biological signs are a polypnea, signs of dehydration, an hyperglycemia associated with a high anion gap metabolic acidosis and the presence of ketoacids in the urine. Its treatment is mainly based on an active rehydration and an insulin and potassium supply. Sodium bicarbonate should not be used systematically any more, even during severe acidosis. Hyperosmolar non ketotic states affects insulin nondependent and older diabetic patients for the most part and occurs under similar conditions than ketoacidosis, revealing most of the time a severe underlying complication. Clinical and biological manifestations include a severe dehydration, alterations in consciousness and a major hyperglycemia associated to a moderate or mild metabolic acidosis. Its main treatment is an active rehydration and insulin plus potassium in a second time. Hypoglycemia is usually the consequence of a mistake in the diabetes care and in the insulin management. Every sickness or consciousness disorder occurring in a diabetic patient treated with insulin should lead to perform a blood glucose measurement. In case of severe manifestations, glucose should be administered in emergency, orally if the patient is conscious or intravenously if he is not. Lactic acidosis occurring during the postoperative period in a diabetic patient is usually non specific of diabetic disease and reflects the existence of an underlying complication (sepsis, hemorrhage, hypoxia,...), as it would in an non diabetic patient. Lactic acidosis due to a treatment with metformin is now very rare and occurs almost only in patients having a contraindication to the use of metformin.
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PMID:Acute postoperative metabolic complications of diabetes. 1137 21

Profound hypothermia (core temperature of less than 28 degrees C) is a life threatening state and a medical emergency associated with a high mortality rate. The prognosis depends on underlying diseases, advanced or very early age, the duration prior to treatment, the degree of hemodynamic deterioration, and especially, the methods of treatment, including active external or internal rewarming. This is a case study of an 80-year-old female patient with severe accidental hypothermia (core temperature 27 degrees C). She was found in her home lying immobile on the cold floor after a fall. The patient was in a profound coma with cardiocirculatory collapse, and the medical staff treating her was inclined to pronounce her deceased. On her arrival at the hospital, she was resuscitated, put on a respirator and actively warmed. Very severe metabolic disorders were found, including a marked metabolic acidosis composed of diabetic ketoacidosis (she had suffered from insulin treated type 2 diabetes mellitus) and lactic acidosis with a very high anion gap (42) and a hyperosmotic state (blood glucose 1202 mg/dl). There were pathognomonic electrocardiographic abnormalities, J-wave of Osborn and prolonged repolarization. Slow atrial fibrillation with a ventricular response of 30 bpm followed by a nodal rhythm of 12 bpm and reversible cardiac arrest were recorded. The pulse and blood pressure were unobtainable. Despite the successful resuscitation and hemodynamic and cognitive improvement, rhabdomyolysis (CKP 6580 u/L), renal failure and hepatic damage developed. She was extubated and treated with intravenous fluids containing dopamine, bicarbonate, insulin and antibiotics. Her medical condition gradually improved, and she was discharged clear minded, functioning very well and independent. Renal and liver tests returned eventually to normal limits. Progressive bradycardia, hypotension and death due to ventricular fibrillation or asystole commonly occur during severe hypothermia. Respiratory and metabolic, sometimes lactic, acidosis, lethargy and coma, hypercoagulopathy, hyperosmolar state, acute pancreatitis and renal and hepatic failure are frequent complications of hypothermia. Underlying predisposing causes of hypothermia are diabetic ketoacidosis, cerebrovascular disease, mental retardation, hypothyroidism, pituitary and adrenal insufficiency, malnutrition, acute alcoholism, liver damage, hypoglycemia, sepsis, hypothalamic dysfunction, sepsis and polypharmacy, and especially, the use of sedative and narcotic drugs. Our case demonstrates once again that CPR once begun should continue until the successful rewarming because "no one is dead until warm and dead".
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PMID:[Severe accidental hypothermia in an elderly woman]. 1175 73

We report the survival of a multiply injured patient with exanguinating haemorrhage and an arterial pH of 6.5, following a road vehicle crash. The previously healthy 38 years old male driver veered off the motorway and collided with a tree. The ambulance arrived at the scene 9 min after being called by an eyewitness and, following rapid extrication from the wreckage; the patient arrived in hospital 27 min later (with a GCS of 6), and was immediately intubated. The patient had suffered near-complete amputation of the left leg at upper femoral shaft level, along with multiple distal fractures and open wounds. He also sustained a head injury and closed displaced fractures of left radius and ulna. The patient received 2 l of crystalloids in the pre-hospital phase. Once in hospital the haemorrhage was controlled with a pressure dressing and intra-venous fluids were kept to a minimum until he was taken promptly to theatre. His initial arterial blood sample revealed a pH of 6.57, pCo(2) of 9.18 kPa, a pO(2) of 70.11 kPa and a base excess of -27.5 mmol l(-1). The co-oximeter Hb was 5.8 g dl(-1). Haemorrhage was controlled in theatre where he was transfused a total of 30 U of blood, 1 pack of platelets, 12 U of fresh frozen plasma, 3.5 l of crystalloids and 1.5 l of colloid. Sodium bicarbonate was administered three times. He subsequently remained ventilated in intensive care unit (ICU). Over the following week he survived sepsis, disseminated intravascular coagulation and myoglobinuria (with transient renal failure) attributable to rhabdomyolysis secondary to muscle necrosis. He later underwent diversion colostomy and disarticulating amputation of the left femur after several debridements. After 6 weeks on ICU he made an excellent recovery will full return of his mental abilities. In this case, the serial arterial blood samples obtained were reliable. The lactic acidosis observed was the result of profound tissue hypo-perfusion and its rate of clearance seems to have greater prognostic value than its peak or initial value. Several factors may have contributed to the patient's survival: rapid retrieval from the scene; early intubation with excellent subsequent oxygenation (thus avoiding the dangerous combination of hypoxia and acidosis with synergistic influence on cardiac depression) and limited initial fluid resuscitation in the emergency department with prompt surgical intervention and vigorous restoration of organ perfusion after surgical haemostasis. Immediate operative haemostasis, coupled with restricted fluid administration beforehand and vigorous restoration of organ perfusion afterwards is now replacing the old resuscitation paradigm. Perhaps this shift in practice has helped this patient to survive.
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PMID:Survival with an arterial pH of 6.57 following major trauma with exsanguinating haemorrhage associated with traumatic amputation. 1200 26


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