The overall goals of this proposal are to conduct a trial to address the significant gaps with respect to our understanding of best approaches to treatment of children ages 1-4 with intestinal schistosomiasis. Over 200 million individuals worldwide are infected with one of three predominant species of schistosomes, with over half of infections occurring in children. Recent studies have highlighted the fact that many children experience first infections before the age of two, with the prevalence of infection among children under four mirroring the prevalence of older children from the same community. Importantly, praziquantel (PZQ), the drug used worldwide for the treatment of schistosomiasis, is only FDA approved among adults and children over the age of four. Only one small study led by co-PI Bustinduy has evaluated the pharmacokinetic/pharmacodynamics (PK/PD) of PZQ in children. That study, conducted among children ages 3-8, strongly suggests that the current dose of 40 mg/kg is insufficient, with lower cure rates than found at 60 mg/kg. In endemic settings, PZQ is most often administered as part of school based, or community wide preventive chemotherapy campaigns. Currently, none of the 28 schistosomiasis endemic African nations or The Philippines includes children under the age of four in control programs. The reasons for this are multifactorial and include a) lack of sufficient PK/PD data in this age group, with none in children under three, b) lack of safety data at a dose of 80 mg/kg, c) lack of data addressing the impact of treatment on key growth and nutritional outcomes in this vulnerable age group hampering prioritization of treatment, d) no PK/PD studies conducted in the context of pediatric S. japonicum and e) FDA labeling that does not include young children. The goals of this proposal are to conduct a randomized, controlled Phase II trial to be conducted in an S. mansoni endemic region of Uganda and an S. japonicum endemic region of The Philippines with N=600 children ages 1-4, that will address many of the current gaps that are hindering treatment of young children. Specifically in SA1 we will 1) assess PK/PD of PZQ dosing among children under the age of 4 at doses of 40 versus 80 mg/kg, 2) expand PD endpoints to include state of the art antigen tests and morbidity outcomes, 3) assess the PK/PD of both PZQ enantiomers, and 4) address the innovative hypothesis that environmental enteropathy (EE) contributes to the significant inter-individual variability observed in PZQ PK/PD. In SA2, we will 1) assess the safety of PZQ administered at 80 mg/kg in two large cohorts of very young children, 2) assess the impact of two different treatment intervals (6 vs 12 months) on nutritional status, growth, and anemia risk, and 3) address innovative hypotheses regarding mechanisms through which schistosomiasis contributes to morbidity in this age group including EE and gut microbial translocation with consequent systemic immune activation.
Over 200 million individuals worldwide are infected with one of three predominant species of schistosomes, with over half of infections occurring in children.1 Recent studies have highlighted the fact that many children experience their first infections before the age of two, with the prevalence of infection among children under four mirroring the prevalence of older children and adults from the same community.2 Importantly, schistosomiasis has been implicated as a cause of linear growth stunting, undernutrition, anemia, and deficits in neurodevelopment among children over the age of four, representing a significant proportion of the global burden of disease due to schistosomiasis.3 Little is known with respect to the impact of schistosomiasis on key morbidities among the highly vulnerable group of children under four. In the 1980s, Praziquantel (PZQ) was approved for the treatment of schistosomiasis among adults and children ages four and older, and remains FDA approved only for this age group. In 2008, the WHO funded studies to address the safety and parasitologic efficacy of PZQ in the context of S. haematobium and S. mansoni in young children. Based on these and other studies, the WHO in 2011 issued a report recommending that pre-school age children be treated as part of "regular health services."4 This recommendation was based on studies that did not a) evaluate pharmaco-kinetics/dynamics (PK-PD) in this age group, b) evaluate parasitologic efficacy in S. japonicum or c) evaluate the impact of treatment on key schistosomiasis-related morbidities. Since that time, co-PI Bustinduy led the first study of the PK-PD of PZQ at both 40 and 60 mg/kg dosing among children ages 3-8. Results from that study, albeit small, showed that higher doses are likely needed, particularly for younger children. Authors urged further study of higher doses in this age group, the causes of the significant inter-subject variability in PK-PD, better PD indices linking drug exposure to treatment effects, and enantiomer activity across all three species before introduction of monoenantiomeric formulations.5 Thus, significant lacunae remain with respect to treatment of pre-school age children, which contribute to the persistent exclusion of this vulnerable age group from preventive chemotherapy campaigns, with none of the 28 schistosomiasis endemic African nations or The Philippines currently including children under the age of four in control programs.2 In this application, we propose a trial to investigate the off label use of PZQ in children under the age of four. The trial will be conducted at two sites, with high prevalence of intestinal schistosomiasis due to S. mansoni (Uganda) and S. japonicum (The Philippines) employing a two arm single blind, placebo controlled modified cross-over trial design among N=600 children ages 1-4. Children who are infected with schistosomiasis will be randomized at baseline to receive 40 or 80 mg/kg of PZQ. At six months, we will re-randomize half of each baseline group to receive a treatment at the same dose or placebo. This will allow us to evaluate the impact of 6 versus 12 month treatment intervals on key measures of morbidity which, importantly, will inform frequency of treatment needed in this young age group. Successful execution of the following specific aims for this trial will address the significant aforementioned gaps: SA1 To assess the PK/PD of PZQ administered at different dose regimens. SA1a To measure drug efficacy as per standard parasitological endpoints (Cure Rate and Egg Reduction Rate) at 4 +/- 1 weeks post-PZQ. SA1b To expand PD endpoints for drug efficacy to include state-of-the art antigen tests to accurately capture residual worm burden (Circulating Cathodic and Anodic Antigens (CCA and CAA)). SA1c To evaluate the PK/PD of both PZQ enantiomers given the concern that this varies across species and has varied in studies of S. mansoni. SA1d To assess the role of environmental enteropathy in inter-individual variability in PZQ area under the curve (AUC) demonstrated in this age group. SA2 To assess the safety and impact of PZQ treatment (dose and interval) on key measures of morbidity 6 and 12 months after initial treatment and mechanisms mediating morbidity. SA2a To further evaluate the safety of higher PZQ dosing (60 mg/kg), particularly among the unstudied group of very young children ages 1-2. SA2b To evaluate the impact of different doses (40 vs. 80 mg/kg) and varying dosing intervals (every 6 or 12 months) on iron status, hemoglobin, and age and gender adjusted longitudinal growth and nutritional status as captured by height and weight for age, and weight for height z-scores as determined by WHO Anthro. SA2c To evaluate the mechanistic role of environmental enteropathy (EE) in the pathogenesis of schistosomiasis related morbidities. We will capture state of the art biomarkers of EE including fecal calprotectin, urine lactulose:mannitol ratio, serum endotoxin, serum endotoxin core antibody, and pro-inflammatory cytokines and employ Path Modeling techniques to identify mechanistic pathways.
Study Type
INTERVENTIONAL
Allocation
RANDOMIZED
Purpose
TREATMENT
Masking
TRIPLE
Enrollment
600
Praziquantel given as crushed tablets (40 or 80 mg/kg)
Medical Research Council
Entebbe, Uganda
RECRUITINGLondon School of Tropical Hygiene and Medicine
London, United Kingdom
NOT_YET_RECRUITINGTreatment efficacy
Treatment efficacy as captured by egg reduction rate
Time frame: Four weeks post treatment
Treatment efficacy
Treatment efficacy as captured by cure rate
Time frame: Four weeks post treatment
Iron status
Assess impact of varying doses and frequency of dosing on iron status
Time frame: Six and 12 months following treatment
Hemoglobin
Assess impact of varying doses and frequency of dosing on hemoglobin
Time frame: Six and 12 months following treatment
Age and gender adjusted linear growth
Assess impact of varying doses and frequency of dosing on linear growth
Time frame: Six and 12 months following treatment
Age and gender adjusted nutritional status
Assess impact of varying doses and frequency of dosing on nutritional status
Time frame: Six and 12 months following treatment
Biomarker of inflammation-CRP
CRP
Time frame: Six and 12 months following treatment
Biomarker of inflammation-IL-6
serum IL-6
Time frame: Six and 12 months following treatment
Biomarker of inflammation-TNF-alpha
serum TNF-alpha
Time frame: Six and 12 months following treatment
Fecal Calprotectin
A measure of gut inflammation
Time frame: Six and 12 months following treatment
Urine Lactulose-Mannitol Ratio
A measure of environmental enteropathy
Time frame: 12 months following treatment
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