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| Name | Class |
|---|---|
| Bill and Melinda Gates Foundation | OTHER |
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This trial will determine if a well-established probiotic, Vivomixx, can modulate maternal microbiota and ameliorate maternal environmental enteropathy which compromises growth in the first 1000 days. The probiotic Vivomixx has been used in many thousands of people including pregnant women, both within and outside a research context. This trial is the first in a proposed series of proof-of-concept intervention studies which are intended to provide data to enable a rational selection of interventions to be evaluated at scale in future large scale trials in which birth outcomes and postnatal growth will be key endpoints.
Stunting in young children refers to attenuated linear growth. In the year 2020, 149.2 million children under the age of 5 years of age were stunted, accounting for 22% of stunting globally. Stunting has short- and long-term consequences of increased morbidity and mortality, impairment of neurocognitive development, impaired responses to oral vaccines, and increased risk of noncommunicable diseases. Stunting is partly driven by Environmental Enteric Dysfunction (EED), an enteropathic condition characterised by altered gut permeability, infiltration of immune cells and changes in villous architecture and cell differentiation. EED may help explain why nutritional supplementation either during pregnancy or early childhood has minimal value in correcting childhood stunting. Indeed, EED is believed to be responsible for 40% of childhood stunting.
Disruption in intestinal barrier function affects gut immune homeostasis, nutrient flows, and consequently dysbiosis in the gut microbiome. The gut microbiota consists of 100 trillion bacteria which interact with epithelial cells, the mucus layer and the mucosal immune system that balances tolerance and effector functions. Thus, the gut microbiome has an important role in shaping the responsiveness of the gut immune system. The mucus barrier and the normal gut microbiota limit enteropathogen colonisation. Influx of bacteria from the lumen to the systemic circulation represents microbial translocation and initiation of systemic of inflammatory process through recognition of pathogenassociated molecular patterns (PAMPs) by Pattern Recognition Receptors (PRRs) present on Antigen Presenting Cells (APCs). Three fundamental processes drive the epithelial damage which is so important in EED: infection, undernutrition, and immune dysfunction. Multiple clinical trials show that efforts to correct malnutrition through conventional therapies and improving hygiene and sanitation do not overcome growth deficits by more than about 10%. There is increasing interest in the use of probiotics which may allow pathogen decolonization, improve barrier function and restore overall gut homeostasis. Such therapies are at early stage of trials but may have potential in addressing the global burden of EED, by improving barrier function and gut pathophysiology.
Colonization of gut by enteropathogens is common in children with EED. These include ETEC, Campylobacter, Shigella and Salmonella species. Consistent data from Bangladesh and Zambia show that children with refractory stunting carry over four pathogens on average, whilst controls carry less than two. There is also clear evidence of altered composition of the microbiota in children with EED.
Probiotics may serve to overcome the problem of EED through all mechanisms of pathogenicity, by providing additional bacteria that may help in intestinal decolonization of pathogenic microorganisms (changing the microbiological niche), promoting epithelial healing, improving nutrient absorption, and restoration of an appropriate immune balance between tolerance and responsiveness.
To date the focus of research on childhood stunting has been on the young child. It is increasingly appreciated, however, that stunting often begins in utero and the focus has shifted to women's health and pregnancy. For example, the Lancet 2021 Series on maternal and child undernutrition states that "Investments to reduce undernutrition in women are important not only for women's own health but also for the health and nutrition of their children". Results from rural Bangladesh reveal poor gestational weight gain that ultimately leads to intrauterine growth restriction, low birth weight and ultimately stunting and wasting. Furthermore, another study recently completed in slum settlements of Dhaka, Bangladesh demonstrated a high prevalence of EED among undernourished women. Intestinal histopathology was abnormal in more than 80% of women. We postulate that growth retardation in utero is a consequence of EED in the mother during pregnancy and lactation. This leads to systemic inflammation, which leads to disadvantageous partitioning of nutrients, and reduced nutrient availability.
This trial will explore the conceptual framework that a well-known probiotic, that can improve the composition of the gut microbiota, can also reduce biomarkers of intestinal inflammation and gut health. This will restore healthy microbial signalling to the host epithelium, ameliorate barrier function through secretion of mucus and antimicrobial factors, and improve nutrient availability.
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| Label | Type | Description | Intervention Names |
|---|---|---|---|
| Intervention arm | Experimental | Vivomixx also known as VSL#3, Powder (in sachets), weight 4.4g, 450 X 10^9 cfu of probiotic bacteria per sachet, dose 1 sachet daily for 56 days |
|
| Placebo arm | Placebo Comparator | Microcrystalline maltose, Powder (in sachets), weight 4.4g, dose 1 sachet daily for 56 days |
|
| Name | Type | Description | Arm Group Labels | Other Names |
|---|---|---|---|---|
| Vivomixx | Dietary Supplement | Vivomixx is a commercially available probiotic mixture consisting of eight probiotic lactic acid bacteria and Bifidobacteria including Lactobacillus acidophilus, Lactobacillus plantarum, Lactobacillus casei, Lactobacillus delbrueckii subspecies bulgaricus, Streptococcus salivarius subspecies thermophiles, Bifidobacterium breve, Bifidobacterium longum, and Bifidobacterium infantis. |
| Measure | Description | Time Frame |
|---|---|---|
| Percentage change (mean, unweighted) in a multiple panel of biomarkers between baseline and last sample collected after 56 days of treatment, compared to control group | Plasma CRP, AGP, sCD14, LBP, CD163, iFABP, and fecal myeloperoxidase, neopterin, calprotectin and lipocalin by ELISA | 56 days |
| Measure | Description | Time Frame |
|---|---|---|
| Reduction in colonisation | Specific enteropathogens (Salmonella, Shigella, Campylobacter, ETEC, EPEC, EAEC, rotavirus, norovirus, Giardia and Cryptosporidium) by TaqMan Array cards, between baseline and last sample collected after 56 days of treatment, in Vivomixx compared to placebo groups | 56 days |
| Change in microbiome |
| Measure | Description | Time Frame |
|---|---|---|
| Recovery of useful data from CapScan | Completion of whole gut microbiome profiles | 56 days |
| Diversity, centroids and distributions of microbial taxa from sequenced CapScan samples | microbial taxa of stool Analyzing samples from the same study population |
Inclusion Criteria:
Exclusion Criteria:
Potential participants will not be enrolled if they:
but may be enrolled if/when these disqualifiers have expired
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| Name | Role | Phone | Extension | |
|---|---|---|---|---|
| S. M. Tafsir Hasan, MBBS, MS | Contact | (+88 02) 9827001-10 | 2216 | tafsir.hasan@icddrb.org |
| Tahmeed Ahmed, MBBS, PhD | Contact | (+88 02) 9827001-10 | 2300 | tahmeed@icddrb.org |
| Name | Affiliation | Role |
|---|---|---|
| S. M. Tafsir Hasan, MBBS, MS | Nutrition Research Division, icddr,b | Principal Investigator |
| Facility | Status | City | State | ZIP | Country | Contacts |
|---|---|---|---|---|---|---|
| International Centre for Diarrhoeal Disease Research, Bangladesh (icddr,b) | Recruiting | Chāndpur | Bangladesh |
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Multi-site phase II randomised controlled trial (Proof of concept study)
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Vivomixx and Placebo (Crystalline maltose)
|
| Microcrystalline maltose | Dietary Supplement | Microcrystalline maltose as placebo |
|
Measured by whole-genome shotgun metagenomic sequencing, post versus pre intervention, in the intervention and placebo groups |
| 56 days |
| Change in untargeted metabolome | Measured by LC-MS/MS in fecal and CapScan samples | 56 days |
| Reduction in intestinal permeability | Measured by lactulose-rhamnose (LR) ratio in Vivomixx compared to placebo group | 56 days |
| Change in weight gain velocity in the 2nd trimester of pregnancy | Rate of weight gain (kg/week) | 14 weeks |
| 56 days |
| Fetal growth | Using serial pregnancy ultrasound | 6 months |
| Stillbirth | Death or loss of a baby before or during delivery | At birth |
| Neonatal death | Death of a child within 28 days after birth | From birith to 28 days after birth |
| Preterm birth | Babies born alive before 37 weeks of pregnancy are completed | At birth |
| Apgar score | A measure of the physical condition of a newborn infant (0-10) | At birth |
| Birth weight | Infant weight at birth in grams | At birth/7 days within birth |
| Birth length | Infant length at birth in cm | At birth/7 days within birth |
| Birth head circumference | Infant head circumference at birth in cm | At birth/7 days within birth |
| Low birth weight | birth weight less than 2500 g | At birth/7 days within birth |
| Small for gestational age | Birth weight of less than 10th percentile for gestational age | At birth/7 days within birth |
| Women's mental health | By follow ups | 2 years |
| Women's postpartum weight loss/retention | Follow ups | 1 year |
| Infant weight | Infant weight in grams | 1 year |
| Infant length | Infant length in cm | 1 year |
| Infant morbidity | Number of episodes of any morbidity | 1 year |