View clinical trials related to Protozoan Infections.
Filter by:Malaria is a major public health problem. There were around 240 million cases of malaria and 627,000 deaths worldwide in 2020. Most of the deaths are in children under five living in Africa. It is a major problem for those who live in affected areas and for travellers. There is a great need for a safe, effective malaria vaccine. This study is being done to evaluate an experimental malaria vaccine for its safety and also look at the body's immune response to the vaccine. The vaccine tested in this study is called and "RH5.1". This is given with an adjuvant called "Matrix-M". This is a substance to improve the body's response to a vaccination. The aim is to use the vaccines and adjuvant to help the body make an immune response against parts of the malaria parasite. This study will assess: 1. The safety of the vaccines in healthy participants. 2. The response of the human immune system to the vaccines. This will be achieved by giving participants three doses of the RH5.1 vaccines at two different dose levels (10 micrograms and 50 micrograms). One group will have 3 doses of 10 micrograms given at 0, 1 and 6 months whilst the other will receive 2 doses of 50 micrograms (at 1 and 2 months) followed by a 10 microgram dose at 6 months- known as a 'delayed fractional dose'. Blood tests and information about any symptoms will be performed/collected that occur after vaccination. Information from previous studies suggests that a delayed fractional dose improves the immune response to the vaccine, particularly in terms of the antibody response. Current prediction is that this improvement is due to the delay in dosing, rather than the reduction in dose, and this study will help to answer that. Having a vaccine at a single dose is important for efficient production and dosing for vaccines rolled out in national programs so being able to move away from 'delayed fractional dose' regimens to 'delayed final dose' regimens will be important for vaccine development.
This is an open-label, adaptive study using the P. falciparum induced blood stage malaria (IBSM) model to characterise the pharmacokinetic/pharmacodynamic (PK/PD) profile and safety of MMV367 (the IMP). Up to 18 participants will be enrolled in cohorts of up to 6 participants each. The study will proceed as follows for all participants: - Screening period of up to 28 days to recruit healthy adult participants. - Day 0: Intravenous inoculation with approximately 2,800 viable P. falciparum-infected red blood cells. - Days 1-3: Daily follow up via phone call or text message. - Days 4-7: Daily site visits for clinical evaluation and blood sampling to monitor malaria parasite numbers via quantitative polymerase chain reaction (qPCR). - Day 7 PM: Start of confinement within the clinical trial unit. - Day 8: Administration of a single oral dose of the IMP (MMV367). Different doses of MMV367 will be administered across and within cohorts in order to effectively characterise the PK/PD relationship. - Days 8-11: Regular clinical evaluation and blood sampling while confined to monitor malaria parasite numbers and measure MMV367 plasma concentration. - Day 11 AM: End of confinement within clinical trial unit. - Days 12-23: Outpatient follow-up for clinical evaluation and blood sampling. - Day 24: Initiation of compulsory definitive antimalarial treatment with Riamet® (artemether/lumefantrine) and/or other registered antimalarials if required. Treatment will be initiated earlier than Day 24 in the event of: - Insufficient parasite clearance following IMP dosing - Parasite regrowth following IMP dosing Characterising the pharmacokinetic/pharmacodynamic relationship of MMV367 - Participant discontinuation/withdrawal, - Investigator's discretion in the interest of participant safety. - Day 27: End of study visit for final clinical evaluation and to ensure complete clearance of malaria parasites.
This is an open-label, adaptive study that will utilise the P. falciparum induced blood stage malaria (IBSM) model to characterise the pharmacokinetic/pharmacodynamic (PK/PD) profile of pyronaridine. Up to 18 healthy, malaria naïve adult participants are planned to be enrolled into this study, in cohorts of up to six participants each. Following a screening period of up to 28 days, cohorts of up to 6 healthy participants will be enrolled. Each participant will be inoculated intravenously on Day 0 with P. falciparum infected erythrocytes. Participants will be followed up daily on Days 1 to 3, and will attend the clinical unit once on Days 4, 5, 6 and 7 for clinical evaluation and blood sampling. Participants will be admitted to the clinical trial unit on Day 8 for a single oral dose of pyronaridine. Different doses of pyronaridine will be administered across and within cohorts. Participants will be randomised to a dose group on the day of dosing. The highest dose of pyronaridine administered will be no more than 720 mg; the lowest dose administered will be no less than 180 mg. Each subsequent cohort will be composed of up to 3 dose groups. The Safety Data Review Team (SDRT) will review all available safety and tolerability data from the previous cohort/s prior to inoculation of the next cohort. Participants will be confined in the clinical unit for at least 96 h (Days 8 - 12) to monitor the safety and tolerability of pyronaridine dosing. Upon discharge from the clinical unit participants will be monitored on an outpatient basis up to Day 50±2. Participants will receive compulsory antimalarial rescue treatment with Riamet® (artemether/lumefantrine) on Day 47±2 or earlier.
- Parasitic infection is a serious public health problem throughout the world particularly in developing countries including Egypt. The individuals infected with helminths are responding to the parasite infections by a specific Th2 type innate and adaptive immune responses. The Coronavirus Disease 2019 pandemic has affected over 169 million people and caused the death of millions worldwide. COVID vaccines with up to 95% of efficacy and effectiveness have been developed and approved by the Food and Drug Administration (FDA), USA. Moreover, it's reported that vaccination against COVID may lead to Cytokine Storm Syndrome in some vaccinated people with release of large amounts of cytokines as (IFNγ, IL-12, TNFα).
The study consists of two arms: 1) intervention group using eggs as supplementary food given from 2nd trimester of pregnancy to birth, and 2) observational group of pregnant mothers. it aims to assess the effectiveness of improving dietary quality during pregnancy on the epigenetic and stunting related outcomes (growth and development) in infants, who will be followed up until 24 months old
This is a single-centre, open-label, Phase Ib study designed to assess if intravenous injection of approximately 3200 P. falciparum (NF54 strain) sporozoites can be safely administered to achieve blood-stage parasitaemia with a kinetics/PCR profile that will allow for the future characterisation of antimalarial blood-stage activity of new chemical entities in a relatively small number of participants during early drug development. Healthy, malaria-naïve adults, aged 18-55 years, will be enrolled in a maximum of 2 cohorts. Enrolment into the cohorts will proceed sequentially, with two target levels of parasitaemia, i.e., 5000 parasites/mL blood in Cohort 1 and 10000 parasites/mL blood in Cohort 2. (Based on observed levels of parasitaemia in Cohort 1, the target threshold for treatment in Cohort 2 was maintained at 5,000 p/mL (vs 10,000 p/mL in the protocol)). The 3-day antimalarial therapy regimen will be further administered and monitored until parasite clearance. Safety and tolerability will be monitored during the whole study duration.
Ulcerative colitis (UC) is a chronic inflammatory disorder of the gastrointestinal tract of unknown etiology. UC is characterized by recurring episodes of inflammation limited to mucosal and submucosal layers of the colon. The object of the present study was to determine the prevalence of intestinal protozoa and helminthes in UC patients, and the role of this changes in aetiopathogenesis of diseases. Patients will be examined before and after therapy. Parasites and protozoa prevalence and intensity will be detected by triple coproscopy.Microbiological study will be conducted before therapy for detection pathogenic bacteria only from UC patients infected with B. hominis . If intestinal pathogenic bacteria are found, participants will be excluded from further investigation.
Colorectal cancer (CRC) has the third highest cancer incidence in the world. There is mounting evidence that the intestinal microbiota plays an important role in colorectal carcinogenesis. but there is no information on protozoa of intestinal microbiota except Blastocystis hominis, although data on this issue is scarce. In this study we are going to evaluate the prevalence of intestinal helminthes and protozoa in CRC patients and control group that includes random residents. Patients will be examined before, after surgery and chemotherapy. Parasites and protozoan infection intensity will be estimated by triple coproscopy.
This study is aimed at assessing the tolerability and pharmacokinetic parameters of SCYX-7158 in healthy volunteers. In animal models of both acute and chronic experimental Trypanosomiasis infections, SCYX-7158 shows highly promising efficacy.
In this two-year study, we will target two high risk groups, including MSM of HIV-infected and those of non-HIV-infected. We will avail the serodiagnosis to detect the potential amebic carriers in both groups; and use microscopy to detect protozoas other than amebiasis. Meanwhile we will also survey the patients' status of sexual transmitted diseases (STD). For the amebic carriers, we will apply specific antigen and molecular biologic method to follow up the duration of the persistence of fecal amebas. We try to clarify the dynamic change of amebic carriage.