Factors Influencing Response to One BoNT-A Injection Cycle in Subjects Suffering From Idiopathic...
Idiopathic Cervical DystoniaA post marketing, international, multicenter, observational, prospective, longitudinal study. The purpose of the study is to describe cervical dystonia sub-types with their injection protocols and response to BoNT-A.
Post Marketing Surveillance Study of Dysport
BlepharospasmHemifacial Spasm7 moreThe purpose of this study is to provide further information regarding the risks and benefits of Dysport in marketed indications.
Novel Stimulation Patterns for the Treatment of Dystonia
DystoniaCervical DystoniaDeep brain stimulation (DBS) is an effective surgical therapy for select Dystonia patients who are refractory to medications or who have generalized symptoms (e.g. patients with Early-Onset Primary Dystonia(DYT1) mutations and other dystonia subtypes). DBS patients typically experience significant improvement in disabling symptoms; however, detailed programming is always required, and stimulation-induced side effects commonly emerge. Clinicians may empirically vary voltage, pulse width, frequency and also the active contacts on the DBS lead to achieve observed optimal benefits. The majority of DBS patients undergo repeat surgeries to replace the implantable pulse generator (IPG) every 2.5 to 5 years. It has been demonstrated that, in dystonia patients, that higher settings are required for adequate symptomatic control, and that neurostimulators have a considerably shorter life when compared to neurostimulators from patients with essential tremor or Parkinson's disease. Additionally, several smaller studies have suggested that alternative pulse stimulation properties and pulse shape modifications can lower IPG battery consumption. Newer patterns of stimulation (regularity of pulses and shapes of pulses) have not been widely tested in clinical practice, and are not part of the current FDA device labeling. Novel patterns of stimulation do however, have the potential to improve symptoms, reduce side effects, and to preserve the neurostimulator life. The current research proposal will prospectively study biphasic pulse stimulation paradigms and its effects on dystonic symptoms. The investigators aim to demonstrate that we can tailor DBS settings to address dystonia symptoms, improve the safety profile, characterize distinct clinical advantages, and carefully document the safety and neurostimulator battery consumption profile for biphasic stimulation.
Propensity to Develop Plasticity in the Parieto-Motor Networks in Dystonia From the Perspective...
Writer's CrampHealthy Volunteers1 moreBackground: - People with dystonia have muscle contractions they can t control. These cause slow, repeated motions or abnormal postures. People with dystonia have abnormalities in certain parts of the brain. Researchers want to study the activity of two different brain areas in people with writer s cramp and cervical dystonia. Objective: - To compare brain activity in people with dystonia to that in healthy people. Eligibility: Right-handed people ages of 18-65 with cervical dystonia or writer s cramp. Healthy volunteers the same ages. Design: Participants will be screened with a physical exam. They will answer questions about being right- or left-handed. At study visit 1, participants will:<TAB> Have a neurological exam. Answer questions about how their disease impacts their daily activities. Have a structural magnetic resonance imaging (MRI) scan. Participants will lie on a table that can slide <TAB>in and out of a metal cylinder. This is surrounded by a strong magnetic field. Do 2 simple computer tasks. At study visit 2: Participants will have transcranial magnetic stimulations (TMS) at 2 places on the head. Two wire coils will be held on the scalp. A brief electrical current creates a magnetic pulse that affects brain activity. Muscles of the face, arm, or leg might twitch. Participants may have to tense certain muscles or do simple tasks during TMS. They may be asked to rate any discomfort caused by TMS. Muscle activity in the right hand will be recorded by electrodes stuck to the skin of that hand.
Post-marketing Surveillance of Administration of Botulinum Toxin Type B(NerBloc)-Investigation of...
Cervical DystoniaInvestigation of the clinical condition and safety in patients with cervical dystonia
Effectiveness and Safety of Adipose-derived Regenerative Cells for Reduction of Risk of Bladder...
Bladder Neck ObstructionBladder Outlet Obstruction2 moreAutologous adipose-derived regenerative cells (ADRC) will be extracted from lipoaspirate by enzymatic digestion from a portion of the fat harvested from the patient's front abdominal wall. Transurethral bladder neck resection followed by the injection of ADRCs suspension will be performed. This is a single arm study with no control. All patients receive cell therapy.
Relief of Pain in Patients With Cervical Dystonia Through the Use of Transcutaneous Electric Nerve...
Cervical DystoniaPainDystonia is a chronic neurological condition that impacts the quality of life due to decreased mobility, social repercussions caused by others's perception of abnormal involuntary movement and frequent pain. Botulinum toxin has been shown to be effective in reducing pain in dystonia. However, many patients remain painful despite the injections, especially when the decrease in the effect of the latter, performed every 3 months on average. Despite frequent use of TENS in pain relief, only a few small studies studying TENS in dystonia were published and none of them reported TENS effects on dystonic pain using sensory threshold. This study aimed to quantify the efficacy and tolerance of TENS in the indication of pain related to dystonia, focusing on cervical dystonia which is the most common form of dystonia.
Static Graviceptive Functions in Patients With Cervical Dystonia (CD)
Cervical DystoniaThe purpose of this experimental pilot study is to test the effect of normalization of the head position on the sense of balance at patients with cervical dystonia under routine botulinum toxin treatment.
Longitudinal Study for Treatment With Botulinum Toxin A Injections in naïve and Pre-treated Patients...
Cervical DystoniaThe objective of this study is to investigate the efficacy of Dysport® in the treatment of cervical dystonia (CD) in a non-interventional long-term study in naïve and pre-treated patients.
Plasticity in Cervical Dystonia
Cervical DystoniaThis study will identify changes that occur in the part of the brain that controls hand movements in patients with cervical (neck) dystonia. Patients with dystonia have muscle spasms that cause abnormal postures while trying to perform a movement. In focal dystonia, just one part of the body, such as the hand, neck or face, is involved. The study will compare findings in healthy volunteers and patients with cervical dystonia to learn more about the condition. Healthy volunteers and patients with cervical dystonia 18 years of age and older may be eligible to participate. Candidates are screened with a medical history and physical examination. Participants undergo the following tests: Somatosensory evoked potentials (Visits 1 and 2) This test examines how sensory information travels from the nerves to the spinal cord and brain. An electrode placed on an arm or leg delivers a small electrical stimulus and additional electrodes placed on the scalp, neck and over the collarbone record how the impulse from the stimulus travels over the nerve pathways. Transcranial Magnetic Stimulation (Visits 2, 3 and 4) This procedure maps brain function. A wire coil is held on the scalp. A brief electrical current passes through the coil, creating a magnetic pulse that stimulates the brain. The stimulation may cause a twitch in muscles of the face, arm, or leg, and the subject may hear a click and feel a pulling sensation on the skin under the coil. Nerve conduction studies (Visits 2, 3 and 4) This test measures how fast nerves conduct electrical impulses and the strength of the connection between the nerve and the muscle. Nerves are stimulated through small wire electrodes attached to the skin and the response is recorded and analyzed. Surface electromyography (Visits 2, 3 and 4) Electrodes are placed on the front and back of the neck muscles to measure the electrical activity of the muscles.