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Impact of Iron Supplementation Treatment on Brain Iron Concentrations

Recruiting
Conditions
Periodic Limb Movement Sleep Disorder
ADHD
Iron-deficiency
Restless Legs Syndrome
Interventions
Dietary Supplement: ferrous sulfate
Registration Number
NCT04144790
Lead Sponsor
Hugo W. Moser Research Institute at Kennedy Krieger, Inc.
Brief Summary

The goal of the present study is to provide novel data to evaluate brain iron concentration as a mediator of the association between iron supplementation treatment and improvement in symptoms of ADHD and RLS in children, including PLMS. Twelve participants between the ages of 10 and 15 years will be recruited via Kennedy Krieger Institute's Sleep Disorders Clinic. Eligible participants will be asked to complete, at baseline (pre-iron supplementation treatment) and again at follow-up (post-treatment): 1) a 7 Tesla MRI scan, 2) five consecutive nights of RestEaZe™ monitoring, 3) caregiver-reported (or patient-reported if over the age of 10 years) International Restless Leg Syndrome Scale (IRLSS), and 4) caregiver-reported ADHD Rating Scale-5. The treatment interval will be 3 months.

Detailed Description

The goal of the present study is to provide novel data to evaluate brain iron concentration as a mediator of the association between iron supplementation treatment and improvement in symptoms of ADHD and RLS in children, including PLMS. Aim 1 is to evaluate the impact of iron supplementation treatment on peripheral iron concentrations and brain iron concentrations. The investigators hypothesize that iron supplementation treatment will result in increased peripheral and brain iron concentrations. Aim 2 is to evaluate the impact of iron supplementation treatment on symptoms of ADHD and restlessness during sleep. The investigators hypothesize that iron supplementation treatment will result in decreased symptoms of ADHD and restlessness during sleep. Aim 3 is to investigate the relation between brain iron concentrations and symptoms of ADHD and restlessness during sleep, including PLMS. The investigators hypothesize that brain iron concentrations in the substantia nigra and in the thalamus will be negatively related to symptoms at baseline. Aim 4 is to evaluate whether brain iron concentrations mediate the association between iron supplementation treatment and symptoms of ADHD and restlessness during sleep. The investigators hypothesize that increases in brain iron concentrations in the substantia nigra and in the thalamus will fully explain any improvements in symptoms that occur with iron supplementation treatment.

Twelve participants between the ages of 10 and 15 years will be recruited via Kennedy Krieger Institute's Sleep Disorders Clinic. Recruitment will be accomplished by posting flyers with study information at the clinic and by asking Sleep Disorders Clinic clinicians to discuss the study with their patients who may be eligible and their caregivers. In order to be included in the study, participants will need to have: 1) a clinical diagnosis of ADHD, 2) parent or patient self report of restless sleep, 3) serum iron values with ferritin \< 50 mcg/L . Exclusionary criteria will be: 1) family is not proficient in English language, 2) child is in foster care, 3) child has a chronic medical condition or genetic/metabolic disorder that might impact iron metabolism, 4) child has another sleep disorder or neuropsychiatric condition that might influence sleep, RLS, or ADHD symptoms, and 6) child has been receiving iron supplementation or a medication that could disrupt sleep.

An uncontrolled open label trial design is proposed for this pilot study, in order to establish evidence to support a larger blinded, placebo-controlled trial application. Eligible participants will be asked to complete, at baseline (pre-iron supplementation treatment) and again at follow-up (post-treatment): 1) a 7 Tesla MRI scan, 2) five consecutive nights of RestEaZe™ monitoring, 3) caregiver-reported or patient-reported if over the age of 10 years International Restless Leg Syndrome Scale (IRLSS), and 4) caregiver-reported ADHD Rating Scale-5. The treatment interval will be 3 months, which has been sufficient in previous studies to allow for treatment effects to be observed. Investigators anticipate 20 to 30% attrition over the course of the 3 months of treatment, leaving 8-10 participants to scan at follow-up.

Recruitment & Eligibility

Status
RECRUITING
Sex
All
Target Recruitment
12
Inclusion Criteria
  • a clinical diagnosis of RLS
  • a clinical diagnosis of ADHD
  • PLMS > 3/hour, based on average of 5 nights of home recording with RestEaze leg meters
  • fasting serum iron values with ferritin < 50 mcg/kg and transferrin saturation < 45%
Exclusion Criteria
  • family is not proficient in English language
  • child is in foster care
  • child has a chronic medical condition or genetic/metabolic disorder that might impact iron metabolism
  • child has another sleep disorder or neuropsychiatric condition that might influence sleep, RLS, or ADHD symptoms
  • child has been receiving iron supplementation, psychostimulant treatment, or a dopamine agonist within the past 6 months.

Study & Design

Study Type
OBSERVATIONAL
Study Design
Not specified
Arm && Interventions
GroupInterventionDescription
ADHD+RLSferrous sulfateTwelve participants between the ages of 5 and 18 years with a clinical diagnosis of either RLS or ADHD, and iron deficiency.
Primary Outcome Measures
NameTimeMethod
Change in ADHD symptomsChange from pre- to post- 3 months of iron supplementation treatment

Change in ADHD symptoms measured by parent-reported ADHD-RS-V

Change in RLS symptomsChange from pre- to post- 3 months of iron supplementation treatment

Change in RLS symptoms measured by and RestEaZe™ monitors

Secondary Outcome Measures
NameTimeMethod
Change in blood-based iron concentrationsChange from pre- to post- 3 months of iron supplementation treatment

Change in blood-based iron concentrations indexed by ferritin and transferrin

Change in brain-based iron concentrationsChange from pre- to post- 3 months of iron supplementation treatment

Change in brain-based iron concentrations indexed by 7 Tesla MRI scans

Trial Locations

Locations (1)

Kennedy Krieger Institute

🇺🇸

Baltimore, Maryland, United States

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