View clinical trials related to Myofacial Pain.
Filter by:The purpose of the study is comparing two drugs efficacy for the treatment of pain originates from masticatory muscles. The two drugs are - Amitriptlyne (amitriptyline) and Gabapentin (gabapentin), both of them are common use in for the treatment of chronic pain Methods - patient that is diagnosed as suffering from myofacial pain, will receive one of the medications above (Gabapentin or amitriptyline) for one month only, after which he will be invited to pain clinic for control. Two weeks after that, the patient will start taking the other drug for 1 month and then invited again to the department for recall and continue standard treatment . The patient can choose whether to continue medication with one of the drugs or stop this medication treatment. Total duration of the experiment is two and a half months.
This protocol matches child subjects with peer mentors of similar age who have learned to function successfully with a chronic pain disorder. The trained mentors will present information to the subjects in a supervised and monitored interaction via telephone and computer for 2 months and encourage participation in skill-building programs. Children will be tested for improvement in pain and functioning at 2 months and again at 4 months to see if improvements persist. The investigators hypothesize that children who received peer mentor support will show more improvement in pain and functioning at 2 and 4 months into treatment than those in a control group who do not receive mentor support.
This study is designed to evaluate the effectiveness of topical application of omega-3 fatty acids (6% by volume) containing cream on persons with a TMD disorder, specifically with a diagnosis of Myofacial Pain. Omega-3 fatty acids have minimal side effects when applied topically. If Omega-3 fatty acids used in this study are shown to reduce myofacial pain then this formulation could potentially be used for treatment of TMD patents with myofacial pain in the future. Omega-3 fatty acids are natural ingredients with almost no side effects. Topical application can lead to fewer side effects than systemic medications. In addition, there is no substantial morbidity & mortality associated with topical application of Omega-3 fatty acids. It is hypothesized that subjects receiving topical application of omega-3 fatty acids will demonstrate reduced subjective masseter muscle pain in comparison to subjects receiving placebo cream. This is a pilot study to assess the topical application of Omega-3 fatty acids on muscle pain in the muscles of mastication.
The goal of this proposal is two-fold: (1) to further develop and validate a technology, magnetic resonance elastography (MRE), for quantitatively imaging mechanical properties and tension distribution in muscle and (2) to apply the technique for in vivo evaluation of patients with four common, and clinically significant muscle disorders (spasticity, disuse atrophy, myofascial pain and a metabolic myopathy). These studies will employ a magnetic resonance imaging sequence with synchronous motion-sensitizing gradients to map propagating shear waves in the muscle. The technique will assess the mechanical properties of the muscle and its tension distribution. Specifically, the study can be divided into three specific aims. Aim 1: Optimize MRE methods of acquisition and analysis for the assessment of muscle, including electromechanical drivers, data acquisition techniques, and methods for image analysis. Advanced techniques for very rapid MRE assessment of muscle will continue to be developed. Aim 2: Validate the MRE assessment of muscle properties and tension with phantom, ex-vivo muscle, and Finite Element Modeling (FEM) techniques. Finite Element Analysis will be performed by using both phantom and bovine muscles to better correlate MRE wave-length findings as function of muscle properties, tension and fiber architecture. Aim 3: Study In Vivo Normal and Abnormal Muscle. The MRE technique will be applied in vivo to provide elastographic images of abnormal muscle with known disorders. The patient groups chosen for study are each important in their own right, and furnish unique information across the spectrum of muscular disease and dysfunction. Groups to be studied include individuals with new onset of spasticity following an ischemic, hemispheric stroke, disuse atrophy as a result of immobilization, metabolic (hyperthyroid) myopathy and myofascial pain for trigger point identification. The overall hypothesis of this work is that will bring benefits to both basic research and clinical care.