View clinical trials related to Facial Paralysis.
Filter by:Bell's palsy (idiopathic peripheral facial palsy) is the most common cause of facial palsy, which is related to the inflammation of the facial nerve, possibly induced by herpesvirus reactivation. Its first-line treatment comprises corticosteroids, antiviral therapy and physiotherapy. In most severe cases (grade IV to VI on House-Brackmann scale), facial motricity may remain altered or develop synkinesis or post-paralytic spasm, thus tremendously affecting quality of life. To avoid potential complications, surgical facial nerve decompression could be proposed. To date, however, there are no means to predict if Bell's palsy will evolve with any complications or if the patient will recover entirely. Thus, the invasive facial nerve decompression is equally proposed to subjects who will develop the consequences as well as to subjects able to restore without surgical treatment. This study proposes to search for prognostic blood biomarkers related to the Bell's palsy recovery pattern. Adult patients with severe Bell's palsy will be proposed to have a blood sampling for proteomic analysis in the early stage of the disease. Then 125 biomarkers on a Peptiquantâ„¢ kit will be analysed by mass spectrometry, and prognostic biomarkers will be selected regarding to the clinical recovery of Bell's palsy
The facial palsy is a frequent disease with a lot of etiologies. It has variable severities with sometimes heavy functional repercussions and different recovery potentials. The proposed treatments are based on surgery, physiotherapy and botulinum toxin injections. However, when recovery is incomplete, acceptance is more difficult, with an impacted quality of life. Thanks to Motion Capture and Electromyography, a quantification of the facial mimicry is now possible with a great precision. In addition with the quantification of the facial mimicry, eye-tracking, wich is widely used in the marketing field, but it also finds medical applications including head and neck lesions and facial palsy in particular, will be used to evaluate the visio of the patients on their pathology in function of the movement quantification measured with MoCap and Electromyography. The aim of this research is to measure in a combined way the action potentials by sEMG and the amplitudes of displacement of the markers in motion capture, for movements determined in a population of patients presenting a facial pathology, in order to compare them with reference values obtained in healthy subjects. In a second step, the aim will be to study if there is a link between the way the patient looks at his pathology and the results of his management (treatment, rehabilitation) which will be quantitatively evaluated thanks to MoCap and sEMG.
Peripheral facial palsy affects 15 to 40 people per 100,000 inhabitants and induces important functional and social repercussions. Synkinesis is a frequent after-effect of facial palsy recovery, consisting of involuntary facial spasms that disturb the gestural harmony and can go as far as a painful hypertonic spasm. More than 55% of patients recovering from facial palsy will develop transient or permanent synkinesis. These facial hypertonias have two main causes: imperfect axonal regeneration, which is all the more important as the damage is proximal, and hyperexcitability of the facial nerve nucleus due to a lack of central control. Management is therefore essential for the functional restoration of the face, especially since synkinesis do not evolve spontaneously. The main treatments are currently botulinum toxin injection, acting on the motor plate, and functional rehabilitation, consisting on local muscle relaxation and central motor control work. In recent years, therapies based on biofeedback and acting on central motor control have shown interesting results, and technological advances in virtual reality have made it possible to deepen this treatment in patients suffering from stroke, limb trauma or Parkinson's disease. In this project, the investigators evaluate the contribution of virtual reality to the management of facial palsy, and hypothesize that self-rehabilitation using this technology will improve motor control of the skin muscles and reduce complications related to their hypertonia such as synkinesis.
Background: Idiopathic Bell's palsy (IBP) is a unilateral facial paralysis of sudden onset and unknown etiology. Patient with IBP has an impaired facial expressions and psychological affection, which interfere with social communication. Multiwave locked system (MLS) laser therapy is a class IV laser with synchronizes emission of an 808 nm continuous laser and a 905 nm pulsed laser. It is proposed that MLS facilitates greater penetration and therapeutic effects than low-level laser therapy (LLLT). Aims: The aim of present study is to investigate the effect of MLS laser in the treatment of patients with unilateral IBP. Participant: A total number of 60 patients with IBP will be recruited from Makkah hospitals. Treatment will begin in the subacute phase as they referred from neuro-doctors. All the recruited patients will be randomly assigned into three groups of 20 patients each. Intervention: All patients will be treated with facial massage and exercises. In addition, group one will receive MLS laser with 10 J/cm2 in scanning mode while the group two will receive 10J/point for eight points. Measured variables: Facial disability scale (FDI) and House-Brackmann scale HBS will used to assess the grade of facial nerve recovery. The scores of both questionnaires will be collected at the baseline, after three and six weeks after treatment. Statistical Analysis: The Friedman and Wilcoxon signed ranks tests will be used to compare the FDI and HBS scores within each group
The purpose of this study is to evaluate neurotomy as an alternative treatment to Botox injections for severe synkinesis following peripheral facial palsy
Social interaction via facial mimic expression is crucial in human relationship and communication. Neural function disorder in this mechanism therefore affects human communication and social interaction. Facial nerve palsy is the paralysis of any structure innervated by the facial nerve, thus inibiting and severely compromising facial expression. In the last decade a new algorithm of treatment of facial paralysis has been raised. It connects the expertise of Aesthetic Medicine with the expertise of Plastic and Reconstructive Surgery. It is based on the use of Botulinum Toxin (BT) and Hyaluronic Acid (HA fillers). Botulinum toxin is a paralytic toxin that determine flaccid paralysis and is nowadays used in the static correction of facial paralysis with minimal invasiveness, optimal results and no time consumption. The HA fillers has the ability to restore facial volume loss and it is used in the treatment of facial palsy to harmonize symmetry. The aim is to study the effects of the BT and HA in facial paralysis patients in order to understand the efficacy of these products that have never been injected together in this type of patients. Primary objective. To evaluate the functional improvement of facial asymmetries due to facial nerve lesion after the treatment with OnabotulinumtoxinA and hyaluronic acid fillers compared with the untreated group. The evaluation will be performed analyzing the two groups at the baseline (visit 0) and the end of the treatment period (visit 5, after 9 months). Improvement difference of at least 1 grade on the House-Brackmann scale, compared with the untreated group, will be considered clinically significant. Methods. The investigation is randomized open lab phase II single centre clinical trial. This experimental study proposes to evaluate a group of 70 patients affected by hemifacial paralysis of level 3 to 6 on the House-Brackmann scale. 35 patients will be treated (Group A) with both OnabotulinumtoxinA and hyaluronic acid fillers with a monitored follow up. A control group of 35 patients (Group B) who will not be treated, will be enrolled to compare the efficacy of the treatment. During the study all the AE/ADR will be recorded.
In this study, patients who have undergone facial paralysis surgery will be asked to participate. The goal of this study is to compare the facial disability and perception outcomes of facial reanimation surgeries in patients with extensive and permanent, unilateral paralysis using 3D analysis, and compare patient-centered outcomes of facial appearance, well-being, and satisfaction using validated questionnaires. The focus point of this study will be on outcomes of mid-facial reanimation surgeries in patients with more extensive and permanent, unilateral, paralysis of varied etiology and presentation. The specific aims of the study are as follows. Specific Aim 1. To quantitatively determine the surgical effects/impact on facial disability (facial impairment and disfigurement) among four surgically treated groups of patients with unilateral facial paralysis who undergo free gracilis muscle transfer driven by (1) a trigeminal nerve (nV) graft, (2) a crossface nerve graft (nVII), (3) dual innervation comprising both nerves, and (4) midfacial modification. 1. We will compare the changes in facial disability among the groups before and after surgery, and the differences in facial disability between each surgery group and the controls before and after surgery. 2. Specific Aim 2. To compare among the surgery groups the changes in self-perceptions of facial appearance and well-being that occur due to facial reanimation surgery, and to compare the surgery groups before and at 18 months to historical controls recruited during the tenure of the R21 grant. 3. Specific Aim 3. In patients with facial paralysis, to compare surgeons' current qualitative assessment and 2D, quantitative assessment of facial impairment and disfigurement with the objective, 3D, quantitative assessments in order to determine the clinical utility of the 3D assessment approach as an outcome measure and relevance for dissemination to the surgical community.
This is an observational study that evaluate the effectiveness and safety of Korean integrative treatments in patients with peripheral facial nerve palsy. Adulthood patients aged between 19 to 69 who were diagnosed with peripheral facial nerve palsy and receive Korean integrative treatments for facial palsy will be enrolled in the study and the change will be followed according to the Facial disability index (FDI) at the 3 month moment after baseline.
The facial palsy concerns between 15 and 40 people per 100000 inhabitants. They are of various etiologies such as infectious, tumoral, traumatic or idiopathic. It has variable severities with sometimes heavy functional repercussions and different recovery potentials. The proposed palliative treatments are based on surgery, physiotherapy and botulinum toxin injections. However, when recovery is incomplete, acceptance is more difficult, with an impacted quality of life. In this context, patients' expectations and feelings about their care may become difficult for clinicians to apprehend. The eye-tracking is widely used in the marketing field, but it also finds medical applications including head and neck lesions and facial palsy in particular. Published studies focus on the gaze of photographs, excluding any notion of dynamics and by the analysis of the gaze of outside observers, ignoring the patient's gaze.The main objective is to evaluate the attention paid to the facial side with abnormal facial movement by patients with facial paralysis compared to healthy volunteers.
Bell's palsy [BP] is defined as acute idiopathic peripheral facial palsy or paralysis. Additional symptoms frequently include pain around or behind the ear, impaired tolerance to ordinary levels of noise and disturbed sense of taste on the same side. It affects men and women more or less equally. There is a consensus in the literature regarding the importance of steroid treatment for improving recovery rates and sequela of BP. Moreover, there is increasing level of high quality of evidence in recent years for a combined antiviral and steroids treatment for severe BP (House Brackmann [HB] 5-6). Adverse effects (AEs) were reported in 1-12% of patients treated with steroids, antivirals or placebo. The AEs reported were dyspepsia, loss of blood sugar control, headache, fatigue, dizziness and insomnia, recurrent duodenal ulcers, mood swings, and acute psychosis. All effects resolved when treatment was stopped. Although steroid and antivirals are widely used for BP, there is a high variability of steroids treatment, both in the dosage given and in the way of tapering down. Among the different steroid regimens used were: prednisone 1 mg/kg for 5 days tapered to 10 mg/day for remaining 5 days; prednisone (1 mg/kg for 10 days then tapered to zero over the next 6 days); prednisolone 60 mg for 5 days, 30 mg for 3 days, and 10 mg for 2 days. House-Brackmann (HB) system is widely used for facial function assessment. It is based on a six-grade score, where grade I is normal function, grade VI is complete absence of facial motor function, and grades II to V are intermediate. Steroid-induced side effects generally require tapering of the drug as soon as the disease being treated is under control. Tapering must be done carefully to avoid both recurrent activity of the underlying disease and possible cortisol deficiency resulting from hypothalamic-pituitary-adrenal axis (HPA) suppression. However, according to a review by Furst et al (2019), a patient who has received any dose of glucocorticoid for less than 3 weeks or patients treated with alternate-day prednisone at a dose of less than 10 mg (or its equivalent) are unlikely for HPA suppression. They concluded that short-term glucocorticoid therapy (up to three weeks), even if at a fairly high dose, can simply be stopped and need not to be tapered.. According to the above, the investigators assume that a rapid withdrawal of steroids after short course of treatment for BP should neither influence the efficacy or safety of treatment. Finally, steroid regimen may be hard to follow for some patients and can results in confusion and frustration. Simplifying steroid regimen, such as skipping withdrawal if not necessary, may solve this problem. The objective of our study is to determine the effectiveness and safety of prednisone treatment with no tapering down for Bell's Palsy.