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Epidural Hematoma (epidural + hematoma)

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Medical Sciences90%

Selected Abstracts

Cerebral blood flow in patients with diffuse axonal injury , examination of the easy Z -score imaging system utility

EUROPEAN JOURNAL OF NEUROLOGY, Issue 5 2007
T. Okamoto
To evaluate the utility of easy Z -score imaging system (eZIS) in 27 diffuse axonal injury (DAI) cases. Twenty-seven DAI patients were examined with an magnetic resonance imaging (MRI) T2* sequence and with eZIS (seven women, 20 men; age range, 19,35 years; median age: 26.6 years). In this investigation, we excluded patients who exhibited complications such as acute subdural hematoma, acute epidural hematoma, intracerebral hematoma, or brain contusion. We examined the neuropsychological tests and correlated with findings from MRI/eZIS. Furthermore, we evaluated the degree of ventricular enlargement in the bifrontal cerebroventricular index (CVI). Patients were divided into two groups: the enlargement group (bifrontal CVI > 35%, 12 patients) and the non-enlargement group (bifrontal CVI < 35%, 15 patients). All of the patients showed cognitive deficits as observed from the neuropsycological test results. Fifteen out of 27 patients by MRI T1/T2 weighted images and fluid attenuated inversion recovery (FLAIR), 22 out of 27 patients by MRI T2* weighted images and 24 out of 27 patients by eZIS showed abnormal findings. In MRI T2* weighted imaging, the white matter from the frontal lobe, corpus callosum, and brainstem showed abnormal findings. With eZIS, 22 patients (81.5%) showed blood flow degradation in the frontal lobe, and 12 patients (44.4%) in cingulate gyrus. In the enlargement group, Functional Independence Measure, Mini-Mental State Examination, Verbal IQ (VIQ)/Full Scale IQ (FIQ), Trail Making Test-B (TMT-B), and Non-paired of Miyake Paired Test were significantly lower. Amongst 12 patients without ventricular enlargement who had no abnormal findings in MRI T1/T2 weighted images and FLAIR, abnormal findings were detectable in seven patients with MRI T2* weighted imaging and to 10 patients with eZIS. Results of the MRI examination alone cannot fully explain DAI frontal lobe dysfunction. However, addition of the eZIS-assisted analysis derived from the single photon emission computed tomography (SPECT) data enabled us to understand regions where blood flow was decreased, i.e., where neuronal functions conceivably might be reduced. [source]

Cerebral epidural hematoma following cerebrospinal fluid drainage during thoracoabdominal aortic repair

ACTA ANAESTHESIOLOGICA SCANDINAVICA, Issue 9 2009
Y. B. JEONG
Cerebrospinal fluid (CSF) drainage is a common adjunct to thoracoabdominal aortic aneurysm (TAAA) repair. CSF drainage may improve perioperative spinal cord perfusion and thereby decrease the incidence of paraplegia or paraparesis. Complications of CSF drainage may arise. We present a case of cerebral epidural hematoma (EDH), possibly arising from excessive CSF drainage, during thoracoabdominal aortic repair. [source]

Postoperative epidural hematoma or cerebrovascular accident?

ACTA ANAESTHESIOLOGICA SCANDINAVICA, Issue 2 2002
A dilemma in differential diagnosis
An elderly lady developed an epidural hematoma following combined spinal-epidural anesthesia with a local anesthetic,opioid mixture for a vaginal hysterectomy. This occurred in association with the use of prophylactic subcutaneously administered unfractionated heparin. She had diabetes, hypertension and had previously undergone coronary artery bypass surgery and right carotid endarterectomy. Warfarin and aspirin were discontinued 2 weeks before the surgery. Postoperatively, an atypical presentation of backache, bilateral sensory loss and left lower limb monoplegia ensued. The initial clinical impression was of a cerebrovascular accident. Magnetic resonance imaging, however, revealed an extensive epidural hematoma that necessitated decompression laminectomy. Progression to paraparesis occurred but the patient gradually regained much of her functionality over the next 2 years. [source]

Successful Cervical MR Scan in a Patient Several Hours after Pacemaker Implantation

PACING AND CLINICAL ELECTROPHYSIOLOGY, Issue 10 2009
DORITH GOLDSHER M.D.
Recent data showed that patients with electrical implanted devices may under certain conditions be scanned safely by magnetic resonance imaging (MRI). The device must have been in place preferably for at least 4,8 weeks [Correction added after online publication 31-Aug-2009: number of weeks has been updated.] prior to MR imaging to allow healing and pacemaker pocket formation. We report on a patient with quadriplegia and suspected epidural hematoma referred for MR scan a day after he had a pacemaker implantation. The patient was also pacemaker-dependent. After considering the risk/benefit ratio in this patient, it was decided to perform the scan. The pacemaker was reprogrammed. MRI was performed under strict monitoring. A spinal cord contusion at the level of C1,3 was diagnosed. Based on the imaging findings no invasive procedure was done. Device interrogation found no change in sensing or pacing parameters or in the pacemaker's battery. At the end of the scan, the device was reprogrammed back to the initial settings. In this population, each scan should be discussed thoroughly and the risks to benefit ratio should be considered. Given appropriate precautions, in well-experienced imaging centers, MRI may be safely performed in patients with permanent cardiac electronic implantable devices. [source]

Acute Monoplegia After Lysis of Epidural Adhesions: A Case Report

PAIN PRACTICE, Issue 5 2008
DAAPM, Kok-Yuen Ho MBBS, MMed (Anaes)
Abstract Lysis of epidural adhesions is an interventional procedure performed to treat refractory low back pain or radicular pain due to epidural scarring. A 39-year-old female with a diagnosis of failed back surgery syndrome underwent lysis of epidural adhesions using a Racz catheter. She developed acute monoplegia of her right lower extremity immediately after the procedure. Radiographic imaging did not reveal an epidural hematoma. Motor and sensory function in the right lower limb returned after 5 days. Large volumes of fluid injected during neuroplasty could have caused transient nerve injury from compression within loculated epidural compartments. [source]

Management of critically ill children with traumatic brain injury

PEDIATRIC ANESTHESIA, Issue 6 2008
GILLES A. ORLIAGUET MD PhD
Summary The management of critically ill children with traumatic brain injury (TBI) requires a precise assessment of the brain lesions but also of potentially associated extra-cranial injuries. Children with severe TBI should be treated in a pediatric trauma center, if possible. Initial assessment relies mainly upon clinical examination, trans-cranial Doppler ultrasonography and body CT scan. Neurosurgical operations are rarely necessary in these patients, except in the case of a compressive subdural or epidural hematoma. On the other hand, one of the major goals of resuscitation in these children is aimed at protecting against secondary brain insults (SBI). SBI are mainly because of systemic hypotension, hypoxia, hypercarbia, anemia and hyperglycemia. Cerebral perfusion pressure (CPP = mean arterial blood pressure , intracranial pressure: ICP) should be monitored and optimized as soon as possible, taking into account age-related differences in optimal CPP goals. Different general maneuvers must be applied in these patients early during their treatment (control of fever, avoidance of jugular venous outflow obstruction, maintenance of adequate arterial oxygenation, normocarbia, sedation,analgesia and normovolemia). In the case of increased ICP and/or decreased CPP, first-tier ICP-specific treatments may be implemented, including cerebrospinal fluid drainage, if possible, osmotic therapy and moderate hyperventilation. In the case of refractory intracranial hypertension, second-tier therapy (profound hyperventilation with PaCO2 < 35 mmHg, high-dose barbiturates, moderate hypothermia, decompressive craniectomy) may be introduced, after a new cerebral CT scan. [source]

Morphology of the human internal vertebral venous plexus: A cadaver study after latex injection in the 21,25-week fetus

CLINICAL ANATOMY, Issue 6 2005
R.J.M. Groen
Abstract The morphology of the anterior and posterior internal vertebral venous plexus (IVVP) in human fetuses between 21,25 weeks of gestational age is described. The results are compared to the findings of a previous morphological study of the IVVP in the aged. The morphological pattern of the anterior IVVP in the fetus is very similar with the anterior IVVP in the aged human. In contrast, the posterior IVVP in the fetus lacks the prominent transverse bridging veins that are present in the aged lower thoracic and the lumbar posterior IVVP. The background of these morphological differences is unclear. Maybe the thoracolumbar part of the posterior IVVP is subject to "developmental delay," or the observed differences in the aged may result from functional and age-related factors that trigger this part of the vertebral venous system during (erect) life. The observed age related morphological differences of the posterior IVVP support the concept of the venous origin of the spontaneous spinal epidural hematoma (SSEH). Clin. Anat. 18:397,403, 2005. © 2005 Wiley-Liss, Inc. [source]

The Efficacy of Esmolol versus Lidocaine to Attenuate the Hemodynamic Response to Intubation in Isolated Head Trauma Patients

ACADEMIC EMERGENCY MEDICINE, Issue 1 2001
M. Andrew Levitt DO
Abstract. Objective: To assess the effect of esmolol vs lidocaine to attenuate the detrimental rise in heart rate and blood pressure during intubation of patients with isolated head trauma. Methods: This was a prospective, double-blind, randomized study, performed at an urban, county teaching emergency department. Participants were 30 patients with isolated head trauma. Each underwent a standardized intubation protocol including esmolol or lidocaine, both at 2 mg/kg. Results: Esmolol was used in 16 patients and lidocaine in 14. Mechanisms of injury included 12 assaults, 6 motor vehicle collisions, 6 falls, 4 auto-vs-pedestrian crashes, and 2 bicycle incidents. Mean ethanol level was 0.116 ± 0.133 SD (range 0-0.482). Mean Glasgow Coma Scale (GCS) score was 7.9 ± 4.0 SD. Cranial computed tomography (CT) hemorrhagic findings included 9 subdural/epidural hematomas, 6 cortex hemorrhages, and 2 multi-hemorrhages. Eleven patients received surgical intervention: 9 patients received a craniotomy, and 2 a ventricular catheter. The 2-minute time interval around intubation was used to assess each drug's efficacy. The mean difference change between groups for heart rate was 4.0 beats/min (95% CI = -17.7 to 9.7 beats/min), for systolic blood pressure was 1.3 mm Hg (95% CI = -27.8 to 30.4 mm Hg), and for diastolic blood pressure was 2.6 mm Hg (95% CI = -27.1 to 21.9 mm Hg). The power of this study was 90% to detect a 20-beat/min difference in heart rate, a 35-mm Hg difference in systolic blood pressure, and a 20-mm Hg difference in diastolic blood pressure. Conclusions: Esmolol and lidocaine have similar efficacies to attenuate moderate hemodynamic response to intubation of patients with isolated head trauma. [source]