Management of Severe Acute Malnutrition in SCD, in Northern Nigeria

Overview

Except for children with HIV, all recommendations for treatment of childhood malnutrition are for children < 5 years of age. The overall goal of this randomized controlled nutrition feasibility trial is to identify whether families of children with sickle cell disease (SCD) 5 years and older agree to participate over a 12-week period. The investigators will also establish a safety protocol for monitoring potential complications associated with treating severe malnutrition in children 5 years and older with and without SCD, in a low-resource setting.

Full Title of Study: “Management of Severe Acute Malnutrition in Children With Sickle Cell Disease Greater Than 5 Years of Age Living in Northern Nigeria”

Study Type

  • Study Type: Interventional
  • Study Design
    • Allocation: Randomized
    • Intervention Model: Parallel Assignment
    • Primary Purpose: Treatment
    • Masking: Single (Investigator)
  • Study Primary Completion Date: October 5, 2022

Detailed Description

The overall goal of this feasibility trial is to determine the acceptability of a randomized controlled trial to ascertain the optimal strategy for the treatment of severe malnutrition in children with sickle cell disease (SCD) 5 years and older. No international standard or evidence-based guidelines exist for the treatment of severe malnutrition (defined as BMI Z-score below -3) in children with SCD. With an expanding pediatric population of more than 75 million in Nigeria, coupled with decreasing childhood infectious disease-related mortality, the next emerging threats to preventable childhood deaths are non-communicable diseases. Data from our NIH-funded randomized controlled primary stroke prevention trial in Nigeria (NCT02560935), in which the investigators evaluated children with SCD between 5 and 12 years of age, demonstrated that 29% (230/803) of the cohort met criteria for severe malnutrition. Approximately 92% of the cohort in northern Nigeria identified as having severe malnutrition was below the 5th percentile for weight of children with SCD living in the US, Canada, or Europe. These data indicate older children with SCD living in northern Nigeria are undernourished when compared to children living with SCD in high-resource settings. A potentially unique attribute to treating malnutrition in children with SCD is the use of FDA approved anti-metabolite, hydroxyurea, to prevent vaso-occlusive pain events in children. The beneficial effects of hydroxyurea include, but are not limited to, decreased inflammation and increased hemoglobin levels. Preliminary evidence in this cohort of older children with sickle cell anemia (SCA) in northern Nigeria reveals that moderate fixed-dose hydroxyurea (20 mg/kg/day) significantly increases BMI in children with severe malnutrition. The investigators propose a randomized controlled feasibility trial in older children (5 to 12 years of age) with SCA living in northern Nigeria. In preparation for a definitive phase III trial to determine if ready-to-use therapeutic food and moderate fixed-dose hydroxyurea therapy is superior to ready-to-use therapeutic food alone, the investigators will randomly allocate up to 150 children between 5 and 12 years of age with SCA and severe uncomplicated malnutrition to each of the two arms. In aim 1, the investigators will assess the feasibility (rate of recruitment, retention, and adherence) of a randomized controlled trial (RCT) in children with SCD and severe malnutrition to a 12-week intervention period. For aim 2, the investigators will establish the safety protocol to monitor for unknown rates of complications associated with treating malnutrition in children with SCD. To decrease the likelihood of sharing limited food resources in a poor family and to determine the specificity of malnutrition for children with SCD in northern Nigeria, the investigators will screen and treat up to 100 malnourished non-SCD siblings of the trial participants. After completion of this feasibility trial, the investigators will use the acquired knowledge to design a phase III trial to definitively determine the optimal treatment strategy for severe malnutrition in older children with SCD living in Africa, potentially affecting thousands of children in this region.

Interventions

  • Drug: hydroxyurea (20mg/kg/day)
    • Treatment of severe malnutrition in children with SCA in northern Nigeria
  • Dietary Supplement: Ready-to-use therapeutic food
    • Treatment of severe malnutrition in children with and without SCA in northern Nigeria with an additional 500-1000 calories from ready-to-use-therapeutic food

Arms, Groups and Cohorts

  • Experimental: SCD – Ready-to-use therapeutic food and Hydroxyurea
    • 50-75 children (5-12 years old) with SCA and severe malnutrition will be randomly allocated to receive ready-to-use therapeutic food and hydroxyurea (20mg/kg/day)
  • Placebo Comparator: SCD – Ready-to-use therapeutic food alone
    • 50-75 children (5-12 years old) with SCA and severe malnutrition will be randomly allocated to receive ready-to-use therapeutic food alone
  • Placebo Comparator: Non-SCD siblings with severe malnutrition
    • To decrease the likelihood of sharing limited food resources, we will enroll up to 100 malnourished non-SCD siblings.

Clinical Trial Outcome Measures

Primary Measures

  • Enrollment Rate at the End of the 6-month Recruitment Period
    • Time Frame: 6 months
    • Recruitment Feasibility: The primary outcome is the proportion of eligible individuals that agree to be included, referred to as the recruitment rate. Children with severe malnutrition who qualified and agreed to participate were invited to sign a consent and assent for study recruitment to this study.
  • Retention Over 12-week Period
    • Time Frame: 12 weeks
    • The primary outcome is the proportion of participants who completed the 12-week trial, known as the retention rate for the trial.
  • Percentage of Ready-to-use Therapeutic Food Sachets Returned as Empty.
    • Time Frame: 12 weeks
    • Adherence to the ready-to-use therapeutic food was evaluated based on the percentage of empty food sachets returned at each visit.
  • Number of Missed Visits
    • Time Frame: 12 weeks
    • Adherence to monthly visits was assessed based on the number of missed visits
  • Percentage of Hydroxyurea Pills Returned
    • Time Frame: 12 weeks
    • Adherence to hydroxyurea was evaluated based on the percentage of hydroxyurea pills returned for the group randomized to both ready-to-use therapeutic food and hydroxyurea.
  • Change in Mean Corpuscular Volume
    • Time Frame: 12 weeks
    • Adherence to hydroxyurea was evaluated based on change in mean corpuscular volume
  • Change in Fetal Hemoglobin Level Percentage
    • Time Frame: Baseline to 12 weeks
    • The primary outcome is the proportion of eligible individuals who adhere to therapy (Ready-to-use therapeutic food and hydroxyurea). The adherence rate for hydroxyurea was determined based on the change in fetal hemoglobin level percentage.
  • Mean Corpuscular Volume Values at Exit
    • Time Frame: Feasibility over 12-week Period [Time Frame: 3 months]
    • The primary outcome is the proportion of eligible individuals who adhere to therapy (Ready-to-use therapeutic food and hydroxyurea). The adherence rate for hydroxyurea was determined based on mean corpuscular volume (MCV) values at exit (12 weeks).
  • Fetal Hemoglobin Levels at Exit
    • Time Frame: Feasibility over 12-week Period [Time Frame: 3 months]
    • The primary outcome is the proportion of eligible individuals who adhere to therapy (Ready-to-use therapeutic food and hydroxyurea). The adherence rate for hydroxyurea was determined based on the fetal hemoglobin levels at exit (12 weeks).
  • Total Hemoglobin Levels at Exit
    • Time Frame: Feasibility over 12-week Period [Time Frame: 3 months]
    • The primary outcome is the proportion of eligible individuals who adhere to therapy (Ready-to-use therapeutic food and hydroxyurea). The adherence rate for hydroxyurea was determined based on the total hemoglobin levels at exit (12 weeks).

Secondary Measures

  • Percentage of Participants Maintaining a BMI Z-score Less Than -3.0
    • Time Frame: 12 weeks
    • As a secondary outcome, we assessed the percentage of participants with and without SCA who continued to have a body mass index z-score of <-3.0 at the end of the 12 weeks of treatment. Using the World Health Organization (WHO) growth reference, anthropometric measurements were converted to age and sex-specific z-scores. Anthropometric Indices (BMI-for-age (BMIZ), were calculated using WHO 2007 R Macro Package to assess growth and development of the children. Severe malnutrition/wasting (SAM) was defined as a body mass index (BMI) z-score <-3.0.

Participating in This Clinical Trial

Inclusion Criteria

  • confirmed diagnoses of SCA, comparison children without SCD – severe malnutrition defined as a BMI z-score < -3 – age between 5 and 12 years (assessment can take place up until the 13th birthday) – pass the appetite test – uncomplicated malnutrition (good appetite, alert, no signs of infection of respiratory distress) Exclusion Criteria:

  • children with complicated severe acute malnutrition – children with electrolyte disturbances (serum Na, K, PO4) at baseline – children on disease-modifying therapy (hydroxyurea or regular blood transfusion therapy) – children enrolled in other studies – children with diabetes and other chronic illnesses – children with known HIV infection – children with a known allergy to dairy or peanuts.

Gender Eligibility: All

Minimum Age: 5 Years

Maximum Age: 12 Years

Are Healthy Volunteers Accepted: Accepts Healthy Volunteers

Investigator Details

  • Lead Sponsor
    • Vanderbilt University Medical Center
  • Collaborator
    • Aminu Kano Teaching Hospital
  • Provider of Information About this Clinical Study
    • Principal Investigator: Michael DeBaun, Vice Chair for Clinical Research, JC Peterson Endowed Chair, Professor of Pediatrics and Medicine, Director, Vanderbilt-Meharry-Matthew Walker Center of Excellence in Sickle Cell Disease – Vanderbilt University Medical Center
  • Overall Official(s)
    • Michael DeBaun, Principal Investigator, Vanderbilt University Medical Center

Clinical trials entries are delivered from the US National Institutes of Health and are not reviewed separately by this site. Please see the identifier information above for retrieving further details from the government database.

At TrialBulletin.com, we keep tabs on over 200,000 clinical trials in the US and abroad, using medical data supplied directly by the US National Institutes of Health. Please see the About and Contact page for details.