Bilateral Apogeotropic Lateral Canal BPPV: Role of Secondary Signs of Lateralization in Diagnosis.

Bilateral lateral canal benign paroxysmal positional vertigo (BPPV) is extremely uncommon because of difficulties in diagnosing such cases. We present first case of bilateral apogeotropic lateral canal BPPV. We want to stress that secondary signs of lateralization like bow lean test is of great help in diagnosing such cases.

Diagnostic Positional Tests and Therapeutic Maneuvers in the Management of Benign Paroxysmal Positional Vertigo.

Benign Paroxysmal Positional Vertigo (BPPV), the most common vestibular disorder characterized by recurrent, brief episodes of vertigo, is attributed to the presence of otoconia in the semicircular canals. Two mechanisms contribute to its cause-canalolithiasis (otoconia freely mobile in the semicircular canal) and cupulolithiasis (otoconia adherent to the cupula). Posterior semicircular canal is the most common canal involved. Although the occurrence of BPPV in lateral and superior semicircular canal is rare, with the advancement in diagnostic techniques, their incidence is being reported in the past few years. Various diagnostic tests and therapeutic maneuvers have been described in the management of BPPV. The present report is a comprehensive review of the tests and maneuvers for BPPV written as a guide intended to help the clinicians in the accurate diagnosis and application of a canal-specific treatment maneuver for BPPV. A simplified algorithmic approach ("The Bangalore BPPV Algorithm") for the management of BPPV is described.

Videonystagmography (VNG) Findings in Patients with Vestibular Migraine: A Hospital-Based Study.

Vestibular migraine (VM) is a disorder where vestibular symptoms are causally related to migraine. It is one of the common causes of recurrent vertigo in the general population. It has often remained as an under-recognized condition with largely unknown pathophysiology. Accurate diagnosis is essential in vestibular pathologies as it determines the management in each case. The aim of this reasearch was to compare vestibular functions of patients with VM and healthy controls using VNG and to study the VNG patterns of patients diagnosed with VM. This study is a retrospective analysis of subjects who have undergone videonystagmography (VNG) testing from October 2018 to October 2020 done in a tertiary referral hospital. Those patients satisfying diagnostic criteria for vestibular migraine were subjected to VNG testing. Group 1 consisted of 35 vestibular migraine patients, and group 2 consisted of 35 age and sex-matched healthy controls. Statistical comparison of parameters of these groups were made.We found that the mean age of VM patients in the study was 40 ± 9.9, and the females were predominantly affected (Female: Male = 2.8:1). Statistically significant difference was obtained between VM patients and healthy controls in vertical smooth pursuit and in the positional tests using the Dix Hallpike test on the right side (p value < 0.05). We conclude that a careful study of VNG patterns can serve as a valuable tool in hard to diagnose cases of vestibular migraine.

Clinical and VNG Features in Anterior Canal BPPV-An Analysis of 13 Cases.

Objective: To define diagnostic VNG features in anterior canal BPPV during positional testing (Dix-Hallpike, supine head hanging, and McClure Pagnini tests). Study Design: A retrospective study of patients diagnosed with anterior canal BPPV across four referral centers in New Delhi, Kochi, Bangalore, and Dubai. Subjects and Methods: Clinical records of 13 patients with AC BPPV out of 1,350 cases, during a 3-years period, were reviewed and analyzed by four specialists. Results: Four patients had positional down beating nystagmus with symptoms of vertigo during the bilateral DHP maneuver. Seven cases had positional down beating nystagmus only on one side of DHP. Typical down beating nystagmus was seen in 10 out of 13 cases during the straight head hanging maneuver. Down beating torsional nystagmus was seen in 6 out of 13 cases. Down beating with horizontal nystagmus was seen in three cases (in DHP and MCP mainly) while pure down beating nystagmus during SHH was only seen in four cases. Conclusion: We conclude that anterior canal BPPV is a rare but definite entity. It may not be apparent on positional testing the first time, so repeated testing may be needed. The most consistent diagnostic maneuver is SHH though there were patients in which findings could only be elicited using DHP testing. We recommend a testing protocol that includes DHP testing on both sides and SHH. MCP testing may also evoke DBN with or without the torsional component. Reversal of nystagmus on reversal of testing position is unusual but can occur. The Yacovino maneuver is effective in resolving AC BPPV. We also propose a hypothesis that explains why DHP testing is sensitive to AC BPPV on either side, whereas MCP lateral position on one side is only sensitive to AC BPPV on one side. We have explained a possible role for the McClure Pagnini test in side determination and therapeutic implications.

Piezoelectric sensing: Evaluation for clinical investigation of deviated nasal septum.

Noninvasive objective evaluation of nasal airflow is one of the important clinical aspects. The developed polyvinylidene fluoride (PVDF) sensor enables measurement of airflow through each side of the nose using its piezoelectric property. This study was designed to evaluate the diagnostic capability of the PVDF sensor in assessing the deviated nasal septum (DNS). PVDF nasal sensor uses its piezoelectric property to measure the peak-to-peak amplitude (Vp-p) of nasal airflow in both of the nostrils: right nostril (RN) and left nostril (LN), separately and simultaneously. We have compared the results of PVDF nasal sensor, visual analog scale (VAS), and clinician scale for 34 DNS patients and 28 healthy controls. Additionally, the results were further analyzed by receiver operating characteristic curve and correlation between PVDF nasal sensor and VAS in detecting DNS. We found a significant difference in the peak-to-peak amplitude values of the test group and the control group. The correlation between the PVDF nasal sensor measurements and VAS (RN and LN combined) for test group was statistically significant (-0.807; p < 0.001). Sensitivity and specificity of the PVDF nasal sensor measurements in the detection of DNS (RN and LN combined) was 85.3 and 74.4%, respectively, with optimum cutoff value ≤0.34 Vp-p. The developed PVDF nasal sensor is noninvasive and requires less patient efforts. The sensitivity and specificity of the PVDF nasal sensor are reliable. According to our findings, we propose that the said PVDF nasal sensor can be used as a new diagnostic tool to evaluate the DNS in routine clinical practice.