View clinical trials related to Tremor.
Filter by:PRIMARY OBJECTIVES • To describe the vitamin B12 status in children with infantile tremor syndrome(ITS) and Pre ITS SECONDARY OBJECTIVES - To study the vitamin B12 status in mothers of children with infantile tremor syndrome (ITS) and Pre ITS - To study the blood levels of folate in children with infantile tremor syndrome (includes Pre ITS) and their mothers.
Botulinum toxin is the common treatment of choice for patients with Essential Voice Tremor (EVT), but results are not universally beneficial to all patients. Inconsistent results are noted in the literature and are consistent with the PI's clinical experience. Injection augmentation, a well-established treatment for glottic insufficiency, which is a prominent factor in the clinical presentation of Essential Voice Tremor (EVT), has not been studied. By treating patients at separate times with botulinum toxin and injection augmentation in an unblinded prospective crossover treatment study, we can assess functional outcomes of these two treatments with the population of patients with Essential Voice Tremor (EVT).
Essential tremor (ET) is a low-mortality, though truly burdensome and debilitating condition which is known to be the second most common movement disorder of the adult population only after restless legs syndrome. The prevalence of the disorder in all age groups has been estimated to be 0.9%. Repetitive transcranial magnetic stimulation (rTMS) is an almost safe technique which has been used in diagnosis and treatment of many neurologic and psychiatric conditions. Recent studies have shown that cerebellum has a significant role in development of ET and that rTMS could exert therapeutic effects on its motor symptoms. In this study researchers will recruit at least 30 subjects among patients visiting at the Specialty Clinic of Mashhad Medical University according to researchers exclusion and inclusion criteria and after signing a written informed consent, will randomly be assigned to either real or sham rTMS. On the real rTMS arm, patients will be treated with 900 pulses of 1 Hz rTMS on 90% of resting motor threshold (RMT) delivered over each cerebellar hemisphere for 5 consecutive days and sham treatment will be performed with the same protocol using a small device placed on the TMS coil (not visible to the patients) producing electrical stimulation (less than 3 mili amperes), to simulate the sensation of real TMS. Subject's ear will be protected with earplugs during both real and sham stimulations. After 2 months of follow-up, patients will undergo crossover and receive the other treatment as described above. Patients would be assessed using Fahn-Tolosa-Marin scale at the baseline and again on days 5, 12, and 30 after each real or sham treatment session by a blinded researcher. Data will be analysed by another researcher who is also blind.
The proposed study will capitalize on the early predictive information stored in an individual's genetic risk for Parkinson Disease (PD) in combination with the subtle features of tremors that can be extracted from movement data gathered by modern compact accelerometers in order to determine if accurate discrimination of essential tremor (ET) from PD can be achieved. Both of these technologies have a proven but somewhat limited ability to inform diagnosis of PD or differentiation of PD from ET - especially at early stages of the disease. The investigators hypothesize that a combination of prior genetic risk and current disease symptomology can synergize for accurate and early discrimination of PD from ET and ultimately inform a cost effective approach to movement disorder diagnosis. In this study, the investigators will collect blood from individuals with confirmed late-onset diagnosis of PD and ET. Gold standard diagnosis status will be determined via the Unified Parkinson's Disease Rating Scale (UPDRS) - the accepted clinical gold standard for Parkinson's Disease diagnosis. DNA will be extracted from blood samples to characterize the genetic risk of individuals for PD via proven genetic risk models. In addition, participants will wear a wristwatch-like accelerometer device that will track their movements (tremors) at high temporal resolution and transmit movement data via a smartphone. Cognitive distraction tasks will be administered via mobile phones while simultaneously collecting movement data. Predictive tremor features will be extracted from movement data via signal processing approaches - e.g. discrete wavelet transformation. A final predictive model combining movement tracking information and genetic information will be designed in attempt to distinguish PD from ET individuals.
Deep Brain Stimulation (DBS) is an effective treatment option for individuals with debilitating tremors that do not respond to medical therapy. However, severe tremors, particularly those that develop after central nervous system insult or from multiple sclerosis, can be comprised of several underlying components that represent dysfunction within distinct brain circuits. Some of these dysfunctional brain circuits can be successfully treated with DBS while others respond poorly DBS therapy. For severe tremors, it can be very difficult to discriminate between the underlying components of a patient movement disorder and is exclusively dependent upon clinical expertise. Even with extensive clinical experience, it is difficult to reliably predict the results of DBS therapy for patients suffering from severe, debilitating tremor. In an attempt to gain more knowledge, an electromagnetic tracking system will be used which can precisely measure the position of a patient's upper extremity in space during routine neurologic examination. The goal is to use this tool to quantitatively identify various components of severe tremor, which can be discriminated based on oscillatory frequency and regularity of tremor amplitude. The purpose of this research study is to better understand the nature of complex, severe tremors by carefully measuring movement of the upper extremities with sensors during simple tasks. The goal is to break down complicated tremors into their components and then determine which components will respond to deep brain stimulation.
This study evaluates the safety and effectiveness of the Cala ONE device to aid in the symptomatic relief of hand tremors in adult essential tremor subjects. This study is a prospective, randomized, double-blinded, sham-controlled study.
The purpose of this study is to examine the safety and efficacy of Allopregnanolone as a possible treatment for symptoms of Fragile X-associated Tremor/Ataxia Syndrome (FXTAS).
The purpose of this research study is to test effectiveness of different deep brain stimulation (DBS) stimulation patterns on symptoms that may also improve the life of the battery. If these patterns are effective, the implanted batteries will be drained more slowly and last longer than currently expected. An increase in battery life may reduce the number of surgeries needed to replace them.
Essential head tremor (HT) does not usually respond to drug treatment such as propranolol or primidone or to surgical treatment such as deep brain stimulation of the thalamic ventralis intermedius nucleus. Botulinum toxin (Btx) is widely used and efficient in the treatment of blepharospasm and cervical dystonia. Btx prevents the release of acetylcholine in synapses, leading to a reduction of pathological muscle movement. Very little information is available on its efficacy on HT. Two published reports suggested that local Btx A injections could be an effective and safe approach for treating HT. Given the scarcity of published data (small samples, open studies, different doses of Btx used, heterogeneous populations, several muscles injected, etc.), the aim of this study is to demonstrate the efficacy of Btx injections in essential HT by a multi-center, randomized, double-blind, parallel-group, placebo-controlled study. Principal objective: To evaluate the efficacy of botulinum toxin injections in the treatment of head tremor. Secondary objectives: - - To evaluate the tolerance of botulinum toxin injections in the treatment of head tremor. - - To evaluate the impact of botulinum toxin injections on the patients' quality of life and embarrassment. - To evaluate the changes of tremor characteristics induced by a Btx treatment using a 3D accelerometer wireless portable system (Xsens MTw wireless motion tracker system) (tremor frequency, tremor displacement, mean peak amplitude, distance traveled) and a new video system device to analyze head tremor characteristics
Patients with tremor may have varying degrees of tremor at different times. The amplitude and frequency of tremor may change. The investigators observational study is intended to document this tremor.