Cerebral vasospasm in patients with traumatic subarachnoid hemorrhage, a possible point of intervention?

OBJECTIVE: To determine the incidence of vasospasm in traumatic brain injury patients with traumatic subarachnoid hemorrhage. METHODS: IRB approval was obtained for this retrospective chart review. An institutional trauma database was queried for adult patients with traumatic brain injury (TBI) and traumatic subarachnoid hemorrhage (tSAH) seen on CT head obtained within 20 days. The presence of vasospasm on CTA was determined by radiology report. Association between categorical background characteristics and intracranial vasospasm was assessed by the chi-square test and association between a continuous variables and intracranial vasospasm was assessed by a paired t-test. RESULTS: 1142 patients with traumatic SAH were identified from the trauma database. 792 patients were excluded: 142 for age <18, 632 did not have CT angiography, and 18 had non-traumatic SAH. 350 patients were analyzed, of which 28 (8 %) had vasospasm. Traumatic vasospasm was associated with higher-grade TBI based on Cochran-Armitage trend test (p < 0.05). Vasospasm patients had longer length of stay in the ICU (mean days 13.64 vs 7.24, P < 0.001), and had a higher incidence of death (39.29 % vs 20.81 %), although this did not reach statistical significance. CONCLUSION: Intracranial vasospasm, specifically in patients with tSAH, is associated with more severe TBI and longer stays in the ICU. Our incidence is smaller compared to other studies likely due to the retrospective nature and the infrequency of obtaining CT angiography after initial presentation. Prospective studies are warranted as the incidence is significant and may represent a point of intervention for TBI.

Early risk stratification of in hospital mortality following a ground level fall in geriatric patients with normal physiological parameters.

BACKGROUND: The purpose of this study was to identify risk factors of mortality for geriatric patients who fell from ground level at home and had a normal physiological examination at the scene. METHODS: Patients aged 65 and above, who sustained a ground level fall (GLF) with normal scene Glasgow Coma Scale (GCS) score 15, systolic blood pressure (SBP) > 90 and <160 mmHg, heart rate ≥ 60 and ≤100 beats per minute) from the 2012-2014 National Trauma Data Bank (NTDB) data sets were included in the study. Patients' characteristics, existing comorbidities [history of smoking, chronic kidney disease (CKD), cerebrovascular accident (CVA), diabetes mellitus (DM), and hypertension (HTN) requiring medication], injury severity scores (ISS), American College of Surgeons' (ACS) trauma center designation level, and outcomes were examined for each case. Risks factors of mortality were identified using bivariate analysis and logistic regression modeling. RESULTS: A total of 40,800 patients satisfied the study inclusion criteria. The findings of the logistic regression model for mortality using the covariates age, sex, race, SBP, ISS, ACS trauma level, smoking status, CKD, CVA, DM, and HTN were associated with a higher risk of mortality (p < .05). The fitted model had an Area under the Curve (AUC) measure of 0.75. CONCLUSION: Cases of geriatric patients who look normal after a fall from ground level at home can still be associated with higher risk of in-hospital death, particularly those who are older, male, have certain comorbidities. These higher-risk patients should be triaged to the hospital with proper evaluation and management.

Low Glasgow Coma Score in Traumatic Intracranial Hemorrhage Predicts Development of Cerebral Vasospasm.

BACKGROUND: The exact mechanism, incidence, and risk factors for cerebral vasospasm after traumatic intracranial hemorrhage (ICH) continue to be poorly characterized. The incidence of post-traumatic vasospasm (PTV) varies depending on the detection modality. OBJECTIVE: We aimed to shed light on the predictors, associations, and true incidence of cerebral vasospasm after traumatic ICH using digital subtraction angiography (DSA) as the gold standard. METHODS: We examined a prospectively maintained database of traumatic brain injury (TBI) patients to identify patients with ICH secondary to TBI enrolled between 2002 and 2015 at our trauma center. Patients with TBI-associated ICH and evidence of elevated velocities on transcranial Doppler and computed tomography angiograms, confirmed with DSA were included. The diagnostic cerebral angiograms were evaluated by 2 blinded neurointerventionalists for cerebral vasospasm. Statistical analyses were conducted to determine predictors of PTV. RESULTS: Twenty patients with ICH secondary to TBI and evidence of vasospasm underwent DSAs. Seven patients (7/20; 35%) with traumatic ICH developed cerebral vasospasm and of those, 1 developed delayed cerebral ischemia (1/7; 14%). Of these 7 patients, 6 presented with subarachnoid hemorrhage (6/7; 85%). Vasospasm was substantially more common in patients with a Glasgow Coma Scale <9 (P = 0.017) than in all other groups. CONCLUSIONS: PTV as demonstrated by DCA may be more common than previously reported. Patients who exhibit PTV were more likely to have a Glasgow Coma Scale <9. This subgroup of patients may benefit from more systematic screening for the development of PTV, and earlier monitoring for signs of delayed cerebral ischemia.

Subdural hematoma as a major determinant of short-term outcomes in traumatic brain injury.

OBJECTIVE Early radiographic findings in patients with traumatic brain injury (TBI) have been studied in hopes of better predicting injury severity and outcome. However, prior attempts have generally not considered the various types of intracranial hemorrhage in isolation and have typically not excluded patients with potentially confounding extracranial injuries. Therefore, the authors examined the associations of various radiographic findings with short-term outcome to assess the potential utility of these findings in future prognostic models. METHODS The authors retrospectively identified 1716 patients who had experienced TBI without major extracranial injuries, and categorized them into the following TBI subtypes: subdural hematoma (SDH), traumatic subarachnoid hemorrhage, intraparenchymal hemorrhage (which included intraventricular hemorrhage), and epidural hematoma. They specifically considered isolated forms of hemorrhage, in which only 1 subtype was present. RESULTS In general, the presence of an isolated SDH was more likely to result in worse outcomes than the presence of other isolated forms of traumatic intracranial hemorrhage. Discharge to home was less likely and perihospital mortality rates were generally higher in patients with SDH. These findings were not simply related to age and were not fully captured by the admission Glasgow Coma Scale (GCS) score. The presence of SDH had a much higher sensitivity for poor outcome than the presence of other TBI subtypes, and was more sensitive for these poor outcomes than having a low GCS score (3-8). CONCLUSIONS In these ways, SDH was the most important finding associated with poor outcome, and the authors show that consideration of SDH, specifically, can augment age and GCS score in classification and prognostic models for TBI.

Triage Patterns of Traumatic Subarachnoid Hemorrhage: Is Referral to a Tertiary Care Center Necessary?

OBJECTIVE: Isolated traumatic subarachnoid hemorrhage (iTSAH) in mild head injuries has more evidence that triage to a tertiary care facility, intensive care unit admission, and repeat imaging is not warranted. Certain factors were identified that predict radiographic and clinical progression in hopes of preventing avoidable cost, which occur with transfer and subsequent management. METHODS: A retrospective analysis identified 67 patients transferred between January 2010 and December 2014 who met inclusion criteria. Primary outcomes assessing neurosurgical intervention, radiographic, and clinical progression were documented. Secondary outcomes included any operative intervention, length of stay, standardized hospital costs, disposition at discharge, and 30-day mortality. RESULTS: The mean age of the cohort was 67.7 ± 16.4 years, with most patients (82.1%) having a Glasgow coma score of 15. Warfarin was used in 10 patients (14.9%), although 55.2% were on an antiplatelet or anticoagulation agent. No patient required neurosurgical intervention. One patient, on clopidogrel (Plavix) and warfarin, neurologically declined with radiographic progression. Older age seem to correlate with radiographic progression (P = 0.05). Dementia (P = 0.05) as well as warfarin use (P = 0.06) correlated with clinical progression. Cost in patients without other injuries was associated with warfarin use (P = 0.0002), injury severity scores (P = 0.01), and initial Glasgow coma score (P = 0.0003) on multivariate analysis. CONCLUSIONS: In this series of patients with mild traumatic brain injury, the rate of neurological deterioration due to expansion of iTSAH in patients is low, regardless of the use of antiplatelets/anticoagulants. Triage to a tertiary care facility generally is not warranted and can prove costly to patients with iTSAH without other injures.

Comprehensive assessment of isolated traumatic subarachnoid hemorrhage.

Recent studies have shown that isolated traumatic subarachnoid hemorrhage (tSAH) in the setting of a high Glasgow Coma Scale (GCS) score (13-15) is a relatively less severe finding not likely to require operative neurosurgical intervention. This study sought to provide a more comprehensive assessment of isolated tSAH among patients with any GCS score, and to expand the analysis to examine the potential need for aggressive medical, endovascular, or open surgical interventions in these patients. By undertaking a retrospective review of all patients admitted to our trauma center from 2003-2012, we identified 661 patients with isolated tSAH. Only four patients (0.61%) underwent any sort of aggressive neurosurgical, medical, or endovascular intervention, regardless of GCS score. Most tSAH patients without additional systemic injury were discharged home (68%), including 53% of patients with a GCS score of 3-8. However, older patients were more likely to be discharged to a rehabilitation facility (p<0.01). There were six (1.7%) in-hospital deaths, and five patients of these patients were older than 80 years old. We conclude that isolated tSAH, regardless of admission GCS score, is a less severe intracranial injury that is highly unlikely to require aggressive operative, medical, or endovascular intervention, and is unlikely to be associated with major neurologic morbidity or mortality, except perhaps in elderly patients. Based upon our findings, we argue that impaired consciousness in the setting of isolated tSAH should strongly compel a consideration of non-traumatic factors in the etiology of the altered neurological status.

Traumatic brain injury in older adults: characteristics, causes and consequences.

INTRODUCTION: Traumatic brain injury is of particular concern in the older population. We aimed to examine the trends in hospitalisations, causes and consequences of TBI in older adults in New South Wales, Australia. METHODS: TBI cases from 1 July 1998 to 30 June 2011 were identified from hospitalisation data for all public and private hospitals in NSW. Direct aged standardised admission rates were calculated. Negative binomial regression modelling was used to examine the statistical significance of changes in trend over time. RESULTS: There were 12,564 hospitalisations for TBI over the 13 year study period. Hospitalisation rates for TBI among the older population increased by 7.2% (95% CI 6.4-8.0, p<.0001) per year from 65.3/100,000 to 151.8/100,000. [corrected]. Males had a consistently higher hospitalisation rate. Just under one third of all hospitalisations were for adults aged 85 years and over. Traumatic subdural haemorrhage (42.9%), concussive injury (24.1%) and traumatic subarachnoid haemorrhage (12.7%) were the most common type of injury. Falls were the most common cause of TBI (82.9%). Rates of fall-related TBI increased by 8.4% (95% CI 7.5-9.3, p<.001) per year, whilst non-fall related head injury increased by 2.1% (95% CI 0.9-3.3, p<.0001) per year. The majority of falls were as a result of a fall on the same level and occurred at home. 13% of hospitalisations resulted in death, and the majority occurred in those who sustained a traumatic subdural haemorrhage. CONCLUSIONS: The rapid increase in hospitalised TBI is being predominantly driven by falls in the oldest old and the greatest increase predominantly in intracranial haemorrhages, highlighting the need for future research to quantify the risk versus benefit of anticoagulant therapies.

Long-term cognitive dysfunction in patients with traumatic subarachnoid hemorrhage: prevalence and risk factors.

BACKGROUND: Cognition had recently been suggested as a supplement to traditional measures of neurological outcome. However, no data were available in the literature on long-term cognitive outcomes in patients with traumatic subarachnoid hemorrhage (tSAH). OBJECTIVE: We explored the long-term cognitive profiles of patients with tSAH who had returned to the community, and the risk factors associated with this event. METHODS: Patients with tSAH were contacted to obtain their consent to participate in the study of cognitive profiles and outcome. Forty-seven (42%) of 111 eligible patients completed all the assessments. RESULTS: Time from ictus to assessment ranged from 3 to 5 years. No difference in patient characteristics was observed between those who participated and those who did not. In patients with tSAH who had returned to the community, domain deficits and cognitive impairment were correlated with the extended Glasgow outcome scale (GOS-E), and were predicted by age and Glasgow coma scale (GCS) on admission. The accuracies of classifications were 79% and 81%, respectively. The number of domain deficits was also correlated with GOS-E, and was predicted by age, GCS on admission, and the extent of tSAH, with a total R (2) value of 50%. CONCLUSIONS: Long-term cognitive dysfunction is common after tSAH. In addition to GCS on admission and follow-up GOS-E, the extent of tSAH is an independent risk factor for the number of cognitive domain deficits that occur.

Incidence, treatment, and case-fatality of non-traumatic subarachnoid haemorrhage in the Netherlands.

BACKGROUND: Non-traumatic subarachnoid haemorrhage (SAH) is a devastating disorder and in the majority of cases it is caused by rupture of an intracranial aneurysm. No actual data are available on the incidence of non-traumatic SAH and aneursymal SAH (aSAH) in the Netherlands and little is known about treatment patterns of aSAH. Our purpose was therefore to assess the incidence, treatment patterns, and case-fatality of non-traumatic (a)SAH within the Dutch general population. METHODS: Two population based data sources were used for this retrospective cohort study. One was the nationwide hospital discharge registry (National Medical Registration, LMR). Cases were patients hospitalized for SAH (ICD-9-code 430) in 2001-2005. The second source was the Integrated Primary Care Information (IPCI) database, a medical record database allowing for case validation. Cases were patients with validated non-traumatic (a)SAH in 1996-2006. Incidence, treatment, and case-fatality were assessed. RESULTS: The incidence rate (IR) of non-traumatic SAH was 7.12 per 100,000 PY (95%CI: 6.94-7.31) and increased with age. The IR of aSAH was 3.78 (95%CI: 2.98-4.72). Women had a twofold increased risk of non-traumatic SAH; this difference appeared after the fourth decade. Non-traumatic SAH fatality was 30% (95%CI: 29-31%). Of aSAH patients 64% (95%CI: 53-74%) were treated with a clipping procedure, and 26% (95%CI: 17-37%) with coiling. CONCLUSION: Non-traumatic SAH is a rare disease with substantial case-fatality; rates in the Netherlands are similar to other countries. Case-fatality is also similar as well as age and sex patterns in incidence.

Symptomatic venous thromboembolism: incidence and risk factors in patients with spontaneous or traumatic intracranial hemorrhage.

OBJECTIVES: The objectives of this study are to determine the incidence of symptomatic venous thromboembolism (VTE) in neurosurgery intensive care unit (NSICU) patients with spontaneous or traumatic intracranial hemorrhage and to identify the common VTE risk factors by injury type. METHODS: This retrospective, single-center cohort study included adult patients admitted to the NSICU between January 2001 and July 2004 with a primary diagnosis of subarachnoid hemorrhage (SAH), intracerebral hemorrhage (ICH), or traumatic brain injury (TBI). Patients and VTE events were identified using ICD-9 codes. All patients received low-dose unfractionated heparin or enoxaparin and intermittent pneumatic compression device. Descriptive statistics were used to describe patient characteristics. RESULTS: The overall incidence of symptomatic VTE was 3.8% (n = 1195). The incidence of VTE was 6.7% in SAH patients (n = 179), 2.9% in ICH patients (n = 516), and 3.8% in TBI patients (n = 500). The most commonly identified risk factors in the three groups were: greater than 40 years of age, immobility due to paresis or restrictions for mechanical ventilation, presumed infection, and presence of indwelling central venous catheter. There was no objective evidence of intracranial bleeding associated with pharmacologic VTE prophylaxis in VTE patients. CONCLUSION: This is the first study to determine symptomatic VTE incidence and to identify common risk factors by injury type in nontumor patients who are not routinely screened with venous duplex ultrasonography but receiving early IPC and LDUH. Further studies are needed to determine the overall incident of symptomatic and nonsymptomatic VTE and independent risk factors for VTE events in NSICU patients.

Traumatic subarachnoid hemorrhage: our current understanding and its evolution over the past half century.

Traumatic brain injury (TBI) is a common cause of morbidity and mortality in the US, especially among the young. Primary injury in TBI is preventable, whereas secondary injury is treatable. As a result, considerable research efforts have been focused on elucidating the pathophysiology of secondary injury and determining various prognosticators in the hopes of improving final outcome by minimizing secondary injury. One such variable, traumatic subarachnoid hemorrhage (tSAH), has been the focus of many discussions over the past half century as numerous clinical studies have shown tSAH to be associated with adverse outcome. Whether the relationship of tSAH with poorer outcome in TBI is merely an epiphenomenon or a result of direct cause and effect is unclear. Some investigators believe that tSAH is merely a marker of severer TBI, while others argue that it directly causes deleterious effects such as vasospasm and ischemia. At the present time, no proven treatment regimen aimed specifically at decreasing the detrimental effects of tSAH exists, although calcium channel blockers traditionally thought to target vasospasm have shown some promises. Given that tSAH may primarily be an early indicator of associated and evolving brain injury, vigilant diagnostic surveillance including serial head CT and prevention of secondary brain damage owing to hypotension, hypoxia and intracranial hypertension may be more cost-effective than attempting to treat potential adverse sequelae associated with tSAH.

[Traumatic subarachnoid hemorrhage: a prospective study of 58 cases]. / Travmatik subaraknoid kanamalar: 58 olguluk prospektif çalisma.

BACKGROUND: We evaluated the prognostic factors in traumatic subarachnoid hemorrhage (tSAH). METHODS: This study was conducted with 58 patients (44 males, 14 females; mean age 39.2; range 17 to 79 years) with tSAH, between 2001 and 2003. The patients who were admitted to the hospital within in the first 6 hours of head injury were included, whereas patients with gun shot wounds, multiple injured patients and postoperative patients were excluded. Fifty-eight patients with tSAH were prospectively followed. The neurological status of the patients and the outcomes were evaluated using Glasgow Coma Scale (GCS) and Glasgow Outcome Scale (GOS), respectively and computed tomography (CT) examinations were done according to the grading criteria by Hijdra and Fisher. RESULTS: The etiology of tSAH included traffic accidents (73%), falls (20%) and others (7%). The GCS scores of patients at admission were mild (9%), moderate (39%) and severe (52%). In the CT scans, the amount and distribution of bleeding was grade 1 (small SAH) in 21 patients, grade 2 (moderate SAH) in 17 patients, and grade 3 (extensive SAH) in 20 patients according to Hijdra grading system and according to Fisher's criteria. The thickness of blood layer was grade 1 (no blood) in 6 patients, grade 2 (bleeding layer less than 1 mm) in 21 patients, grade 3 (bleeding layer more than 1 mm) in 15 patients and grade 4 (ventricular bleeding) in 16 patients. Neurological outcomes of patients were favorable (good recovery or moderate disability) in 59%, and unfavorable (severe disability, persistent vegetative state or death) in 41% according to GOS. CONCLUSION: We have found in our series that the prognosis was poor in patients with poor admission scores of GCS, cysternal or fissural hemorrhage, tSAH with cerebral contusion or acute subdural hematoma, higher than 13 points according to Hidjra's classification and patients of grade 3 or 4 in Fisher's criteria.

Ventricular enlargement after moderate or severe head injury: a frequent and neglected problem.

The primary goal of this study was to determine the incidence of post-traumatic ventriculomegaly (Evans' index > or = 0.30) in 95 head-injured patients with a Glasgow Coma Scale (GCS) score of < or =13 at admission. Additional objectives were to determine the relationship between an increase in ventricular size and several clinical and radiological features and outcome. A planimetric study was carried out in the sequential control computed tomography (CT) scans of 34 moderately head-injured (GCS 9-13) and 61 severely head-injured (GCS 3-8) patients with a minimum follow-up of 2 months. Between two and six CT scans were evaluated in each patient. The presence of subarachnoid hemorrhage (SAH) was registered. Evans' index was determined in all CT scans. In the final CT scan of each patient, ventricular size was related to the admission GCS score, age, the presence of SAH in the initial CT scans, type of brain lesion (classified according to the final diagnosis in the Traumatic Coma Data Bank classification), and outcome. Ventriculomegaly was found in 39.3% of patients with severe head injury and in 27.3% of those with a moderate head injury. Increased ventricular size was evident 4 weeks after injury in 57.6% and 2 months after injury in 69.7%. No relationship was found between post-traumatic ventriculomegaly and age, initial GCS score, the presence of SAH, or type of lesion (focal or diffuse). Post-traumatic ventriculomegaly was significantly correlated with outcome. Post-traumatic ventriculomegaly is a frequent and early finding in patients with moderate or severe traumatic brain injury.

Traumatic subarachnoid hemorrhage on the computerized tomography scan obtained at admission: a multicenter assessment of the accuracy of diagnosis and the potential impact on patient outcome.

OBJECT: The goal of this study was fourfold: 1) to determine the incidence of traumatic subarachnoid hemorrhage (tSAH) in patients with traumatic brain injury (TBI); 2) to verify agreement in the diagnosis of tSAH in a multicenter study; 3) to assess the incidence of tSAH on the outcome of the patient; and 4) to establish whether tSAH itself leads to an unfavorable outcome or whether it is a sign of major brain trauma associated with severe posttraumatic lesions. METHODS: Computerized tomography (CT) scans obtained in 169 head-injured patients on admission to 12 Italian intensive care units during a 3-month period were examined. The scans were collected for neuroradiological review and were used for the analysis together with data from a multicenter database (Neurolink). A review committee found a high incidence of tSAH (61%) in patients with TBI and a moderate agreement among centers (K = 0.57). Significant associations were observed between the presence and grading of tSAH and patient outcomes, and between the presence of tSAH and the severity of the CT findings. Logistic regression analysis showed that the presence of tSAH and its grading alone do not assume statistical significance in the prediction of unfavorable outcome. CONCLUSIONS: Traumatic SAH frequently occurs in patients with TBI, but it is difficult to detect and grade. Traumatic SAH is associated with more severe CT findings and a worse patient outcome.