22 Clinical Trials for Various Conditions
After initially successful treatment, many children with infantile spasms unfortunately have a relapse, and relapse is linked to poor long-term outcomes such as autism and other forms of epilepsy. The aim of this study is to determine if treatment with low-dose prednisolone is safe, well tolerated, and effective in reducing the risk of relapse.
Infantile spasms are a type of seizure linked to developmental issues. Unfortunately, they are often misdiagnosed, causing delays in treatment. The purpose of this study is to develop a computer program that can reliably differentiate infantile spasms from similar, yet benign movements in videos. This computer program will learn from videos taken by parents of study participants. Quickly recognizing and treating infantile spasms is crucial for ensuring the best developmental outcomes.
The main purpose of this study is to evaluate the efficacy of AMZ002 compared to Vigabatrin in participants with newly diagnosed infantile spasms (IS).
West syndrome (WS) is a specific type of epilepsy (or seizure disorder) that has three features: infantile spasms (type of seizure), loss of milestones, and a specific pattern on electroencephalogram (EEG or brain wave test) called hypsarhythmia. The purpose of this study is to detect pre-hypsarhythmia in infants at high-risk for WS and determine whether treatment with ACTH will prevent WS.
The study consists of cohorts where participants are randomized, in a 2:1 ratio, to 1 of 2 sequences, A and B. In each cohort, Sequence A, comprised of participants, who will receive ascending doses of ganaxolone and ascending doses of placebo. Sequence B, comprised of participants, who will receive ascending doses of placebo and ascending doses of ganaxolone. The dosing level in each subsequent cohort will be based upon experience gained from previous cohorts.
This is a phase II clinical trial in which children with refractory infantile spasms (also called epileptic spasms or West syndrome) will be treated with fenfluramine, to evaluate efficacy, safety, and tolerability. Patients with infantile spasms that have not responded to treatment with vigabatrin and ACTH we will be invited to participate. Study participants will undergo baseline video-EEG, receive treatment with fenfluramine for 21 days, and then undergo repeat video-EEG to determine effectiveness. Patients with favorable response will have the opportunity to continue treatment for up to 6 months.
This study plans to learn more about how the use of new telemedicine technology can help with parental stress, costs, and overall satisfaction in care. Investigators are studying this in families who have children with a specific seizure type called infantile spasms and being treated with a medication called ACTH (adrenocorticotropic hormone). Infantile spasms is a rare epileptic encephalopathy that occurs within the first two years of life. It is associated with complicated and expensive treatment and poor developmental outcomes. Participants will be randomly placed in one of two groups. The first group will continue with the traditional monitoring practices primarily performed by their pediatrician. The second group will use telemedicine technology to be monitored. Investigators will then compare the two groups to see if there are any differences in parental stress, costs of care, and/or overall satisfaction with care. The primary hypothesis is that compared to those utilizing usual monitoring, parents/caregivers of infants with IS treated with ACTH utilizing nurse-led remote biometric monitoring will report less parenting stress at 2 and 4 weeks of treatment.
A Phase 2 Study to Assess the Safety, Tolerability, Exploratory Efficacy, and pharmacokinetics of Orally Administered JBPOS0101 for Refractory Infantile Spasms Patients.
The primary purpose of this study was to evaluate the efficacy, safety, and tolerability of Cannabidiol Oral Solution (CBD) as adjunctive therapy with vigabatrin as initial therapy, compared to vigabatrin alone in the treatment of infants newly diagnosed with Infantile Spasms (IS).
This study proposes to assess the efficacy of Cosyntropin Injectable Suspension, 1 mg/mL compared to vigabatrin. Additionally, this study proposes to determine efficacy of combination therapy of Cosyntropin Injectable Suspension, 1 mg/mL and vigabatrin to monotherapy Cosyntropin Injectable Suspension, 1mg/mL in children with new onset infantile spasms (IS).
This trial consists of 3 parts: a pilot safety phase, a pivotal randomized controlled phase, and an open-label extension phase. The open-label extension phase only will be described in this record. All participants will receive GWP42003-P.
This trial consists of 3 parts: a pilot safety phase, a pivotal randomized controlled phase, and an open-label extension phase. The pilot phase only will be described in this record. 2 cohorts of 5 participants will be enrolled sequentially. All participants will receive GWP42003-P.
Infantile Spasms (IS) is a diagnosis described as a fairly rare and terrible form of epilepsy that usually strikes children in the first year of life. There is a great need for safe and effective therapies in the treatment of IS. This need is even more important for infants and toddlers still sick after being treated with medicine that is already available. This is a multi-center study to evaluate the efficacy and safety of Cannabidiol Oral Solution (CBD) in the treatment of children aged 6 months through 36 months with a diagnosis of infantile spasms who have not responded to first line therapies. The overall study duration is expected to be 64 weeks for those subjects who respond to CBD treatment. The maximum possible study duration for each patient is approximately 64 weeks, however a subject will be deemed to have completed the study after 58 weeks.
The purpose of this study was to investigate the presence of neuroinflammation in children with infantile spasms using 11C-PK11195 positron emission tomography (PK PET) scan, and its response to ACTH treatment by repeating the PK PET scan after treatment.
Infantile spasms (IIS), a characteristic epilepsy syndrome of infancy with often catastrophic developmental consequences, is known in some patients to have many different genetic, metabolic and structural etiologies. However, for most patients IIS is the only presenting clinical feature and the specific cause is unknown. Only two FDA approved pharmacologic treatments for IIS exist, Adrenocorticotropic hormone (ACTH) and vigabatrin. While vigabatrin may be the treatment of choice for Tuberous Sclerosis as a cause for IS, ACTH is the treatment of choice for all others. Unfortunately, a substantial number of patients may still not respond to ACTH and there is no a priori way that suggests which patients may be responders. This has led to the following key questions: Can novel genetic analyses determine known genetic causes of IS with greater efficiency (more timely and cost-effective)? Can novel genetic analyses determine previously unknown disease modifying genes that predispose individuals to develop IS? Can novel genetic analyses elaborate genes and gene polymorphisms that favor ACTH responsiveness? Do these polymorphisms suggest strategies to improve ACTH responsiveness?
To allow open-label extension to patients who have completed Protocol 1042-0500
Investigators at Boston Children's Hospital are conducting research in order to better understand the genetic factors which may contribute to epilepsy and related disorders. These findings may help explain the broad spectrum of clinical characteristics and outcomes seen in people with epilepsy.
The purpose of this study is to collect detailed information about the characteristics and genetics of a large number of individuals with epilepsy.
This study is designed to use positron emission tomography to measure brain energy use. Positron Emission Tomography (PET) is a technique used to investigate the functional activity of the brain. The PET technique allows doctors to study the normal processes of the brain (central nervous system) of normal individuals and patients with neurologic illnesses without physical / structural damage to the brain. When a region of the brain is active, it uses more fuel in the form of oxygen and sugar (glucose). As the brain uses more fuel it produces more waste products, carbon dioxide and water. Blood carries fuel to the brain and waste products away from the brain. As brain activity increases blood flow to and from the area of activity increases also. Researchers can label a sugar with a small radioactive molecule called FDG (fluorodeoxyglucose). As areas of the brain use more sugar the PET scan will detect the FDG and show the areas of the brain that are active. By using this technique researchers hope to answer the following questions; 4. Are changes in brain energy use (metabolism) present early in the course of epilepsy 5. Do changes in brain metabolism match the severity of patient's seizures 6. Do changes in metabolism occur over time or in response to drug therapy
The purpose of this study is to investigate the effect on the frequency of all seizures (convulsive and drop) in participants treated with TAK-935 compared to placebo.
This study will be conducted to evaluate the safety, pharmacokinetics (PK), and efficacy of adjunctive GWP42003-P in participants \< 2 years of age with tuberous sclerosis complex (TSC), Lennox-Gastaut syndrome (LGS), or Dravet syndrome (DS).
Epileptic spasms (ES) are a predominantly infantile seizure type observed frequently in certain genetic disorders. Ketogenic diet (high ratio of fat to carbohydrate/protein) is an established non-medication treatment for difficult to control seizures, including ES. Because ES are associated with worse developmental and cognitive outcomes if not detected or treated quickly and effectively, this trial aims to test the ketogenic diet to prevent ES in this high-risk population. This trial is a single-center pilot study of 10 infants with genetic seizure disorders to establish if the protocol of early ketogenic diet administration and ES evaluation is safe and feasible.