|Year : 2015 | Volume
| Issue : 1 | Page : 83
Magnesium, iron, and zinc supplementation for the treatment of attention deficit hyperactivity disorder: A systematic review on the recent literature
Mitra Hariri, Leila Azadbakht
Food Security Research Center; Department of Community Nutrition, School of Nutrition and Food Science, Isfahan University of Medical Sciences, Isfahan, Iran
|Date of Submission||15-Apr-2014|
|Date of Acceptance||30-Apr-2015|
|Date of Web Publication||02-Sep-2015|
Department of Community Nutrition, School of Nutrition and Food Science, Isfahan University of Medical Sciences, PO Box 81745, Isfahan
Source of Support: None, Conflict of Interest: None
Background: The etiology of attention deficit hyperactivity disorder (ADHD) is not exactly known and its etiology is multifactorial. The usual treatment for these children is based on pharmacotherapy treatment, although the pharmacotherapy has a high effectiveness in ADHD treatment, it often causes different side effects. Existing evidence suggests that children who receive mineral supplement without considering their age and supplement formula may perform better on different behavioral tests compared with those receiving placebo.
Methods: In this study, we tried to review the previous evidence regarding the effects of minerals in prevention and management of ADHD. We searched PubMed/Medline, Google Scholar, Ovid, Scopus, and ISI web of science up to June 2013. "iron," "iron supplementation," "magnesium," "magnesium supplementation," "zinc," "zinc supplementation," "attention deficit hyperactivity disorder" were used as the keywords. Totally 11 randomized controlled trials were eligible to be included in the systematic review.
Results: Our review showed that we don't have any predominant evidence about using mineral supplementation on children with ADHD.
Conclusions: We need more evidence for indicating the effect of zinc, magnesium, and iron supplementation in the treatment of ADHD among children.
Keywords: Attention deficient hyperactivity disorder, iron, magnesium, zinc
|How to cite this article:|
Hariri M, Azadbakht L. Magnesium, iron, and zinc supplementation for the treatment of attention deficit hyperactivity disorder: A systematic review on the recent literature. Int J Prev Med 2015;6:83
|How to cite this URL:|
Hariri M, Azadbakht L. Magnesium, iron, and zinc supplementation for the treatment of attention deficit hyperactivity disorder: A systematic review on the recent literature. Int J Prev Med [serial online] 2015 [cited 2019 Aug 22];6:83. Available from: http://www.ijpvmjournal.net/text.asp?2015/6/1/83/164313
| Introduction|| |
Attention deficit hyperactivity disorder (ADHD) is a serious disorder, which usually begins before age 7.  This disorder usually effects on social relation and impairs academic learning.  The key symptoms of ADHD include hyperactivity, impulsiveness, and inattention according to Diagnostic and Statistical Manual of Mental Disorder IV criteria.  The prevalence of this disorder is 5.29% worldwide  and 5.5% in Iran. 
The conclusive etiology of ADHD is still questionable. However, the role of dysfunction of the neuro circuitry within prefrontal cortex,  brain damage,  genetics,  infections, sugar, and deficiencies in certain vitamins, minerals,  and omega-3 fatty acids  is shown to some extent. Studies regarding the dietary intake have shown the harmful effects of food preservatives and additives. 
Many psychiatrics use methylphenidate and amphetamine for the treatment of ADHD and these drugs are very effective for the treatment of this disorder.  However, 30% of persons who treat by methylphenidate or amphetamine have adverse effects such as abdominal pains, anorexia, weight loss, headaches, irritability, depressed mood and appetite, sleep disturbances. , For this reason, scientists have been initiated new researches for ADHD treatment.
In the recent years, there are new researches about the etiology of ADHD and diet, their results have shown a healthy dietary pattern, vitamins, and minerals play a role in this disorder. Dietary patterns are very necessary for providing the new idea about different unknown components in metabolic diseases  and behavior disorders. 
Some studies have evaluated the relation between zinc, iron, and magnesium with ADHD. Animal and human studies indicate zinc deficiency plays a major role in the prevalence of hyperactivity.  Some scientists have suggested that zinc is significantly deficient in children with ADHD compared to controls.  Zinc is a very important cofactor for more than 100 enzymes and is required for modulating of melatonin and dopamine. ,
Studies had reported that children with ADHD had significantly lower serum levels of iron  and magnesium  than controls. Iron is a cofactor for tyrosine hydroxylase, the rate-limiting enzyme of monoamine synthesis, so it regulates dopamine and noradrenaline production.  Magnesium contributes in protecting neuronal cell membranes and modulates neurotransmitters release in the brain.  With this evidence, it may suggest that zinc, magnesium, and iron may be useful in ADHD treatment.
One study showed that 12% of children with ADHD had used complementary or alternative medicines including mineral supplement.  Hence, we need evidence to support this claims of efficiency, especially among children. Previous studies have explored the effect of iron, magnesium, and zinc supplement on ADHD treatment. However, to date no comprehensive systematic review has been conducted in this regard.
Therefore, our aim in this article was to present a systematic review of studies regarding zinc, magnesium, and iron supplementation in treating ADHD.
| Methods|| |
The databases PubMed/Medline, Google Scholar, Ovid, Scopus, and ISI web of science were searched up to June 2013. The search terms included: ("iron"[tiab] OR "iron supplementation"[tiab] OR "magnesium"[tiab] "magnesium supplementation"[tiab] OR "zinc"[tiab] OR "zinc supplementation"[tiab]) OR ("iron"[Mesh] OR "iron supplementation''[Mesh] OR "magnesium"[Mesh] "magnesium supplementation"[Mesh] OR "zinc"[Mesh] OR "zinc supplementation"[Mesh]) AND ("attention deficit hyperactivity disorder"[Mesh] OR "attention deficit hyperactivity disorder" [tiab]). We also checked the reference and citation of selected studies and every review articles on this topic for further relevant research. 
Inclusion and exclusion criteria
Our inclusion criteria were: (1) Randomized controlled trial (RCT) in design; (2) conducted in children; (3) Intervened using iron, magnesium, and zinc; (5) No other food and diet was used in intervention or control group. Among remaining studies, those trials that met at least one of the following criteria were excluded: (1) The outcomes had not been clearly stated; (2) Studies without clear inclusion and exclusion criteria; (3) studies on participants with age more than 18 year; (4) food or food groups high in zinc, iron, and magnesium were used instead of zinc, magnesium, and iron supplementation for treatment.
We extracted some data from each article about: Name of first author, publication year, place of study, study design, number of patients, study duration, population, dose and type of oral supplementation, main outcome measure, the evaluation of baseline Zn, Mg, Fe status, and effect of supplementation.
We used Jadad score for analyzing the methodological quality of each paper  (as first used in Sarris and Byrne,  and in subsequent reviews, e.g. Pase et al.  ). After using the quality control of each article on the basis of Jadad, we assigned, quality scores ranging from 4/10 (low) to 8/10 (high).
| Results|| |
Of 135 potential studies in the area of zinc, iron, and magnesium supplementation on ADHD, 12 papers were duplicated and 102 were irrelevant. Overall 18 articles were a clinical trial, 4 articles had done on healthy children, and two articles were about the effect of omega-3 on ADHD children with zinc and magnesium deficiency. This left 11 articles for inclusion [Table 1]. 5 articles were about magnesium supplementation; 2 articles were about iron supplementation; and 4 articles were about zinc supplementation [Figure 1].
|Table 1: Summary of clinical trial of magnesium, zinc, iron supplementation, and ADHD|
Click here to view
In our systematic review of the literature, four articles were located that met inclusion criteria for zinc supplementation and ADHD, two articles producing significant positive results on the main primary ADHD outcome measures. Bilici et al.  had done a large randomized clinical trial in 400 children with ADHD. Children were randomized to a high dose of zinc (150 mg/day) and they experienced significant improvements in hyperactivity and impulsivity (but not inattention). A high drop-out rate in this study may, however, place a limitation on the significance of findings. In another study by Akhondzadeh et al.,  they added zinc (55 mg/day) to psychostimulants (1 mg/kg/day) in 44 children which resulted in a greater improvement in symptoms than use of the psychostimulant alone. The results of two other studies by Arnold et al.  and Zamora et al.  indicated that zinc supplementation did not have any effect on ADHD symptoms. It is possible that insufficient dose of zinc causes different results in compared with other studies. In Arnold's study zinc glycinate was randomly assigned to two dose groups (15 mg/day or 30 mg/day) among 52 children with ADHD for 13 weeks (8 weeks monotherapy and then 5 weeks with added d-amphetamine). Their results revealed on ADHD outcome scales that no significant improvements occurred with zinc supplementation in either intervention group or placebo. Zamora et al. in a controlled, double-blind study on 40 ADHD children showed methylphenidate (0.3 mg/kg/day) and zinc (sulfate) 10 mg/day for 6 weeks did not improve ADHD symptoms.
About iron and ADHD there were one randomized double-blind placebo-controlled trial and one open trial without the controlled group. Konofal et al.  in a RCT involved 23 non-anemic ADHD children (with a small placebo group [n = 5]), with abnormally low serum ferritin levels and showed oral iron (ferrous sulfate 80 mg/day) improved ADHD symptoms over placebo. Sever et al.  evaluated the effect of iron supplementation ([Ferrocal], 5 mg/kg/day for 30 days) on the level of ferritin and ADHD symptoms in 14 boys with ADHD. Results showed significant increase in serum ferritin levels and significant decrease in the parents' Conners' Rating Scale scores.
In our systematic review, there were just one magnesium monotherapy, therefore the studies, which included multicomponent supplements with magnesium were reviewed. Huss et al.  used 80 mg/day magnesium in combination with polyunsaturated fatty acids (PUFA) and zinc for 3 months. Their study reported this supplementation decreased both inattentiveness and hyperactivity/impulsivity. Mousain-Bosc et al.'s study  was an open-label study without any control group. They reported that magnesium and Vitamin B6 supplementation (6 mg/kg/day Mg, 0.6 mg/kg/day Vitamin B6) on 52 ADHD children decreased scholar inattention after 4 months. Mousain-Bosc et al.  in another study with open controlled trial design confirmed that magnesium supplementation with Vitamin B, without any psychotic drug increased the magnesium plasma level and decreased hyperactivity/inattentiveness. Starobrat-Hermelin and Kozielec  evaluated the effect of magnesium mono-therapy in a dose of 200 mg/day on hyperactivity in ADHD children with magnesium deficiency (n = 75). After 6 months, an increase in magnesium contents in hair and a significant decrease in hyperactivity has been achieved.
| Discussion|| |
This is the first systematic review of the efficiency of zinc, magnesium, and iron supplementation among children with ADHD. Of the four studies that met inclusion criteria about zinc supplementation, one was effective on total ADHD score the second was positive on hyperactivity but showed no effect on inattentiveness. The third and fourth trial was entirely negative. Billici et al. in a large randomized clinical trial prescribed a high dose of zinc to children and experienced significant improvements over placebo in hyperactivity and impulsivity but not inattention.  A high drop-out rate found in the study may, however, place limits on the significance result in inattention. Akhundzadeh et al. added zinc supplementation to psychostimulants in 44 children resulted in a greater improvement in symptoms than the use of the psychostimulant alone.  Arnold et al.'s study  indicated zinc supplementation alone reduces ADHD symptoms in children, but other studies did not examine whether zinc was effective alone or not. In fact, zinc supplementation was not the primary intervention of these studies instead; zinc was administered with other treatment. Arnold's result was entirely different from Akhondzadeh et al.  and Bilici et al.  The possible reasons for the difference between these studies may be from polymorphism in population genetics, relative rate of zinc deficiency, background nutrition, inadequate dosage or insufficient absorption of anion (sulfate may be necessary). English abstract of other randomized double-blind clinical trial by Zamora et al.  reported zinc supplementation about 10 mg/day had no effect on the total score of ADHD symptoms. Insufficient dose may cause different result with other studies but we could not get any more information from English abstract. Macronutrients may have important effects on ADHD symptoms and may affect the result of intervention studies. New evidence reported contradictory results between studies may be because of background macronutrient intake in a different country for example in Iran Esmaillzadeh et al.  showed 4.2% of all calories consumed are derived from total fatty acids; that is more than the amount consumed in other developed countries.
Zinc indirectly effects on dopamine metabolism and increases the affinity of methylphenidate for the dopamine transporter. Scientific evidence believes that dopamine is a very important factor in ADHD. , Recent studies have shown lower serum ferritin levels in children with ADHD than healthy children. Moreover, new evidence has indicated a potential role of changing brain iron metabolism.  Data from magnetic resonance imaging and cerebrospinal fluid ferritin have shown a significant iron deficiency in children with restless leg syndrome (RLS). , Furthermore, intravenous iron therapy has been reported effective for symptomatic treatment of RLS.  Konofal et al. conducted a double-blind RCT on 23 ADHD non-anemic children for 12 weeks.  Iron supplementation had no effect on ADHD symptoms in this study. Moreover, in one study by Sever et al., iron supplementation lowered parents' Conners' Rating Scale scores. Children in Sever et al.'s study  were anemic so it may cause different result in comparing with Konofal's study. The most important finding of this systematic review about magnesium supplementation and ADHD is that the efficiency of magnesium supplementation as a mono-therapy was not investigated in any double-blind controlled trial. Huss et al. conducted a large study but his study was not a double-blind clinical trial. Moreover, supplements contained PUFA, zinc, and magnesium so the results couldn't directly related to magnesium or zinc supplementation.  More than 50% of children in this study having oppositional defiant disorder besides ADHD so they may be different from other ADHD children. Mousain-Bosc et al. had done their study on a group of children from nursery school and their age was from 0 to 15 years.  It is not clear whether the measures for diagnosing infants as an ADHD patient are valid and reliable in the mentioned study. Moreover, as their study was an open trial their result might have encountered to some biases. In addition, they did not have done any statistical report regarding the effect of supplementation on hyperactivity, impulsive, and inattention. Mousain-Bosc et al. in another study used Vitamin B6 in addition to magnesium; this study was an open trial so their result may have some biases.  In addition, the measurement tool for ADHD score before and after the intervention was not familiar in this study and it was not reported on its validity and reliability. Diet is a very important factor in the treatment of ADHD symptoms and may cause different results in supplementation studies but authors in these studies did not assess dietary patterns. Azadbakht and Esmaillzadeh  showed the relationship between dietary patterns and ADHD among school-age children in Iran and they found significant independent associations between the sweet and fast-food dietary patterns and the prevalence of ADHD.
Magnesium is very essential for physiological and biochemical central processes.  It can control the glutamate N-methyl-aspartate channel that is effective in excitotoxic cell death and apoptosis and Mg 2+ can influence on catecholamine signaling in the brain too. ,
| Conclusions|| |
The results of this systematic review revealed a mixture of positive and inconclusive evidence for iron, zinc, and magnesium in the treatment of ADHD. One article was about magnesium mono-therapy and in two other articles magnesium and Vitamin B6 supplement were used together and their results showed B6 and magnesium can be effective in ADHD children with hypo magnesium. Hence, magnesium supplementation in children without hypomagnesemia is not suggested until enough evidence is provided. These limited evidences should be examined in long-term double-blind randomized controlled clinical trial with enough sample size and follow-up. There was just one randomized clinical trial with iron supplementation in non-anemic ADHD children and one article on anemic children, their result showed no positive impact on non-anemic children and positive effects on anemic ADHD children, so we need more evidence until we can recommend iron supplementation for children with ADHD. Findings of these studies using zinc supplementation in ADHD are mostly positive. This systematic review showed that there are a few recent studies about mineral and ADHD and more evidence is required for showing whether mineral supplementation is effective in children with ADHD and we recommended replicating the randomized well-controlled trials.
Source of funding
Conflict of interest
There are no conflict of interest.
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