View clinical trials related to Facial Pain.
Filter by:This proposal will investigate pain modulatory mechanisms and brain functional and structural characteristics using multiple MRI modalities in persistent dentoalveolar pain disorder (PDAP) patients with and without temporomandibular disorders (TMD). All measures from patients will be compared to painfree controls.
Trigeminal neuralgia is a craniofacial pain syndrome that is typically characterized by unilateral severe, recurrent, electrical pain in one or more distributions of the trigeminal nerve. Current treatment strategies include oral medications as first line therapy with surgical interventions reserved for those patients who are refractory to medications or unable to tolerate medication side effects. Despite these current treatment options, many patients continue to have symptoms. Ultrasound-guided trigeminal nerve block allows for fine adjustment of the needle tip and direct observation of the medicine. Local anesthetic and steroids have been successfully used for diagnostic and or therapeutic nerve pain with great success. Steroids can be short or long acting in duration with varying side effects. If there exists a difference in duration of action, using the longer acting drug will provide a greater period of symptom relief for the patient and may allow the patient to undergo fewer interventional procedures.
The project aims to assess the effects of proprioceptive treatment through the use of hyperbolid mastication apparatus on pain intensity, muscle activity and joint mobility in subjects with TMD. A randomized, blind, clinical trial will be conducted. Volunteers aged between 18 and 40 years will be recruited, with a diagnosis of muscle- and joint-related TMD according to the Research Diagnostic Criteria for Temporomandibular Disorders (RDC / TMD), being randomly divided in three different groups: Group 1 (G1) - treated with HB device combined with tongue exercises on the palate; Group 2 (G2) - treated HB alone and Group 3 (G3) - control. Treatment protocols will be applied for 12 sessions, the volunteers will be evaluated in two stages: before applying the treatment and after the last session.
Atypical Facial Pain is a chronic condition and presents controversies during diagnostic and treatment, between specialist not have consensus about the pathophysiology. It is possible consider this entitie a potential neuropathic cause without pathological signs. It knows the repetitive transcranial magnetic presents good results in the treatment of chronic pain coditions. The aim this study is evaluated the thresholds and excitability cortical in patients with AFP and verify the patterns of improvement in pain for patients undergoing rTMS compared to controls, as well as the therapeutic response to neuromodulation procedures. This enroll 20 patients with DAF and 20 controls treated with rTMS (5 sessions) and evaluated through questionnaires (EDOF clinical record, McGill Pain Questionnaire, Visual Analogue Scale, Inventory of symptoms of neuropathic pain, neuropathic pain DN4 questionnaire, SF -36, brief pain inventory). At the end of the data will be statistically analyzed and expressed as mean and standard deviation, and analyzed by Student's t test, analysis of variance (ANOVA), Tukey-Kramer and Pearson correlation. The level of significance is 5%. The results will be published in journals indexed in the area both nationally and internationally and presented at conferences and scientific meetings.
- The purpose of this study was to evaluate the effects of Neuro Occlusal Rehabilitation (RNO) in patients with peripheral facial palsy (PFP) disease, noting the decrease in symptoms of masticatory dysfunction. - According to Carvalho (2009) patients with PFP have chronic unilateral masticatory preference. Santos et al. (2009) in the same year noted that these conditions can lead to problems with temporomandibular disorder. - Hypothesis- known that performing occlusal adjustment in these patients with chronic PFP, ensuring a maximum of dental contacts and a final stop of the masticatory cycle stable, providing a balanced occlusion. - dental cleaning was performed in two groups for the blind study - visual analog scale -To assess the quality of the oral functions of these patients, the investigators applied the visual analog scale(VAS) and statistically evaluated the degree of satisfaction regarding the functions of oro facial in relation to mastication and temporomandibular dysfunction. - gnathostatic models were made in the treatment group in the first and last query. - occlusal adjustment in treatment group.In the group treated occlusal adjustment was made in the teeth and applied a new (VAS) before and after treatment. The RNO, is defined as a part of medicine that operates in stomatology occlusal plane as a guide to a harmonious development of the face, chewing facilitating bilateral and alternating. (Planas, 1997). It works through selective grinding on the occlusal platform, providing an increased number of dental contacts.
The objective is to determine if motor cortex stimulation works for the following conditions: 1. Deafferentation facial pain, 2. Upper extremity complex regional pain syndrome (CRPS) and 3. Brachial plexus avulsion or phantom limb pain. Each of these groups of 6 patients (total of 18) will be studied independently and all patients will be implanted with a motor cortex stimulation system. They will be randomised to either a regular or low stimulation setting in the two arms of the study. Each arm will last 3 months.
The study serves to investigate the type and prevalence of non-rhinologic headaches seen through a academic otolaryngology practice.The study encompasses survey questionnaires, review of CT images, and physical examination/nasal endoscopy findings.
The aim of this project is to evaluate the effects of the anticonvulsant drug lamotrigine (trade name Lamictal) on neuropathic facial pain or neuralgia using functional magnetic resonance imaging (fMRI).
Temporomandibular Disorder (TMD) is a widespread chronic pain condition. Successful psychosocial treatments for TMD have been developed, but the mechanisms by which these treatments achieve their effects are not well known. The goal of this project is to evaluate the possible mechanisms responsible for treatment gains in TMD treatment.
This study will test the effectiveness of the drug capsaicin in controlling pain after third molar (wisdom tooth) extraction. Capsaicin, the ingredient in chili peppers that makes them "hot," belongs to a class of drugs called vanilloids, which have been found to temporarily inactivate pain-sensing nerves. Healthy normal volunteers between 16 and 40 years of age who require third molar (wisdom tooth) extraction may be eligible for this study. Participants will undergo the following procedures in three visits: Visit 1: Patients will have touch (sensory) testing by the following three methods: 1) a warm sensor applied to the gums and the patient will rate when they first feel heat and when the heat feels painful; 2) the bristles of a small paint brush will be gently stroked across the gums, and the patient will say whether it feels painful; 3) a light touch will be applied to the gums with a small needle, and the patient will rate the pain intensity following the touch. After testing, patients will be numbed with a local anesthetic (bupivacaine) and then capsaicin or placebo (an inactive solution) will be injected next to the tooth. The tooth then will be extracted one day later. Visit 2: Patients will return to the clinic after 24 hours to repeat the same type of sensory testing. After testing, patients will be sedated and numbed with a local anesthetic (lidocaine) and given an intravenous injection of either saline or ketorolac (30 mg). After the extraction, pain ratings will be recorded every 20 minutes, for up to 6 hours. During this time, patients will be monitored for numbness, pain, side effects and vital signs (heart rate, blood pressure, respiration, etc.). Those who request pain medicine will receive acetaminophen and codeine. Patients will be required to stay for up to 3 more hours after this and then they will then be discharged with pain medicine. Visit 3: Patients will return to the clinic after another 48 hours to repeat the same sensory testing. Remaining wisdom teeth will be removed "off-study" at least three weeks following the first visit.