Course of lactate, pH and base excess for prediction of mortality in medical intensive care patients

Introduction As base excess had shown superiority over lactate as a prognostic parameter in intensive care unit (ICU) surgical patients we aimed to evaluate course of lactate, base excess and pH for prediction of mortality of medical ICU patients. Materials and methods For lactate, pH and base excess, values at the admission to ICU, at 24 ± 4 hours, maximum or minimum in the first 24 hours and in 24–48 hours after admission were collected from all patients admitted to the Medical ICU of the University Hospital Tübingen between January 2016 until December 2018 (N = 4067 at admission, N = 1715 with ICU treatment > 48 h) and investigated for prediction of in-hospital-mortality. Results Mortality was 22% and significantly correlated with all evaluated parameters. Strongest predictors of mortality determined by ROC were maximum lactate in 24 h (AUROC 0.74, cut off 2.7 mmol/L, hazard ratio of risk group with value > cut off 3.20) and minimum pH in 24 h (AUROC 0.71, cut off 7.31, hazard ratio for risk group 2.94). Kaplan Meier Curves stratified across these cut offs showed early and clear separation. Hazard ratios per standard deviation increase were highest for maximum lactate in 24 h (HR 1.65), minimum base excess in 24 h (HR 1.56) and minimum pH in 24 h (HR 0.75). Conclusion Lactate, pH and base excess were all suitable predictors of mortality in internal ICU patients, with maximum / minimum values in 24 and 24–48 h after admission altogether stronger predictors than values at admission. Base excess and pH were not superior to lactate for prediction of mortality.

Association Between Base Excess and Mortality Among Patients in ICU With Acute Kidney Injury

Objective: This study aimed to explore the association between base excess (BE) and the risk of 30-day mortality among patients with acute kidney injury (AKI) in the intensive care unit (ICU).Methods: This retrospective study included patients with AKI from the Medical Information Mart for Intensive Care (MIMIC)-IV database. We used a multivariate Cox proportional-hazards model to obtain the hazard ratio (HR) for the risk of 30-day mortality among patients with AKI. Furthermore, we utilized a Cox proportional-hazard model with restricted cubic splines (RCS) to explore the potential non-linear associations.Results: Among the 14,238 ICU patients with AKI, BE showed a U-shaped relationship with risk of 30-day mortality for patients with AKI, and higher or lower BE values could increase the risk. Compared with normal base excess (−3~3 mEq/L), patients in different groups (BE ≤ −9 mEq/L, −9 mEq/L < BE ≤ −3 mEq/L, 3 mEq/L < BE ≤ 9 mEq/L, and BE > 9 mEq/L) had different HRs for mortality: 1.57 (1.40, 1.76), 1.26 (1.14, 1.39), 0.97 (0.83, 1.12), 1.53 (1.17, 2.02), respectively. The RCS analyses also showed a U-shaped curve between BE and the 30-day mortality risk.Conclusion: Our results suggest that higher and lower BE in patients with AKI would increase the risk of 30-day mortality. BE measured at administration could be a critical prognostic indicator for ICU patients with AKI and provide guidance for clinicians.

Comparison of Phenylephrine and Ephedrine in the Treatment of Hypotension and Its Effects on the Foetus after Subarachnoid Block for Caesarean Section

BACKGROUND Subarachnoid block has been widely used for caesarean sections and is found to be safe. Hypotension being the most common complication may adversely affect both the mother and foetus. Different measures used to treat this hypotension include preloading with crystalloids/colloids and treatment with vasopressors. The standard choice of vasopressor agents such as ephedrine and phenylephrine is still a controversial issue. It is therefore important to compare the efficacy of the two drugs in the prevention and treatment of maternal hypotension after subarachnoid block and particularly assess their effect on the foetus. The purpose of this study was to assess and compare the foetal acid-base status and APGAR score following administration of bolus dose of ephedrine or phenylephrine that was given intravenously for maintenance of arterial blood pressure during lower segment caesarean section (LSCS) under a subarachnoid block. METHODS 100 parturients (18 to 35 years) scheduled for elective caesarean section under subarachnoid block were selected and divided into two groups of 50 each. Group P received 50 mcg i.v bolus of phenylephrine and Group E received 6 mg of ephedrine IV bolus whenever the blood pressure dropped 20 % from baseline or systolic blood pressure ˂ 90 mmHg. Haemodynamic parameters were measured in all patients. APGAR scores at 1 and 5 minutes following delivery of baby were assessed and cord blood was obtained for acid-base status analysis immediately following delivery. RESULTS Hemodynamic parameters including heart rate, systolic blood pressure, diastolic blood pressure, and mean arterial pressure did not show any significant difference between the two groups, however, Group E showed higher heart rates. The difference in umbilical artery pH (P-value < 0.001) and base excess (P-value = 0.004) was statistically significant with Group E showing lower pH and higher base excess values than Group P. There was no statistically significant difference in neonatal APGAR scores between the two groups. CONCLUSIONS Phenylephrine and ephedrine are equally efficient in managing hypotension during subarachnoid block for caesarean delivery. Thus, either vasopressor can be used although phenylephrine may be a better choice. KEY WORDS Caesarean Section, Phenylephrine, Ephedrine.

Predictors of Non-invasive Ventilation Response Do Not Indicate Response to High Flow Nasal Oxygen: A Bicentric Observational Study.

BackgroundIn patients receiving high flow nasal oxygen (HFNO), predicting chance of response is crucial in order to avoid unnecessary delay of intubation. Whether commonly used predictors of non-invasive ventilation (NIV) response may be as applicable for HFNO, is unclear.MethodsWe conducted a retrospective bi-centric analysis of adults treated with HFNO in two Austrian medical intensive care units from 01/2014 until 09/2017. Predictive value of respiratory rate, PaO2, PaCO2, SpO2, ROX index, pH, heart rate, base excess, SOFA-Score and SAPS III was analysed by means of logistic regression with HFNO responding as dependent variable. Calculations were also done separately in patients receiving HFNO as post-extubation support (Group A) and all other indications (Group B). ResultsWe registered 127 patients (m:f = 70:57, median age: 67 [IQR 53-77] years). Forty-eight patients (37.8%) received HFNO as post-extubation support and were assigned to group A. Seventy-nine patients (62.2%) received HFNO due to any other indication and were assigned to group B. Criteria of HFNO response were fulfilled by 42 patients (87.5%) of group A and 53 (67.1%) of group B patients.Whereas respiratory rate, PaO2, PaCO2, SpO2, pH, heart rate, base excess, SOFA-Score and SAPS III did not differ between responders and non-responders, ROX index showed significant association with HFNO success in all patients. With increasing ROX index, the odds for response increased (OR [95% CI]: baseline: 1.21 [1.05, 1.38], p = 0.0069, after 2 hours: 1.19 [1.05; 1.34], p = 0.0061, after 6 hours: 1.23 [1.06; 1.42], p = 0.0049). Subgroup analyses revealed similar odds ratios for ROX index (baseline: group A: 1.17 [0.90; 1.52], p = 0.24; group B: 1.22 [1.04; 1.43], p = 0.015; after 2 hours: 1.30 [0.94; 1.82], p = 0.12, group B: 1.18 [1.03; 1.34], p = 0.014; after 6 hours: 1.76 [1.01; 3.06], p = 0.047, group B: 1.19 [1.03; 1.37], p = 0.022). ConclusionsCriteria of HFNO success deviate from criteria for response to NIV. ROX index indicated HFNO response in a wide range of indications.

58 Relationship Between Early Laboratory Measures and Neurological Injury in Neonates Undergoing Therapeutic Hypothermia

Primary Subject area Neonatal-Perinatal Medicine Background Hypoxic-ischemic encephalopathy (HIE) is a major contributor to morbidity and mortality. Therapeutic hypothermia (TH) is the standard of care for neonates with moderate to severe HIE. Brain magnetic resonance imaging (MRI) is the imaging modality of choice for confirmation of HIE, assessment of injury severity, and prognostication. Reliable, inexpensive and widely available laboratory measures for early identification of risk for neurological injury can play a critical role in the optimal management of neonatal HIE, especially in the resource-limited setting. Our study examined whether derangements in early routine laboratory measures (acid-base, haematological, metabolic) were worse in neonates with MRI findings of neurological injury. Objectives Primary objective: To evaluate the role of early laboratory measures in predicting neurological injury as detected by MRI at 72 hours. Secondary objective: To evaluate the role of early laboratory measures in predicting survival to NICU discharge in patients with HIE. Design/Methods This single-centre, retrospective cohort study included neonates ≥ 35 weeks gestation with moderate to severe HIE, who had undergone therapeutic hypothermia. Based on findings of brain MRI completed within 72 hours of life, our cohort was divided into 2 groups: neonates with, and without, evidence of neurological injury consistent with HIE. Baseline characteristics, as well as laboratory measures, were compared between groups, and a receiver operating characteristic (ROC) curve analysis was conducted to determine the cut-off for prediction of neurological injury based on the highest sensitivity and specificity values. Results 104 neonates were analyzed. Baseline characteristics (Table 1) were similar between both groups, except for cord venous pH and base excess (BE), which were significantly lower in the abnormal MRI group (p = 0.02). In bivariate analysis, pH (at 1 h of age, p = 0.027), BE (at 1 h, p = 0.001, and 6 h of age, p = 0.004), ionized calcium (at 6 h of age, p = 0.02), and platelets (at 1 h of age, p = 0.004) were significantly different in neonates with abnormal MRI. In ROC curve analysis, BE at 1 h of life was the best predictor of abnormal MRI (AUC = 0.71, p = 0.002), with a cut-off value of ≤ -14.95, sensitivity of 67% and specificity of 66% (Figure 1). Conclusion Among neonates with HIE undergoing TH, early laboratory measures such as acid-base status, ionized calcium, and platelet count were worse in neonates with abnormal MRI, in comparison to neonates with normal MRI. Base excess at 1 h of life is a good predictor of abnormal MRI. Future prospective studies to validate these findings are needed

Electrolyte Concentrations and Blood Gas Values in Neonatal Calves With Diarrhea

Portable blood analyzers, which recently have been introduced to veterinary medicine, can facilitate immediate identification of sick calves in livestock farms. However, no appropriate standard values exist for neonatal calves; therefore, reference values for adult cattle guide diagnosis and treatment of newborn calves. Our goal was to determine electrolyte, blood chemistry, and blood gas values from healthy calves and compare them to those for diarrheic calves, thus providing useful information for diagnosis and prognosis. We evaluated 193 calves (£1 month old), including those with (n = 88) and without diarrhea (n = 105), using two-tailed, independent t tests after determining normality (Shapiro−Wilk test). Electrolyte measurements in the diarrheic calves included significant decreases in sodium and significant increases in potassium, chloride, and blood urea nitrogen. Strong ion difference (SID), pH, bicarbonate, partial pressure of carbon dioxide, and base excess (BE) were significantly lower in the diarrheic calves (p < 0.001); the anion gap (AG) was significantly higher among diarrheic calves aged 1-10 days (p < 0.001) compared to healthy calves. Our results demonstrate that SID, pH, bicarbonate, and BE correlated strongly with metabolic acidosis, suggesting that these indicators, including AG, can be important tools for evaluating calves’ health status and for providing useful information to diagnose diarrhea.