41 Clinical Trials for Various Conditions
Objectives: Primary: • To characterize the infectivity of the new lot of Plasmodium falciparum strain 3D7 within the standard WRAIR CHMI model as compared to the current lot (historical data) Secondary: * To assess safety of the new lot of P falciparum parasites * To assess the kinetics of detecting parasitemia and parasite clearance by quantitative polymerase chain reaction (qPCR) as compared to blood smear * To obtain plasma samples to restore the testing control pool for malaria serology testing and for future malaria research
Malaria is an infectious disease caused by a parasite that is passed to humans when an infected mosquito bites a person. About 3.4 billion people live in areas of the world where malaria is regularly found. In many countries, malaria is one of the leading causes of illness and death. Despite this, there are a limited number of drugs, called antimalarials, that can be used to treat malaria and increasing reports of resistance to existing antimalarials. The purpose of this research study is to test a new experimental antimalarial drug called SJ733 to first assess its safety, tolerability and blood levels in healthy adult volunteers. Single-dose, multi-dose and boosted-dose cohorts (both single and multi-dose) will be studied. The pharmacoenhancer (booster), cobicistat, will be given in combination with SJ733 in the boosted dose-cohorts. PRIMARY OBJECTIVES: * To assess the preliminary safety and tolerability of escalating doses of antimalarial SJ733 in healthy human volunteers. * To investigate the pharmacokinetic (PK) profile of escalating doses of antimalarial SJ733 and its metabolite in healthy human volunteers. * To identify a dose of SJ733 that can be tested in a separate Phase 1b human malaria challenge study. * To assess the preliminary safety and tolerability of SJ733 in healthy adult volunteers after multiple oral dosing. * To assess the pharmacokinetics of SJ733 and its metabolite SJ506 after multiple dosing of SJ733 in healthy adult volunteers. * To assess the preliminary safety and tolerability of escalating single oral doses of SJ733 in combination with cobicistat among healthy adult volunteers. * To assess the pharmacokinetics of SJ733 and its metabolite SJ506 after single oral doses of SJ733 in combination with cobicistat among healthy adult volunteers. * To assess the preliminary safety and tolerability of SJ733 in combination with cobicistat in healthy adult volunteers after multiple oral dosing. * To assess the pharmacokinetics of SJ733 and its metabolite SJ506 after multiple dosing of SJ733 in combination with cobicistat among healthy volunteers. SECONDARY OBJECTIVE: * To assess the impact of food intake on the pharmacokinetic profile of antimalarial SJ733.
The study is a single centre, randomised, placebo-controlled, double-blind study with DSM265 including up to two cohorts of healthy male and female volunteers aged 18 to 45 years. The study will be conducted into two sequential parts (Cohort 1 and Cohorts 2a and 2b).
Background: - Malaria is a severe infection caused by a parasite. People can get malaria if a mosquito that carries the parasite bites them. Malaria infection does not happen in the United States, but many people in Africa, Asia, and South America are at risk for it. Researchers want to test two vaccines that may help decrease malaria infection. Objective: - To see if two vaccines (Pfs25M-EPA/Alhydrogel and Pfs230DIM-EPA/Alhydrogel ) are safe in humans and cause an immune response that will prevent malaria parasites from correctly growing in the mosquito. Eligibility: - Healthy adults ages 18 50. Design: * There are several groups in this study. Each group will receive a different dose of the vaccine and some groups will received both vaccines. * Vaccinations will be given on two days about 4 weeks apart. * Participants will receive each vaccine as an injection into the arm. Blood will be drawn on the day of vaccination. * In the 4 weeks after receiving a vaccination, participants will have at least 3 clinic visits and 1 phone contact. They will have at least 3 more visits and 3 phone contacts over the next 6 months. * At each visit, participants will be evaluated for side effects to the vaccine and any new health changes or problems. They will be asked how they are feeling and if they have taken any medicine. Blood and urine samples may be taken at the visit. More follow-up visits may be needed to follow up on changes or problems.
The proposed study is a Phase 1 study with controlled human malaria infection (CHMI) designed primarily to evaluate the safety of the FMP012 combined with AS01B adjuvant system. AS01B is a proprietary current good manufacturing practices (cGMP) grade adjuvant manufactured by GlaxoSmithKline (GSK) Biologicals. It is a formulation based on liposomes mixed with the immunostimulants monophosphoryl lipid (MPL) and Quillaja saponaria (QS)-21. The immunogenicity and efficacy of this new candidate vaccine will be evaluated in addition to safety.
Plasmodium falciparum malaria is a major cause of morbidity and mortality in tropical and sub-tropical areas worldwide. Repeated P. falciparum infections in endemic areas induce protective immunity, thus providing optimism that an effective malaria vaccine can be developed. Key to the development of such a vaccine is an understanding of the immune mechanisms underlying protection and the longevity of these responses in the absence of continuous P. falciparum exposure. Anecdotal evidence suggests clinical immunity to malaria wanes within months to years after an immune individual leaves an endemic area. A detailed, systematic description of the quality and longevity of the P. falciparum-specific humoral and cellular immune responses in such individuals over time in the absence of ongoing exposure is lacking. This protocol will attempt to fill this knowledge gap through comprehensive longitudinal immunological analyses of two populations of healthy adult volunteers: 1) naive travelers returning from malaria endemic areas recently treated (within 2 weeks) for acute P. falciparum malaria and referred from hospitals in the metropolitan Washington DC area; and 2) immigrants from malaria endemic areas living in the metropolitan Washington DC area with serologic evidence of past P. falciparum exposure. In both groups, venipuncture and possibly apheresis will be performed for the isolation of plasma, RNA and peripheral blood mononuclear cells (PBMCs) which will be analysed to understand the components of innate and adaptive immunity to malaria. Na(SqrRoot) ve travelers returning from malaria endemic areas recently treated for acute malaria will undergo venipuncture at enrollment, then once every 2 weeks for 2 months, then every 3 months for 1 year, and then every 6 months for up to 5 years. Immigrants will be seen every three months for one year and then every six months for up to 5 years. All subjects who return to the U.S. from a malaria endemic area will be evaluated within two weeks of return for repeat venipuncture and will restart the same sequence of blood draws as naive travelers. Optional apheresis will be performed on both na(SqrRoot) ve travelers and immigrants at enrollment, at 1, 6, and 12 months, then yearly therafter. The primary objective is to estimate the quality and longevity of P. falciparum-specific humoral and cellular immune responses in the absence of ongoing P. falciparum exposure in both returned na(SqrRoot) ve travelers and immigrants. The secondary objective is to compare the P. falciparum-specific humoral and cellular immune response in na(SqrRoot) ve travelers and immigrants to individuals in malaria-endemic areas enrolled in ongoing LIG protocols in Mali. ...
Malaria, a disease responsible for over one million deaths per year, is caused by a germ spread by mosquito bites. The purpose of this study is to evaluate a vaccine designed for the prevention of malaria caused by the parasite, Plasmodium falciparum, and to evaluate the device used to give the vaccine. This study will provide information on how safe, effective, and tolerable the vaccine is in healthy adults. The participants will be assigned, by chance, to receive 3 doses/shots of the vaccine or a placebo (substance that contains no medication) by injection in the upper arm. Study participants will include 39 healthy adults aged 18-40 years who have not been exposed to malaria and who will enroll at the Emory Vaccine and Treatment Evaluation Unit in Atlanta, Georgia. Study procedures include physical exams and several blood samples. Participants will be involved in the study for approximately seven and one half months.
The purpose of this study is to perform laboratory based studies to determine if the growth and development of the malaria parasite is effected by iron status of its host (the person infected with the malaria parasite). Iron deficiency affects over 500 million people including many pregnant women and children from areas of the world that are plagued by malaria. Some population based studies have suggested that iron deficiency protects people from getting malaria and this has raised questions about the wisdom of public health policies that provide universal iron supplementation in countries where malaria is common. We will use red blood cells and sera from patients with iron deficiency anemia, hereditary hemochromatosis and normal individuals who are taking iron supplements to look at this question in a very systematic way. This study should provide information for or against a possible mechanism by which iron deficiency may affect the malaria parasite. The results will contribute to efforts to develop evidence-based public health policies on iron supplementation policies in malaria-endemic areas. There are three different types of individuals involved in this study (1) people with iron deficiency anemia who will be taking iron supplementation (2) people without iron deficiency anemia who will be taking iron supplementation and (3) people with a condition called hereditary hemochromatosis who have an excess of iron in their bodies.
Background: * Globally, the Plasmodium falciparum parasite is responsible for at least 247 million acute cases of malaria each year, resulting in about 1 million deaths. Approximately 90 percent of these deaths, the majority in children under 5 years of age, occur in Africa due to infection with P. falciparum. * People living in endemic areas develop natural immunity to P. falciparum as a result of repeated infection. Consequently, children who survive to 5 years of age rarely succumb to life-threatening disease despite frequent infection. This acquired immunity is mediated in part by blood-stage parasite-specific antibodies. Thus, parasite proteins expressed during the blood-stage have been proposed as good candidates for inclusion in a vaccine. * A number of P. falciparum merozoite antigens have been identified as promising blood-stage vaccine candidates, including Merozoite Surface Protein 1 (MSP 1) and Apical Membrane Antigen 1 (AMA 1). This Phase I study is the first time that the combination vaccine (BSAM-2/Alhydrogel +CPG 7909) will be given to humans. The vaccine will be administered in a randomized, open-label (U.S.)/single-blinded (Mali), dose-escalating trial. Objectives: * To assess safety and reactogenicity of the combination vaccine (BSAM-2/Alhydrogel +CPG 7909) in malaria-naive U.S. adults and semi-immune Malian adults. * To determine the antibody response of the combination vaccine to the AMA 1 and MSP 142 proteins, as measured by antibody levels and parasite growth inhibition. * To determine the extent to which the antibody response to the individual antigens (AMA 1 and MSP 142) is correlated when the combination vaccine is given, and to determine T and B cell responses to vaccination. Eligibility: * United States: Healthy volunteers between 18 and 50 years, inclusive. Available for the 52 weeks of the trial and willing to participate in the study as evidenced by signing the informed consent document. * Mali: Healthy volunteers between 18 and 45 years, inclusive, and a known resident of the village of Bancoumana. Available for the 52 weeks of the trial; willing to participate in the study as evidenced by signing the informed consent document or by fingerprinting the consent document with the signature of a witness. * Potential participants must meet extensive health and screening requirements to participate in this study. Good general health is required as a result of review of medical history and clinical testing at the time of screening. * Women who are pregnant or breastfeeding are not eligible. Design: * During the 52-week study, participants will receive the first vaccine and complete the following: * Physical examination and patient education regarding the signs and symptoms of potential adverse effects. * Blood and urine testing, and vital signs (blood pressure, temperature, heart rate, and respiratory rate). * United States: Education on the use of digital thermometer, injection-site reaction measurement, and malaria vaccine side-effect memory enhancement tool (daily symptom diaries). * Mali: Additional blood draws for malaria smear and urine test for chloroquine testing. * U.S. and Mali participants will return to the study site on specified days throughout the 52 weeks to receive two additional vaccines, record vital signs, complete additional blood and urine testing, and review patient education. * U.S. participants will record oral temperature once during the day, as well as pain, tenderness, redness, swelling at the injection site and any systemic signs or symptoms for 6 days following each immunization. * Participants will receive financial compensation (United States) or food (Mali) to compensate for their time.
This study will evaluate the safety of two experimental malaria vaccines in healthy volunteers and examine their immune response to them. Safety will be assessed by comparing vaccine side effects in groups of volunteers who receive increasing doses of the same vaccine (dose-escalating study). Immune response will be evaluated by comparing the levels of antibody production with each dose. (Antibodies are infection-fighting proteins produced by the immune system.) The two vaccines in this study contain different types of a malaria protein called MSP1: one type is MSP142FVO and the other is MSP1423D7. Malaria parasites are spread from person to person by mosquitoes. There are four types of malaria parasites. The vaccine tested in this study is designed to work against Plasmodium falciparum, the parasite responsible for most deaths in children due to malaria in sub-Saharan Africa. The vaccine stimulates the body to produce antibodies that prevent P. falciparum from entering the person's red blood cells. Healthy normal volunteers between 18 and 50 years of age may be eligible for this 12-month study, conducted at Quintiles Phase 1 Services in Lenexa, Kansas. Candidates are screened with a medical history, physical examination, and blood and urine tests. Participants receive three doses of the vaccine-on the first day of the study (day 0), at 1 month (day 28), and at 6 months (day 180) -through injection into an arm muscle. The first group of subjects receives 5 micrograms of vaccine, the second group receives 20 micrograms, and the third group receives 80 micrograms. All participants are observed in the clinic for 30 minutes after each immunization for immediate reactions to the vaccine and keep a record of their temperature and of any reactions and side effects they experience for 6 days after the vaccination. At various intervals throughout the study, participants undergo a brief physical examination and blood tests. Women of childbearing potential have a urine pregnancy test on the day of each injection.
This clinical study is a phase 4, single-site, open-label pharmacokinetic (PK) study of IV artesunate in up to 100 Ugandan children 6 months-14 years of age who are diagnosed with severe malaria according to standardized World Health Organization (WHO) criteria (any P. falciparum parasitemia and the presence of danger signs). Participants will receive the standard of care IV artesunate for initial treatment of severe malaria per WHO guidelines: children weighing \<20 kg should receive 3.0 mg/kg/dose compared to children weighing =20 kg who should receive 2.4 mg/kg/dose, at times 0, 12, 24, 48 and 72 hours (WHO 2015). Parenteral treatment will be administered for a minimum of 24 hours (irrespective of the patient's ability to tolerate oral medication earlier), after which patients will be evaluated clinically and assessed for ability for oral intake of antimalarials. Children who are able to transition to oral antimalarial therapy will initiate a 3-day course of artemisinin-combination oral therapy per national guidelines. The primary objective of the study is to determine the relationship between DHA exposures following IV artesunate dosing and markers of physiologic dysfunction associated with severe malaria in Ugandan children.
This is a study to evaluate the safety, immunogenicity, and efficacy of a recombinant circumsporozoite protein (rCSP) malaria vaccine administered with and without AP 10-602 \[Glucopyranosyl Lipid A (GLA) in liposome Quillaja saponaria 21 formulation (LSQ)\] adjuvant. 59 healthy adult, malaria naive volunteers aged 18 to 45 will receive vaccination with or without adjuvant (10 of those volunteers will receive rCSP alone) in five dose escalating groups. Each group will receive 3 vaccination doses total, with intramuscular (IM) injections on days 1, 29, and 85. A sixth group of 6 volunteers will receive no vaccinations and will participate as a control in a Controlled Human Malaria Infection (CHMI) challenge with two of the vaccinated groups. The study will be conducted at the Center for Vaccine Development (CVD) in Baltimore, Maryland. The patient participation duration is expected to be up to 886 days (up to 117 days for nonvaccination group). This study will test two hypotheses: (1) the rCSP/AP 10-602 \[GLA-LSQ\] candidate malaria vaccine will induce an immune response in a dose-dependent manner as measured by anti-CSP antibody titer via ELISA and (2) the rCSP/AP 10-602 \[GLA-LSQ\] candidate malaria vaccine will provide a minimum of 50% efficacy in vaccines compared to unvaccinated infectivity controls. The primary objective is to assess the safety and reactogenicity of candidate rCSP/AP 10-602 \[GLA-LSQ\] malaria vaccine when administered intramuscularly on a 1, 29, and 85 day schedule (Groups 1-3, 4B, 5) and on a 1 and 490 day schedule (Group 4) to healthy malaria-naive adults aged 18-45 years.
This Phase 1 trial will include 16 subjects who will receive the Genetically-attenuated p52-/p36-/sap1- Plasmodium falciparum Parasites (GAP3KO) vaccine administered by the bite of approximately 200 infected Anopheles stephensi Mosquitoes in a controlled clinical environment and 12 Controlled Human Malaria Infection (CHMI) infectivity controls (six for each of the two CHMIs). Subjects will be observed for adverse events after each GAP3KO administration. Solicited local and systemic Adverse Events (AEs) will be recorded on a memory aid beginning of the day of first vaccine administration and continuing through 28 days after the last administration. During the vaccination phase clinical laboratory evaluations for safety will be performed on venous blood. Unsolicited AEs will be collected from the day of first vaccination through 28 days after last vaccination and serious adverse events (SAEs) will be collected from the day of first GAP3KO administration through the end of study follow-up. Subjects will be monitored for possible breakthrough peripheral parasitemia with qRT-PCR testing. Four weeks after the last GAP3KO administration, all subjects who completed the immunization phase (up to 16) and a group of six malaria-naïve infectivity controls will be challenged on the same day with wild-type Plasmodium falciparum NF54 sporozoites. Approximately twenty-six weeks after that challenge, all of the protected subjects in Arms 1 and 2 (up to 16) and another six malaria-naïve infectivity controls will receive five infectious A. stephensi mosquito bites on the same day using standard CHMI procedures. For subjects in Study Arms 1 and 2 without documented parasitemia additional post-CHMI follow-ups will occur. For subjects in Study Arms 1 and 2 with documented parasitemia after the first CHMI or who are discontinued for other reasons after the first CHMI, and for the infectivity controls, additional follow ups will occur. Serious Adverse Events (SAEs) will be recorded from the day of CHMI through the end of study follow up and clinical laboratory evaluations for safety will be performed on Day 29 and as clinically indicated (all subjects) and, for subjects with documented parasitemia, on the day malaria treatment is initiated and three days after malaria treatment is initiated. The primary objectives are: 1) To assess the safety and reactogenicity of candidate GAP3KO malaria vaccine when administered by the bite of approximately 200 infected mosquitoes on a five dose schedule, with the first four vaccinations given four weeks apart and the fifth vaccination given eight weeks after the fourth vaccination, and on a three dose schedule, with the second vaccination given four weeks after the first vaccination and the third vaccination given eight weeks after the second vaccination, to healthy malaria-naïve adults aged 18 through 50 years , 2) To confirm attenuation of GAP3KO parasites by assessing the occurrence of breakthrough peripheral parasitemia from the time of first GAP3KO administration through 28 days after last GAP3KO administration.
This is a phase I study that will assess the acquisition of immunity to Pf malaria over the course of 5 sequential Controlled Human Malaria Infections (CHMI) over 2-4 years, in 10 healthy adult participants. 10 subjects will initially be challenged with 5 uninfected mosquitoes (mock), followed by 5 challenges with 5 mosquitoes infected with drug sensitive, P. falciparum parasites (strain NF54) 2, 8, 14-20, 20-32, and 32-36 months later. For the final four infective CMHIs six additional immunologic malaria-naïve subjects will be enrolled and challenged as infectivity controls. If dropouts occur within the original 10 person cohort, and two or more CHMI remain, back-up replacement volunteers will be recruited to undergo successive CHMI with the core group. All volunteers (repeat CHMI subjects and infectivity controls) will be evaluated as part of an inpatient stay (or outpatient daily follow-up) to diagnose Pf malaria infection and treat with Coartem(R) (artemether/lumefantrine) or Malarone(R) (Atovaquone/proguanil). Daily observation will occur from Study Days 9-19 or until three-day directly observed therapy for P. falciparum infection is complete and two negative smears separated by a time interval \>12 hours have been documented. A third negative smear \>12 hours after the previous two daily smears will be documented to affirm malaria cure. Infectivity Controls enrolled as part of CHMI #5 will be treated based on concomitant us qPCR results. The repeat CHMI subjects will have additional outpatient visits days 1, 3, 5, and 7 after the challenge to obtain blood samples to monitor the development of immunity. The study is expected to last for 48 months and will include approximately 34 healthy male and female volunteers (10 active study volunteers and 18 naïve controls to confirm Pf infectivity during the 2nd -5th CHMI challenges) ages 18 to 50 years, inclusive, from the greater Baltimore community. The primary objective of this study is to determine whether protective immunity against parasite infection develops following repeat CHMI.
This is a single center, randomized and controlled human study to optimize controlled human malaria infection (CHMI) administered by direct venous inoculation (DVI). 36 healthy adults aged between 18 and 45 years, will be randomized to one of five groups and will be inoculated with PfSPZ Challenge DVI. Participation duration is estimated to be 2 months, while the study duration is planned to be 4 months. The primary objective of this study is to assess the safety and reactogenicity of PfSPZ Challenge administered by DVI using 7G8 and NF54 P. falciparum strains.
This phase I trial of the replication-intact PfSPZ Challenge vaccine given under CQ cover will enroll 28 healthy volunteers to receive PfSPZ or placebo, as well as suppressive doses of chloroquine (CQ)on varying schedules. 10 weeks post 3rd immunization subjects will be subjected to controlled human malarial infection. The primary objective of this study is to evaluate the safety and tolerability of escalating doses of Sanaria PfSPZ Challenge administered by DVI on varying schedules to healthy malaria-naïve adults taking suppressive doses of CQ (PfSPZ-CVac).
The purpose of this study is to determine the safety and tolerability of a non-replicating, metabolically active Plasmodium falciparum sporozoite (PfSPZ) vaccine in malaria-naïve healthy volunteers following multiple-dose subcutaneous (SC) or intradermal (ID) administration. In addition, the investigators wish to evaluate PfSPZ vaccine-mediated protection against P. falciparum challenge in the following 4 groups (see below) and compare protective efficacy of the PfSPZ vaccine when given by SC v ID administration in all these groups: * Group 1: 4 doses of 7,500 PfSPZ/immunization, * Group 2: 4 doses of 30,000 PfSPZ/immunization, * Group 3: 4 doses of 135,000 PfSPZ/immunization * Group 4: 4 or 6 doses of 135,000 PfSPZ/immunization. If \> 80% protective efficacy is not achieved in Groups 1, 2, or 3, volunteers in Group 4 will receive a fifth and sixth dose.
The purpose of this study is to determine how many infected mosquito bites are required to reliably give volunteers a case of malaria. It is expected that volunteers will develop malaria and may have symptoms. Safety is the main concern. A malaria challenge is given by allowing a volunteer to receive 1, 3, or 5 mosquito's bites. Then participants are carefully followed and blood is tested. The study will also look at how immune systems (the cells and substances that protect the body from infection and foreign matter) respond after mosquito bite challenges. About 38 subjects (aged 18-40 years) from the greater Baltimore, Maryland (United States) community will participate and may stay overnight for 10 days at a local medical center. Procedures include medical screening, assignment to a dose group, a mosquito bite challenge, and 56 day follow-up. Volunteers will be contacted by telephone at 6 and 12 months after the malaria challenge.
The purposes of this study are to evaluate the safety and immune responses (the body's defense system) to an investigational malaria vaccine called ICC-1132. Three different doses of the vaccine will be studied in 3 groups of people, and the results will be compared. The study will involve about 80 healthy volunteers, 18-45 years of age, who will receive an injection of a specific dose of the vaccine in their arm on 2 or 3 different days. Blood samples will be collected approximately 15 times for laboratory studies. Volunteers will record their temperature twice per day. Volunteers will complete a daily symptom diary for 7 days after each vaccination. Volunteers will participate in the study for up to 13 months.
The purpose of this study is to determine whether a new investigational malaria vaccine is safe, well tolerated and effective against experimental exposure to malaria when given to healthy people with no previous exposure to malaria. The vaccine consists of a modified form of a relatively common virus, adenovirus, that has been rendered incapable of replicating itself and modified to deliver the malaria gene of interest to the body's cells allowing the cell to manufacture the protein encoded by the gene and present it to the body's immune system in a more natural and presumably effective way.
The purpose of this study is to evaluate the safety, tolerability, and effectiveness of 2 doses of a malaria vaccine (DNA) followed by a dose of another type of malaria vaccine (MVA) given as a "booster." Forty-eight adults in Ghana, ages 18-50 years, will participate for 17 months. They will be randomly assigned to 1 of 4 treatment groups. Group 1 will receive the DNA malaria vaccine at months 0 and 1, and the booster at month 7. Group 2 will receive a rabies vaccine at months 0 and 1, and an injection containing no vaccine at month 7. Group 3 will receive the DNA malaria vaccine at months 5 and 6, and the booster at month 7. Group 4 will receive the rabies vaccine at months 5 and 6, and an injection containing no vaccine at month 7. Blood samples and information regarding health problems that may occur after vaccination will be collected.
Malaria is caused by a parasite carried by a mosquito. Currently, there is no vaccine licensed to prevent malaria. The purpose of this study is to find the most effective and safest dose of an experimental vaccine for the treatment of malaria. Participants will include 72 healthy adults, ages18 to 45, enrolled at Vanderbilt University Medical Center and Stanford University. Volunteers will receive 3 doses of either the malaria vaccine or placebo (contains no vaccine) by injection into a muscle at 0, 1 and 6 months. Investigators will evaluate how the body responds to increasing dosage strengths of the vaccine. Study procedures include physical exam, multiple blood draws, and completion of a memory aid (diary). Each participant will be actively involved in the study for about 12 months. Then, an annual phone call will be made to check for any serious illness events for a period of 5 years.
Malaria is an illness caused by a parasite (an animal or plant that lives in or on a host) that enters the human body through the bite of an infected mosquito. The purpose of this study is to find out about the safety of an experimental malaria vaccine and whether the vaccine causes humans to produce antibodies (proteins made by the body's immune system to help control or prevent infection). Four strengths of the vaccine will be tested. The lowest strength of the vaccine will be tested before the next higher strength is tested. Each dosage (shot) of vaccine will be given to 18 people in 4 dosage groups on Day 0, at 1 month and at 6 months. Two people in each dosage group will receive injections of a placebo (contains no medication). Participants will include 80 healthy adults between 18 and 40 years of age. Multiple blood draws will occur over the duration of the study. Participants will be involved in study related procedures for approximately 13 months.
The purpose of this study is to test an experimental malaria vaccine in about 75 healthy adults, 18-45 years of age. The study will also test an experimental adjuvant which is a material added to a vaccine to help the body make more defense cells. The body's immune response (response to foreign substances) and the safety of the vaccine will be tested. All subjects will receive 3 doses of vaccine on days 0, 28, and 56 and doses may increase during the study. Participation in the study is expected to be up to 323 days and includes 16 visits. Study procedures include medical history, physical exams, urine and blood testing.
Phase I/II Trial of a Malaria Vaccine, FMP011/AS01B, in Adults Living in the United States of America.
This study, conducted at Johns Hopkins University Center for Immunization Research in Washington DC, will test the safety and immune response of healthy volunteers to two experimental malaria vaccines. Malaria is a disease of red blood cells caused by a parasite that spreads from person to person by mosquitoes. It affects people of all ages, but is particularly severe in children. Patients may have a high fever, chills and muscle aches. They sometimes can have severe complications that may even result in death. The vaccines in this study are called "transmission blocking" vaccines. These vaccines stimulate the person's immune system to produce antibodies against malaria. When a mosquito bites a vaccinated person, it ingests some of the person's blood. The antibodies in the ingested blood stop the malaria parasite from developing inside the mosquito. The mosquito would not be able to transmit malaria to other people. PpPfs25/ISA51 (Vaccine A) stimulates production of antibodies against the malaria parasite Plasmodium falciparum, and ScPvs25/ISA51 (Vaccine B) stimulates antibodies against the malaria parasite Plasmodium vivax. The vaccines also contain a substance called Montanide ISA51, which boosts the immune response to the vaccine. Healthy volunteers between 18 and 50 years of age may be eligible for this study. Candidates are screened with a medical history, physical examination, and blood and urine tests. Women who are able to become pregnant have a urine pregnancy test before each immunization. Participants are randomly assigned to receive two injections, spaced 4 months apart, of either Vaccine A or Vaccine B at one of three doses-high, medium, or low. Two subjects in each dose group additionally serve as "controls" and receive only Montanide ISA51 mixed with saline. The vaccine is injected into the muscle of the upper arm. Subjects are monitored for 30 minutes after each injection for possible side effects and take home a diary card to record their temperature and any symptoms that may appear over the next 13 days. A blood sample is drawn before and on several occasions after each vaccination to check the subject's health and to evaluate the immune response to the vaccine. At 1, 3, 7, 14, and 21 days after each vaccination, participants come to the clinic for a check of vital signs (temperature, pulse, respiration, and blood pressure), brief physical examination, and history of symptoms since the previous visit.
Clinical pneumonia is a leading cause of pediatric hospitalization. The etiology is generally bacterial or viral. Prompt and optimal treatment of pneumonia is critical to reduce mortality. However, adequate pneumonia management is hampered by: a) the lack of a diagnostic tool that can be used at point-of-care (POC) and promptly and accurately allow the diagnosis of bacterial disease and b) lack of a prognostic POC test to help triage children in need of intensive assistance. Antibiotic therapy is frequently overprescribed as a result of suspected bacterial infections resulting in development of antibiotic resistance. Conversely, in malaria-endemic areas, antibiotics may also be "underprescribed" and children with bacterial pneumonia sent home without antibiotic therapy, when the clinical pneumonia is mistakenly attributed to a co-existing malaria infection. The investigators previously identified combinations of protein with 96% sensitivity and 86% specificity for detecting bacterial disease in Mozambican children with clinical pneumonia. The investigators' prior work showed that it is possible to identify biosignatures for diagnosis and prognosis using few proteins. Recently, other authors also identified different accurate biosignatures (e.g., IP-10, TRAIL and CRP). In this study, the investigators propose to validate and improve upon previous biosignatures by testing prior combinations and seeking novel combinations of markers in 900 pediatric inpatients aged 2 months to 5 years with clinical pneumonia in The Gambia. The investigators will also use alternative case criteria and seek diagnostic and prognostic combination of markers. This study will be conducted in Basse, rural Gambia, in two hospitals associated with the Medical Research Council Unity The Gambia (MRCG). Approximately 900 pediatric patients with clinical pneumonia aged 2 months to 5 years of age will be enrolled. Patients will undergo standard of care test and will have blood proteins measured through Luminex®-based immunoassays. Results of this study may ultimately support future development of an accurate point-of-care test for bacterial disease to guide clinicians in choices of treatment and to assist in the prioritization of intensive care in resource-limited settings.
Phase I/II Trial of a Malaria Vaccine, FMP011/AS01B, in Adults Living in the United States of America.
This randomized, double-blind, placebo-controlled, Phase 1 trial will enroll up to 22 malaria-naïve, adult participants to test safety, tolerability, immunogenicity, and efficacy of the genetically attenuated Plasmodium falciparum sporozoite vaccine (PfSPZ-LARC2) Vaccine. PfSPZ-LARC2 Vaccine is a late-arresting, replication-competent whole Plasmodium falciparum sporozoite product. We hypothesize that the PfSPZ-LARC2 Vaccine will be safe from breakthrough infection by virtue of deletion of two key parasite genes Mei2 and LINUP and may be more immunogenic and protective than previously tested early arresting sporozoite vaccines. The primary objective is to assess the tolerability and safety of administration of PfSPZ-LARC2 Vaccine, with special attention to the adequacy of attenuation.
This is a randomized, dose-escalation Phase I/IIa trial to evaluate safety, tolerability, immunogenicity and efficacy of an investigational RNA-based vaccine (BNT165e) for prevention of P. falciparum malaria in healthy malaria-naive adults. The multi-antigen malaria vaccine (designated BNT165e) is a combination of three distinct RNAs, BNT165c and BNT165d (composed of BNT165d1 and BNT165d2), encoding P. falciparum antigens encapsulated in lipid nanoparticles. The BNT165c RNA encodes the full Plasmodium falciparum circumsporozoite protein. The BNT165d1 and BNT165d2 RNAs both encode conserved, immunogenic segments of liver stage-expressed proteins.