View clinical trials related to Onchocerciasis.
Filter by:This study aims at evaluating the safety and efficacy of Moxidectin 2 mg in patients with low intensities of microfilariae of Loa loa.
This study aims at evaluating the safety and efficacy of levamisole in patients with loiasis infection.
This study aims at evaluating the diagnosis performances of the LTS-2 DEC patch for onchocerciasis compared to the gold standard which are the skin snips. This study will be conducted in Cameroon in two different areas : Ngog-Mapubi and Bafia Health Districts (one area only endemic for onchocerciasis, and one area endemic for both loiasis and onchocerciasis).
The primary purpose of this study is to determine a dose of moxidectin for children 4 to 11 years that is equivalent to an 8 mg dose administered for treatment of onchocerciasis in people 12 years and over. The secondary purpose is to evaluate the safety and pharmacokinetics of a single dose of moxidectin in children and adolescents aged 4 to 17 years.
The primary purpose of this phase 3b study is to determine the safety and efficacy of moxidectin administration twice a year, compared to once a year, in maintaining undetectable levels in skin of O. volvulus microfilaria in skin, the parasite that causes river blindness. Secondary purposes are to determine the effectiveness of moxidectin compared to ivermectin once or twice a year in maintaining undetectable levels, or reducing levels, of skin microfilaria.
Randomized clinical trial in the Logo health zone, in Ituri province, Democratic Republic of Congo to compare seizure freedom in onchocerciasis infested epilepsy patients who ivermectin treatment once a year compared to 2 and 3 times a year. All participants also receive anti-epileptic drugs according to local guidelines for epilepsy treatment. Participants will be followed for 12 months. The primary endpoint is seizure freedom defined as no seizures during the last fourth months of the trial.
Background: Childhood epilepsy disorders are particular frequent in the area around Mahenge, southern Tanzania and recent studies have described a novel type of epilepsy with repetitive head nodding episodes and often progressive cognitive dysfunction. Despite the disease affecting thousands in Tanzania, Uganda and South Sudan, etiology and pathogenesis of the disorder termed Nodding Syndrome (NS) is still obscure as the phenotype remains imprecisely described. Epidemiological associations with Onchocerca volvulus and Mansonella spp. were noted at different African sites and remain robust even though no evidence for the presence of O. volvulus in CSF or any previous contact with the CSF was found. Hypothesis: With regard to the complex host immune reaction to O. volvulus, the investigators hypothesize that the immune response against filariae might contribute to NS and epilepsy. The investigators further assume that specific genetic traits might play a role in the pathogenesis of NS. Aims In the present study the investigators aim to examine if and how O. volvulus and/or Mansonella spp. contribute to the pathology of NS/epilepsy and therefore intend to analyze the filarial infection and the host immune response in affected children. To identify inherited traits predisposing for epilepsy, NS or specific immune responses, a genetic workup that includes whole-exome sequencing (WES) is performed. The clinical and EEG characteristics are further defined. Cognitive impairment of people with epilepsy and NS is assessed using the Wechsler Nonverbal Scale of Ability (WNV). Study design: A cross-sectional observational (groups I-III) and a case-control (groups I-V) study recruiting in total 250 patients and controls (I: people with NS, n=50; II: people with epilepsy (PWE) and onchocerciasis, n=50; III: PWE without onchocerciasis, n=50; IV: controls with onchocerciasis but otherwise healthy, n= 50; healthy controls without evidence for onchocerciasis, n= 50) is performed to describe the clinical characteristics in children with NS/epilepsy and to evaluate differences in infection and immune response between groups, respectively. The WNV should be validated in 500 healthy controls to obtain reference data in rural Africa. Summary: In summary, the study aims to elucidate clinical characteristics and the pathogenesis of NS/epilepsy in children of southern Tanzania and role of parasitic infection as a cause for NS/epilepsy.
The DOLF Ocular Changes after Ivermectin study will investigate the kinetics of O. volvulus microfilaria (Mf) in the eye following treatment with ivermectin. The primary objective is to determine the proportion of participants with complete Mf clearance from the eye at 3 and 6 months following treatment with ivermectin (IVM).
Onchocerciasis is a vector-borne nematode parasitic disease that causes severe disability. Onchocerciasis affects approximately 33 million people, mostly in 30 countries in sub-Saharan Africa (with small foci in Latin America and Yemen) 1This disease causes blindness and severe skin disease and it is spread by black flies. O. volvulus adult worms live in subcutaneous nodules. O. volvulus adult worms are larger and less sensitive to available drug treatments than those of the species that cause Lymphatic Filariasis (LF). They also have a longer lifespan (approximately 14 years rather than the estimated 7 years for LF parasites). Several programs and developments have greatly improved the Onchocerciasis. situation since the 1970's when the Onchocerciasis Control Programme (OCP) in West Africa (green countries in the map) was initiated. OCP relied exclusively on vector (black fly) control in its early years. However, following the appearance of Ivermectin (Mectizan) on the scene in the late 1980's, OCP transitioned to become a drug distribution program with annual IVM MDA in 11 countries. OCP ended in 2002. This was replaced by the African Program for Onchocerciasis Control (APOC) which coordinates community directed distribution of IVM MDA in 28 African countries (including the former OCP countries). OCP and APOC have done a good job of reducing parasite infection intensities and Onchocerciasis disease rates in many endemic countries. Unfortunately, there is no real end in sight for the APOC approach (apart from a funding endpoint in 2015); while it may be possible to eliminate Onchocerciasis. In selected areas by MDA with IVM (alone, or combined with vector control), disease control programs in most African countries will require active maintenance for many years to come. While IVR has good activity against the parasite larvae that cause disease in the skin and eye (microfilariae or Mf), it does not kill O. volvulus adult worms, and they resume production of Mf that can lead to transmission of new Onchocerciasis. Cases by black flies after a few months. APOC activities are focused on areas with high infection rates (where disease risks are highest). However, extensive areas in Africa where fewer than 20% of adult men have Onchocerciasis nodules detectable by palpation are not receiving interventions for Onchocerciasis at this time. These areas are not disease free. (Onchocerciasis dermatitis can be severe in hypoendemic areas), and they also may serve as a source for reintroduction of the parasite into previously controlled areas after interventions stop.
Lymphatic filariasis is a neglected tropical disease earmarked for elimination as a public health problem by the year 2020. Since the year 2000, the Global Program for the Elimination of LF has together with endemic countries undertaken preventive chemotherapy in endemic districts to entire at risk populations. In Ghana, treatment of LF is based on the drugs Ivermectin and Albendazole. Remarkable achievements have been made towards the control and elimination of LF in Ghana. However, there remain programmatic and implementation challenges that need to be addressed in order to ensure that the gains made over the last 15 years are sustained. Among these challenges is the persistent transmission of LF in some districts despite more than 10 years of MDA. Furthermore, LF cases have been identified in communities from eight districts, previously considered as non-endemic. The extent of endemicity in these new districts is unknown. In order to achieve the 2020 elimination targets, it is crucial to determine the distribution and infection prevalence of LF in these districts. Evaluating these districts for LF endemicity will help the implementation of appropriate strategies towards achieving the 2020 target. This protocol describes the surveys to be undertaken in Ghana in 3 of these districts. The current standard mapping methodologies of LF have the potential to miss LF endemic villages, due to the focal nature of LF. As such, in order to enhance the chances to detect endemic communities, this survey will use a combination of the WHO EPI cluster survey and current LF mapping protocols. 15 communities will be selected in each district, with 100 survey participants per community. Survey participants will be screened for LF infection using immunological and parasitological methods. Study participants will also be tested for onchocerciasis infection using immunological and parasitological methods in districts where LF and oncho are co-endemic. The information from this survey will be combined with the data on the LF vectors and their infection status in the survey areas and relevant data available at the Ghana Health Service to: 1. determine whether LF intervention strategies are indicated in these three districts, 2. design, as indicated, appropriate intervention strategies to achieve LF elimination in these three districts by 2020 3. inform, if indicated, co-implementation of control, monitoring and evaluation for LF and onchocerciasis in the two onchocerciasis endemic districts 4. extract lessons learnt for the design and implementation of surveys in the other districts currently considered non-endemic but where LF cases have been reported. New rapid diagnostic tests have been developed to assess infection Lf and onchocerciasis infection prevalence at the time of the decision to stop MDA and for surveillance for new infections once MDA has been stopped. These include Rapid Diagnostic Tests (RDT) for antibodies against the W. bancrofti antigen WB123 and the O. volvulus antigen Ov16. These tests still require large scale field validation. Provided additional funding becomes available, this survey will be used to obtain field validation data.