Correlation between the skull base fracture and the incidence of intracranial hemorrhage in patients with traumatic brain injury

Purpose: A head injury (HI) may cause a skull fracture, which may or may not be associated with injury to the brain. In essence, a skull base fracture (SBF) is a linear fracture at the base of the skull. Loss of consciousness and Glasgow coma score (GCS) may vary depending on an associated intracranial pa thology. The pathomechanism is believed to be caused by high energy impact directly to the mastoid and supraorbital bone or indirectly from the cranial vault. Aim of this study is to define the correlation be tween SBF and intracranial hemorrhage (ICH) in patients with HI. Methods: Analysis of data obtained from a retrospective review of medical records and from a system atized database pertaining to diagnostic criteria of SBF patients based only on clinical symptoms asso ciated with ICH caused by HI treated in the Department of Neurosurgery at Dr. Hasan Sadikin Hospital, Bandung, Indonesia from January 1, 2012 to December 31, 2017. The exclusion criteria included age less than 15 years and no head computed tomography (CT) scan examination provided. Results: A total of 9006 patients were included into this study in which they were divided into 3 groups: group 1, HI with no ICH; group 2, HI with single ICH and group 3, HI with multiple ICH. In all the SBF cases, SBF at anterior fossa accounted for 69.40% of them, which were mostly accompanied with mild HI (64.70%). Severity of HI and site of SBF correlated with the existence of traumatic brain lesions on CT scan, thus these factors were able to predict whether there were traumatic brain lesions or not. Most of the patients with epidural hemorrhage (EDH) has single traumatic lesion on CT scan, whereas most of the patients with cerebral contusion (CC) has multiple traumatic lesions on CT scan. On patients with both traumatic brain injury and SBF, most of the patients with anterior fossa SBF has EDH; whereas most of the patients with middle fossa SBF were accompanied with CC. Surgery was not required for most of the patients with SBF. Conclusion: SBFs were strongly correlated with traumatic ICH lesions patients with anterior fossa SBF were more likely to suffer EDH whereas with middle fossa SBF were more likely to suffer CC.     

A comparative study between Marshall and Rotterdam CT scores in predicting early deaths in patients with traumatic brain injury in a major tertiary care hospital in Nepal

Purpose: CT plays a crucial role in the early assessment of patients with traumatic brain injury (TBI). Marshall and Rotterdam are the mostly used scoring systems, in which CT findings are grouped differently. We sought to determine the values of the scoring system and initial CT findings in predicting the death at hospital discharge (early death) in patients with TBI. Methods: There were consecutive 634 traumatic neurosurgical patients with mild-to-severe TBI admitted to the emergency department of College of Medical Sciences. Their initial CT and status at hospital discharge (dead or alive) were reviewed, and both CT scores were calculated. We examined whether each score is related to early death; compared the two scoring systems'' performance in predicting early death, and identified the CT findings that are independent predictors for early death. Results: Both imaging score (Marshall) and clinical score (Rotterdam) can be used to reliably predict mortality in patients with acute traumatic brain injury with high prognostic accuracy. Other specific CT characteristics that can be used to predict early mortality are traumatic subarachnoid hemorrhage, midline shift and status of the peri-mesencephalic cisterns. Conclusions: Marshall CT classification has strong predictive power, but greater discrimination can be obtained if the individual CT parameters underlying the CT classification are included in a prognostic model as in Rotterdam score. Consequently, for prognostic purposes, we recommend the use of individual characteristics rather than the CT classification. Performance of CT models for predicting outcome in TBI can be significantly improved by including more details of variables and by adding other variables to the models.     

Delayed Progression of Edema Formation Around a Hematoma Expressing High Levels of VEGF and MMP-9 in a Patient With Traumatic Brain Injury: Case Report

The mechanisms accounting for the development of tissue damage following traumatic brain injury (TBI) have been studied for several decades. A variety of mediators, such as vascular endothelial growth factor (VEGF) and matrix metalloproteinase-9 (MMP-9), which play a crucial role in edema formation after TBI, have been identified. We experienced a case of brain edema that progressed continuously at least until 13 days after head injury. The brain edema occurred around the hemorrhage from an intracerebral contusion. The evacuated hematoma was investigated based on the inference that the unexpected expansion of edema was induced by the mediators within the hematoma itself. A 64-year-old woman was admitted to our hospital following a traffic injury. Left brain contusion was revealed by head computed tomography (CT) on admission. Three hours later, formation of an intracerebral hematoma became evident. Serial CT examination revealed that brain edema had developed progressively till 13 days after the injury. A hematoma removal operation was performed on Day 13. The hematoma was centrifuged and the supernatant was analyzed for the expression of VEGF and MMP-9. The values of both (4400 pg/ml and 920 ng/ml, respectively) were extremely high compared with values reported previously in serum and cerebrospinal fluid collected from patients with intracranial infection or injury. This case suggested that the delayed exacerbation of edema following traumatic intracranial hemorrhage was possibly induced by secretory factors such as VEGF and MMP-9 released from within and around the hematoma.     

Serum cleaved tau protein and traumatic mild head injury: a preliminary study in the Thai population

Purpose

To determine the correlation between serum cleaved tau protein and traumatic mild head injury (MHI) (GCS 13–15).

Methods

A prospective observational study was conducted. Blood specimens from 12 healthy persons and 44 adult patients with traumatic MHI were collected in the emergency department to measure the cleaved tau protein level using a Human Tau phosphoSerine 396 ELISA kit. A brain computed tomography (CT) scan was done in all patients. The serum cleaved tau protein level was considered positive at a cut-off point of 0.1 pg/ml. An intracranial lesion was defined as any abnormality detected by brain CT scan.

Results

The mean age of the traumatic MHI patients was 34.9 ± 15.6 years (range 15–74). The median GCS was 15. The median time from injury to arrival at the emergency department was 30 min. There were 11 intracranial lesions detected by brain CT scan (25.0 %). Serum cleaved tau protein was not detected in either healthy or traumatic MHI patients.

Conclusion

As it was uncorrelated with traumatic MHI, serum cleaved tau protein proved to be an unreliable biomarker to use in the early detection of and decision-making for traumatic MHI patients at the emergency department.     

The utility of a second head CT scan after a negative initial CT scan in head trauma patients on new direct oral anticoagulants (DOACs)

BackgroundNew direct oral anticoagulants (DOACs) are commonly used in the management of atrial fibrillation and VTE. Currently, there is no strong evidence to support the current practice of routinely repeating computed tomography (CT) head in anticoagulated patients within 24 hours after their first negative CT scan to assess for new and delayed intracranial hemorrhage (ICH). Our hypothesis is that the vast majority will not have new CT scan findings of ICH and those who do would not require any further intervention.MethodsThis is retrospective cohort study. IRB approval was obtained. Subjects included adults age ≥ 18 taking DOACs who presented to our level III trauma center with confirmed or suspected blunt head trauma between August 2013 and October 2019 and received at least one head CT scans.Results498 Patient encounters met inclusion criteria. Only 19 patients (3.8%) had positive traumatic ICH on the initial CT head. Those had a higher ISS. 420 out of 479 initial negative CT encounters received a second CT head. Only 2 (0.5%) had delayed positive second CT scan for ICH. 95%CI [0.06%, 1.7%] Patients who developed a new ICH on the second CT head after an initial negative CT scan had a lower Glasgow Coma Scale (GCS) on presentation and a higher ISS. None of those patients required neurosurgical interventionConclusionOur data suggests that the risk of developing a new or delayed traumatic ICH for patients on DOAC on a second CT head within 24 hours following an initial negative CT is very low and when present did not require neurosurgical intervention and thus does not support routinely obtaining a repeat CT head within 24 hours after a negative initial CT scan. Patients presenting with lower GCS and higher ISS had a higher chance of having a delayed ICH.     

Effects of recombinant activated factor VII in traumatic nonsurgical intracranial hemorrhage

OBJECTIVE: To determine whether treatment with recombinant activated factor VII (rFVIIa) will prevent progression of bleeding in nonsurgical hemorrhagic traumatic brain injury (TBI). METHODS: Chart review from the trauma registry of a level 1 trauma center between January 1, 2002 and December 31, 2004 identified 2 patients who received rFVIIa for progressive hemorrhagic TBI. These patients were given a single dose of rFVIIa (120 mcg/kg) after a repeat head computed tomography (CT) scan showed worsening of intracranial bleeding. Pre-rFVIIa and post-rFVIIa coagulation parameters and postintervention CT scans were performed. A matched convenience sample was drawn from the institution's trauma registry reflecting similar injury patterns. RESULTS: The 2 patients who received rFVIIa were ages 61 and 79 years; the patients in the matched convenience sample were 57 and 63 years. Both sets of patients comprised 1 man and 1 woman who had suffered blunt trauma, including hemorrhagic TBI, and were matched according to age, gender, and injury severity score (ISS). During their hospital course, repeat CT scans documented worsening of intracranial hemorrhage in both cohorts. In the rFVIIa patients, follow-up CT showed overall improvement of head injury compared with the convenience sample. The rFVIIa patients also saw an appreciable decrease in both prothrombin time (PT) and international normalized ratio (INR). CONCLUSIONS: In hemorrhagic TBI, rFVIIa has the potential to limit or even halt the progression of bleeding that would otherwise place growing pressure on the brain. A prospective, randomized multicenter trial is planned to elucidate this hypothesis.     

Decompressive craniectomy in trauma patients with severe brain injury

Decompressive craniectomy in the treatment of severe traumatic brain injury (TBI) is controversial. We conducted a retrospective review of prospectively collected data on all patients requiring surgery for TBI from 1995 through 2001 at Cedars-Sinai Medical Center. Patients were separated into two groups: Group A, craniectomy, and Group B, craniotomy. We had 120 patients; 24 (20%) had craniectomy and 96 (80%) had craniotomy. There were no significant differences in demographics or Injury Severity Scores. The craniectomy group had significantly more TBI as evidenced by more frequently collapsed basilar cisterns on CT scan (P = 0.0001). There was no significant difference in actuarial survival between the groups: 52.8 per cent in the craniectomy group and 79.2 per cent in the craniotomy group (P = 0.08). Calculated mortality for craniectomy was 37.5 per cent versus 18.8 per cent for craniotomy (P = NS). We found four preoperative findings to be significant predictors of mortality: 1) Glasgow Coma Scale score, 2) Injury Severity Score, 3) Simplified Acute Physiology Score, and 4) Acute Physiology and Chronic Health Evaluation II. The type of surgery was not found to be a significant predictor of death even when adjusted for severity of injury. Craniectomy may be helpful for patients with TBI associated with preoperative CT scan evidence of basilar cistern collapse. This is evidenced by similar survival rates between the two groups despite clinical evidence of greater TBI among craniectomy patients.     

No exacerbation of perihematomal edema with intraclot urokinase in patients with spontaneous intracerebral hemorrhage

Background

Perihematomal edema (PHE) can worsen patient outcomes after spontaneous intracerebral hemorrhage (ICH). Minimally invasive surgery (MIS) in combination with thrombolytic removal of hematoma has been proven to be a promising treatment strategy. However, preclinical studies have suggested that intraclot thrombolysis may exacerbate PHE after ICH. Herein, we investigated the effects of MIS and urokinase on PHE.

Methods

ICH patients were retrospectively identified from our institutional ICH database. Computerized volumetric analysis was applied to assess changes in both ICH and PHE volumes using computed tomographic (CT) scans of T₁ (pre-MIS) and T₂ (post-MIS) time points. Relative PHE (rPHE) was calculated as a ratio of PHE and T₁ ICH volume.

Results

Data from 60 MIS plus urokinase (MIS + U), 20 MIS aspiration only (MO), and 30 control patients were analyzed. The ICH volume, PHE volume and rPHE on T₂ CT in both MIS + U and MO groups significantly decreased as compared with the control group (ICH volume, 13.7?±?5.7 ml, 17.0?±?10.5 ml vs. 30.5?±?10.3 ml, P?vs. 45.4?±?16.0 ml, P?P?2 trended towards similarity, but was not significant (P?=?0.09, P?=?0.40, P?=?0.43). Furthermore, we found a significant correlation between the percent of ICH removal and PHE reduction (r?=?0.59, P?2 PHE volume (r?=?0.19; P?=?0.16) or T₂ rPHE (r?=?-0.12; P?=?0.37).

Conclusions

Hematoma evacuation using MIS leads to a significant reduction in PHE. Furthermore, the use of urokinase does not exacerbate PHE, making its hypothesized proedematous effects unlikely when the thrombolytic is administered directly into the clot.     

Traumatic brain injuries in a well-defined population: epidemiological aspects and severity

The aim was to describe epidemiological and medical aspects of 449 cases of traumatic brain injury (TBI) from a well-defined geographical area with a population of 137,000 inhabitants. An episode of disturbed consciousness was a prerequisite for inclusion in the study. The incidence of TBI was 354/100,000 inhabitants. Median age was 23 years, range 0-91 years; 55% were men and 45% were women; 33% children 0-14 years, 50% adults 15-64 years, and 17% elderly persons 65-91 years old. Severity classification was based on Glasgow Coma Scale (GCS) on arrival; mild TBI 97% (GCS 13-15), moderate 1% (GCS 9-12), and severe 2% (GCS 3-8). The most common injury events were falls (55%) and vehicle-related events (30%). The percentage of falls was high among children and elderly persons but among adults vehicle-related injury events were also prominent. At least 17% of all patients were under the influence of alcohol, especially adult male bicyclists. CT was performed on 163 cases (36%) revealing 34 cases with intracranial hemorrhage (ICH) which is 21% of the examined or 8% of all the injured. The rate of ICH increased with increasing age (from 3% among children to 17% among the elderly persons) and also increased with decreasing GCS from 6% in the group of mild TBI to 60% among those with severe TBI. Attention should be directed to acute management of mild TBI in order to detect potentially dangerous ICH as well as to preventive actions against falls and vehicle related accidents.     

Antithrombin treatment in patients with traumatic brain injury: a pilot study

This study will determine if early administration of antithrombin concentrate to patients with traumatic brain injury (TBI) can inhibit or significantly shorten the time of coagulopathy. The progress of brain injury monitored by computed tomographic scan (CT) was also assessed, as was the time needed for intensive care and outcome related to Glasgow outcome scale (GOS). Twenty-eight patients with isolated brain trauma verified with CT were included in either of two parallel groups. The Glasgow coma score (GCS) was mean 7.5, and median 7.0; signifying a moderate to severe traumatic brain injury but with a mortality of only 3.5%. The patients randomized to antithrombin treatment received a total of 100 U/kg BW during 24 hours. To measure hypercoagulability, soluble fibrin (SF), D-dimer (D-d), and thrombin-antithrombin complex (TAT) were assessed together with antithrombin (AT) and routine coagulation tests. Before treatment, SF, D-d, and TAT were markedly increased in both groups. Soluble fibrin and D-dimer (measured after treatment began) appeared to decrease faster in the AT group, and there was a statistically significant difference between the groups at 36 hours for SF and at 36 hours, 48 hours, and at Day 3 for D-d. Thrombin-antithrombin complex levels were very high in both groups but, surprisingly, showed no significant difference between the groups. The authors conclude that antithrombin concentrate administered to patients with severe TBI resulted in a marginal reduction of hypercoagulation. We could not detect any obvious influence by antithrombin on brain injury progress, on CT, or on outcome or time needed for intensive care.     

Is repeated head computed tomography necessary for traumatic intracranial hemorrhage?

This study was performed to determine the need for repeat head computed tomography (CT) in patients with blunt traumatic intracranial hemorrhage (ICH) who were initially treated nonoperatively and to determine which factors predicted observation failure or success. A total of 1,462 patients were admitted to our level II trauma center for treatment of head injury. Seventeen per cent (255/1,462) were diagnosed with ICH on initial head CT. Craniotomy was initially performed in 15.7 per cent (40/255) of patients with ICH. Two hundred sixteen patients with ICH were initially observed. Ninety-seven per cent (179/184) of observed patients with ICH and repeat head CT never underwent a craniotomy, 2.7 per cent (5/184) of patients with ICH initially observed underwent craniotomy after repeat head CT, and four patients (80%) had deteriorating neurologic status. Multivariate analysis revealed the following significant admission risk factors were associated with a need for repeat head CT indicating the need for craniotomy: treatment with anticoagulation and/or antiplatelet medications, elevated prothrombin time (PT), and age greater than 70 years. In patients with blunt traumatic intracranial hemorrhage initially observed, there is little utility of repeated head CT in the absence of deteriorating neurologic status. The only admission risk factors for a repeat CT indicating the need for craniotomy were advanced age and coagulopathy.     

Advanced age and preinjury warfarin anticoagulation increase the risk of mortality after head trauma

BACKGROUND: A large population of patients on oral anticoagulants is exposed to the risk of traumatic brain injury (TBI). Effects of age and anticoagulation on TBI outcomes need to be assessed separately. METHODS: Retrospective analysis of consecutive series of TBI patients (age 18 years and older) in a suburban teaching hospital. RESULTS: A total of 1,493 adult blunt head trauma patients between January 2001 and May 2005 were analyzed. Of these, 159 patients were warfarin-anticoagulated at the time of trauma. The mortality in anticoagulated patients was statistically significantly higher than in the control group (38/159, 23.9% vs. 66/1,334, 4.9%; p < 0.001; odds ratio 6.0). Mortality of patients over 70 years of age was significantly higher than in the younger population (p < 0.001). Both mortality and the occurrence of intracranial hemorrhage (ICH) after head trauma were significantly increased with higher INR (Cochran's linear trend p < 0.001), especially with INR over 4.0 (mortality 50%, risk of ICH 75%). Preinjury warfarin anticoagulation and age were found to be predictive of survival in a binary logistic regression model (92.5% correct prediction, p = 0.027). Addition of Injury Severity Score and initial Glasgow Coma Score to this model only modestly improved its predictive performance (95.4% correct prediction, p < 0.001). CONCLUSIONS: Both age and warfarin anticoagulation are independent predictors of mortality after blunt TBI. Warfarin anticoagulation carries a six-fold increase in TBI mortality. Age over 70 years and excessive anticoagulation are associated with higher mortality, as well.     

Neuropsychological outcome and community re-integration following traumatic brain injury: the impact of frontal and non-frontal lesions

PRIMARY OBJECTIVE: To examine the relationship between cortical lesion location and brain injury outcome. It was hypothesized that focal frontal lesions after traumatic brain injury (TBI) would result in decreased executive and memory functioning and poor community participation outcome. RESEARCH DESIGN: Three quasi-experimental, prospective studies employed a total of 643 patients with focal frontal, fronto-temporal, non-frontal or no lesions in CT scans. METHODS AND PROCEDURES: CT scan analysis, neuropsychological assessment, the Neurobehavioural Functioning Inventory (NFI), the Community Integration Questionnaire (CIQ). MAIN RESULTS: In study 1, frontal and fronto-temporal groups performed worse in executive functioning and better in constructional ability. Study 2 found no differences in neuropsychological and community re-integration measures at 1-year follow-up. Study 3 found comparable neuropsychological test score improvement across groups over 1 year. CONCLUSIONS: Results are consistent with previous findings and document the potential for test score improvement with rehabilitation and suggest that lesion location needs to be considered when individual rehabilitation plans are being implemented in the post-acute stage of TBI.     

Post-operative expansion of hemorrhagic contusions after unilateral decompressive hemicraniectomy in severe traumatic brain injury

Decompressive hemicraniectomy is commonly performed in patients with traumatic brain injury (TBI) with diffuse brain swelling or refractory raised intracranial pressure. Expansion of hemorrhagic contusions in TBI patients is common, but its frequency following decompressive hemicraniectomy has not been well established. The aim of this retrospective study was to determine the rate of hemorrhagic contusion expansion following unilateral hemicraniectomy in severe TBI, to identify factors associated with contusion expansion, and to examine whether contusion expansion is associated with worsened clinical outcomes. Computed tomography (CT) scans of 40 consecutive patients with non-penetrating TBI who underwent decompressive hemicraniectomy were analyzed. Hemorrhagic contusion volumes were measured on initial, last pre-operative, and first post-operative CT scans. Mortality and 6-month Glasgow Outcome Scale (GOS) score were recorded. Hemorrhagic contusions of any size were present on the initial head CT scan in 48% of patients, but hemorrhagic contusions with a total volume of >5 cc were present in only 10%. New or expanded hemorrhagic contusions of >or=5 cc were observed after hemicraniectomy in 58% of patients. The mean volume of increased hemorrhage among these patients was 37.1+/-36.3 cc. The Rotterdam CT score on the initial head CT was strongly associated with the occurrence and the total volume of expanded hemorrhagic contusions following decompressive hemicraniectomy. Expanded hemorrhagic contusion volume greater than 20 cc after hemicraniectomy was strongly associated with mortality and poor 6-month GOS even after controlling for age and initial Glasgow Coma Scale (GCS) score. Expansion of hemorrhagic contusions is common after decompressive hemicraniectomy following severe TBI. The volume of hemorrhagic contusion expansion following hemicraniectomy is strongly associated with mortality and poor outcome. Severity of initial CT findings may predict the risk of contusion expansion following hemicraniectomy, thereby identifying a subgroup of patients who might benefit from therapies aimed at augmenting the coagulation system.     

Clinical outcomes following early versus late pharmacologic thromboprophylaxis in patients with traumatic intracranial hemorrhage: a systematic review and meta-analysis

Venous thromboembolism (VTE) after traumatic brain injury (TBI) with intracranial hemorrhage (ICH) presents a serious yet manageable morbidity and mortality risk. This systematic review and meta-analysis aimed to pool the current literature to evaluate whether or not pharmacologic thromboprophylaxis (PTP) administered early after traumatic ICH significantly changes incidence of VTE or hemorrhagic progression when compared to late administration. Systematic searches of seven electronic databases from their inception to July 2018 were conducted following the appropriate guidelines. One thousand four hundred ninety articles were identified for screening. Outcomes of interest were pooled as odd ratios (ORs) and analyzed using a random-effects model. Eleven comparative studies satisfied selection criteria, yielding a total of 5036 cases. Overall, mean age was 47.6 years and 36% patients were female. PTP was administered early (≤ 72 h from admission) in 2106 (42%) patients and late (> 72 h from admission) in 2922 (58%) cases. There was no statistically significant difference in the incidence of hemorrhagic progression (OR, 0.86; P = 0.450) or all-cause mortality (OR, 0.83; P = 0.347) between the early versus late PTP patient groups. However, incidence of VTE was significantly less in the early PTP patient group (OR, 0.58; P = 0.008). The early administration of PTP after traumatic ICH does not appear to confer a worse prognosis in terms of hemorrhagic progression. However, it seems to confer superior VTE prophylaxis, when compared to late PTP administration. We suggest that early PTP should not be prematurely discounted for patients with ICH in TBI on the assumption of aggravating hemorrhagic progression alone.     

Systemic metabolic effects of combined insulin-like growth factor-I and growth hormone therapy in patients who have sustained acute traumatic brain injury

OBJECT: Hypermetabolism, hypercatabolism, refractory nitrogen wasting, hyperglycemia, and immunosuppression accompany traumatic brain injury (TBI). Pituitary dysfunction occurs, affecting growth hormone (GH) and plasma insulin-like growth factor-I (IGF-I) concentrations. The authors evaluated whether combination IGF-I/GH therapy improved metabolic and nutritional parameters after moderate to severe TBI. METHODS: The authors conducted a prospective, randomized, double-blind study comparing combination IGF-I/GH therapy and a placebo treatment. Ninety-seven patients with TBI were enrolled in the study within 72 hours of injury and were assigned to receive either combination IGF-I/GH therapy or placebo. All patients received concomitant nutritional support. Insulin-like growth factor-I was administered by continuous intravenous infusion (0.01 mg/kg/hr), and GH (0.05 mg/kg/day) was administered subcutaneously. Placebo control group patients received normal saline solution in place of both agents. Nutritional and metabolic monitoring continued throughout the 14-day treatment period. The two groups did not differ in energy expenditure, nutrient intake, or use of insulin treatment. The mean daily serum glucose concentration was higher in the treatment group (123 +/- 24 mg/dl) than in the control group (104 +/- 11 mg/dl) (p < 0.03). A positive nitrogen balance was achieved within the first 24 hours in the treatment group and remained positive in that group throughout the treatment period (p < 0.05). This pattern was not observed in the control group. Plasma IGF-I concentrations were above 350 ng/ml in the treatment group throughout the study period. Overall, the mean plasma IGF-I concentrations were 1003 +/- 480.6 ng/ml in the treatment group and 192 +/- 46.2 ng/ml in the control group (p < 0.01). CONCLUSIONS: The combination of IGF-I and GH produced sustained improvement in metabolic and nutritional endpoints after moderate to severe acute TBI.     

99mTc-HMPAO SPECT of the brain in mild to moderate traumatic brain injury patients: Compared with CT—a prospective study

Single photon emission computed tomography (SPECT) with Technetium-99m hexamethyl propylenamine oxime (Tc-99m-HMPAO) was used in 20 patients with mild to moderate traumatic brain injury (TBI) to evaluate the effects of brain trauma on regional cerebral blood flow (rCBF). SPECT scan was compared with CT scan in 16 patients. SPECT showed intraparenchymal differences in rCBF more often than lesions diagnosed with CT scans (87 -5% vs. 37-5%). In five of six patients with lesions in both modalities, the area of involvement was relatively larger on SPECT scans than on CT scans. Contrecoup changes were seen in five patients on SPECT alone, two patients with CT alone and one patient had contrecoup lesions on CT and SPECT. Of the eight patients (50%) with skull fractures, seven (43-7%) had rCBF findings on SPECT scan and five (31.3%) demonstrated decrease in rCBF in brain underlying the fracture. All these patients with fractures had normal brain on CT scans. Conversely, extra-axial lesions and fractures evident on CT did not visualize on SPECT, but SPECT demonstrated associated changes in rCBF. Although there is still lack of clinical and pathological correlation, SPECT appears to be a promising method for a more sensitive evaluation of axial lesions in patients with mild to moderate TBI.     

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.     

Detecting traumatic brain lesions in children: CT versus MRI versus susceptibility weighted imaging (SWI)

Cranial CT scans are at the center of decision making in brain injuries in children because of their speed and ability to detect surgically relevant lesions. However, alternative techniques, such as conventional MRI may have advantages in terms of radiation exposure and sensitivity to detect brain injury. Susceptibility-weighted imaging (SWI), a relatively novel MRI sequence, shows promise in terms of its sensitivity in detecting hemorrhagic lesions; however, its clinical potential remains uncertain. In this observational study of children (5-16 years of age) with traumatic brain injury (TBI) at a tertiary pediatric emergency department (ED) we compared the ability of detecting traumatic brain lesions on acute CT and MRI/SWI ～ 5 weeks post-injury based on detecting the presence or absence, extent, and type of traumatic brain lesions. We analyzed the results of 76 patients (53 male) after TBI (mean age 10.24 ± 2.50 years, range 5.75-14.67 years). Glasgow Coma Score was 13-15 in 54 patients (71%), 9-12 in 13 patients (17%) and <8 in 9 patients (12%). CTs were completed in the ED; MRI and SWI were completed at a mean of 36.11 ± 15.75 days post-injury. Detection of any lesions occurred on CT scan in 68%, on MRI in 54%, and on SWI in 86% of cases, and SWI detected additional lesions 30% of the time compared to CT and MRI. SWI may be more sensitive in detecting traumatic lesions than CT or MRI. This may be important for the ongoing management of TBIs and their prognosis.     

Neurosurgical treatment of spontaneous and traumatic intracerebral hematomas

In the period from 01.01.2000 until 31.12.2002 34 patients with spontaneous intracerebral hematoma (ICH) and with deeply disturbed state of consciousness were operated in the Department of neurosurgery of the Urgent Center, Clinical Center of Serbia. In all operated patients the indication for surgery was given on the basis of CT scan of the brain, state of consciousness, defined Glasgow coma score (GCS) and neurological status, but due to existing or threatening incarceration not even one patient was submitted to angiography of the blood vessels at the cerebral base, thus preoperatively we did not know the cause of the hemorrhage. Of 34 operated patients 22 or 64.7% died, and 12 or 35.3% survived. 14 patients were in the deepest phase of coma, where the preoperative GCS is from 3 to 5 points, and in the postoperative course only one survived, aged 25. The other survivors had somewhat less disturbed state of consciousness, they also were younger, CT scan of the brain was without blood in the chamber system. In the same period, in the Department of Neurosurgery of the Urgent Center, Clinical Center of Serbia 43 patients with traumatic intracerebral hematoma (TIH) were operated; 9 patients survived, 34 died. Only 4 patients had acute TIH. All of them were in the terminal stage of incarceration, and despite being immediately submitted to surgery all of them died. The remaining 39 patients had, the so called delayed TIH where the secondary CT scan of the brain showed development of the traumatic intracerebral haematoma that was not verified on the incipient scanner. Indication for a repeated CT scan was given in 19 patients due to focal or general neurological deterioration. However in 20 patients subsequent neurological disturbances were not registered. Those that survived were younger patients, and they were not in the deepest stage of coma, most often they had a temporal localization of hematoma.