OBJECTIVE: Patients with traumatic acute subdural hematoma (ASDH) often require surgical treatment. Among patients who primarily underwent craniotomy for the removal of hematoma, some consequently developed aggressive intracranial hypertension and brain edema, and required secondary decompressive craniectomy (DC). To avoid reoperation, we investigated factors which predict the requirement of DC by comparing groups of ASDH patients who did and did not require DC after craniotomy. METHODS: The 129 patients with ASDH who underwent craniotomy from September 2007 to September 2017 were reviewed. Among these patients, 19 patients who needed additional DC (group A) and 105 patients who underwent primary craniotomy only without reoperation (group B) were evaluated. A total of 17 preoperative and intraoperative factors were analyzed and compared statistically. Univariate and multivariate analyses were used to compare these factors. RESULTS: Five factors showed significant differences between the two groups. They were the length of midline shifting to maximal subdural hematoma thickness ratio (magnetization transfer [MT] ratio) greater than 1 (p < 0.001), coexistence of intraventricular hemorrhage (IVH) (p < 0.001), traumatic intracerebral hemorrhage (TICH) (p=0.001), intraoperative findings showing intracranial hypertension combined with brain edema (p < 0.001), and bleeding tendency (p=0.02). An average value of 2.74±1.52 was obtained for these factors for group A, which was significantly different from that for group B (p < 0.001). CONCLUSION: An MT ratio >1, IVH, and TICH on preoperative brain computed tomography images, intraoperative signs of intracranial hypertension, brain edema, and bleeding tendency were identified as factors indicating that DC would be required. The necessity for preemptive DC must be carefully considered in patients with such risk factors.
Brain ; Brain Edema ; Cerebral Hemorrhage, Traumatic ; Craniotomy* ; Decompressive Craniectomy* ; Hematoma ; Hematoma, Subdural ; Hematoma, Subdural, Acute* ; Hemorrhage ; Humans ; Intracranial Hypertension ; Multivariate Analysis ; Reoperation ; Risk Factors

Traumatic pseudoaneurysms of middle meningeal artery (MMA) and medial sphenoid wing dural arteriovenous fistula (dAVF) are rare. These lesions usually result from traumatic brain injury, and associated with skull fracture. In this paper, the authors report a case of a patient with a ruptured traumatic pseudoaneurysm of MMA and medial sphenoid wing dAVF presented with an intracerebral hemorrhage in the left temporal region and subarachnoid hemorrhage. These lesions were completely obliterated by endovascular treatment, and the patient was recovered without any neurologic deficit. However, 18-day after the procedure, delayed neurologic deficits were developed due to cerebral vasospasm.
Aneurysm, False* ; Arteriovenous Fistula ; Brain Injuries ; Central Nervous System Vascular Malformations* ; Cerebral Hemorrhage ; Humans ; Meningeal Arteries* ; Neurologic Manifestations ; Skull Fractures ; Subarachnoid Hemorrhage* ; Subarachnoid Hemorrhage, Traumatic ; Temporal Lobe ; Vasospasm, Intracranial

PURPOSE: An increase in optic nerve sheath diameter (ONSD) has been associated with elevated intracranial pressure due to brain lesions, such as hemorrhage, infarction, and tumor. The aim of this study was to evaluate whether the difference of both ONSDs can predict surgical treatment in patients with traumatic brain hemorrhage. METHODS: A prospective analysis of the data acquired between September 2016 and November 2016 was performed. We included 155 patients with traumatic brain hemorrhage undergoing computed tomography in the emergency room. We performed an ultrasonography to measure ONSDs for all included patients. The primary outcome of this study was operation indication in patients with traumatic brain hemorrhage. RESULTS: The average age was 63.4±17.0 years (male 60.3±17.3, female 69.8±14.4). There were 61 (39.35%) patients with an indication for operation and 94 (60.65%) patients with an indication for no operation. Indications for operation showed a strong association with the difference of both ONSDs in patients with subdural hemorrhage (p<0.001), no association between them in patients with epidural and intracerebral hemorrhage. In patients with subdural hemorrhage, the area under the curve was 0.988 (0.653-0.998), and the cut-off value for the difference of ONSDs with respect to determining the indications for operation was 0.295 mm f maximizing the sum of the sensitivity (96.9%) and specificity (90.7%) using the receiver operating curve. CONCLUSION: A difference of both ONSDs above 0.295 mm was useful in predicting the indications for operation in patients with traumatic subdural hemorrhage, but not in patients with epidural and intracerebral hemorrhage.
Brain ; Brain Hemorrhage, Traumatic* ; Cerebral Hemorrhage ; Emergency Service, Hospital ; Female ; Hematoma, Subdural ; Hemorrhage ; Humans ; Infarction ; Intracranial Hypertension ; Optic Nerve* ; Prospective Studies ; Sensitivity and Specificity ; Ultrasonography*

OBJECTIVE: This study evaluated whether emergency medical service (EMS) use was associated with early arrival and admission for definitive care among intracerebral hemorrhage (ICH) patients. METHODS: Patients with ICH were enrolled from 29 hospitals between November 2007 and December 2012, excluding those patients with subarachnoid hemorrhage, traumatic ICH, and missing information. The patients were divided into four groups based on visit type to the definitive hospital emergency department (ED): direct visit by EMS (EMS-direct), direct visit without EMS (non-EMS-direct), transferred from a primary hospital by EMS (EMS-transfer), and transferred from a primary hospital without EMS (non-EMS-transfer). The outcomes were the proportions of participants within early (<1 hr) definitive hospital ED arrival from symptom onset (pS2ED) and those within early (<4 hr) admission from symptom onset (pS2AD). Adjusted odds ratios were calculated to determine the association between EMS use and outcomes with and without inter-hospital transfer. RESULTS: A total of 6,564 patients were enrolled. The adjusted odds ratios (95% confidence intervals) for pS2ED were 22.95 (17.73–29.72), 1.11 (0.67–1.84), and 7.95 (6.04–10.46) and those for pS2AD were 5.56 (4.70–6.56), 0.96 (0.71–1.30), and 2.35 (1.94–2.84) for the EMS-direct, EMS-transfer, and non-EMS-direct groups compared with the non-EMS-transfer group, respectively. Through the interaction model, EMS use was significantly associated with early arrival and admission among direct visiting patients but not with transferred patients. CONCLUSION: EMS use was significantly associated with shorter time intervals from symptom onset to arrival and admission at a definitive care hospital. However, the effect disappeared when patients were transferred from a primary hospital.
Cerebral Hemorrhage* ; Emergencies* ; Emergency Medical Services* ; Emergency Service, Hospital ; Hospitals ; Humans ; Intracranial Hemorrhages ; Observational Study* ; Odds Ratio ; Patient Admission ; Subarachnoid Hemorrhage, Traumatic

An intracranial saccular aneurysm is uncommonly diagnosed in a patient with closed head trauma. We herein present a patient with delayed rebleeding of a cerebral aneurysm misdiagnosed as traumatic subarachnoid hemorrhage (SAH). A 26-year-old female visited our emergency department because of headache after a motorcycle accident. Brain computed tomography (CT) showed a right-side dominant SAH in Sylvian fissure. Although traumatic SAH was strongly suggested because of the history of head trauma, we performed a CT angiogram to exclude any vascular abnormalities. The CT angiogram showed no vascular abnormality. She was discharged after conservative treatment. One day after discharge, she returned to the emergency department because of mental deterioration. Brain CT showed diffuse SAH, which was dominant in the right Sylvian fissure. The CT angiogram revealed a right middle cerebral artery bifurcation aneurysm. During operation, a non-traumatic true saccular aneurysm was found. The patient recovered fully after successful clipping of the aneurysm and was discharged without neurologic deficit. Normal findings on a CT angiogram do not always exclude aneurysmal SAH. Follow-up vascular study should be considered in trauma patients who are highly suspicious of aneurysmal rupture.
Adult ; Aneurysm ; Brain ; Craniocerebral Trauma ; Emergency Service, Hospital ; Female ; Follow-Up Studies ; Head Injuries, Closed ; Headache ; Humans ; Intracranial Aneurysm* ; Middle Cerebral Artery ; Motorcycles ; Neurologic Manifestations ; Rupture ; Subarachnoid Hemorrhage ; Subarachnoid Hemorrhage, Traumatic*

PURPOSE: Several studies have reported that facial fractures were associated with traumatic brain injuries or cervical injuries. The purpose of this study was to analyze the relationship between the location of facial injury and traumatic brain hemorrhage in order to support future decisions for image evaluation in facial injury patients. METHODS: In this retrospective cohort study, we evaluated facial injury patients without external head trauma who visited the emergency department at our hospital between January 1, 2014 and October 31, 2014. We divided the cohort into 2 groups: Facial injury patients with associated traumatic brain hemorrhage and those without traumatic brain hemorrhage. We compared the factors related to traumatic brain hemorrhage, such as facial injury locations, mechanism of accident, types of wounds, altered mentality, headache, and loss of consciousness between the two groups. RESULTS: In 873 patients, 73 (8.36%) presented traumatic brain hemorrhage and the other 800 had no traumatic brain hemorrhage on a brain computed tomography (CT) scan. The rate of headache, loss of consciousness, altered mentality, traffic accident, fall down, fracture, temporal injury, frontal injury, multiple facial area injury, and upper facial area (frontal and upper orbital area) injury were higher in the traumatic brain hemorrhage group than in the non-traumatic brain hemorrhage group (p<0.05). The risk factors of traumatic brain hemorrhage were headache, loss of consciousness, altered mentality, facial bone fracture, and temporal area injury of the face. CONCLUSION: If a facial injury patient has any of the following factors temporal area injury, facial bone fracture, altered mentality, headache, and loss of consciousness, we have to evaluate the brain CT scan even if the patient had no external head injury.
Accidents, Traffic ; Brain ; Brain Hemorrhage, Traumatic* ; Brain Injuries ; Cohort Studies ; Craniocerebral Trauma ; Emergency Service, Hospital ; Facial Bones ; Facial Injuries* ; Fractures, Bone ; Headache ; Humans ; Intracranial Hemorrhages ; Multiple Trauma ; Orbit ; Retrospective Studies ; Risk Factors ; Temporal Bone ; Tomography, X-Ray Computed ; Unconsciousness ; Wounds and Injuries

Benedikt syndrome is characterized by ipsilateral ophthalmoplegia with contralateral hemichorea due to a midbrain lesion. A 67-year-old male with Benedikt syndrome underwent corpectomy at L1 and anterolateral interbody fusion at T12-L2 due to pathologic bursting fracture at L1 involving multiple myeloma. He had a history of traumatic subarachnoid hemorrhage and subdural hemorrhage 8 months before surgery. Magnetic resonance image of the brain revealed intracranial hemorrhage from thalamus to midbrain. Target controlled infusion with propofol and remifentanil were administered for anesthetic induction and maintenance and close hemodynamic and neurologic monitoring led to successful anesthetic management.
Aged ; Anesthesia ; Brain ; Hematoma, Subdural ; Hemodynamics ; Humans ; Intracranial Hemorrhages ; Male ; Mesencephalon ; Multiple Myeloma* ; Ophthalmoplegia ; Propofol ; Spine* ; Subarachnoid Hemorrhage, Traumatic ; Thalamus

Very rarely, spinal subarachnoid hemorrhage (SSAH) can occur without any direct spinal injury in patients with traumatic intracranial SAH. A-59-year-old male with traumatic intracranial subarachnoid hemorrhage (SAH) presented with pain and numbness in his buttock and thigh two days after trauma. Pain and numbness rapidly worsened and perianal numbness and voiding difficulty began on the next day. Magnetic resonance imaging showed intraspinal hemorrhage in the lumbosacral region. The cauda equina was displaced and compressed. Emergent laminectomy and drainage of hemorrhage were performed and SSAH was found intraoperatively. The symptoms were relieved immediately after the surgery. Patients with traumatic intracranial hemorrhage who present with delayed pain or neurological deficits should be evaluated for intraspinal hemorrhage promptly, even when the patients had no history of direct spinal injury and had no apparent symptoms related to the spinal injury in the initial period of trauma.
Brain Injuries ; Buttocks ; Cauda Equina ; Drainage ; Hemorrhage ; Humans ; Hypesthesia ; Intracranial Hemorrhage, Traumatic ; Laminectomy ; Lumbosacral Region ; Magnetic Resonance Imaging ; Male ; Spinal Injuries ; Spine ; Subarachnoid Hemorrhage* ; Thigh

OBJECTIVE: Long-term oral anticoagulation or antiplatelet therapy has been used with increasing frequency in the elderly. These patients are at increased risk of morbidity and mortality from expansion of intracranial hemorrhage. We conducted a single-center retrospective case control study to evaluate risk factors associated with outcomes and to identify the differences in outcome in traumatic brain injury between preinjury anticoagulation use and without anticoagulation. METHODS: A retrospective study of patients who underwent craniotomy or craniectomy for acute traumatic cerebral hemorrhage, between January 2005 and December 2014 was performed. RESULTS: A consecutive series of 50 patients were evaluated. The factors significantly differed between the two groups were initial Prothrombin Time-International Normalized Ratio, initial platelet count, initial Glasgow Coma Scale score, and postoperative intracranial bleeding. Mean Glasgow Outcome Scale (GOS) score were similar between the two groups. In the patient with low-energy trauma only, no significant differences in GOS score, postoperative bleeding and many other factors were observed. The contributing factors to postoperative bleeding was preinjury anticoagulation and its adjusted odds ratio was 12 [adjusted odds ratio (OR), 12.242; p=0.0070]. The contributing factors to low GOS scores, which mean unfavorable neurological outcomes, were age (adjusted OR, 1.073; p=0.039) and Rotterdam scale score for CT scans (adjusted OR, 3.123; p=0.0020). CONCLUSION: Preinjury anticoagulation therapy contributed significantly to the occurrence of postoperative bleeding. However, preinjury anticoagulation therapy in the patients with low-energy trauma did not contribute to the poor clinical outcomes or total hospital stay. Careful attention should be given to older patients and severity of hemorrhage on initial brain CT.
Aged ; Brain ; Brain Injuries* ; Case-Control Studies ; Cerebral Hemorrhage, Traumatic ; Craniotomy ; Glasgow Coma Scale ; Glasgow Outcome Scale ; Hemorrhage ; Humans ; Intracranial Hemorrhages ; Length of Stay ; Mortality ; Odds Ratio ; Platelet Count ; Prothrombin ; Retrospective Studies ; Risk Factors ; Tomography, X-Ray Computed

INTRODUCTIONHigh performing clinical decision rules (CDRs) have been derived to predict which head-injured child requires a computed tomography (CT) of the brain. We set out to evaluate the performance of these rules in the Singapore population.

MATERIALS AND METHODSThis is a prospective observational cohort study of children aged less than 16 who presented to the emergency department (ED) from April 2014 to June 2014 with a history of head injury. Predictor variables used in the Canadian Assessment of Tomography for Childhood Head Injury (CATCH), Children's Head Injury Algorithm for the Prediction of Important Clinical Events (CHALICE) and Pediatric Emergency Care Applied Research Network (PECARN) CDRs were collected. Decisions on CT imaging and disposition were made at the physician's discretion. The performance of the CDRs were assessed and compared to current practices.

RESULTSA total of 1179 children were included in this study. Twelve (1%) CT scans were ordered; 6 (0.5%) of them had positive findings. The application of the CDRs would have resulted in a significant increase in the number of children being subjected to CT (as follows): CATCH 237 (20.1%), CHALICE 282 (23.9%), PECARN high- and intermediate-risk 456 (38.7%), PECARN high-risk only 45 (3.8%). The CDRs demonstrated sensitivities of: CATCH 100% (54.1 to 100), CHALICE 83.3% (35.9 to 99.6), PECARN 100% (54.1 to 100), and specificities of: CATCH 80.3% (77.9 to 82.5), CHALICE 76.4% (73.8 to 78.8), PECARN high- and intermediate-risk 61.6% (58.8 to 64.4) and PECARN high-risk only 96.7% (95.5 to 97.6).

CONCLUSIONThe CDRs demonstrated high accuracy in detecting children with positive CT findings but direct application in areas with low rates of significant traumatic brain injury (TBI) is likely to increase unnecessary CT scans ordered. Clinical observation in most cases may be a better alternative.

Adolescent ; Algorithms ; Brain Contusion ; diagnostic imaging ; Brain Injuries, Traumatic ; diagnostic imaging ; Child ; Child, Preschool ; Craniocerebral Trauma ; diagnostic imaging ; Decision Support Systems, Clinical ; Emergency Service, Hospital ; Female ; Humans ; Infant ; Intracranial Hemorrhage, Traumatic ; diagnostic imaging ; Male ; Pediatric Emergency Medicine ; Pneumocephalus ; diagnostic imaging ; Prospective Studies ; Singapore ; Skull Fractures ; diagnostic imaging ; Tomography, X-Ray Computed