Epley Maneuver Research Articles

Altered Hippocampal Subfields Functional Connectivity in Benign Paroxysmal Positional Vertigo Patients With Residual Dizziness: A Resting-State fMRI Study.

To explore alterations in functional connectivity (FC) focusing on hippocampal subfields in benign paroxysmal positional vertigo (BPPV) patients with residual dizziness (RD) after successful canalith repositioning procedure (CRP). We conducted resting-state functional magnetic resonance imaging (fMRI) on 95 BPPV patients, comprising 50 patients with RD and 45 without. Seed-to-voxel and seed-to-seed analyses were employed to examine changes in FC between the two groups. The hippocampal subfields, including the bilateral dentate gyrus (DG), cornu ammonis (CA), entorhinal cortex (EC), subiculum, and hippocampal amygdalar transition area (HATA) were selected as seeds. Additionally, we assessed the relationship between abnormal FC and clinical symptoms. Seed-to-voxel analysis indicated that, compared to non-RD patients, those with RD exhibited decreased FC between the right DG and right parietal operculum cortex, right HATA and right precuneus, left HATA and left precuneus, left EC and cerebellar vermis 8/-crus 1, and between the left subiculum and left angular gyrus. Conversely, we observed increased FC between the left CA and left lingual gyrus, as well as between the right CA and right fusiform gyrus in RD patients. Furthermore, these variations in FC were significantly correlated with clinical features including the duration of RD and scores on the Hamilton Anxiety Scale and Dizziness Handicap Inventory. BPPV patients with RD exhibited altered FC between hippocampal subfields and brain regions associated with spatial orientation and navigation, vestibular and visual processing, and emotional regulation. These findings offer novel insights into the pathophysiological mechanisms in BPPV patients with RD following successful CRP.

Which Canal BPPV Should be Checked for Residual Disease after 1 Week?

Objectives: The study aimed to determine the residual disease rate due to the affected canal in patients diagnosed with benign paroxysmal positional vertigo (BPPV) and reveal the factors affecting the residual disease. Materials and Methods: A comprehensive investigation was conducted to determine the effect of the affected canal, sociodemographic data, body mass index, hospital admission time, systemic disease history, betahistine use, and previous otologic vertigo history on the residual BPPV rate. This investigation was carried out on 201 patients who underwent repositioning maneuvers with BPPV diagnosis and came for a follow-up 1 week later, ensuring a robust and reliable dataset. Results: Two hundred one patients were included in the study: 91 (45.3%) male and 110 (54.7%) female. The mean age of the patients was 60.44 + 13.83 (min = 23-max = 90) years. Residual disease was significantly higher in bilateral canal involvement (P = .001), anterior canal involvement, and those presenting 72 hours after the onset of the vertigo attack (P = .001). There was no significant difference between residual disease and those with successful initial maneuver results regarding age, gender, obesity, canalolithiasis, or cupulolithiasis. Conclusion: The most effective treatment for BPPV is canalith reposition maneuvers. We recommend that patients be called for follow-up after 1 week, especially in cases of anterior canal involvement and bilateral involvement. These findings provide valuable insights for the management of BPPV.

EFFECTIVENESS OF EPLEY MANEUVER AND GANS REPOSITIONING MANEUVER ON DIZZINESS, BALANCE AND KINESIOPHOBIA IN PATIENTS WITH POSTERIOR CANAL BENIGN PAROXYSMAL POSITIONAL VERTIGO

Background: Benign paroxysmal positional vertigo (BPPV) is the most prevalent type of peripheral vestibular vertigo, typically affecting the posterior semi-circular canal. Objective: The objective of study was to compare the effectiveness of Epley maneuver and Gans repositioning maneuver on dizziness, balance and kinesiophobia in patients with posterior canal BPPV. Methods: 30 BPPV patients were selected and assigned into two groups based on the selection criteria. Group-A (N=15), received Epley maneuver and 15 were assigned to Group-B, undergone Gans repositioning maneuver, for 20 minutes per session, 3 session (alternate days) per week for 3 weeks. Cawthorne and Cooksey Exercises were given to both the group as common intervention. Dizziness, balance and kinesiophobia were assessed both before and after the 3-week intervention program using Dizziness Handicap Inventory (DHI) scale, Timed-Up and Go (TUG) test and Tampa Scale of Kinesiophobia (TSK), respectively. The collected data were subsequently tabulated and analyzed using appropriate statistical tools. Results: The unpaired ‘t’ test analysis of dizziness and balance revealed statistically significant scores in DHI(t=2.2259) and TUG(t=2.2547), respectively, at a 95% confidence interval. Consequently, Group A demonstrated significant reduction in dizziness and balance improvement in patients with posterior canal BPPV. The scores of Kinesiophobia for both the groups were (A, Mean=31.6; B, Mean= 32.2), which showed no significant difference(t=1.074), that means the group showed the improvement from baseline. Conclusion: The study concluded that a 3-week intervention combining the Epley maneuver with Cawthorne-Cooksey exercises was effective in treating dizziness, balance and kinesiophobia in patients with posterior canal BPPV. Implication: The Epley and Gans maneuvers effectively reduce dizziness and improve balance in patients with posterior canal BPPV. They also may alleviate kinesiophobia, enhancing patient confidence in movement. These interventions highlight the importance of targeted therapy in managing vestibular disorders, promoting functional recovery and quality of life.

Unveiling the Therapeutic Impact of Virtual Reality Game-Based Exercises on Cervicocephalic Kinesthetic Sensibility in Individuals Battling Cervical Vertigo

This study was aimed to investigate the therapeutic impact of Virtual Reality game-based exercises with Epley maneuver on cervicocephalic kinesthetic sensibility in individuals experiencing cervical vertigo. 8 subjects were selected by simple random sampling method included clinically diagnosed male and female cervical vertigo patients between 40-55 years of age, who had recurring symptom of dizziness over three months, episodic dizziness lasting minutes to hours .Written consent was taken and a detailed outcome assessment was done.Intervention includes Virtual Reality abyss sharks & sea worlds for a duration of 10 minutes with a five-minute rest period and Virtual Reality thrills, for a duration of 10 minutes with a five-minute rest period along with epley maneuver 10 minutes targeting cervicocephalic kinesthetic sensibility.Total duration of the intervention includes 40min/day for 6 days for 12 weeks. Pre test included Cervical Joint Position Error Test for cervicocephalic kinesthetic sensibility and Videonystagmography measures nystagmus, rapid eye movements with a slow and fast phase, to provide objective information about vertigo. Post test done on 6th and 12th week of intervention with the same measures. On comparing pre- and post-intervention outcomes shows higher mean value (P≤0.001).In conclusion the findings of this study had the potential to contribute valuable insights into the therapeutic utility of Virtual Reality game-based exercises in managing cervical vertigo, offering a novel and engaging approach to rehabilitation. Virtual Reality-based interventions is found effective treatment for individuals battling cervicocephalic kinesthetic sensibility among patients with cervical vertigo.

DWI lesions after intracranial aneurysm treatment with contour or WEB-does the device matter?

In this study, we report our experience with the occurrence of diffusion-weighted imaging (DWI) lesions following aneurysm treatment with Woven EndoBridge (WEB) device and Contour Neurovascular System in elective settings. We compared both techniques in a retrospective single-center analysis, to investigate whether there are significant differences in the incidence of microemboli depending on the device used. Sixty-two cases treated with Contour were retrospectively compared with 84 WEB cases. Postinterventional MRI was performed in all patients within five days after the angiographic procedure. Only DWI lesions in the dependent vascular territory of the treated aneurysm were considered. Data on occurrence of DWI lesions, device implantation times as well as device change or repositions maneuvers were compared. A total of 146 patients were included in this study. Postinterventional DWI lesions were detected in 33 of the 62 (53.2%) Contour cases and in 36 of the 84 (42.8%) WEB cases with an average lesion number of 1.70 ± 3.45 in our WEB group and 1.68 ± 2.53 in our Contour cohort. Neither periinterventional device changes nor device reposition maneuvers had a significant impact on the occurrence of DWI lesions. Although four patients experienced transient neurological deterioration, the DWI lesions were not clinically relevant at the time of discharge, as the patients' NIHSS remained stable compared to the preintervention NIHSS in the entire cohort. There was no statistically significant difference between the implantation times of WEB and Contour, although Contour could be implanted slightly faster. Aneurysm treatment with WEB or Contour results in a comparable numbers of procedure-related DWI lesions. This effect was consistent after adjustment for other demographic or technical variables.

Atypical PC-BPPV - Cupulolithiasis and Short-Arm Canalithiasis: A Retrospective Observational Study.

Atypical posterior canal (pc) benign paroxysmal positional vertigo (BPPV) may be caused by cupulolithiasis (cu), short arm canalithiasis (ca), or jam. The purpose of this study was to describe the clinical presentation and differential diagnosis of pc-BPPV-cu and short arm canalithiasis. This retrospective observation study identified persons with atypical pc-BPPV based on history and findings from four positional tests. Patterns of nystagmus suggested canal involved and mechanism of BPPV. Interventions included canalith repositioning procedures (CRP). Fifteen persons, 17 episodes of care, met inclusion criteria, 65% referred following unsuccessful CRPs. Symptoms included persistent, non-positional unsteadiness, "floating" sensation, with half experiencing nausea/vomiting. Downbeat nystagmus with/without torsion in Dix-Hallpike (DH) and Straight Head Hang (SHH) position and no nystagmus upon sitting up, occurred in 76% of persons attributed to pc-BPPV-cu. Upbeat nystagmus with/without torsion and vertigo/retropulsion upon sitting up, occurred in 24% attributed to pc-BPPV-ca short arm. During SHH, canal conversion from pc-BPPV-cu to long arm canalithiasis occurred in 31%. The Half-Hallpike position identified pc-BPPV-cu in 71%. The Inverted Release position identified pc-BPPV-cu adjacent short arm and pc-BPPV-ca short arm. Persistent, peripheral nystagmus that is downbeat or downbeat/torsion away from involved ear in provoking positions and no nystagmus sitting up, may be attributed to pc-BPPV-cu, and nystagmus that is upbeat or upbeat/torsion towards involved ear upon sitting up may be attributed to pc-BPPV-ca short arm. Both are effectively treated with canal- and mechanism-specific CRPs. for more insights from the authors (see the Video, Supplemental Digital Content 1 available at: (http://links.lww.com/JNPT/A487).

Study Protocol for Assessing Serum Superoxide Dismutase Response to a Novel Head Rotation Maneuver in Posterior Canal Benign Paroxysmal Positional Vertigo Treatment

Abstract Background: Benign paroxysmal positional vertigo (BPPV) is a condition with sudden onset which causes short episodes of severe vertigo on altering the position of the head. Superoxide dismutases (SODs) are antioxidant proteins that regulate oxidative stress response in the body. Through this study, we evaluate the role of SOD in causing BPPV and effect of a new alternating maneuver, head rotation maneuver, for the treatment of BPPV of the posterior canal in reducing oxidative stress levels. Methodology: For investigating the role of serum SOD in the occurrence of BPPV Posterior canal, 60 BPPV and 60 healthy controls will be recruited. Their serum samples will be collected and SOD levels will be evaluated through colorimetry. For evaluating the effectiveness of head rotation maneuver in reducing the oxidative stress, patients with posterior canal BPPV (PC-BPPV) will be enrolled and divided into two groups through random allocation. Both the groups will be treated with head rotation and Epley maneuvers, respectively, by two separate therapists. Post-therapy SOD level will also be assessed. Results: Two-way repeated measures analysis of variance will be used to compare the groups’ improvement; treatment measures will be referred to as intergroup variables. Binary logistic regression analysis will be used to determine how SOD levels affect BPPV and recurrent BPPV. Pre- and postmaneuver SOD level will also be compared. Conclusion: SOD can be established as a reliable and strong biomarker for the occurrence of BPPV. Moreover, head rotation maneuver which is easy to perform can be used for managing PC-BPPV if the results show promising outcomes.

Minimal Stimulus Strategy in Benign Paroxysmal Positional Vertigo: Its Application in a Resource Limited Setting.

Benign paroxysmal positional vertigo (BPPV) is the most common cause for vertigo. It is diagnosed by the characteristic nystagmus induced by provocative positional tests. During these positional tests the patient experiences spinning vertigo and neurovegetative symptoms such as nausea and vomiting. This can cause severe discomfort to the patient during treatment and in some cases reduced compliance. Minimal stimulation strategy reduced the episodes of induced vertigo, nausea and vomiting thereby making the treatment maneuvers more tolerable. This study aims to evaluate the utility of minimum stimulus strategy for managing BPPV in a resource limited center. The present study also evaluated the utility of 3rd step vertigo as an alternative marker for recovery nystagmus in predicting the efficacy of Epley's maneuver in treating posterior canal BPPV. All patients diagnosed with canalolithiasis of posterior semicircular canal (pc-BPPV), horizontal semicircular canal (hc-BPPV), anterior semicircular canal (ac-BPPV) and multiple semicircular canal (mc-BPPV) were included in the study. The side on which the maximum symptoms were experienced was asked to the patients and noted. The first positional test done in all patients was the Dix-Hallpike maneuver and minimum stimulation strategy was used for treating BPPV. Appropriate canalolith repositioning maneuvers (CRM) were used to treat BPPV. Positional maneuvers were repeated after the CRM in the same sitting and the treatment was considered successful if nystagmus had disappeared on repeat positional tests. The presence of 3rd step vertigo during Epley's maneuver was documented. A total of 71 patients were enrolled in the study. Patients correctly identified the side of BPPV in 76.31% of cases. 3rd step vertigo was able to predict a successful Epley's maneuver in pc-BPPV with a sensitivity and specificity of 41.67% and 60% respectively. Incidence of 3rd step vertigo was seen in 41.37% of patients with pc-BPPV and in 90.9% of patients with mc-BPPV. Minimal stimulation strategy is useful in reducing the discomfort experienced by the patients with BPPV during treatment and thereby improve the compliance to treatment maneuvers. Patients were able to identify the correct side of BPPV in 76.31% of cases. Third step vertigo could predict successful Epley's reposition maneuver with a sensitivity of 41.67% and specificity of 60% in our cohort. However, more studies with larger sample size are required to ascertain its role as an alternative marker for 'recovery nystagmus'.

Management Protocol for the Unilateral Posterior Canal - Benign Paroxysmal Positional Vertigo - A Prospective Observational Study.

The objectives of our study were to assess the effectiveness of the single Epley manoeuvre per session for three consecutive days and to determine the protocol for treating posterior canal-Benign Paroxysmal Positional Vertigo (pc-BPPV). At our tertiary care centre, 410 patients with a confirmed diagnosis of unilateral pc-BPPV were included in a prospective observational study. For all the participants, the Epley manoeuvre was performed once daily for three consecutive days. Patients with persistent vertigo underwent Semont's liberatory manoeuvre and were reassessed after one week. The above protocol was repeated for patients who continued to have symptoms. The majority (40.0%) of patients were seen in the 6th decade, followed by the 5th decade (34.4%). Among the study participants, the mean age was 51.57 ± 9.916 years. The male-to-female ratio is 1:1.05. The right ear was affected by 51.75%, and the left by 48.3%. With this protocol, 392 (95.6%) patients were relieved of symptoms by day 3. A six-month recovery rate of 99.75% was achieved. In our study, 99.8% of patients with unilateral pc-BPPV were cured, and 6.34% had a recurrence of symptoms within six months of follow-up. Hence, combining the Epley and the Semont manoeuvres and repeating the manoeuvres on consecutive days has better improvement.

A Comparison of the Efficacy of Four Repositioning Maneuvers in the Treatment of Posterior Benign Paroxysmal Positional Vertigo.

The purpose of the present review was to report the effectiveness of Epley maneuver compared to other manual repositioning maneuvers (RM) for treatment of posterior benign paroxysmal positional vertigo (P-BPPV). A systematic search of PubMed, Embase, and the Cochrane Library was conducted up until June 30, 2023. Primary outcomes focused on complete resolution of vertiginous symptoms measured by either a Visual Analog Scale (VAS) or the Dix-Hallpike (DH) test. Secondary outcomes included conversion of a positive DH test to a negative DH test exclusively looking at positional nystagmus and assessment of side effects (cervical/back pain, posttreatment dizziness, and nausea). Both outcomes were assessed within a maximum of 4-week follow-up. Following systematic search and review, nine randomized controlled trials (RCTs; p = .413) were found. The studies reported on the effectiveness of the Epley maneuver compared to three other specific RM: Semont, Li, and Gans maneuvers. Results revealed a low to very low certainty of evidence. With the primary outcomes, Epley maneuver was superior to Gans maneuver 24-hr posttreatment but not after 1 week. No significant differences were found between the remaining maneuvers. In summary, evidence of low to very low certainty indicates that Epley maneuver is comparable with Semont, Gans, and Li maneuvers for vertiginous symptoms in patients with P-BPPV. Further high-quality studies are needed.

Epley Maneuver Skills in Primary Care: 3D Semicircular Canal Models for Self-Learning.

Posterior canal-type benign paroxysmal positional vertigo (BPPV) is commonly treated using the Epley maneuver; however, the maneuver's use in primary care is limited by insufficient expertise. Therefore, this study aimed to evaluate the efficacy of a three-dimensional (3D) semicircular canal model as a self-learning tool for primary care physicians to improve their Epley maneuver technique. Thirty-one participants (18 family physicians, seven residents, and six medical students) performed the Dix-Hallpike maneuver on a nursing manikin, followed by the Epley maneuver on the covered 3D models before and after a 5-minute self-study period with the uncovered 3D model. We measured the number of moved beads from posterior canal into the utricle of the 3D model, time spent on the Epley maneuver, and head suspension angle of the Dix-Hallpike maneuver. Preintervention performance was divided into a skilled group (n=7) that could move almost all the beads and an unskilled group (n=24) that could move a few beads. Postintervention, the unskilled group members significantly improved their skill: The average moved beads increased from 0.35 to 8.00, maneuver time from 26.1 to 35.8 seconds, and head suspension angle from 10.3° to 16.4°. Most participants recognized the importance of correct positioning and spent adequate time. The 3D model was effective as a self-learning tool for improving Epley maneuver performance, particularly for less experienced practitioners. This approach could bridge the gap between evidence and practice in primary care for BPPV treatment, enhancing patient outcomes and reducing the need for specialist referrals.

Acupuncture for Residual Dizziness After Successful Repositioning Maneuvers in Patients with Benign Paroxysmal Positional Vertigo: Study Protocol for a Randomized Noninferiority Trial.

Benign paroxysmal positional vertigo (BPPV) is the most common cause of peripheral vertigo among adults. Successful treatment often requires an appropriate canalith repositioning procedure (CRP), which has proven effective in the treatment of BPPV. However, some patients experience residual dizziness (RD) after CRP, affecting their daily activities and quality of life. Although oral betahistine is a common clinical treatment for RD, some patients may discontinue this medication due to adverse effects. Conversely, acupuncture has demonstrated efficacy in treating dizziness with minimal adverse effects. However, to date, no trials have directly compared the efficacy of acupuncture and betahistine in treating RD. Our goal was to assess the noninferiority of acupuncture in treating RD compared with the commonly used oral betahistine treatment. A randomized, controlled, non-inferiority trial was conducted to compare the effectiveness of acupuncture and betahistine in patients with BPPV who experience RD after a successful CRP. Eighty-four participants were randomly assigned to two treatment groups, each receiving either acupuncture or betahistine. The assessors and statisticians were blinded to treatment allocation. The primary outcomes were the response rate and change in vertigo level, and secondary outcomes included Visual Analog Scores and the presence and change in depressive symptoms among patients. Scale measures were recorded at baseline, 2, 4, and 12 weeks after randomization. This trial aims to provide causal evidence supporting the non-inferiority of acupuncture therapy relative to oral betahistine, offering an alternative treatment avenue for patients intolerant to betahistine. Ethics approval was obtained from the Affiliated Hospital of Shandong University of Traditional Chinese Medicine, with permission number 2023-095-KY. Written informed consent was obtained from the enrolled patients.

Difference in the immediate effect on positional nystagmus for head positions with interval time during Epley maneuver: a randomized trial.

The Epley maneuver (EM) shows immediate effect, wherein disappearance of positional nystagmus occurs soon after the EM. Our previous study showed that setting interval times during the EM reduced the immediate effect. The purpose of this study is to identify the head position for which interval time reduces the immediate effect. Fifty-one patients with posterior canal type of benign paroxysmal positional vertigo (BPPV) were randomly assigned to the following three groups: 10min interval time set at the first head position of the EM in group A, at the third head position in group B, and at the fourth head position in group C. The primary outcome measure (POＭ) was the ratio of maximum slow-phase eye velocity of positional nystagmus soon after the EM, compared with that measured before the EM. A large ratio value indicates a poor immediate effect of the EM. The POＭ in group A (0.07) was smallest (B: 0.36, C: 0.49) (p < 0.001). The interval times at the third and fourth head positions reduced the immediate effect of the EM. Our previous study showed that the effect of BPPV fatigue is continued by maintaining the first head position of the EM. BPPV fatigue constitutes fatigability of positional nystagmus with repeated performance of the Dix-Hallpike test. Our findings may be interpreted in accordance with the theory that the immediate effect of the EM is BPPV fatigue itself, because we observed that the effect of BPPV fatigue is strongest in group A.

Epley's Manoeuvre vs. Semont's Maneuver in Post-Canal Benign Paroxysmal Positional Vertigo: A Comparative Study in a Tertiary Centre.

This was a prospective, comparative study conducted at a tertiary care hospital. One hundred patients diagnosed with post-canal BPPV were randomized into two groups: Group A (n = 50) underwent the Epley's manoeuvre, and Group B (n = 50) underwent the Semont's manoeuvre. The patients were assessed for the resolution of vertigo and nystagmus immediately after the manoeuvre and at a follow-up visit one week later. The resolution of symptoms was confirmed through Dix-Hallpike test. In Group A, 46 patients (92%) reported complete resolution of vertigo immediately after Epley's manoeuvre, and 47 patients (94%) had no nystagmus on the Dix-Hallpike test at the one-week follow-up. In Group B, 42 patients (84%) reported complete resolution of vertigo immediately after Semont's manoeuvre, and 44 patients (88%) had no nystagmus on the DH test at the one-week follow-up. The difference in effectiveness between the two manoeuvres was not statistically significant (p > 0.05). Both Epley's manoeuvre and Semont's manoeuvre are effective in treating post-canal BPPV, with similar success rates. The choice of manoeuvre may depend on patient preference, clinician expertise, and other individual factors. Further studies with larger sample sizes are warranted to validate these findings and explore other potential factors influencing the outcomes of canalith repositioning manoeuvres in BPPV.

Three-dimensional exergaming conjunction with vestibular rehabilitation in individuals with Benign Paroxysmal Positional Vertigo: A feasibility randomized controlled study.

To examine the effectiveness of 3D (dimensional)-vestibular rehabilitation therapy (VRT) on gait, balance problems, processing time speed and subjective complaints in patients with Benign Paroxysmal Positional Vertigo (BPPV) compared to a control group (CG). This study aimed to test the feasibility of virtual reality-based 3D exergaming conjunction with vestibular rehabilitation. Twenty-two patients with BPPV (negative DixHallpike/Roll test results, existing dizziness/balance complaints) were randomly allocated to the study group (SG, n:11 3D-VRT) or Control group (CG n:11, no exercise-rehabilitation) for 8 week. The SG performed 3D-VRT for 45 to 50 min/d, 3 times/wk, and the CG did receive only Canalith Repositioning Maneuver (CRM). CRM was applied in both groups before the study. Outcome measures included 10-Meter-Walk-Test (10-MWT) (with/without head turns), Dynamic Gait Index (DGI), Choice-Stepping-Reaction-Time-ped (CSRT-MAT), Fullerton Advanced Balance Scale (FAB), and Visual Analog Scale (VAS). The SG showed significantly improvement in 10-MWT without (p5 = 0.00,η2 = 0.49), with horizontal (p5 = 0.00,η2 = 0.57),vertical (p5 = 0.01,η2 = 0.48) head turns, DGI (p5 = 0.00,η2 = 0.74), CSRT-MAT, FAB (p5 = 0.00,η2 = 0.78) and VAS-dizziness (p5 = 0.00,η2 = 0.65), VAS-balance problem (p5 = 0.00,η2 = 0.43), VAS-fear of falling (p5 = 0.00,η2 = 0.42) compared to the CG. The 3D-VRT were effective in improving gait, balance, processing speed and resolving the subjective complaints in BPPV. The 3D-VRT method is feasible for patients who suffer from residual dizziness or balance complaints after CRM. Furthermore, the 3D-VRT is more accessible and less expensive than other virtual reality applications, which may facilitate further research or clinical use.

Otolithic functions in patients with residual dizziness after successful repositioning manoeuvres for unilateral posterior canal BPPV.

To evaluate otolithic functions in patients with residual dizziness after successful canalith repositioning procedures (CRPs) for unilateral posterior canal benign paroxysmal positional vertigo (BPPV), and to investigate possible risk factors. This case-control observational study included healthy controls and patients with residual dizziness after improvement following CRP for BPPV. All participants were subjected to full history taking, otoscopy, audiological basic evaluation, Dix-Hallpike test to search for posterior canal BPPV, residual dizziness screening, and vestibular evoked myogenic potential (VEMP) testing. Between-group differences were assessed and possible factors associated with residual dizziness were identified by univariate analysis. A total of 50 patients with residual dizziness (mean age, 56.53 ± 7.46 years [29 female: 21 male]) and 50 healthy controls (mean age, 58.13 ± 7.57 years [20 female: 30 male]) were included. A significant difference in VEMP latencies was found between the patient and control group (delayed in the patient group), with no significant between-group difference in amplitude in both ears. Aging, female sex, long duration of BPPV, number of CRPs, cervical VEMP and ocular VEMP abnormalities, and winter onset, were significantly associated with the risk of residual dizziness. Residual dizziness is a frequent sequel of BPPV that may relate to otolithic dysfunction. VEMP changes were revealed in the form of delayed latencies.

Do single-session Epley maneuvers treat benign paroxysmal positional vertigo?

Benign paroxysmal positional vertigo (BPPV) is the most common peripheral vestibular condition characterized by short-term vertigo attacks that significantly affect quality of life. Examine how well a single Epley maneuver worked in an outpatient setting for people with posterior canal benign paroxysmal positional vertigo (PC-BPPV) and whether they needed a second Dix-Hallpike maneuver. Prospective. Otorhinolaryngology department of a tertiary care center. Sociodemographic data, body mass index (BMI), and systemic disease history of 75 patients diagnosed with PC-BPPV were recorded, and their relationship with success rates after the modified Epley maneuver was analyzed. Detect cases that could not be repositioned with the diagnostic control Dix-Hallpike test performed 20 minutes after the modified Epley reposition maneuver in the same session in PC-BPPV patients. 75. Of the 75 patients, 31 were male (41.3%), 44 female (58.6%) with a mean (standard deviation) age of 58.6 (15.9) years age, 54.6% had one or more chronic diseases. BMI was 30 mg/kg2 and above in 31 patients (41.3%). The modified Epley maneuver was successful in 77.3%. No significant relationship was found between additional diseases or BMI in the patient group in whom the maneuver was unsuccessful. The success rates of repositioning maneuvers in treating patients diagnosed with PC-BPPV are high. However, more than a single maneuver is required in some resistant patients. Second diagnostic and repositioning maneuvers performed in the same session will reduce multiple hospital admissions. While it is helpful to repeat the maneuver in the patient group where it was unsuccessful, other factors causing the failure should be investigated. Lack of follow-up results of patients after 7-10 days.

To compare the recovery rates of modified Epley's against Semont's manoeuvres in patients with posterior canal benign paroxysmal positional vertigo: a randomized clinical trial.

Benign paroxysmal positional vertigo (BPPV) is one of the commonest causes of peripheral vertigo. It is treated with various canalolith repositioning manoeuvres by changing the head positions to allow the otoconial debris to fall back from the affected canal back to the utricle. The present study has compared the rate of recovery of vertigo with modified Epley's manoeuvres as compared to Semont's manoeuvre in patients with posterior canal BPPV. One hundred and seventy patients diagnosed by positive Dix-Hallpike test as posterior canal BPPV were included in this clinical trial. Subjective analysis of vertigo was done using visual analogue scale. 85 patients each were recruited in two arms by simple randomization using lottery method. Modified Epley's manoeuvre was administered to one group and Semont's manoeuvre to the other. They were recalled after 2weeks for clinical assessment with repeat Dix-Hallpike and VAS. Repeat Dix-Hallpike manoeuvres after two weeks revealed that 95.3 and 90.6% patients improved in Modified Epley's and Semont's group, respectively. After the second manoeuvre, the resolution rate was significantly higher in Semont's manoeuvre 100% (8 out of 8 patients), as compared to 25% (1 out of 4 patients) in Modified Epley's manoeuvre. Comparison of the mean values of VAS day 0 and VAS 2 weeks has been found to be statistically significant (p value of < 0.001). Both Epley's and Semont's manoeuvre are equally efficacious in treatment of BPPV. However, use of Semont's manoeuvre required fewer repeat manoeuvres for complete resolution of symptoms in patients. The Semont's manoeuvre is also comparatively easier to perform with less number of position changes, takes less time, and has no requirement of post-manoeuvre mobility restrictions. Hence, it is recommended that Semont's manoeuvre can be routinely used for the management of PC BPPV especially in older population and patients with spinal problems.

Enhancing BPPV Treatment Outcomes: A Comparative Study of the Epley Maneuver with and without the Dizzy-Fix Training Device.

This study evaluates the effectiveness of combining the Epley Maneuver with the Dizzy-Fix Training Device in treating Benign Paroxysmal Positional Vertigo (BPPV), aiming to enhance treatment outcomes and patient satisfaction. In this randomized controlled trial, 50 patients diagnosed with posterior canal BPPV were allocated into two groups: one receiving the traditional Epley Maneuver and the other undergoing the Epley Maneuver supplemented with the Dizzy-Fix Training Device. Key measures included the proportion of symptom-free patients at one month, changes in the Visual Analogue Scale (VAS) and Dizziness Handicap Inventory (DHI) scores, the recurrence rate within one month, and patient satisfaction. The Dizzy-Fix group achieved a significantly higher symptom resolution rate by day 7 (90% vs. 60%) and reported greater patient satisfaction (4.5/5 vs. 3.8/5) compared to the Epley Maneuver alone group. Additionally, this group exhibited a more substantial decrease in DHI scores (from an average of 30 to 5) and a lower recurrence rate (10% vs. 40%) within the first month post-treatment. Incorporating the Dizzy-Fix Training Device with the Epley Maneuver significantly improves the management of BPPV, evidenced by faster symptom resolution, enhanced patient satisfaction, and reduced symptom recurrence. These findings underscore the value of integrating real-time visual feedback technologies in vestibular rehabilitation, promising better patient outcomes, and advancing the quality of care in BPPV treatment.

Impact of Epley's Manoeuvre on Quality of Life in Patients with Posterior Semicircular Canal Benign Paroxysmal Positional Vertigo: A Pre- and Post-Treatment Analysis.

Benign paroxysmal positional vertigo (BPPV) is a common vestibular disorder, predominantly affecting the posterior semicircular canal (PSC), and significantly impacts the quality of life (QoL) of patients. This study assesses the effectiveness of Epley's manoeuvre in improving QoL in patients with PSC-BPPV. This prospective analytical study, conducted at a tertiary care centre from January 2021 to December 2022, included 93 adult patients diagnosed with PSC-BPPV via the Dix-Hallpike test. Participants were evaluated using the dizziness handicap inventory (DHI) and visual vertigo analogue score (VAS) at baseline and on days 3, 10, and 30 post-treatments with Epley's manoeuvre. Data analysis focused on changes in DHI and VAS scores to assess the impact of treatment. The cohort comprised 58.1% males and 41.9% females, with a significant majority over 50years of age. Notably, 90% of patients reported improvement by the first follow-up. Both DHI and VAS scores showed a statistically significant decrease over the follow-up period (p < 0.05), indicating a reduction in perceived dizziness and visual vertigo symptoms post-treatment. Epley's manoeuvre effectively improves the QoL in patients with PSC-BPPV, as evidenced by significant reductions in DHI and VAS scores. This study contributes to the evidence supporting Epley's manoeuvre as a key intervention in PSC-BPPV treatment, emphasizing its role in enhancing patient outcomes in clinical practice.