16 Clinical Trials for Various Conditions
Deep brain stimulation (DBS) is used to treat epilepsy in cases where patients are medically refractory and are not candidates for surgical resection. This therapy has been shown to be effective in seizure reduction, yet very few patients achieve the ultimate goal of seizure freedom. Implantable neural stimulators (INSs) have many parameters that may be adjusted, and could be tuned to achieve very patient specific therapies. This study will develop a platform for stimulation setting optimization based on power spectral density (PSD) measures.
Many families of children with medically refractory epilepsy are choosing to use medicinal cannabinoids (MCBD) as an adjunctive alternative treatment option. The safety, tolerability and efficacy of these products are not known. The primary objective of this study is to determine how the use of MCBD affects children with medically refractory epilepsy in an observational study. Measures of evaluation to be used will include: laboratory values, developmental measures, seizure diaries and serial electroencephalographic (EEG) recordings.
The purpose of the study is to examine the clinical safety, tolerability, and efficacy of clobazam (Onfi) when it replaces the pre-existing clonazepam therapy in patients with refractory epilepsy.
In up to 1 out of 3 patients with epilepsy, seizures continue to occur despite the use of one or more antiepileptic medications. Patients also have significant problems with side-effects of these medications as doses are increased. Our body naturally generates miniature pumps located on the surfaces of many organs to get rid of toxic substances, and antiepileptic medications can be considered by the cells of the body to be a toxin. Research with epileptic brain regions have shown an increase in the amount of drug pumps, therefore getting rid of antiepileptic drugs. One of these pumps is called p-glycoprotein (P-gp for short). Medications may be unable to penetrate and stay within the parts of the brain that need them them most. This may mean that the amount of drug is actually lower in the parts of the brain that cause seizures, and higher in the rest of the brain, which may be why patients may still feel side-effects when seizures are still occurring. Research in animals has shown that blocking the P-gp pumps can improve how bad, and how many seizures occur as well as the length of seizures. Blockage of the pumps can be done using a different type of medication. Some medications that are used for common problems have been discovered to also block P-gp pumps. One of these, carvedilol, is used to treat heart failure and high blood pressure. It has been found to be very safe in these patients, and does not have a lot of side-effects. We plan to add this medication in addition to patient's anti-seizure medications to see if it will improve epileptic seizures. The reason why some patients have high amounts of P-gp pumps and others do not may be related to their genetics. A simple blood test can be used to determine a person's potential to produce high quantities of the pumps. This study will also attempt to show that the genetics will affect how well the P-gp blocking will work.
Ketamine is a medication that came into clinical practice in the 1960's. Ketamine is used as an anesthetic and to provide pain relief. Recently, Ketamine was approved to treat drug resistant depression using subanesthetic doses. In the hospital setting, intravenous anesthetic dosages are used to treat unrelenting seizures known as status epilepticus in comatose patients. Ketamine in subanesthetic doses has not been tried as a treatment for medication resistant seizures in the outpatient setting. This study would like to examine the effectiveness of subanesthetic ketamine in outpatients who suffer from drug resistant epilepsy.
The modified Atkins diet (MAD) has been shown to be effective in treating intractable epilepsy. Approximately 55% of the patients started on the diet are women of childbearing age and women with epilepsy often have a pattern of seizures that correlates with their menstrual cycle, called catamenial epilepsy. The investigators have observed that despite an overall reduction in seizure frequency, some women on the MAD continue to have breakthrough seizures in a catamenial pattern. The investigators hypothesize that women with a history of intractable epilepsy who have been on the modified Atkins diet for at least 3 months and have a catamenial seizure pattern will tolerate and be compliant with the addition of a daily amount of betaquik® (a liquid emulsion of medium chain triglycerides) for a 10 day time interval starting 2 days prior to and encompassing the primary catamenial pattern.
Part A: To evaluate the safety and tolerability of multiple ascending doses of GWP42003-P compared with placebo with respect to: * Incidence, type and severity of adverse events (AEs) * Effect on vital signs, including weight * Effect on 12-lead electrocardiogram (ECG) findings * Effect on laboratory parameters Part B: To make an assessment of the anti-epileptic efficacy of GWP42003-P compared with placebo with respect to the incidence in convulsive seizures * To determine the plasma concentration time curves for GWP42003-P and its major human metabolite, following escalating multiple doses of GWP42003-P. * To investigate the effect of GWP42003-P on the pharmacokinetics of concomitant anti-epileptic drugs (AEDs). * To evaluate cognitive function, sleep quality and daytime sleepiness, in patients taking GWP42003-P in combination with AEDs.
To investigate whether MR-guided laser induced thermal therapy in patients diagnosed with focal lesional epilepsy using the Visualase Thermal Therapy System is both a feasible and safe minimally invasive technique for control of seizures in such patients.
This study will evaluate the magnetoencephalography (MEG) alone and together with electroencephalography (EEG) in non-invasive presurgical evaluation. It will look at the contribution of those methods in determining the location of the epilepsy seizure, compared with doing so through an invasive method. EEG measures electronic potential differences on the scalp. On the other hand, MEG is a non-invasive technique for recording the activity of neurons in the brain, through recording of magnetic fields caused by synchronized neural currents. It has the ability to detect seizures. Because magnetic signals of the brain vary, this technique must balance two key problems: weakness of the signal and strength of the noise. The EEG is sensitive to extra-cellular volume currents, whereas the MEG primarily registers intra-cellular currents. Because electrical fields are quite dependent on the conductive properties of the tissues, and magnetic fields are significantly less distorted by tissue, the MEG has better spatial resolution. There is a great deal of evidence that EEG and MEG provide complementary data about underlying currents of ions. Patients 18 years of age or older who have epilepsy that is not relieved, and who are considered candidates for surgery and who accept epilepsy surgery, may be eligible for this study. Before they have surgery, participants will either sit or lie down, with their head in a helmet covering the entire head, with openings for the eyes and ears. Brain magnetic fields will be recorded with a 275-channel OMEGA system. Throughout the session, visual and two-way audio communication will be maintained with the patient. Acquiring data from the participant will be conducted during several sessions, each lasting from 10 to 60 minutes, not exceeding a total of 120 minutes. If the first recording is not of sufficient quality, the patient may have it repeated once or twice. Those participants who are found to have a clear seizure focus will proceed directly to surgery that is part of their treatment. Those whose seizure focus is ambiguous will proceed to invasive monitoring. Participants will be followed in the outpatient clinic at intervals of 1, 3, 6, and 12 months. They may periodically undergo reimaging as considered appropriate.
Perform non-invasive neuro-navigated repeated Transcranial Magnetic Stimulation (rTMS) at low frequencies (LF) with the intent to reduce the occurrence of seizures over time (long-term protocol). Seizure reduction and improvements in the quality of life in patients with epilepsy will be associated with increased cortical inhibition resulting from the LF-rTMS sessions over time. This procedure using rTMS at low frequencies (LF-rTMS) between 0.5 and 1 Hz is a safe and painless method for noninvasive focal cortical brain stimulation, which will be evaluated in its efficacy at reducing/suppressing seizures. Accordingly, we propose a clinical trial in patients with epilepsy to test whether LF-rTMS can improve seizure suppression. The location of the presumed 3D source in the brain will be stimulated for few minutes (10 to 15 min.). With the same rTMS modality, we will also perform motor threshold mapping in conjunction with its fully integrated and compatible electroencephalography (EEG) module. Up to 100 individuals 18 to 80 years with epilepsy will be enrolled. In addition, a short-term protocol has been added to test whether LF-rTMS can reduce or suppress status epilepticus in medically refractory participants.
The purpose of this study is to determine the tolerability and optimal dose of cannabidiol (CBD) as an simultaneous treatment in children and young adults with Sturge-Weber syndrome (SWS) and drug resistant epilepsy.
The modified Atkins diet (MAD) has been shown to be effective in treating children and adults with medically resistant seizures. A recent study in children showed that the use of KetoCal® once per day in addition to the MAD appeared to be beneficial when used during the first month. The investigators hypothesize that including a daily KetoCal® liquid tetrapak with one meal during the initial month of the MAD will produce urinary ketosis in more adult patients than the MAD alone and will lead to greater seizure reduction.
To generate preliminary safety and effectiveness data for brain-responsive neurostimulation of thalamocortical networks as an adjunctive therapy in reducing the frequency of generalized seizures in individuals 12 years of age or older with Lennox Gastaut Syndrome (LGS) who are refractory to antiseizure medications. The intent is to determine the feasibility and the optimal design of a subsequent pivotal study in order to expand the indication for use for the RNS System as a treatment for patients with medically intractable LGS.
To demonstrate that the RNS System for thalamic stimulation is safe and effective as an adjunctive therapy for the reduction of primary generalized seizures in individuals 12 years of age or older who have drug-resistant idiopathic generalized epilepsy.
To demonstrate that the RNS System is safe and effective as an adjunctive therapy in individuals age 12 through 17 years with medically refractory partial onset epilepsy.
This research is being done to observe the safety, tolerability, side effects, and effectiveness of the ketogenic diet in people with continuous seizures (status epilepticus) being treated in a neurointensive care unit.