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Cerebral Malaria clinical trials

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NCT ID: NCT01982812 Completed - Epilepsy Clinical Trials

A Dose-Escalation, Safety and Feasibility Study of Enteral LVT for Seizure Control in Pediatric CM

Start date: January 2014
Phase: Phase 2
Study type: Interventional

Pediatric cerebral malaria (CM) affects more than 3 million children each year killing ~20% and leaving one third of survivors with long term neurologic and psychiatric sequelae. Seizures occur commonly with CM and are associated with an increased risk of death and neuropsychiatric disabilities. In this Malawi-based, dose- escalation, safety and feasibility study of enteral levetiracetam in pediatric CM, the investigators will lay the groundwork for future efficacy studies aimed at improving seizure control and ultimately decreasing the neurologic morbidity of pediatric CM.

NCT ID: NCT01660672 Completed - Epilepsy Clinical Trials

Enteral Levetiracetam For Seizure Control In Pediatric Cerebral Malaria

LVT1
Start date: January 2013
Phase: Phase 1/Phase 2
Study type: Interventional

Pediatric cerebral malaria (CM) affects more than 3 million children each year killing ~20% and leaving one third of survivors with long term neurologic and psychiatric sequelae. Seizures occur commonly with CM and are associated with an increased risk of death and neuropsychiatric disabilities. In this Malawi-based, dose- escalation, safety and feasibility study of enteral levetiracetam in pediatric CM, the investigators will lay the groundwork for future efficacy studies aimed at improving seizure control and ultimately decreasing the neurologic morbidity of pediatric CM.

NCT ID: NCT01589289 Completed - Clinical trials for Cryptococcal Meningitis

Rapid Diagnostic Tests and Clinical/Laboratory Predictors of Tropical Diseases in Neurological Disorders in DRC

Nidiag-Neuro
Start date: September 2012
Phase: Phase 3
Study type: Interventional

The impact of neurological disorders is enormous worldwide, and it is increased in poor settings, due to lack of diagnosis and treatment facilities as well as delayed management. In sub-Saharan Africa, the few observational studies conducted for the past 20 years show that neurological disorders accounted for 7 to 24% of all admissions. Central nervous system (CNS) infections were suspected in one third of all patients admitted with neurological symptoms, with a specific microbial aetiology identified in half of these. Most CNS infections may be considered as "severe and treatable diseases", e.g. human African trypanosomiasis (HAT), cerebral malaria, bacterial meningitis, CNS tuberculosis etc. If left untreated, death or serious sequels occur (mortality rates were as high as 30% in the above mentioned studies), but the outcome may be favourable with timely and appropriate management. In poor settings, such conditions should be targeted in priority in the clinical decision-making process. Unfortunately, most neuro-infections present with non-specific symptoms in their early stages, leading to important diagnostic delays. Moreover, they require advanced diagnostic technology, which is not available in most tropical rural settings: here, you have to rely on clinical judgment and first-line laboratory results, whose confirming or excluding powers are limited or unknown. Several rapid diagnostic tests (RDTs) have been recently developed for conditions like malaria or HIV, but their diagnostic contribution has not been evaluated within a multi-disease approach. Thus, this research aims at improving the early diagnosis of severe and treatable neglected and non-neglected infectious diseases which present with neurological symptoms in the province of Bandundu, Democratic Republic of Congo (DRC), by combining classic clinical predictors with a panel of simple point-of-care rapid diagnostic tests. The evaluation of existing algorithms and elaboration/validation of new guidelines will be described in a subsequent protocol.

NCT ID: NCT00697164 Unknown status - Cerebral Malaria Clinical Trials

Randomized Trial of Erythropoietin During Cerebral Malaria

EPOMAL
Start date: October 2007
Phase: Phase 2/Phase 3
Study type: Interventional

Malaria remains one of the most common life-threatening illnesses in the tropics with a dramatic toll of more than one million deaths each year. A majority of malaria cases are non-complicated and only few evolve towards severe malaria resulting from the combination of parasite-specific virulence factors and host inflammatory responses. Cerebral malaria (CM) kills more than 1 million African children each year. CM carries a fatality rate of about 20% in adults, higher in children, despite timely and adequate chemotherapy. Moreover, the more rapid clearance of parasitaemia with new antimalarial drugs is not associated with improved survival, suggesting the potential interest for adjunctive therapies in the early phase of the disease. Cerebral malaria leading to seizure and coma is associated with severe intracranial hypertension caused by brain-swelling. Recent imaging and post-mortem findings in adult cerebral malaria have confirmed the presence of diffuse cerebral oedema with thalamic and cerebellar white matter hypoattenuation, diffuse petechial hemorrhages and symmetric ischemic changes involving the thalamus and the cerebellum. However, the nature of the pathogenetic processes leading to cerebral malaria is incompletely understood but mechanisms linking cytokines with endothelial cells activation in the cerebral microvasculature have been recently stressed. The effect of new neuroprotective therapies has not yet been investigated, although the manifestations of cerebral malaria partly share features with neurological stroke or acute non-specific neurological disorders. The hormone erythropoietin (EPO) is probably one of the more enthusiastic drugs in this area. EPO is as a member of type I cytokine superfamily with multiple functions, including a prominent role for erythropoiesis and neuroprotection. Systematically administered EPO crosses the blood brain barrier via the abundant expression of EPO receptors at brain capillaries, and acts as an anti-apoptotic and cytoprotective cytokine. Moreover, EPO prevents inflammation by inhibiting pro-inflammatory cytokines including TNFα, preserves endothelial cells integrity and prevents blood-brain barrier permeability. We propose a randomized clinical trial to investigate the safety and efficacy of EPO in patients presenting cerebral malaria and hospitalized at Gabriel Toure hospital, Bamako, Mali, to reduce the incidence of premature death in hospitalized patients.

NCT ID: NCT00124267 Active, not recruiting - Cerebral Malaria Clinical Trials

Efficacy of Intrarectal Versus Intravenous Quinine for the Treatment of Childhood Cerebral Malaria

Start date: September 2003
Phase: Phase 3
Study type: Interventional

Cerebral malaria is the most lethal complication of P.falciparum infection with a mortality rate between 5 and 40%. Intravenous quinine remains the recommended treatment for cerebral malaria. However its administration is often not feasible due to lack of simple equipment or trained staff. When referral is not possible, a viable alternative is needed. The intrarectal route is of interest in children since it is painless and simple. Studies of the efficacy of intrarectal quinine in the treatment of cerebral malaria are limited. The study aims to establish the efficacy of intrarectal quinine in the treatment of childhood cerebral malaria.

NCT ID: NCT00113854 Active, not recruiting - Cerebral Malaria Clinical Trials

Mannitol as Adjunct Therapy for Childhood Cerebral Malaria

Start date: October 2004
Phase: Phase 3
Study type: Interventional

Cerebral malaria is a life-threatening complication of Plasmodium falciparum infection in African children and nonimmune travellers despite availability of quinine, the current drug of choice. Several reports have suggested that raised intracranial pressure (ICP) is a major cause of death among children with cerebral malaria. Mannitol, an osmotic diuretic, effectively lowers ICP and is used to treat post traumatic raised ICP. There have been some case reports of reduction in mortality and morbidity in African children with cerebral malaria following administration of mannitol, but as these were not randomized controlled trials it is difficult to evaluate their significance. This study seeks to establish whether a single dose of intravenous mannitol given to children with cerebral malaria will significantly reduce the coma recovery time.