View clinical trials related to Bell Palsy.
Filter by:Bell's palsy, characterized by unilateral paralysis/paresis of facial muscles, is a condition with a significant impact on individuals' lives. It was first identified by scientist Sir Charles Bell, and its sudden onset can lead to social, psychological, and emotional distress. Left untreated, Bell's palsy can have long-lasting effects on a patient's quality of life, including loss of facial muscle control, emotional stress, and communication difficulties. Rehabilitation protocols encompass various physical therapy techniques, among which Mime therapy and Motor imagery technique have shown promise.
A research study to find out if brief intraoperative electrical stimulation therapy improves nerve regeneration and smile outcomes following two-stage cross face nerve graft facial reanimation surgery.
The aim of this study is to determine comparative effects of mime therapy and action observation therapy on facial symmetry and quality of life in Bell's palsy. Bell's palsy is characterized as an abrupt paralysis of the peripheral facial nerve, typically without a known cause. Mime Therapy is a performing technique that helps patients regain the ability to use their face muscles. Action observation therapy is novel rehabilitation approach exploiting this mirror mechanism.
Bell's palsy, also called idiopathic facial paralysis, is a common cause of unilateral facial paralysis. It is one of the most common neurological disorders of the cranial nerves.
The objective of this current study is to determine the combined effects of Low-Level Laser Therapy (LLLT) and the Kabat technique on quality of life, synkinetic movements and functional outcome in patients of Bell's palsy
To determine the effectiveness of electrical stimulation with MIME therapy versus electrical stimulation with PNF technique for improving strength & restoring lost motor function in the patients of Bell's palsy
Bell's palsy, a peripheral facial nerve paresis, is the most common disorder of the facial nerve and one of the most common mononeuropathies. Many patients with Bell's palsy will develop some complications such as synkinesis, crocodile tears and 'sweating' of the ear while eating Commonly used medications to treat Bell's palsy is Corticosteroids Cerebrolysin stimulates the regeneration of the nervous tissue with protective action we aim to study the efficacy of cerebrolycin in Bell's palsy
To determine the effects of low-level laser therapy on facial motor functions and synkinesis in patients with bell's palsy
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.