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Vestibular Neuritis (vestibular + neuritis)
Selected AbstractsDisconnect Between Charted Vestibular Diagnoses and Emergency Department Management Decisions: A Cross-sectional Analysis From a Nationally Representative SampleACADEMIC EMERGENCY MEDICINE, Issue 10 2009David E. Newman-Toker MD Abstract Objectives:, The most common vestibular disorders seen in the emergency department (ED) are benign paroxysmal positional vertigo (BPPV) and acute peripheral vestibulopathy (APV; i.e., vestibular neuritis or labyrinthitis). BPPV and APV are two very distinct disorders that have different clinical presentations that require different diagnostic and treatment strategies. BPPV can be diagnosed without imaging and is treated with canalith-repositioning maneuvers. APV sometimes requires neuroimaging by magnetic resonance imaging (MRI) to exclude posterior fossa stroke mimics and should be treated with vestibular sedatives and corticosteroids. We sought to determine if emergency physicians (EPs) apply best practices to diagnose and treat these common vestibular disorders. Methods:, This was a cross-sectional study of ED visits from the National Hospital Ambulatory Medical Care Survey (NHAMCS). A weighted sample of U.S. ED visits (1993,2005) was used. Patients at least 16 years of age who were given a final ED diagnosis of BPPV (International Classification of Diseases, 9th Revision [ICD-9], 386.11) or APV (ICD-9 386.12 or 386.3x) comprised the study population. The frequency of imaging and drug therapy in those diagnosed as BPPV or APV versus controls was the main outcome measure. Results:, A total of 9,472 dizzy patient visits were sampled over 13 years (weighted estimate 33.6 million U.S. ED visits over that period). A weighted estimate of 2.5 million patients (7.4%) were given a vestibular diagnosis, mostly BPPV (weighted 0.2 million) or APV (weighted 1.9 million). Patients given BPPV (19%) and APV (19%) diagnoses were more likely to undergo imaging (all by computed tomography [CT]) than controls (7%; p < 0.001). Patients given BPPV (58%) and APV (70%) diagnoses were more likely to receive meclizine than controls (0.1%; p < 0.001). Corticosteroid administration was rarely documented (2% BPPV, 1% APV). Conclusions:, Patients given a vestibular diagnosis in the ED may not be managed optimally. Patients given BPPV and APV diagnoses undergo imaging (predominantly CT) with equal frequency, suggesting overuse of CT (BPPV) and probably underuse of MRI (APV). Most patients diagnosed with BPPV are given meclizine, which is not indicated. Specific therapy for APV (corticosteroids) is probably underutilized. Educational initiatives and clinical guidelines merit consideration. [source] Voxel-based morphometry depicts central compensation after vestibular neuritisANNALS OF NEUROLOGY, Issue 2 2010Peter zu Eulenburg MD Objective Patients who have had vestibular neuritis (VN) show a remarkable clinical improvement especially in gait and posture >6 months after disease onset. Methods Voxel-based morphometry was used to detect the VN-induced changes in gray and white matter by means of structural magnetic resonance imaging. Twenty-two patients were compared an average 2.5 years after onset of VN to a healthy sex-and age-matched control group. Results Our analysis revealed that all patients had signal intensity increases for gray matter in the medial vestibular nuclei and the right gracile nucleus and for white matter in the area of the pontine commissural vestibular fibers. A relative atrophy was observed in the left posterior hippocampus and the right superior temporal gyrus. Patients with a residual canal paresis also showed an increase of gray matter in middle temporal (MT)/V5 bilaterally. Interpretation These findings indicate that the processes of central compensation after VN seem to occur in 3 different sensory systems. First of all, the vestibular system itself showed a white matter increase in the commissural fibers as a direct consequence of an increased internuclei vestibular crosstalk of the medial vestibular nuclei. Second, to regain postural stability, there was a shift to the somatosensory system due to an elevated processing of proprioceptive information in the right gracile nucleus. Third, there was a bilateral increase in the area of MT/V5 in VN patients with a residual peripheral vestibular hypofunction. This seems to be the result of an increased importance of visual motion processing. ANN NEUROL 2010;68:241,249 [source] Prevalence of HSV-1 LAT in Human Trigeminal, Geniculate, and Vestibular Ganglia and Its Implication for Cranial Nerve SyndromesBRAIN PATHOLOGY, Issue 4 2001Diethilde Theil Herpes simplex virus type 1 (HSV-1) enters sensory neurons and can remain latent there until reactivation. During latency restricted HSV-1 gene expression takes place in the form of latency-associated transcripts (LAT). LAT has been demonstrated to be important not only for latency but also for reactivation, which may cause cranial nerve disorders. Tissue sections of the trigeminal ganglia (TG), geniculate ganglia (GG), and the vestibular ganglia (VG) from seven subjects were examined for the presence of LAT using the in situ hybridization technique. LAT was found on both sides in all TG (100%), on both sides of five subjects (70%) in the GG, and in none of the VG. Using a second more sensitive detection method (RT-PCR), we found LAT in the VG of seven of ten other persons (70%). This is the first study to demonstrate viral latency in the VG, a finding that supports the hypothesis that vestibular neuritis is caused by HSV-1 reactivation. The distribution of LAT in the cranial nerve ganglia indicates that primary infection occurs in the TG and GG and subsequently spreads along the faciovestibular anastomosis to the VG. [source] | ||||||||||