Monitoring of intracranial pressure in patients with severe traumatic brain injury: an Austrian prospective multicenter study

OBJECTIVE: The goals of this study were to elucidate reasons why patients did or did not receive intracranial pressure (ICP) monitoring and to describe factors influencing hospital mortality after severe traumatic brain injury (TBI). DESIGN: Prospective multicenter cohort study. PATIENTS AND PARTICIPANTS: 88,274 patients consecutively admitted to 32 medical, surgical and mixed Austrian ICUs between 1998 and 2004. INTERVENTIONS: None. MEASUREMENTS AND RESULTS: 1,856 patients (2.1% of all ICU admissions) exhibited severe TBI (GCS < 9); of these, 1,031 (56%) had ICP monitoring. The "worst" and the "best" cases were both less likely to receive ICP monitoring. Younger patients, female patients, and patients with isolated TBI were more likely to receive ICP monitoring. Compared with large centers ICP was monitored more frequently [odds ratio (OR) 3.09, CI 2.42-3.94] in medium-sized centers. The 20% of patients with the highest likelihood to receive ICP monitoring were monitored in 91% of cases, and had the lowest hospital mortality (31%, OR 0.78, CI 0.37-1.64). Multivariate analysis revealed that severity of illness, TBI severity, isolated TBI, and the number of cases treated per year were associated with hospital outcome. Compared with the large centers, ORs for hospital mortality were 1.85 (CI 1.42-2.40) for patients from medium-sized centers and 1.91 (CI 1.24-2.93) for patients from small centers. CONCLUSIONS: ICP monitoring may possibly have some beneficial effects, but this needs further evaluation. Patients with severe TBI should be admitted to experienced centers with high patient volumes since this might improve hospital mortality rates.     

Estimation of optic nerve sheath diameter on an initial brain computed tomography scan can contribute prognostic information in traumatic brain injury patients

Introduction

The aim of this study was to evaluate the prognostic value of optic nerve sheath diameter (ONSD) measured on the initial brain computed tomography (CT) scan for intensive care unit (ICU) mortality in severe traumatic brain injury (TBI) patients.

Methods

A prospective observational study of all severe TBI patients admitted to a neurosurgical ICU (over a 10-month period). Demographic and clinical data and brain CT scan results were recorded. ONSD for each eye was measured on the initial CT scan. The group of ICU survivors was compared to non-survivors. Glasgow Outcome Scale (GOS) was evaluated six months after ICU discharge.

Results

Seventy-seven patients were included (age: 43 ± 18; 81% males; mean Injury Severity Score: 35 ± 15; ICU mortality: 28.5% (n = 22)). Mean ONSD on the initial brain CT scan was 7.8 ± 0.1 mm in non-survivors vs. 6.8 ± 0.1 mm in survivors (P < 0.001). The operative value of ONSD was a good predictor of mortality (area under the curve: 0.805). An ONSD cutoff ≥ 7.3 had a sensitivity of 86.4% and a specificity of 74.6% and was independently associated with mortality in this population (adjusted odds ratio 95% confidence interval: 22.7 (3.2 to 159.6), P = 0.002). There was a relationship between initial ONSD values and six-month GOS (P = 0.03).

Conclusions

ONSD measured on the initial brain CT scan is independently associated with ICU mortality rate (when ≥ 7.3 mm) in severe TBI patients.     

Traumatic brain injury: Association between the Glasgow Coma Scale score and intensive care unit mortality

Background Traumatic brain injury (TBI) prevalence in Botswana is high and this, coupled with a small population, may reduce productivity. There is no previous study in Botswana on the association between mortality from TBI and the Glasgow Coma Scale (GCS) score although global literature supports its existence. Objectives Our primary aim was to determine the association between the initial GCS score and the time to mortality of adults admitted with TBI at the Princess Marina Hospital, Gaborone, Botswana, between 2014 and 2019. Secondary aims were to assess the risk factors associated with time to mortality and to estimate the mortality rate from TBI. Methods This was a retrospective cohort design, medical record census conducted from 1 January 2014 to 31 December 2019. Results In total, 137 participants fulfilled the inclusion criteria, and the majority, 114 (83.2%), were male with a mean age of 34.5 years. The initial GCS score and time to mortality were associated (adjusted hazard ratio (aHR) 0.69; 95% confidence interval (CI) 0.508 - 0.947). Other factors associated with time to mortality included constricted pupil (aHR 0.12; 95% CI 0.044 - 0.344), temperature (aHR 0.82; 95% CI 0.727 - 0.929), and subdural haematoma (aHR 3.41; 95% CI 1.819 - 6.517). Most cases of TBI (74 (54%)) were due to road traffic accidents. The number of deaths was 48 (35% (95% CI 27.1% - 43.6%)), entirely due to severe TBI. Conclusion The study confirmed significant association between GCS and mortality. Males were mainly involved in TBI. These findings lack external validity because of the small sample size, and therefore a larger multicentre study is required for validation. Contributions of the study This study informs the relevant stakeholders in Botswana about sociodemographics, clinical characteristics, management and outcomes of patients admitted to the ICU with severe TBI on the backdrop of scarce ICU resources. It provides a basis for a larger study to inform its external validation.     

The association between field Glasgow Coma Scale score and outcome in patients undergoing paramedic rapid sequence intubation

Early intubation is standard for treating severe traumatic brain injury (TBI). Aeromedical crews and select paramedic agencies use rapid sequence intubation (RSI) to facilitate intubation after TBI, with Glasgow Coma Scale (GCS) score commonly used as a screening tool. To explore the association between paramedic GCS and outcome in patients with TBI undergoing prehospital RSI, paramedics prospectively enrolled adult major trauma victims with GCS 3–8 and clinical suspicion for head trauma to undergo succinylcholine-assisted intubation as part of the San Diego Paramedic RSI Trial. The following data were abstracted from paramedic debriefing interviews and the county trauma registry: demographics, mechanism, vital signs including GCS score, clinical evidence of aspiration before RSI, arrival laboratory values, hospital course, and outcome. Paramedic GCS calculations were confirmed during debriefing interviews. Patients were stratified by GCS score, with chi-square and receiver-operator-curve (ROC) analysis used to explore the relationship between GCS and hypoxia, head injury severity, aspiration, intensive care unit (ICU) length of stay, and outcome. Cohort analysis was used to explore potential reasons for early extubation and discharge from the ICU in some patients. A total of 412 patients were included in this analysis. A total of 81 patients (20%) were extubated and discharged from the ICU in 48 h or less; these patients had higher pre-RSI oxygen saturation (SaO₂) values and higher arrival serum ethanol levels. Paramedic and physician GCS calculations had high agreement (kappa = 0.995). A statistically significant relationship was observed between GCS score and Head Abbreviated Injury Score (AIS), survival, and pre-RSI SaO₂ values. However, ROC analysis revealed a limited ability of GCS to predict the presence of severe TBI, injury severity, desaturation, aspiration, ICU length of stay, or ultimate survival. In conclusion, paramedics seem to accurately calculate GCS values before prehospital RSI. Although a relationship between paramedic GCS and outcome exists, the ability to predict the severity of injury, airway-related complications, ICU length of stay, and overall survival is limited using this single variable. Other factors should be considered to screen TBI patients for prehospital RSI.     

Role of serum S100B as a predictive marker of fatal outcome following isolated severe head injury or multitrauma in males.

BACKGROUND: Severe traumatic brain injury (TBI) is associated with a 30%-70% mortality rate. S100B has been proposed as a biomarker for indicating outcome after TBI. Nevertheless, controversy has arisen concerning the predictive value of S100B for severe TBI in the context of multitrauma. Therefore, our aim was to determine whether S100B serum levels correlate with primary outcome following isolated severe TBI or multitrauma in males. METHODS: Twenty-three consecutive male patients (age 18-65 years), victims of severe TBI [Glasgow Coma Scale (GCS) 3-8] (10 isolated TBI and 13 multitrauma with TBI) and a control group consisting of eight healthy volunteers were enrolled in this prospective study. Clinical outcome variables of severe TBI comprised: survival, time to intensive care unit (ICU) discharge, and neurological assessment [Glasgow Outcome Scale (GOS) at ICU discharge]. Venous blood samples were taken at admission in the ICU (study entry), 24 h later, and 7 days later. Serum S100B concentration was measured by an immunoluminometric assay. RESULTS: At study entry (mean time 10.9 h after injury), mean S100B concentrations were significantly increased in the patient with TBI (1.448 microg/L) compared with the control group (0.037 microg/L) and patients with fatal outcome had higher mean S100B (2.10 microg/L) concentrations when compared with survivors (0.85 microg/L). In fact, there was a significant correlation between higher initial S100B concentrations and fatal outcome (Spearman's =0.485, p=0.019). However, there was no correlation between higher S100B concentrations and the presence of multitrauma. The specificity of S100B in predicting mortality according to the cut-off of 0.79 microg/L was 73% at study entry. Conclusions: Increased serum S100B levels constitute a valid predictor of unfavourable outcome in severe TBI, regardless of the presence of associated multitrauma.     

Therapeutic temperature modulation is associated with pulmonary complications in patients with severe traumatic brain injury

AIM: To examine complications associated with the use of therapeutic temperature modulation(mild hypothermia and normothermia) in patients with severe traumatic brain injury(TBI). METHODS: One hundred and fourteen charts were reviewed. Inclusion criteria were: severe TBI with Glasgow Coma Scale(GCS) 9, intensive care unit(ICU) stay 24 h and non-penetrating TBI. Patients were divided into two cohorts: the treatment group received therapeutic temperature modulation(TTM) with continuous surface cooling and indwelling bladder temperature probes. The control group received standard treatment with intermittent acetaminophen for fever. Information regarding complications during the time in the ICU was collected as follows: Pneumonia was identified using a combination of clinical and laboratory data. Pulmonary embolism, pneumothorax and deep venous thrombosis were identified based onimaging results. Cardiac arrhythmias and renal failure were extracted from the clinical documentation. acute respiratory distress syndrome and acute lung injury were determined based on chest imaging and arterial blood gas results. A logistic regression was conducted to predict hospital mortality and a multiple regression was used to assess number and type of clinical complications. RESULTS: One hundred and fourteen patients were included in the analysis(mean age = 41.4, SD = 19.1, 93 males), admitted to the Jackson Memorial Hospital Neuroscience ICU and Ryder Trauma Center(mean GCS = 4.67, range 3-9), were identified and included in the analysis. Method of injury included motor vehicle accident(n = 29), motor cycle crash(n = 220), blunt head trauma(n = 212), fall(n = 229), pedestrian hit by car(n = 216), and gunshot wound to the head(n = 27). Ethnicity was primarily Caucasian(n = 260), as well as Hispanic(n = 227) and African American(n = 223); four patients had unknown ethnicity. Patients received either TTM(43) or standard therapy(71). Within the TTM group eight patients were treated with normothermia after TBI and 35 patients were treated with hypothermia. A logistic regression predicting in hospital mortality with age, GCS, and TM demonstrated that GCS(Beta = 0.572, P 0.01) and age(Beta =-0.029) but not temperature modulation(Beta = 0.797, ns) were significant predictors of in-hospital mortality [χ2(3) = 22.27, P 0.01] A multiple regression predicting number of complications demonstrated that receiving TTM was the main contributor and was associated with a higher number of pulmonary complications(t =-3.425, P = 0.001). CONCLUSION: Exposure to TTM is associated with an increase in pulmonary complications. These findings support more attention to these complications in studies of TTM in TBI patients.     

Severe Traumatic Brain Injury in Austria V: CT findings and surgical management

OBJECTIVES: The aim of this paper is to describe CT findings and surgical management of patients with severe traumatic brain injury (TBI) in Austria. PATIENTS AND METHODS: Data sets from 415 patients treated by 5 Austrian hospitals were available. The analysis focused on incidence, surgical management, and outcome of different types of intracranial lesions, and outcome of surgical interventions with and without monitoring of intracranial pressure (ICP). For the first analysis we assigned the patients to 16 groups based on the type of lesion as evaluated by CT scan. For the second analysis we created 4 groups based on surgical treatment (yes/no) and ICP monitoring (yes/no). RESULTS: The mean age was 48.9 years with a male to female ratio of 299:116. The most frequent single lesions were contusions (CONT) and diffuse brain edema. Combined lesions were far more common than single lesions; the most frequently observed combinations included CONT and subarachnoid hemorrhage (SAH) with or without subdural hematoma (SDH). Surgery was done in 276 (66.5%) patients. Osteoplastic surgery (OPS; n = 221) was the most common method followed by osteoclastic surgery (OCS; n = 91) and decompressive craniectomy (DEC; n = 15). ICU mortality was 29.7% for all patients who had any kind of surgery, which was lower than that of patients who were treated non-operatively (33.1%). The ICU mortality of patients with SDH was lower with OCS (18.8%) than with OPS (36.0%). Patients who received ICP monitoring but did not require surgery had the lowest 90 day mortality (17.5%). CONCLUSIONS: ICP monitoring seems to be beneficial in both operatively and non-operatively treated patients with severe TBI. Patients with SDH who were operated on had significantly better outcomes. In patients with SDH, their outcome after osteoclastic surgery was significantly better than after osteoplastic procedures.     

Severe Traumatic Brain Injury in Austria IV: Intensive care management

OBJECTIVES: The goal of this paper is to describe the ICU management of severe traumatic brain injury (TBI) in Austria. PATIENTS AND METHODS: Data sets from 415 patients included by 5 Austrian hospitals were available. The analysis focused on complications and outcomes of intensive care, monitoring of intracranial pressure (ICP), efficacy of interventions to control ICP, management of hemodynamics and cerebral perfusion pressure (CPP), ventilation, and effects of hyperglycaemia. RESULTS: Overall ICU mortality was 30.8%; 90-day mortality was 35.7%. Final outcome was favorable in 33%, unfavorable in 51%, and in 16% the final outcome was unknown. An ICP monitoring device was used in 64%; most patients received intraparenchymal sensors (77%). Events associated with mortality > 50% were CPP < 50 mm Hg for > 12 hours/day, ICP > 25 mm Hg for > 12 hours/day, and MAP < 70 mm Hg for > 18 hours/day. The use of ICP monitoring was associated with significantly reduced ICU mortality. Interventions that may have improved the outcome included the use of barbiturates (short-term), hypertonic saline, moderate hyperventilation (33 < pCO2 < 37; p < 0.001 vs. aggressive hyper-and normoventilation), and normothermia. Hyperglycaemia was associated with poor outcome. CONCLUSIONS: Our study showed that ICU management of patients with severe TBI mostly follows international guidelines, and that outcome was comparable to or even better than that reported by other authors. Low CPP was associated with poor outcome, and was more often due to low MAP than to elevated ICP. The use of barbiturates and hypertonic saline was more common than expected. CPP should be maintained > 50 mm Hg, the use of catecholamines, fluid loading, barbiturates (short-term), moderate hyperventilation, hypertonic saline, and insulin may improve outcome after severe TBI.     

Impact of different types of organ failure on outcome in intensive care unit patients with acute kidney injury

PurposeThe aim of this study was to explore the impact of different types of associated organ failure in patients with acute kidney injury (AKI).Materials and MethodsA retrospective analysis of 22 303 adult patients admitted to 22 intensive care units (ICUs) in the United Kingdom and Germany between 1989 and 1999 was done.ResultsA total of 7898 patients (35.4%) had AKI. Intensive care unit mortality was 10.7% in patients without AKI, 20.1% in those with AKI I, 25.9% in those with AKI II, and 49.6% in those with AKI III. Intensive care unit mortality rose with increasing number of associated failed organs and preexisting chronic health problems. Respiratory failure was the most common associated organ failure, followed by cardiovascular failure. Less than 2% of the patients had associated neurologic failure alone, but the associated ICU mortality was higher than with single respiratory or cardiovascular failure. In AKI patients with 2 or more failed organ systems, combined cardiovascular and respiratory failure were most common. In multivariate analysis, associated neurologic or hepatic failure had the strongest impact on ICU outcome. There was little change in ICU mortality but a decrease in the standardized mortality ratio over time.ConclusionsThe prognosis of ICU patients with AKI depended on the total number and types of associated failed organ systems. Respiratory failure was the most common associated organ failure, but neurologic and hepatic failures were associated with the worst prognosis.     

中重度颅脑损伤患者28 d死亡影响因素分析及NLR联合GCS评分对其28 d死亡预测价值

目的 探讨中重度颅脑损伤(traumatic brain injury,TBI)患者28 d死亡影响因素及中性粒细胞与淋巴细胞比值(neutrolphil to lymphocyte ratio,NLR)联合格拉斯哥昏迷量表(Glasgow coma scale,GCS)评分对其28 d死亡预测价值.方法 回顾性分析中...     

Intracranial pressure and jugular venous oxygenation influence on outcome in patients with severe traumatic brain injury

Different criteria are used to predict outcome of TBI including jugular venous oxygenation (SjvO2) and ICP. However, there is no data on their combined use. ICP measure by ophtalmodynamometry (ODM) of central retinal vein (CR V) never was used for outcome prediction. The aim of the study is to assess the effectiveness of combined use of ICP and SjvO2 measures for outcome prediction in patients with severe TBI. 80 cases of severe TBI with GCS score 8 and lower were studied. In addition to the standard monitoring and intensive therapy SjvO2 and ICP by ODM during acute period of TBI were measured. Positive outcome of acute TBI can be predicted if SjvO2 rate ranges from 55% to 75%. Poor outcome can be predicted if SjvO2 rate is lower than 55%. Patients with normal ICP in this group died from secondary intracranial complications and patients with high ICP died from primary and secondary intracranial injury. Patients with high SjvO2 ( > 75%) also have poor prognostic outcome. The main risks for them are extracerebral complications. It is necessary to use complex monitoring that includes ICP and SjvO2 for accurate prediction of the outcome of TBI. ICP should be measured by minimally invasive method.     

Predictors of intensive care unit length of stay and intracranial pressure in severe traumatic brain injury

ObjectiveThe aim of this study was to explore the relationship of intracranial pressure (ICP) with intensive care unit (ICU) length of stay in a large cohort of severe traumatic brain injury patients and identify factors associating with prolonged ICU course.MethodsThis was a single-center database review of de-identified research data that had been prospectively collected; setting: neurosurgical ICU, Ben Taub General Hospital, Houston, TX.ResultsIn a cohort of 438 severe traumatic brain injury (TBI) patients, 149 (34%) had a motor Glasgow Coma Scale score of 1 to 3 on admission and 284 (65%) had 4 to 5. Intracranial pressure during the ICU course was 19.8 ± 11.2 mm Hg. Favorable outcome was obtained in 148 (34%), and unfavorable, in 211 (48%) patients with a mortality of 28%. ICU length of stay (LOS) was 19.4 ± 13.9 days. Joint modeling of ICP and ICU LOS was undertaken, adjusted for the International Mission for Prognosis and Analysis of Clinical Trials in TBI admission prognostic indicators. A higher ICP was not significantly associated with longer ICU LOS (P = .4). However, presence of a mass lesion on admission head computed tomography was strongly correlated with a prolonged ICU LOS (P = .0007). Diffuse injuries with basal cistern compression or midline shift were marginally associated with a longer ICU LOS (P = .053).ConclusionsICP, as monitored and managed according to BTF guidelines, is not associated with ICU length of stay. Patients with severe TBI and a mass lesion on admission head computed tomography were found to have prolonged ICU LOS independently of other indicators of injury severity and intracranial pressure course.     

Prehospital Intubation is Associated with Favorable Outcomes and Lower Mortality in ProTECT III

Objective: Traumatic brain injury (TBI) causes more than 2.5 million emergency department visits, hospitalizations, or deaths annually. Prehospital endotracheal intubation has been associated with poor outcomes in patients with TBI in several retrospective observational studies. We evaluated the relationship between prehospital intubation, functional outcomes, and mortality using high quality data on clinical practice collected prospectively during a randomized multicenter clinical trial. Methods: ProTECT III was a multicenter randomized, double-blind, placebo-controlled trial of early administration of progesterone in 882 patients with acute moderate to severe nonpenetrating TBI. Patients were excluded if they had an index GCS of 3 and nonreactive pupils, those with withdrawal of life support on arrival, and if they had documented prolonged hypotension and/or hypoxia. Prehospital intubation was performed as per local clinical protocol in each participating EMS system. Models for favorable outcome and mortality included prehospital intubation, method of transport, index GCS, age, race, and ethnicity as independent variables. Significance was set at α = 0.05. Favorable outcome was defined by a stratified dichotomy of the GOS-E scores in which the definition of favorable outcome depended on the severity of the initial injury. Results: Favorable outcome was more frequent in the 349 subjects with prehospital intubation (57.3%) than in the other 533 patients (46.0%, p = 0.003). Mortality was also lower in the prehospital intubation group (13.8% v. 19.5%, p = 0.03). Logistic regression analysis of prehospital intubation and mortality, adjusted for index GCS, showed that odds of dying for those with prehospital intubation were 47% lower than for those that were not intubated (OR = 0.53, 95% CI = 0.36–0.78). 279 patients with prehospital intubation were transported by air. Modeling transport method and mortality, adjusted for index GCS, showed increased odds of dying in those transported by ground compared to those transported by air (OR = 2.10, 95% CI = 1.40–3.15). Decreased odds of dying trended among those with prehospital intubation adjusted for transport method, index GCS score at randomization, age, and race/ethnicity (OR = 0.70, 95% CI = 0.37–1.31). Conclusions: In this study that excluded moribund patients, prehospital intubation was performed primarily in patients transported by air. Prehospital intubation and air medical transport together were associated with favorable outcomes and lower mortality. Prehospital intubation was not associated with increased morbidity or mortality regardless of transport method or severity of injury.     

Analyzing risk factors for late posttraumatic seizures: a prospective,multicenter investigation

OBJECTIVES: To ascertain the natural history and to stratify risks for the development of late posttraumatic seizures in individuals with moderate to severe traumatic brain injury (TBI). DESIGN: Prospective, observational study of individuals with TBI admitted to 4 trauma centers within 24 hours of injury. SETTING: Four tertiary care trauma centers in urban areas. PARTICIPANTS: A total of 647 individuals (>/=16 y) with any of the following abnormal computed tomography (CT) scan findings: extent of midline shift and/or cisternal compression or presence of any focal pathology (eg, punctate, subarachnoid, or intraventricular hemorrhage; cortical or subcortical contusion; extra-axial lesions) during the first 7 days postinjury or best Glasgow Coma Scale (GCS) score of 相似文献   

One-year mortality among Danish intensive care patients with acute kidney injury: a cohort study

ABSTRACT: INTRODUCTION: There are few studies on long-term mortality among intensive care unit (ICU) patients with acute kidney injury (AKI). We assessed the prevalence of AKI at ICU admission, its impact on mortality during one year of follow-up, and whether the influence of AKI varied in subgroups of ICU patients. METHODS: We identified all adults admitted to any ICU in Northern Denmark (approximately 1.15 million inhabitants) from 2005 through 2010 using population-based medical registries. AKI was defined at ICU admission based on the risk, injury, failure, loss of kidney function, and end-stage kidney disease (RIFLE) classification, using plasma creatinine changes. We included four severity levels: AKI-risk, AKI-injury, AKI-failure, and without AKI. We estimated cumulative mortality by the Kaplan-Meier method and hazard ratios (HRs) using a Cox model adjusted for potential confounders. We computed estimates for all ICU patients and for subgroups with different comorbidity levels, chronic kidney disease status, surgical status, primary hospital diagnosis, and treatment with mechanical ventilation or with inotropes/vasopressors. RESULTS: We identified 30,762 ICU patients, of which 4,793 (15.6%) had AKI at ICU admission. Thirty-day mortality was 35.5% for the AKI-risk group, 44.2% for the AKI-injury group, and 41.0% for the AKI-failure group, compared with 12.8% for patients without AKI. The corresponding adjusted HRs were 1.96 (95% confidence interval (CI) 1.80-2.13), 2.60 (95% CI 2.38 to 2.85) and 2.41 (95% CI 2.21 to 2.64), compared to patients without AKI. Among patients surviving 30 days (n = 25,539), 31- to 365 day mortality was 20.5% for the AKI-risk group, 23.8% for the AKI-injury group, and 23.2% for the AKI-failure group, compared with 10.7% for patients without AKI, corresponding to adjusted HRs of 1.33 (95% CI 1.17 to 1.51), 1.60 (95% CI 1.37 to1.87), and 1.64 (95% CI 1.42 to 1.90), respectively. The association between AKI and 30-day mortality was evident in subgroups of the ICU population, with associations persisting in most subgroups during the 31- to 365-day follow-up period, although to a lesser extent than for the 30-day period. CONCLUSIONS: AKI at ICU admission is an important prognostic factor for mortality throughout the subsequent year.     

Exploring the guidelines for the management of severe head injury.

A significant improvement in patient outcomes can be achieved by in-hospital interventions aimed at the prevention of secondary brain injury. The Guidelines for the Management of Severe Head Injury is a scientific, evidence-based document that evaluates the current evidence for practice and interventions to reduce secondary brain injury and improve outcome for traumatic brain injury (TBI) patients. The Guidelines covers a wide range of topics including trauma systems, oxygenation and blood pressure resuscitation, intracranial pressure monitoring, intracranial hypertension, nutrition, and pharmacological interventions for the severe TBI patient in the intensive care environment. Head injury care requires an interdisciplinary approach involving emergency room personnel, trauma nurses, and critical care nurses. Critical care nurses will find this document especially applicable because secondary brain injuries are often the result of events that occur in the ICU setting: hypoxemia, hypotension, and intracranial hypertension.     

Prehospital neurologic deterioration is independent predictor of outcome in traumatic brain injury: analysis from National Trauma Data Bank

Background

The prevalence and impact of prehospital neurologic deterioration (PhND) in patients with traumatic brain injury (TBI) have not been investigated. We aimed to determine the prevalence of PhND during emergency medical service (EMS) transportation among patients with TBI and its impact on patient's outcome.

Methods

We used the National Trauma Data Bank, using data files from 2009 to 2010 to identify patients with TBI through International Classification of Diseases, Ninth Revision, Clinical Modification diagnosis codes. The initial Glasgow Coma Scale (GCS) score ascertained at the scene by EMS was compared with the subsequent GCS score evaluation in the emergency department (ED) to identify neurologic deterioration (defined as a decrease in GCS of ≥ 2 points). Patients' demographics, initial injury severity score (ISS), admission GCS score, and hospital outcome were compared between patients with PhND and patients without neurologic deterioration.

Results

A total of 257?127 patients with TBI were identified. Among patients with TBI, 22?254 patients had PhND, which comprised 9% of all patients with TBI. The mean of GCS score decrease during EMS transport was 5 points (± 3). Patients without PhND tended to have higher GCS recorded by EMS (median, 15 vs 12; P < .0001). Patients with TBI who had PhND had significantly higher hospital length of stay and intensive care unit days after adjusting for baseline characteristics and EMS GCS score, EMS transport time, type of injury, presence of intracranial hemorrhages, and ED ISS (P < .0001). These patients had higher rate of in-hospital mortality after adjusting for the same variables (odds ratio, 2.30; 95% confidence interval, 2.18-2.41).

Conclusion

Prehospital neurologic deterioration occurs in 9% of patients with TBI. It is more prevalent in men and associated with lower EMS GCS level and higher ED ISS. Prehospital neurologic deterioration is an independent predictor of worse hospital outcome and higher resource use in patients with TBI.     

A Comparison of Five Simplified Scales to the Out-of-hospital Glasgow Coma Scale for the Prediction of Traumatic Brain Injury Outcomes

Background: The 15-point Glasgow Coma Scale (GCS) frequently is used in the initial evaluation of traumatic brain injury (TBI) in out-of-hospital settings. We hypothesized that the GCS might be unnecessarily complex for out-of-hospital use.
Objectives: To assess whether a simpler scoring system might demonstrate similar accuracy in the prediction of TBI outcomes.
Methods: We performed a retrospective analysis of a trauma registry consisting of patients evaluated at our Level 1 trauma center from 1990 to 2002. The ability of out-of-hospital GCS scores to predict four clinically relevant TBI outcomes (emergency intubation, neurosurgical intervention, brain injury, and mortality) by using areas under receiver operating characteristic curves (AUROCs) was calculated. The same analyses for five simplified scales were performed, and compared with the predictive accuracies of the total GCS score.
Results: In this evaluation of 7,233 trauma patients over a 12-year period of time, the AUROCs for the total GCS score were 0.83 (95% confidence interval [CI] = 0.81 to 0.84) for emergency intubation, 0.86 (95% CI = 0.85 to 0.88) for neurosurgical intervention, 0.83 (95% CI = 0.82 to 0.84) for brain injury, and 0.89 (95% CI = 0.88 to 0.90) for mortality. The five simplified scales approached the performance of the total GCS score for all clinical outcomes.
Conclusions: In the evaluation of injured patients, five simplified neurological scales approached the performance of the total GCS score for the prediction of four clinically relevant TBI outcomes.     

Epidemiology and outcome of acute kidney injury due to venomous animals from a subtropical region of India

Aim: To study the epidemiology and outcome of acute kidney injury (AKI) caused by venomous animals.

Methods: A retrospective study of patients admitted at Indira Gandhi Medical College Hospital, Shimla, with AKI due to venomous animals over a period of 15 years (January 2003–December 2017). Medical records were evaluated for patient information on demographic factors, clinical characteristics, complications, and outcome. Outcomes of requirement for intensive care unit (ICU) support, treatment with dialysis, survival, and mortality were analyzed. The survival and non-survival groups were compared to see the difference in the demographic factors, laboratory results, clinical characteristics, and complications.

Results: One hundred and eighty-one patients were diagnosed with AKI caused by venomous creatures. Mean age was 44?±?15.4 years, and the majority (54.1%) was women. Snakebite (77.9%) and wasp stings (19.9%) were the leading causes of AKI. Clinical details were available in 148 patients. The median duration of arrival at hospital was two days. 81.8% had oliguria, and 54.7% had a history of hematuria or having passed red or brown colored urine. The hematological and biochemical laboratory abnormalities were as follows: anemia (75%), leukocytosis (75.7%), hyperkalemia (35.8%), severe metabolic acidosis (46.6%), hepatic dysfunction (54.7%), hemolysis (85.8%), and rhabdomyolysis (65.5%). Main complications were as follows: gastrointestinal bleed (9.5%), seizure/encephalopathy (10.8%), and pneumonia/acute respiratory distress syndrome (ARDS) (11.5%). 82.3% of the patients required dialysis. 154 (85.1%) patient survived, and 27 (14.9%) patients died. As compared to the survival group, the white blood cell count, serum bilirubin, aspartate aminotransferase, alanine aminotransferase, creatine kinase, and lactate dehydrogenase were significantly higher, and serum albumin levels were significantly lower in patients who died. The proportion of patients with leukocytosis, hyperkalemia, metabolic acidosis, pneumonia/ARDS, seizure/encephalopathy, need for ICU support, and dialysis was significantly higher in patients who died.

Conclusions: Snakebite and multiple Hymenoptera stings (bees and wasps) were the leading causes of AKI due to venomous animals. AKI was severe, a high proportion required dialysis, and the mortality was high.     

Effect of acute kidney injury on weaning from mechanical ventilation in critically ill patients

OBJECTIVES: Acute kidney injury (AKI) worsens outcome in various scenarios. We sought to investigate whether the occurrence of AKI has any effect on weaning from mechanical ventilation. DESIGN AND SETTING: Observational, retrospective study in a 23-bed medical/surgical intensive care unit (ICU) in a cancer hospital from January to December 2003. PATIENTS: The inclusion criterion was invasive mechanical ventilation for > or =48 hrs. AKI was defined as at least one measurement of serum creatinine of > or =1.5 mg/dL during the ICU stay. Patients were then separated into AKI and non-AKI patients (control group). The criterion for weaning was the combination of positive end-expiratory pressure of < or =8 cm H2O, pressure support of < or =10 cm H2O, and Fio2 of < or =0.4, with spontaneous breathing. The primary end point was duration of weaning and the secondary end points were rate of weaning failure, total length of mechanical ventilation, length of stay in the ICU, and ICU mortality. RESULTS: A total of 140 patients were studied: 93 with AKI and 47 controls. The groups were similar in regard to age, sex, and type of tumor. Diagnosis of acute lung injury/acute respiratory distress syndrome as cause of respiratory failure and Simplified Acute Physiology Score II at admission did not differ between groups. During ICU stay, AKI patients had markers of more severe disease: increased occurrence of severe sepsis or septic shock, higher number of antibiotics, and longer use of vasoactive drugs. The median (interquartile range) duration of mechanical ventilation (10 [6-17] vs. 7 [2-12] days, p = .017) and duration of weaning from mechanical ventilation (41 [16-97] vs. 21 [7-33.5] hrs, p = .018) were longer in AKI patients compared with control patients. Cox regression analysis demonstrated that a > or =85% increase in baseline serum creatinine (hazard rate, 2.30; 95% confidence interval, 1.30-4.08), oliguria (hazard rate, 2.51; 95% confidence interval, 1.24-5.08), and the number of antibiotics (hazard rate, 2.64; 95% confidence interval, 1.51-4.63) predicted longer duration of weaning. The length of ICU stay and ICU mortality rate were significantly greater in the AKI patients. After adjusting for Simplified Acute Physiology Score II, oliguria (odds ratio, 30.8; 95% confidence interval, 7.7-123.0) remained as a strong risk factor for mortality. CONCLUSION: This study shows that renal dysfunction has serious consequences in the duration of mechanical ventilation, weaning from mechanical ventilation, and mortality in critically ill cancer patients.