View clinical trials related to Facial Palsy.
Filter by:This study examines the use of an AI-powered virtual assistant for quickly identifying and handling neurological emergencies, particularly in places with limited medical resources. The research aimed to check if this AI tool is safe and accurate enough to move on to more advanced testing stages. In a first-of-its-kind trial, the virtual assistant was tested with patients having urgent neurological issues. Neurologists first reviewed the AI's recommendations using clinical records and then assessed its performance directly with patients. The findings were as follows: neurologists agreed with the AI's decisions nearly all the time, and the AI outperformed earlier versions of Chat GPT in every tested aspect. Patients and doctors found the AI to be highly effective, rating it as excellent or very good in most cases. This suggests the AI could significantly enhance how quickly and accurately neurological emergencies are dealt with, although further trials are needed before it can be widely used.
Idiopathic facial nerve palsy (Bell's palsy) is caused by damage to the facial nerve at any site of the peripheral branches after the facial nucleus.Stellate ganglion block is inteneded to increase blood flow and promotes nerve regeneration.
This project was a Randomized clinical trial conducted to compare the effects of motor imagery technique and mime therapy on facial expressions in facial palsy patients so that we can have best treatment option for patients of facial palsy. Duration was of 6 months, convenient sampling was done, subjects following eligibility criteria from Imran Idrees Teaching hospital and Idrees Hospital Sialkot, were randomly allocated in two groups via computer generated method, baseline assessment was done, MIT Group received motor imagery technique, 45 min session (3 times a week for 3 months) plus the EMS (10-15 min), while the MT Group received mime therapy 30-45 min session (3 times a week for 3 months) plus the EMS (10-15 min). Outcome measures were collected for both groups at before treatment (T0) and at the end of the treatment i-e after 3 months (T1). The outcome measures were severity of paresis, facial symmetry and intensity of depression measured by using House-Brackmann Scale, Sunnybrook Facial Grading System and Beck Depression Inventory Scale, respectively. Data was analyzed by using SPSS version 24.0.
Facial palsy affects between 23 to 35 people per 100,000. As well as affecting an individual's appearance, it also can lead to difficulties with: eating, drinking, speaking, eyelid closure, pain and taste. Facial palsy has been shown to have a significant impact on an individual's psychological wellbeing, including issues with anxiety, depression and low self-esteem. These elevated levels of distress have been thought to be partly due to the impact that facial palsy has on the face's ability to express emotions, which is a crucial aspect of face-to-face communication. Although not researched yet in a facial palsy population, one type of psychological intervention that has been found to be effective at improving the psychosocial wellbeing of people with visible differences has been psychological self-help. With this in mind, the investigators have developed seven self-guided information and therapy guides (ITGs), for people with facial palsy and/or their friends or relatives. The investigators have written these guides by drawing on interventions with a strong evidence-base in other populations, such as cognitive behavioural therapy, social skills training and acceptance and commitment therapy: 1. Facial palsy: Coping with the early stages. 2. Facial palsy: Coping with comments, questions and staring. 3. Facial palsy: Communicating with confidence. 4. Facial palsy: Managing anxiety. 5. Facial palsy: Managing your mood. 6. Facial palsy: Building your self-esteem. 7. Facial palsy: Advice for friends, family and partners. The investigators aim to evaluate the effectiveness, usability and acceptability of these guides to people with facial palsy and/or their friends, family and partners, by piloting their use over a 4-6 week period. Assessment of psychosocial wellbeing will be carried out before and after the 4-6 week period, while participants will be invited to provide usability and acceptability feedback on the guides after the 4-6 week period.
Respiratory function, phonation and facial expressivity are related to emotional reaction through neurophysiological process. Specific emotional respiratory, vocal and facial patterns had been described in literature. Respiratory cycles variation is modulated by stimulus arousal. Furthermore, inspiratory-to-expiratory time ratio in abdominal area is modulated by emotional valence. Inextricably linked to respiration, vocal production depends on emotional arousal and valence too. According to embodied cognition, the effector pattern of an emotion initiates the corresponding subjective activation. Facial recognition is influenced by automatic mimicry and facial feedback. Most facial feedback studies included patients with diplegia but few studies dealt with emotional perception in Bell's palsy. The aim of the present study is to understand production and perception of emotion in Bell's palsy with respiratory, vocal and facial markers. What impact lack of mimicry have on physiological emotional reaction in Bell's palsy? To this end, prospective monocentric study will be conducted with 60 patients with Bell's Palsy from grade II to grade VI of House & Brackmann's scale. During production and perception of vocal and facial expression, respiratory rate and thoraco-abdominal movements will be analyzed. The investigators hypothesize that severity of facial deficit is negatively correlated with variation of respiratory cycles, lower segmental and suprasegmental changes during vocal expression, and lower facial perception (congruency and arousal).
A retrospective and cross-sectional analysis of standard of care for facial paralysis involving the cross-face nerve graft in the past 20 years. - Imagery analysis - Questionnaires
The investigators conducted a prospective study of 132 patients undergoing benign parotid surgery at our department. Their primary objective was to analyze the incidence of and contributing factors associated with temporary and permanent postoperative facial palsy with strictly standardized methods in facial nerve function evaluation. Also other complications occurring within 12 months of operation were recorded.
The purpose of this study is to assess the efficacy of antiviral medicine (acyclovir) in recovery of complete facial Palsy. Fifty patients (Males and females) with acute Facial Palsy within the first 3 days of onset with age ranged from 15-60 years old. Each patient was submitted to the following clinical evaluation using House and Brackmann 6 facial function scoring system and Synnybrook grading system. Neurophysiological assessment of facial nerve and muscles was done before and after the end of treatment, then after the end of first and second month of treatment. EMG was done for facial muscles of both sides beside measuring facial nerve excitability to determine the excitation threshold by recording the minimum electrical stimulus required to produce visible muscle contraction. A difference greater than 3.5 mA between the affected and unaffected side is considered significant in terms of poor prognosis. Nerve conduction study of facial nerves of both sides using concentric needle electrode. Trigeminal Blink reflex for both sides of the face. Facial functional recovery was defined as "good" or "complete" using the same criteria used in the 2001 practice guideline. An outcome of grade I or II was considered a good recovery using the House and Brackmann 6 facial function scoring system
Facial palsy after surgical removal of cranial base tumors adherent to the nerve can partly be explained by inflammation.