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European Journal of Intensive Care Medicine 04/2013; · 5.17 Impact Factor
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ABSTRACT: Patients after syncopy arrive frequently in an emergency unit. Two scoring systems have been validated for clinical decision making, use of diagnostic methods and need for hospitalisation. Goal of the study was quality control of ambulatory treatment of syncope patients in a University Emergency Department. 200 consecutive patients with syncope were documented, 109 of whom followed by phone-call during two years. The decision for hospitalisation or ambulatory treatment was up to the treating doctor. Age-distribution was biphasic: female sex mainly below the age 25, from 55 to 75 predominantly men. Etiology of syncope remained unclear for the majority of cases, a few neurologic (n=3) or cardiac (n=5) reasons were found with treatment consequences.
Praxis 04/2013; 102(8):451-6.
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ABSTRACT: BACKGROUND: Diuretics are among the most commonly prescribed medications and, due to their mechanisms of action, electrolyte disorders are common side effects of their use. In the present work we investigated the associations between diuretics being taken and the prevalence of electrolyte disorders on admission as well as the impact of electrolyte disorders on patient outcome. METHODS: In this cross sectional analysis, all patients presenting between 1 January 2010 and 31 December 2011 to the emergency room (ER) of the Inselspital, University Hospital Bern, Switzerland were included. Data on diuretic medication, baseline characteristics and laboratory data including electrolytes and renal function parameters were obtained from all patients. A multivariable logistic regression model was performed to assess the impact of factors on electrolyte disorders and patient outcome. RESULTS: A total of 8.5% of patients presenting to the ER used one diuretic, 2.5% two, and 0.4% three or four. In all, 4% had hyponatremia on admission and 12% hypernatremia. Hypokalemia was present in 11% and hyperkalemia in 4%. All forms of dysnatremia and dyskalemia were more common in patients taking diuretics. Loop diuretics were an independent risk factor for hypernatremia and hypokalemia, while thiazide diuretics were associated with the presence of hyponatremia and hypokalemia. In the Cox regression model, all forms of dysnatremia and dyskalemia were independent risk factors for in hospital mortality. CONCLUSIONS: Existing diuretic treatment on admission to the ER was associated with an increased prevalence of electrolyte disorders. Diuretic therapy itself and disorders of serum sodium and potassium were risk factors for an adverse outcome.
BMC Medicine 03/2013; 11(1):83. · 6.03 Impact Factor
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European Journal of Internal Medicine 03/2013; · 2.00 Impact Factor
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ABSTRACT: OBJECTIVE: Hyponatremia is a complication of diuretic treatment and has been recently identified as a novel factor associated with osteoporosis and fractures. The impact of diuretic-associated electrolyte disorders on osteoporotic fractures (OF) has rarely been studied systematically. DESIGN AND SETTING: We conducted a study in patients presenting to the emergency department at the University Hospital Bern. In this retrospective case series analysis of prospectively gathered data, over a 2-year period we identified 10,823 adult (≥50 years) outpatients with a measured baseline serum sodium, at admission to the hospital. OF patients were compared to a control group without fractures using standard statistical methods. RESULTS: Four hundred and eighty (5%) patients had 547 OF. The OF group had a higher mean age (73 vs. 68 years, p<0.0001), smaller proportion of men (37% vs. 58%, p<0.0001), higher hospitalisation rate (83% vs. 62%, p<0.0001) and longer hospital stay (8 vs. 6 days, p<0.0001). Any diuretic agent (p<0.0001), loop diurietics (p=0.02), spironolactone (p=0.02) and amiloride (p<0.01) were used significantly more in OF patients, but not thiazides (p=0.68). The prevalence of hyponatremia increased significantly (p<0.0001) with the number of diuretics taken. Advanced age (odds ratio [OR] 1.04, p<0.0001), hyponatremia (OR 1.46, p=0.011) higher serum creatinine (OR 1.53, p=0.0001), furosemide use alone (OR 1.40, p=0.01) and co-treatment with amiloride (OR 2.22, p=0.02) were associated with a higher risk for OF. CONCLUSIONS: This study highlights the clinical association of hyponatremia during the use of certain diuretics (i.e. furosemide or in combination, i.e. amiloride) with an increased risk of osteoporosis associated fractures. Although evidence-based data is currently lacking a pragmatic approach concerning hyponatremia monitoring and correction appears reasonable in selected groups of patients.
Maturitas 03/2013; · 2.77 Impact Factor
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ABSTRACT: PURPOSES: The aim of the study was to describe the prevalence, demographic, and clinical characteristics and etiologies of hypercalcemia in emergency department patients. BASIC PROCEDURES: In this retrospective cross-sectional descriptive study, all patients admitted between April 1, 2008, and March 31, 2011, to the emergency department of Inselspital, University Hospital Bern, were screened for the presence of hypercalcemia, defined as a serum calcium exceeding 2.55 mmol/L after correction for serum albumin. Demographic, laboratory, and outcome data were gathered. A detailed medical record review was performed to identify causes of hypercalcemia. MAIN FINDINGS: During the study period, 14 984 patients (19% of all admitted patients) received a measurement of serum calcium. Of these, 116 patients (0.7%) presented with hypercalcemia. Median serum calcium was 2.72 mmol/L (first quartile, 2.64; third quartile, 2.88), with 4.3 mmol/L being the maximum serum calcium value observed. Underlying malignancy in 44% of patients and hyperparathyroidism in 20% (12% secondary and 8% primary) were the leading causes of hypercalcemia. Twenty-six percent of patients presented with symptomatic hypercalcemia. Weakness was the most common symptom of hypercalcemia, followed by nausea and disorientation. PRINCIPAL CONCLUSIONS: Hypercalcemia is a rare but harmful electrolyte disorder in emergency department patients. Unspecific symptoms such as a change in mental state, weakness, or gastrointestinal symptoms should prompt physicians to order serum calcium measurements, at least in patients with known malignancy or renal insufficiency.
The American journal of emergency medicine 12/2012; · 1.54 Impact Factor
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ABSTRACT: PURPOSE: Changes in electrolyte homeostasis are important causes of acid-base disorders. While the effects of chloride are well studied, only little is known of the potential contributions of sodium to metabolic acid-base state. Thus, we investigated the effects of intensive care unit (ICU)-acquired hypernatremia on acid-base state. METHODS: We included critically ill patients who developed hypernatremia, defined as a serum sodium concentration exceeding 149 mmol/L, after ICU admission in this retrospective study. Data on electrolyte and acid-base state in all included patients were gathered in order to analyze the effects of hypernatremia on metabolic acid-base state by use of the physical-chemical approach. RESULTS: A total of 51 patients were included in the study. The time of rising serum sodium and hypernatremia was accompanied by metabolic alkalosis. A transient increase in total base excess (standard base excess from 0.1 to 5.5 mmol/L) paralleled by a transient increase in the base excess due to sodium (base excess sodium from 0.7 to 4.1 mmol/L) could be observed. The other determinants of metabolic acid-base state remained stable. The increase in base excess was accompanied by a slight increase in overall pH (from 7.392 to 7.429, standard base excess from 0.1 to 5.5 mmol/L). CONCLUSIONS: Hypernatremia is accompanied by metabolic alkalosis and an increase in pH. Given the high prevalence of hypernatremia, especially in critically ill patients, hypernatremic alkalosis should be part of the differential diagnosis of metabolic acid-base disorders.
European Journal of Intensive Care Medicine 11/2012; · 5.17 Impact Factor
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ABSTRACT: Dysnatremias are common in critically ill patients and associated with adverse outcomes, but their incidence, nature, and treatment rarely have been studied systematically in the population presenting to the emergency department. We conducted a study in patients presenting to the emergency department of the University of Bern.
In this retrospective case series at a university hospital in Switzerland, 77,847 patients admitted to the emergency department between April 1, 2008, and March 31, 2011, were included. Serum sodium was measured in 43,911 of these patients. Severe hyponatremia was defined as less than 121 mmol/L, and severe hypernatremia was defined as less than 149 mmol/L.
Hypernatremia (sodium>145 mmol/L) was present in 2% of patients, and hyponatremia (sodium<135 mmol/L) was present in 10% of patients. A total of 74 patients had severe hypernatremia, and 168 patients had severe hyponatremia. Some 38% of patients with severe hypernatremia and 64% of patients with hyponatremia had neurologic symptoms. The occurrence of symptoms was related to the absolute elevation of serum sodium. Somnolence and disorientation were the leading symptoms in hypernatremic patients, and nausea, falls, and weakness were the leading symptoms in hyponatremic patients. The rate of correction did not differ between symptomatic and asymptomatic patients. Patients with symptomatic hypernatremia showed a further increase in serum sodium concentration during the first 24 hours after admission. Corrective measures were not taken in 18% of hypernatremic patients and 4% of hyponatremic patients.
Dysnatremias are common in the emergency department. Hyponatremia and hypernatremia have different symptoms. Contrary to recommendations, serum sodium is not corrected more rapidly in symptomatic patients.
The American journal of medicine 08/2012; 125(11):1125.e1-7. · 4.47 Impact Factor
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ABSTRACT: Hypernatremia is common in intensive care units. It has detrimental effects on various physiologic functions and was shown to be an independent risk factor for increased mortality in critically ill patients. Mechanisms of hypernatremia include sodium gain and/or loss of free water and can be discriminated by clinical assessment and urine electrolyte analysis. Because many critically ill patients have impaired levels of consciousness, their water balance can no longer be regulated by thirst and water uptake but is managed by the physician. Therefore, the intensivists should be very careful to provide the adequate sodium and water balance for them. Hypernatremia is treated by the administration of free water and/or diuretics, which promote renal excretion of sodium. The rate of correction is critical and must be adjusted to the rapidity of the development of hypernatremia.
Journal of critical care 07/2012; · 2.13 Impact Factor
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ABSTRACT: Hyponatremia is the most common electrolyte disorder in hospitalized patients and is known to be associated with increased mortality. The administration of antegrade single-shot, up to two liters, histidine-tryptophane-ketoglutarate (HTK) solution for adequate electromechanical cardiac arrest and myocardial preservation during minimally invasive aortic valve replacement (MIAVR) is a standard procedure. We aimed to determine the impact of HTK infusion on electrolyte and acid-base balance.
In this retrospective analysis we reviewed data on patient characteristics, type of surgery, arterial blood gas analysis during surgery and intra-/postoperative laboratory results of patients receiving surgery for MIAVR at a large tertiary care university hospital.
A total of 25 patients were included in the study. All patients were normonatremic at start of surgery. All patients developed hyponatremia after administration of HTK solution with a significant drop of serum sodium of 15 mmol/L (p < 0.01). Measured osmolality did not change during all times of surgery compared to start of surgery (p = 0.28 - p = 0.79), indicating isotonic hyponatremia. After administration of HTK solution pH fell significantly due to development of metabolic acidosis.
Acute hyponatremia during cardioplegia with HTK solution is isotonic and should probably not be corrected without presence of hypotonicity as confirmed by measurement of serum osmolality.
Journal of Cardiothoracic Surgery 06/2012; 7:52. · 1.19 Impact Factor
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Wiener klinische Wochenschrift Education 04/2012; 6(1):1-22.
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ABSTRACT: Calculation of electrolyte-free water clearance (EFWC) allows for quantification of renal losses of free water and was shown to be helpful in the differential diagnosis of dysnatremias and might help in the correction of the electrolyte disorders. A modified EFWC formula (MEFWC) was described to be more accurate than the conventional one; however, it has never been evaluated clinically.
In order to evaluate the performance of MEFWC compared to EFWC under clinical circumstances, we gathered data from a total of 912 patient days of 138 critically ill patients. EFWC and MEFWC were calculated on the basis of these data. Additionally, from data of critically ill patients, we calculated a prediction of serum sodium based on the Edelman equation using either EFWC or MEFWC and compared results.
Altogether, 343 normonatremic, 124 hyponatremic and 445 hypernatremic days were analyzed. Results for EFWC and MEFWC correlated significantly (R = 0.98). In patients with hyponatremia, the absolute difference between EFWC and MEFWC was significantly larger than in patients with normonatremia (437 vs. 256 ml, p < 0.01). The absolute difference between EFWC and MEFWC correlated significantly with the level of serum sodium (R = -0.41). The mean difference in the prediction of serum sodium change as calculated based on the Edelman equation between the formula using EFWC and the formula using MEFWC was 0.7 mmol/l (SD 0.68) and was highest in hyponatremia and lowest in hypernatremia.
Results of EFWC and MEFWC were comparable in critically ill patients. Under normal circumstances, the use of the more complicated MEFWC is not justified. In hyponatremia, the difference between EFWC and MEFWC is larger and thus might justify the use of the more complicated formula.
Nephron Physiology 03/2012; 120(1):p1-5. · 2.55 Impact Factor
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ABSTRACT: Hypo- and hypernatraemia are the most common electrolyte disorders in hospitalized patients and have been associated with increased mortality. However, data on the prevalence of dysnatraemias in the emergency room and the characteristics of patients presenting with them are rare.
In this retrospective study, we analyzed data from patients who presented to the emergency department of a large tertiary university hospital between September 1st 2010 and November 30th 2010 and who received measurement of serum sodium.
3,182 patients received measurement of serum sodium during the three-month study period. 124 patients (4%) presented with hyponatraemia on admission to the emergency department while 400 patients (13%) presented with hypernatraemia. While there was no difference in age between patients with hypernatraemia and those who were normonatraemic, patients with hyponatraemia were significantly older.
Dysnatraemias are present in almost 1 in 5 patients who presented to the emergency department. Contrarily to patients who are already hospitalized, hypernatraemia was by far more common than hyponatraemia in patients at the emergency department. Surprisingly, patients with hyponatraemia were significantly older than normonatraemic patients while there was no age difference in hypernatraemic patients. Dysnatraemias are common in the emergency room and further studies are indicated to evaluate the causes and the impact on outcome of patients.
Wiener klinische Wochenschrift 12/2011; 124(5-6):181-3. · 0.81 Impact Factor
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ABSTRACT: Hypernatraemia is common in critically ill patients and has been shown to be an independent predictor of mortality. Osmotic urea diuresis can cause hypernatraemia due to significant water losses but is often not diagnosed. Free water clearance (FWC) and electrolyte free water clearance (EFWC) were proposed to quantify renal water handling. We aimed to (i) identify patients with hypernatraemia due to osmotic urea diuresis and (ii) investigate whether FWC and EFWC are helpful in identifying renal loss of free water.
In this retrospective study, we screened a registry for patients, who experienced intensive care unit (ICU)-acquired hypernatraemia. Among them, patients with hypernatraemia due to osmotic urea diuresis were detected by a case-by-case review. Total fluid and electrolyte balances together with FWC and EFWC were calculated for days of rising serum sodium and stable serum sodium.
We identified seven patients (10% of patients with ICU-acquired hypernatraemia) with osmotic diuresis due to urea. All patients were intubated during development of hypernatraemia and received enteral nutrition. The median highest serum sodium level of 153 mmol (Q1: 151-Q3: 155 mmol/L) was reached after a 5-day period of rise in serum sodium. During this period, FWC was -904 mL/day (Q1: -1574-Q3: -572), indicating renal water retention, while EFWC was 1419 mL/day (Q1: 1052-Q3: 1923), showing renal water loss. While FWC did not differ between time of stable serum sodium and development of hypernatraemia, EFWC was significantly higher during rise in serum sodium.
Osmotic urea diuresis is a common cause of hypernatraemia in the ICU. EFWC was useful in the differential diagnosis of polyuria during rising serum sodium levels, while FWC was misleading.
Nephrology Dialysis Transplantation 08/2011; 27(3):962-7. · 3.40 Impact Factor
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ABSTRACT: Hypernatremia is common in the medical Intensive Care Unit (ICU) and has been described as an independent risk factor for mortality. Hypernatremia has not yet been studied in a collection of ICU patients after cardiothoracic surgery. Therefore, we wanted to determine the incidence of hypernatremia in a surgical ICU and its association with outcomes of critically ill surgical patients.
In this retrospective cohort study performed at a surgical ICU of a university hospital in Vienna, patients were admitted to the ICU after major cardiothoracic surgery between May 1999 and October 2007. Data on serum sodium in the ICU, ICU mortality, hospital mortality, and length of ICU stay were collected prospectively.
2,699 patients underwent surgery during the study period, and 2,314 patients were included in the study. Two hundred twenty-one (10%) patients acquired hypernatremia during their ICU stay. Median onset of hypernatremia was on day 4 (2-7). Patients with ICU-acquired hypernatremia had a higher ICU mortality (19%) compared to patients without hypernatremia (8%; p < 0.01). Length of ICU stay was increased in patients with hypernatremia (17 vs. 3 days; p < 0.01). In a multivariate Cox regression, ICU-acquired hypernatremia was an independent risk factor for ICU mortality within 28 days.
Hypernatremia is a common event early in the course of critical illness after major cardiothoracic surgery and is independently associated with ICU mortality within 28 days. Future research should focus on the impact of hypernatremia on physiological functions as well as adequate and safe treatment of the electrolyte disorder.
European Journal of Intensive Care Medicine 10/2010; 36(10):1718-23. · 5.17 Impact Factor
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Critical care medicine 04/2010; 38(4):1237. · 6.37 Impact Factor
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ABSTRACT: Dysnatremias are common in patients admitted to the intensive care unit (ICU). Whether the presence of disorders of sodium balance on ICU admission is independently associated with excess mortality is unknown. We hypothesized that dysnatremias at the time of ICU admission are independent risk factors for increased mortality in critically ill patients.
We conducted a retrospective study in 77 medical, surgical, and mixed ICUs in Austria, with a database of 151,486 adults admitted consecutively over a period of 10 years (1998-2007).
Most patients (114,170, 75.4%) had normal sodium levels (135 < or = Na < or = 145 mmol/L) on ICU admission. The frequencies of borderline (130 < or = Na < 135 mmol/L), mild (125 < or = Na < 130 mmol/L), and severe hyponatremia (Na < 125 mmol/L) were 13.8%, 2.7%, and 1.2%, respectively. The frequencies of borderline (145 < Na < or = 150 mmol/L), mild (150 < Na < or = 155 mmol/L), and severe hypernatremia (Na > 155 mmol/L) were 5.1%, 1.2%, and 0.6%, respectively. All types and grades of dysnatremia were associated with increased raw and risk-adjusted hospital mortality ratios. Multiple logistic regression analysis showed an independent mortality risk rising with increasing severity of both hyponatremia and hypernatremia. Odds ratios and 95% confidence interval (CI) for borderline, mild, and severe hyponatremia were 1.32 (1.25-1.39), 1.89 (1.71-2.09), and 1.81 (1.56-2.10), respectively. Odds ratios and 95% CI for borderline, mild, and severe hypernatremia were 1.48 (1.36-1.61), 2.32 (1.98-2.73), and 3.64 (2.88-4.61), respectively.
Our results suggest that both hypo- and hypernatremia present on admission to the ICU are independent risk factors for poor prognosis.
European Journal of Intensive Care Medicine 10/2009; 36(2):304-11. · 5.17 Impact Factor
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ABSTRACT: Renal dysfunction confers a grave prognosis for patients with congestive heart failure (CHF); even small increases in plasma creatinine are associated with excess mortality. Little, however, is known about prognostic indices and outcome in patients with CHF who (sub-)acutely progress to dialysis dependency.
We evaluated prognostic indices in a retrospective cohort analysis of non-critically ill patients with CHF who (sub-)acutely progressed to dialysis-dependent renal failure.
46 patients (95% ischemic cardiomyopathy) with CHF (NYHA III-IV) with dialysis-dependent renal failure (acute and acute-to-chronic renal failure) were analyzed. Demographic factors and patient characteristics, of cardiac function parameters and renal parameters were recorded longitudinally.
CHF patients progressing to dialysis- dependent renal failure had a grave prognosis: median survival time was 95 days, mean survival 444 days. None of the known factors except age was associated with a worse outcome in CHF patients. LV/RV dysfunction, high plasma NT-pro-BNP, C-reactive protein, low albumin and body-mass index did not turn out to be prognostic indicators. The only factors indicating improved survival were recovery of renal function and low hemoglobin.
Non-critically ill CHF patients with (sub-)acute renal dysfunction progressing to dialysis dependency have a grave prognosis. Renal failure itself had such a strong prognostic impact that conventional factors such as poor myocardial function or inflammation were concealed. Recovery of renal function and, surprisingly, anemia were beneficial factors. Alternative treatment strategies must be designed to improve the devastating prognosis for this special subset of patients with CHF.
Wiener klinische Wochenschrift 07/2009; 121(11-12):391-7. · 0.81 Impact Factor
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ABSTRACT: Hypernatremia is a serious electrolyte disturbance and an independent risk factor for mortality in critically ill patients. In many cases, hypernatremia is an iatrogenic problem that develops in the intensive care unit (ICU).
Case series.
45 patients were studied in a medical ICU. For inclusion in the study, patients needed to show an increase in serum sodium concentration to greater than 149 mEq/L from an initial concentration of less than 146 mEq/L.
Solute balance, fluid balance, and both. Causes of hypernatremia.
The daily mass balance of sodium, potassium, and water over 1- to 3-day intervals was measured while serum sodium levels were increasing.
During the study period, 69 of 981 patients (7%) acquired hypernatremia after admission to the ICU. Of these, 45 had sufficient data for evaluation. Maximum serum sodium levels were 150 to 164 mEq/L. The average duration of hypernatremia was 2 days (range, 1 to 10 days), with an average onset on day 5.9 +/- 4.3 of the ICU stay. Patients were classified as having a positive solute balance (n = 17; 38%), negative fluid balance (n = 20; 44%), or both (n = 8; 18%). The most important extrarenal factors contributing to hypernatremia were fever (45%) and diarrhea (18%). Polyuria was observed in 38% of patients and 35% had acute renal failure. Hypertonic solutions were administered to 27% of patients.
Retrospective analysis; lack of daily measurement of body weight.
ICU-acquired hypernatremia is associated with multiple factors associated with negative fluid and positive solute balance.
American Journal of Kidney Diseases 06/2009; 54(4):674-9. · 5.43 Impact Factor
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ABSTRACT: This study investigates whether the strong ion gap (SIG) is associated with long-term outcome after cardiac arrest in patients treated with therapeutic hypothermia. The hypothesis of the study was that an elevated SIG was associated with unfavourable outcome after cardiac arrest.
Retrospective review of records from 1995 to 2007 of patients who received cardiopulmonary resuscitation.
Emergency department of a university hospital.
Patients who were successfully resuscitated after cardiac arrest (n = 288) and treated with mild therapeutic hypothermia.
None.
Acid-base variables were calculated according to Stewart's approach, as modified by Figge and Fencl, and were determined immediately on admission and 12 h after the return of spontaneous circulation. Acid-base variables were determined at 37 degrees C and are reported without correction for patient temperature. Differences in SIG were compared between patients with favourable (survival 6 months with cerebral performance category 1 or 2) and unfavourable outcomes. SIG on admission and 12 h after return of spontaneous circulation was higher in patients with unfavourable outcome (n = 151; 52%). SIG 12 h after return of spontaneous circulation was identified as an independent predictor of outcome. A SIG > 8.9 mmol/L was associated with an increased cumulative hazard of death.
An elevated SIG 12 h after return of spontaneous circulation may be associated with unfavourable outcome in patients after cardiac arrest treated with mild therapeutic hypothermia. The unmeasured anions hidden behind an elevated SIG may represent markers of tissue damage.
European Journal of Intensive Care Medicine 10/2008; 35(2):232-9. · 5.17 Impact Factor
