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| Name | Class |
|---|---|
| Sitaram Bhartia Institute of Science and Research | OTHER |
| Paropakar Maternity and Women's Hospital | OTHER |
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Vitamin B12 plays a key role in the development and normal functioning of the brain and nervous system. Unborn and new-born infants derive their vitamin B12 stores almost entirely from maternal B12 stores. As such, infants who are born to vegetarian mothers and exclusively breast fed are at a high-risk of B12 deficiency. This is because the best sources of vitamin B12 are found in animal based or fortified foods (e.g. cheese, milk and eggs). Vitamin B12 deficiency is widely reported among antenatal mothers and children, particularly in Low and Middle Income Countries (LMICs) where these food sources are uncommon.
So far, studies have shown that antenatal vitamin B12 deficiency in mothers may be associated with poorer neurodevelopment in their children. Furthermore, vitamin B12 supplementation during pregnancy and early lactation has been shown to increase maternal, breast milk, and infant levels of vitamin B12. Although existing literature documents several studies on maternal vitamin B12 supplementation, there is a lack of research on the causative effect of maternal vitamin B12 supplementation on infant development. This project, funded by the Medical Research Council (MRC), will undertake a multi-centric nutritional trial in Nepal and India, as these are two LMICs where high incidence of vitamin B12 deficiency is reported.
The project is a multi-centric, double-blind and parallel two-armed randomised controlled trial divided into two stages:
Stage 1:
A total of 720 recruited mothers across India and Nepal will be randomly allocated to 2 equal groups (360 each). The patients, recruiters, developmental therapists, the laboratory and the data analyst will be blinded to the randomization code for the duration of the trial. To ensure blinding and allocation concealment, maternal supplements will be numbered sequentially outside the trial sites by a neutral party using the randomization code supplied by an offsite statistician. Group 1 (Intervention) will receive 250μg of vitamin B12 supplementation delivered daily to the mother from 12-weeks' gestation up to 6-months post-partum. Group 2 (Control) will receive 50μg of vitamin B12 supplementation delivered daily to the mother from 12-weeks' gestation up to 6- months post-partum. The mother's profile will be recorded, including information on: age, height, weight, ethnicity, education, socioeconomic status, maternal dietary assessment and intake of any supplements. Mother's blood levels for vitamin B12 status and other deficiencies will also be recorded.
Within 48 hours enrolment women will be contacted as a part of follow-up. Relevant elements of the clinical records including maternal weight, blood pressure, foetal growth and position and reports of any screening tests for congenital infections/ chromosomal anomalies will be recorded. Any acquired morbidity (including gestational diabetes, pregnancy induced hypertension, and hypothyroidism) during the period from the last visit will be noted. Any drugs or medicines started by the mother will be recorded. Both study sites will promote exclusive breastfeeding by preparing the mothers for breastfeeding in the antenatal period using structured counselling sessions led by an obstetrician or a specified health educator.
Stage 2:
The birth and post-delivery course of the new-born during hospital stay will be assessed by the medical officer and/or paediatrician for any morbidity potentially influencing neurodevelopment, such as growth retardation, congenital anomalies, seizures, neurological problems, hypoglycemia, hypothermia, hearing deficits, vision and heart disease.
After discharge, all neonates will be routinely followed with preventive and vaccination care as per standard protocols. As part of routine care, all new-borns will be screened for metabolic disorders at 7-14 days.
During routine visits, anthropometric measurements including weight, length and head circumference will be recorded and signs of micronutrient deficiency (especially anaemia and rickets) will be noted. The child care teams at both sites will encourage the initiation and establishment of exclusive breastfeeding while minimizing the use of formula feeds by providing support and counselling during hospital stay. Maternal and infant tolerance for the supplementation including any gastrointestinal symptoms will be recorded at each visit. Supplementation of the mother in both groups will be stopped at 6 months after childbirth. At 9 months, the neurodevelopmental, complementary feeding practices and home environment will be assessed and infant vitamin B12 status will be determined.
Data will be checked and encrypted after removing any "patient identifiable information". These data will be sent with the group coding sheet to a statistician blinded to intervention or control grouping. Data will be analysed using the neurodevelopmental scores at 9 months as the primary efficacy outcome variable. Biochemical prevalence of B12 deficiency in mothers during the first and third trimesters and infants after 9 months of birth will be analysed as the secondary outcome variables. Although no safety issues are expected, infant linear growth and incidence of adverse events will be the mainly safety outcomes. Data on maternal tolerance of B12 supplementation will also be collected. All primary analyses will be conducted on an intention to treat basis.
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| Label | Type | Description | Intervention Names |
|---|---|---|---|
| 250μg of vitamin B12 supplementation | Experimental | Group 1 (Intervention) will receive 250μg of vitamin B12 supplementation delivered daily to the mother from 12 weeks gestation up to 6 months post-partum. |
|
| 50μg of vitamin B12 supplementation | Active Comparator | Group 2 (Control) will receive 50μg of vitamin B12 supplementation delivered daily to the mother from 12 weeks gestation up to 6 months post-partum. |
|
| Name | Type | Description | Arm Group Labels | Other Names |
|---|---|---|---|---|
| B12 Supplement | Dietary Supplement | Differential doses of vitamin B 12 supplementation in a two-armed randomised controlled trial |
|
| Measure | Description | Time Frame |
|---|---|---|
| Infant neurodevelopment | The effect of higher dose oral maternal vitamin B12 supplementation on infant neurodevelopment as measured by Developmental Assessment Scales for Indian Infants (DASII) at age 9 months, as compared to low dose | 9 months in all infant subjects |
| Measure | Description | Time Frame |
|---|---|---|
| Maternal B12 status | The change in biochemical parameters of maternal B12 status between first (<12 weeks gestation) and third trimester (≥ 27 weeks gestation) as measured by vitamin B12, homocysteine and holotranscobalamin levels | First trimester (<12 weeks gestation) and third trimester (≥ 27 weeks) |
| Infant B12 status |
| Measure | Description | Time Frame |
|---|---|---|
| Socio-economic mediators of the relationship between maternal B12 status, supplementation and infant neurodevelopment | Income, education, profession | At study enrolment |
| Effect of maternal diet | The effect of the intervention on maternal vitamin B12 status, infant B12 status and infant neurodevelopment |
Inclusion Criteria:
Exclusion Criteria:
Only pregnant women are eligible.
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| Name | Role | Phone | Extension | |
|---|---|---|---|---|
| Monica Lakhanpaul | Contact | +442079052259 | 42322 | m.lakhanpaul@ucl.ac.uk |
| Name | Affiliation | Role |
|---|---|---|
| Monica Lakhanpaul | University College, London | Principal Investigator |
| Facility | Status | City | State | ZIP | Country | Contacts |
|---|---|---|---|---|---|---|
| Sitaram Bhartia Institute for Science and Research | Recruiting | New Delhi | 110016 | India |
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| ID | Term |
|---|---|
| D007859 | Learning Disabilities |
| D015362 | Child Nutrition Disorders |
| D014806 | Vitamin B 12 Deficiency |
| ID | Term |
|---|---|
| D003147 | Communication Disorders |
| D019954 | Neurobehavioral Manifestations |
| D009461 | Neurologic Manifestations |
| D009422 | Nervous System Diseases |
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A total of 720 recruited mothers across India and Nepal will be randomly allocated to 2 equal groups (360 each). Group 1 (Intervention) will receive 250μg of vitamin B12 supplementation delivered daily to the mother from 12 weeks gestation up to 6 months post-partum. Group 2 (Control) will receive 50μg of vitamin B12 supplementation delivered daily to the mother from 12 weeks gestation up to 6 months post-partum.
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double-blinded
The change in biochemical parameters of infant B12 status at 9 months (± 2 weeks) after birth as compared to low dose |
| 9 months (± 2 weeks) of age after birth |
| Hemoglobin levels and infant anthropometry | The change in hemoglobin levels in the mother | Between first and third trimester |
| Hemoglobin levels and infant anthropometry | The change in hemoglobin levels in the infant | At 9 months after birth |
| Hemoglobin levels and infant anthropometry | The change in infant anthropometry including weight, length, and head circumference (c) | At 1, 2, 3, 4, 6 and 9 months after birth |
| During the third trimester (27 weeks of gestation) |
| Effect of type of milk feeding on infant vitamin B12 status | Assessed by measuring blood levels of B12 | At 9 months (± 2 weeks) infant age |
| Effect of type of milk feeding on infant neurodevelopment | Assessed using the Developmental Assessment Scales for Indian Infants (DASII) | At 9 months (± 2 weeks) infant age |
| Effect of infant complementary feeding on infant vitamin B12 status | Assessed by measuring blood levels of B12 | At 9 months (± 2 weeks) infant age |
| Effect of infant complementary feeding on infant neurodevelopment | Assessed using the Developmental Assessment Scales for Indian Infants (DASII) | At 9 months (± 2 weeks) infant age |
| Effect of maternal iron | Determining any effect of maternal iron levels in first and third trimester on the relationship between infant vitamin B12 status and infant neurodevelopment | In first and third trimester and at 9 months (± 2 weeks) infant age |
| Effect of maternal vitamin D status | Determine any effect of maternal vitamin D status in first and third trimester on the relationship between infant vitamin B12 status and infant neurodevelopment | In first and third trimester and at 9 months (± 2 weeks) infant age |
| Paropakar Maternity and Women's Hospital | Recruiting | Kathmandu | 44600 | Nepal |
|
| D012816 | Signs and Symptoms |
| D013568 | Pathological Conditions, Signs and Symptoms |
| D065886 | Neurodevelopmental Disorders |
| D001523 | Mental Disorders |
| D009748 | Nutrition Disorders |
| D009750 | Nutritional and Metabolic Diseases |
| D014804 | Vitamin B Deficiency |
| D001361 | Avitaminosis |
| D003677 | Deficiency Diseases |
| D044342 | Malnutrition |