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Active clinical trials for "Encephalitis"

Results 61-70 of 259

Treatment of Cerebral Toxoplasmosis in HIV/AIDS

Toxoplasmic EncephalitisAIDS

Neurological manifestations of Cerebral toxoplasmosis or Toxoplasmic encephalitis (TE) in most advance stage HIV infected patients composed of fever, headache, alteration of consciousness with focal neurological signs/symptoms such as include hemiparesis, cranial nerve palsies, and ataxia. Generalised convulsions, in ¾ of patients. Moreover meningeal irritation sign or herniation sign may be presented as life threatening condition

Completed10 enrollment criteria

Pharmacokinetic Study of a Single Dose of AVI-4065 in Cerebral Spinal Fluid

Encephalitis

AVI-4020 Injection, a phosphorodiamidate Morpholino oligomer (PMO), was found to cross the blood-brain barrier during a study of patients with presumptive West Nile virus disease. AVI-4065, which was designed to target HCV, is also a PMO; its ability to cross the blood-brain barrier is unknown. In this study, a single dose of AVI-4065 will be subcutaneously injected, and samples collected to determine if this drug crosses the blood-brain barrier. If it does, then additional investigations could be performed in people with severe forms of HCV disease in which the brain is affected.

Completed17 enrollment criteria

Safety and Efficacy of IGIV 10% in Patients With Autoimmune Encephalitis:

Autoimmune Encephalitis

The purpose of this study is to evaluate the safety and efficacy of IGIV 10% in patients with autoimmune encephalitis

Completed21 enrollment criteria

IL-2 in Refractory Autoimmune Encephalitis

Encephalitis

The purpose of this study is to determine whether low-dose IL-2 is effective in refractory autoimmune encephalitis.

Completed13 enrollment criteria

IVIG - West Nile Encephalitis: Safety and Efficacy

West Nile Virus

This study will look at the safety and effectiveness of an experimental medication containing antibodies (Omr-IgG-am™) in people with West Nile Virus (WNV) who already have brain and/or spinal cord inflammation or who are at high risk of developing these problems because they have weak immune systems. WNV can cause problems such as headaches, fever, muscle weakness, coma, and death. Study investigators believe people who are not able to fight infection well may be at risk for developing neurologic problems (having to do with the brain, spinal cord, nerves, and muscles) if they get WNV infection. Up to 110 subjects, 18 years or older, will participate for about 3 months and will receive either Omr-IgG-am™, Polygam® S/D, or placebo given through a small tube placed in a blood vessel in the arm. Hospitalization, up to 5 additional study visits, blood sample collection, MRI pictures of the brain and spinal cord, and neurological, muscle, and heart activity tests are also required.

Completed32 enrollment criteria

Phase II Randomized Open-Label Trial of Atovaquone Plus Pyrimethamine and Atovaquone Plus Sulfadiazine...

ToxoplasmosisCerebral1 more

To evaluate the efficacy, safety, and tolerance of atovaquone with either pyrimethamine or sulfadiazine in AIDS patients with toxoplasmic encephalitis. AIDS patients with toxoplasmic encephalitis who receive the standard therapy combination of sulfadiazine and pyrimethamine experience a high frequency of severe toxicity. Atovaquone, an antibiotic that has demonstrated efficacy against toxoplasmosis in animal models and in preclinical testing has been well tolerated, is now available as a suspension, which is more readily absorbed than the tablet form of the drug. The efficacy and safety of atovaquone in combination with sulfadiazine or pyrimethamine will be studied.

Completed42 enrollment criteria

A Pilot Study of Oral Clindamycin and Pyrimethamine for the Treatment of Toxoplasmic Encephalitis...

ToxoplasmosisCerebral1 more

To collect information on the effectiveness and toxicity of clindamycin plus pyrimethamine and leucovorin calcium for the treatment of acute toxoplasmic encephalitis in adult patients with AIDS. Toxoplasmic encephalitis (encephalitis caused by Toxoplasma gondii) is the most frequent cause of focal central nervous system infection in patients with AIDS. If untreated, the encephalitis is fatal. At present, it is standard practice to give a combination of pyrimethamine and sulfadiazine to treat toxoplasmic encephalitis. The high frequency of sulfonamide-induced toxicity in AIDS patients often makes completion of a full course of therapy difficult. There is some information that high doses of parenteral (such as by injection) clindamycin used with pyrimethamine may be as effective as pyrimethamine plus sulfadiazine in the management of the acute phase of toxoplasmic encephalitis in patients with AIDS. Administration of parenteral clindamycin for prolonged periods of time, however, is costly, requires hospitalization, and is inconvenient for the patient. There is some indication that treatment of AIDS patients with acute toxoplasmic encephalitis with oral clindamycin may be effective. Leucovorin calcium is useful in preventing pyrimethamine-associated bone marrow toxicity.

Completed62 enrollment criteria

Stem Cell Transplantation In-patient With Neurological Sequelae Due to Encephalitis or Meningitis...

EncephalitisMeningitis

To evaluate the safety and efficacy of autologous bone marrow-derived mononuclear cell transplantation in-patient with neurological sequelae due to encephalitis or meningitis

Completed5 enrollment criteria

Safety and Efficacy Study of Intravenous Immunoglobulin to Treat Japanese Encephalitis

Japanese Encephalitis

Japanese encephalitis is caused by a viral infection of the brain transmitted by the bite of an infected mosquito. Patients with Japanese encephalitis can rapidly develop worsening conscious level and seizures. Around a third will die from the infection and half of survivors have serious long-term neurological disability. The majority of those affected are children. There are many causes of viral encephalitis, however Japanese encephalitis virus is the most common cause worldwide with over 60,000 cases annually. It occurs over much of Asia and the geographical range is expanding. There is no specific treatment for Japanese encephalitis virus, although several have been trialed. In this study we examined the effect of a new treatment, called intravenous immunoglobulin, on children with Japanese encephalitis in Nepal. Prior studies have suggested intravenous immunoglobulin may neutralize Japanese encephalitis virus and suppress damaging inflammation in the brain. It has previously been used in individual cases but never examined in a randomized trial. There was recently a trial of IVIG in West Nile encephalitis in the United States, in which Professor Solomon was on the Scientific Advisory Committee. In this study we will look if intravenous immunoglobulin is safe in this context, and that this treatment may alter the way the immune system manages the infection. Therefore, in this pilot study we will test the hypothesis that IVIG can be safely given to children with suspected JE, with no increased risk of serious adverse events compared with placebo. The aim of this proposal is to conduct a pilot safety and tolerability randomized placebo controlled trial of intravenous immunoglobulin (IVIG) in patients with Japanese encephalitis, to explore the relationship between JEV viral load, pro-inflammatory markers called cytokines and blood brain barrier markers, and the effect of IVIG on these relationships.

Completed7 enrollment criteria

Transcranial Direct Current Stimulation on Cortical Plasticity in Patients With Anti-NMDA Receptor...

Anti-NMDA Receptor Encephalitis

Patients suffering from anti-NMDA receptor encephalitis show impaired NMDA-receptor dependent neuronal transmission. Furthermore, they often have cognitive deficits of different magnitude. Impaired neuronal signaling of NMDA-receptors very likely result in decreased cortical synaptic plasticity. Thus, this represents one major reason of cognitive deficits. Synaptic plasticity can be assessed in humans via the non-invasive technique of transcranial magnetic stimulation (TMS). The current study aims to investigate whether learning ability and also cortical plasticity can be changed by applying sessions of transcranial direct current stimulation (tDCS). Therefore, we are recruiting 10 to 15 patients suffering from anti-NMDA receptor encephalitis as well as healthy controls in order to compare tDCS effects. Learning ability is assessed by motor sequence tasks, whereas cortical plasticity is measured via TMS. tDCS is a novel non-invasive technique allowing induction of changes in cerebral excitability level and also cortical plasticity. Previous studies showed positive outcome of anodal stimulation on learning tasks. Especially motor learning seems to be an important target for tDCS treatment since it showed best results for both post-stroke patients and healthy subjects. Multiple sessions of tDCS are inducing long-term effects and improved learning function, which were present three months after stimulation. In this study we hope to reveals new insights into the pathomechanisms of impaired cognitive and learning abilities in patients having anti-NMDA receptor encephalitis. Moreover, we evaluate whether tDCS is an effective treatment for patients with cognitive and learning deficits.

Completed8 enrollment criteria
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