View clinical trials related to Bell Palsy.
Filter by:Objective: Bell's palsy is characterized by acute, unilateral onset that compromises function and esthetics, exerting a considerable impact on the social, professional, and psychological aspects of the lives of affected individuals. Without treatment, 30% of patients with complete paralysis will not completely recover. Therefore, shortening the recovery time will accelerate the recovery process leading to better results. The objective of this study was to determine whether photobiomodulation therapy with laser acupuncture therapy could relieve symptoms in patients with Bell's palsy. Methods: This study was an open-label, randomized controlled trial including 96 patients that undergoing Bell's palsy. All the patients received oral vitamin B1. Patients were assigned to the laser acupuncture (LA) group and control group, with 102 patients in each group. LA group were received 4 weeks of Laser treatment (3 times per week), while control group were received sham laser treatment. Clinical outcome measure comprised the House-Brackmann grading system, Facial Clinimetric Evaluation Scale (FaCE), Sunnybrook facial grading scale (SBFG), and electrophysiological testing, including Electroneuronography (ENoG), Electromyography (EMG) and Blink Reflex. All the measurements were collected at the first day and at the end of study. All reported P values were two-sided and were declared statistically significant when less than 0.05.
Objective: Facial paralysis can be caused by a variety of etiological factors, complete palsy continues for two months, the chance of full recovery is reduced to zero. The aim of this study was to evaluate the effectiveness of photobiomodulation therapy (PBMT) in the in patients undergoing facial paralysis over 8 weeks. Methods: This study was an open-label, not concurrent control study including 54 patients that underwent facial paralysis over 8 weeks. Patients were assigned to the PBMT group and control group, with 27 patients in each group. Laser treatments were applied 3 days a week after recruited. PBMT was delivered using a class IV Multi-wave Locked System that combines with a simultaneous 808 nm continuous emission and 905 nm pulse emission and the maximum peak power was 25 W. Clinical outcome measure comprised the House-Brackmann grading system, Facial Clinimetric Evaluation Scale (FaCE), Sunnybrook facial grading scale (SBFG), and electrophysiological testing, including Electroneuronography (ENoG), Electromyography (EMG) and Blink Reflex. All the measurements were collected at the first day and at the end of study. All reported P values were two-sided and were declared statistically significant when less than 0.05.
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.
This study is a non-blinded single armed pilot study aiming to apply a newly created medical device in patients with seventh nerve palsy suffering from lagophthalmus in order to determine the best way for neuromuscular stimulation of the orbicularis oculi muscle and facial nerve in order to enable eyelid closure (blink). Initially, a tailored external neurostimulation prototype will be created in collaboration with the ETH for patients with facial nerve palsy and lagophthalmos. Aim of this study is to create an efficient, safe and comfortable medical device that can achieve an effective blinking through external electrical neuromuscular stimulation of the orbicularis oculi in patients with facial palsy and lagophthalmos. Such a device can become an essential part of facial palsy treatment.
This study involves the use of an Investigational Product called NTX-001. It is a product used in the repair of nerve injuries. It is used in the operating room. The main purposes of this study are to 1) see how safe NTX-001 is when used in nerve repair and, 2) see if your nerve becomes functional in a shorter period of time when compared to what is normally done to treat nerve injuries.
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 study will be carried out with volunteer patients who are diagnosed with Bell's Palsy and comply with the study criteria.The aim of the study is to compare the home PNF exercise program with video-based telerehabilitation and the conventional training program in terms of outcome measures in patients with Bell's Palsy lesions.
The use of free Neurovascularized muscles like free latissimus and gracillis muscles for reanimation of long-standing facial palsy patients using the hypoglossal nerve for innervating these muscles