Short Communication

European Journal of Clinical Nutrition (2010) 64, 331–333; doi:10.1038/ejcn.2009.158; published online 20 January 2010

Effect of zinc supplementation on mood states in young women: a pilot study

Contributors: TS designed and conducted the study, analyzed the data and wrote the manuscript. KY supervised the entire study, and advised on the design and data analysis. The final approval of the manuscript was done by all authors.

T Sawada1 and K Yokoi2

  1. 1Department of Food and Nutrition, Morioka Daigaku Junior College, Iwate, Japan
  2. 2Department of Human Nutrition, Seitoku University Graduate School, Chiba, Japan

Correspondence: Dr K Yokoi, Department of Human Nutrition, Seitoku University Graduate School, 550 Iwase, Matsudo, Chiba 271-8555, Japan. E-mail: yokoi@seitoku.ac.jp

Received 30 June 2009; Revised 18 November 2009; Accepted 9 December 2009; Published online 20 January 2010.

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Abstract

The relation of zinc (Zn) nutriture to brain development and function has been elucidated. The purpose of this study is to examine whether Zn supplementation improves mood states in young women. The study used a double-blind, randomized and placebo-controlled procedure. The major outcomes were psychological measures, somatic symptoms and serum Zn. Thirty women were placed randomly and in equal numbers into two groups, and they ingested one capsule containing multivitamins (MVs) or MV and 7mg Zn daily for 10 weeks. Women who took MV and Zn showed a significant reduction in anger–hostility score (P=0.009) and depression–dejection score (P=0.011) in the Profile of Moods State (POMS) and a significant increase in serum Zn concentration (P=0.008), whereas women who took only MV did not. Our results suggest that Zn supplementation may be effective in reducing anger and depression.

Keywords:

zinc supplementation; serum zinc concentration; women's mood; POMS; CMI

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Introduction

Zinc (Zn) is an essential mineral that has an important fundamental role in a wide range of biochemical processes relating to the growth and function of the brain (Sandstead et al., 2000). Poor Zn nutriture has been a prevailing worldwide public health problem (Yokoi et al., 2007) since the discovery of human Zn deficiency (Prasad et al., 1963). Relationships between Zn nutriture and brain function in humans have been reported (Sandstead et al., 1998).

Although we do not fully understand the relationship between Zn and behavioral activity, researchers have recognized that depression and impaired cognitive function are early clinical manifestations of human Zn deficiency (Sandstead et al., 2000; DiGirolamo and Ramirez-Zea, 2009). Halas et al. (1975) found aggression in intrauterine Zn-deficient rats and predicted a possible induction of anger and aggression by Zn deficiency in humans. The effects of Zn deficiency on behavior and development in humans are frequently assessed by the response to randomized trials of Zn supplementation conducted in populations thought to be marginal in Zn nutriture, based on the hypothesis that repletion of Zn might improve neuropsychological function.

With the hope of understanding the role of Zn on mood, a randomized controlled study with double-blind procedure was executed to investigate improvement of women's mood states by Zn supplementation.

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Subjects and methods

This report describes a 10-week, randomized, double-blind, placebo-controlled trial of Zn supplementation in premenopausal women, executed from January 2006 to May 2007. This study was approved by the Bioethical Committee for Human Studies of the Seitoku University. Written informed consent was obtained from each subject.

Figure 1 shows the trial profile. Individuals living in the metropolitan area of Tokyo, Japan, who expressed potential interest to a posted notice, visited the Micronutrient Research Laboratory of the Seitoku University for informed consent, demographic and medical information interviews, and laboratory screening designed to examine any overt abnormality.

Figure 1.
Figure 1 - Unfortunately we are unable to provide accessible alternative text for this. If you require assistance to access this image, please contact help@nature.com or the author

Trial profile. The inclusion criteria for subjects of this study were being aged between 18 and 21 years, being in good health, and having completed 12 grades of school. The exclusion criteria for subjects were iron deficiency anemia (hemoglobin <12g/dl and serum ferritin <20ng/ml), abnormal laboratory tests, chronic or recurrent illnesses, eating disorders, chronic medication and consumption of nutritional supplements that contained iron and/or Zn. MV=multivitamins.

Full figure and legend (80K)

Subjects were stratified according to the Fukamachi criteria (grades I, II, III and IV) for neurosis screening associated with the Japanese version of the Cornell Medical Index (CMI) (Kanehisa and Shinmachi, 1988). The subjects were randomly assigned by using a pseudo-random number generator to receive multivitamin (MV) capsules, or MV and Zn (MV–Zn) capsules, each to be taken once daily for 10 weeks. The MV capsule contained only MVs . The MV–Zn capsule contained MVs and 7mg of Zn as an element (Zn gluconate; Tomita Pharmaceutical Co., Naruto, Japan). All capsules were identical in appearance, size and color. The MVs included vitamins A, D, B1, B2, B6, B12, niacin and folic acid, in amounts that were 50% of the Japanese Recommended Dietary Allowances (6th ed., 1999) for women of this age group. The MVs were given to all subjects to avoid possible vitamin deficiencies. Biochemical and psychological tests were conducted before and after supplementation.

Whole blood was collected in the morning after a 10–12h fast, and the portion of serum was preserved for Zn analysis at −80°C. Blood hematology and chemistry were performed by the Matsudo Medical Laboratory, Matsudo, Japan. Serum Zn content was determined by inductively coupled argon plasma-mass spectrometer ICPM-8500 (Shimadzu, Inc., Kyoto, Japan). Screening laboratory tests included hematology, serum ferritin and routine blood biochemistries.

Psychological tests were administered to each subject using a double-blind procedure. The A–L and M–R sections of the CMI were used to evaluate somatic symptoms, and mood and feelings, including anxiety, sensitivity, anger and tension. The Profile of Moods State (POMS) (Japanese version, Yokoyama and Araki, 1994) is a self-reporting questionnaire used to ascertain the mood state during the past week.

Data were analyzed with Wilcoxon's signed-rank test. Probabilities of less than 0.05 were considered significant.

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Results

Both MV and MV–Zn groups were similar in terms of mean age (19.5 (s.d. 1.2) vs 19.3 (0.6) years); mean body height (1.58 (0.05) vs 1.59 (0.05)m); mean body weight (55.3 (9.0) vs 54.9 (7.9)kg) and mean body mass index (22.2 (3.2) vs 21.7 (2.2)kg/m2). Both groups were similar in serum Zn concentration before intervention.

Neither intervention showed a significant change in serum ferritin and hemoglobin concentration. MV–Zn supplementation significantly increased serum Zn concentration, whereas only MV did not. Although the M–R sections of the CMI were not altered by either interventions, the A–L sections of the CMI were marginally decreased by MV–Zn supplementation (P=0.069). Women who took MV–Zn capsules showed a significant decrease in anger–hostility and depression–dejection scores on the POMS. However, there were no significant changes in other components, such as tension–anxiety, vigor, fatigue and confusion scores on the POMS (Table 1). Changes from baseline were not significantly different between MV vs MV–Zn groups by Mann–Whitney U-test (data not shown).


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Discussion

In spite of a desirable body mass index for Asian origin (18.5–24.9kg/m2) and a normal hemoglobin level, symptom complaints were common in the subjects. Mood swings, one of the common symptoms of mild Zn deficiency, can be observed in industrialized countries (Levenson, 2006). The D score (depression–dejection) and A–H score (anger–hostility) on the POMS were significantly decreased by the intervention with Zn supplementation in the subjects (Table 1). Zn supplementation marginally decreased somatic symptoms (the A–L section of the CMI) in the present study. A negative relationship between serum Zn levels and severity of depression symptoms was reported in major depression (Nowak et al., 2003; DiGirolamo and Ramirez-Zea, 2009).

It is interesting that aggression secondary to intrauterine Zn deficiency was found only in female rats (Halas et al., 1975). Consistent with animal studies, we found an anger-reducing effect of Zn supplementation in female subjects. Although our findings are preliminary and should be interpreted with caution, they may prompt further investigations to evaluate the relationship between Zn nutriture and mood states in women.

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Conflict of interest

The authors declare no conflict of interest.

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References

  1. DiGirolamo AM, Ramirez-Zea M (2009). Role of zinc in maternal and child mental health. Am J Clin Nutr 89, 940S–945S. | Article | PubMed | ChemPort |
  2. Halas ES, Hanlon MJ, Sandstead HH (1975). Intrauterine nutrition and aggression. Nature 257, 221–222. | Article | PubMed | ChemPort |
  3. Kanehisa T, Shinmachi T (1988). Cornell Medical Index. Kyoto: Sankyoubou. pp 3–29. (in Japanese).
  4. Levenson CW (2006). Zinc: the new antidepressant? Nutr Rev 64, 39–42. | Article | PubMed
  5. Nowak G, Siwek M, Dudek D, Zieba A, Pilc A (2003). Effect of zinc supplementation on antidepressant therapy in unipolar depression: a preliminary placebo-controlled study. Pol J Pharmacol 55, 1143–1147. | PubMed | ISI | ChemPort |
  6. Prasad A, Miale A, Farid Z, Sandstead HH, Schulert A (1963). Zinc metabolism in patients with syndrome of iron deficiency anemia, hepato-splenomegaly, dwarfism and hypogonadism. J Lab Clin Med 61, 537–549. | PubMed | ISI | ChemPort |
  7. Sandstead HH, Frederickson CJ, Penland JG (2000). History of zinc as related to brain function. J Nutr 130, 496S–502S. | PubMed | ISI | ChemPort |
  8. Sandstead HH, Penland JG, Alcock NW, Dayal HH, Chen XC, Li JS et al. (1998). Effects of repletion with zinc and other micronutrients on neuropsychologic performance and growth of Chinese children. Am J Clin Nutr 68, 470S–475S. | PubMed | ISI | ChemPort |
  9. Yokoi K, Sandstead HH, Egger NG, Alcock NW, Sadagopa Ramanujam VM, Dayal HH et al. (2007). Association between zinc pool sizes and iron stores in premenopausal women without anaemia. Br J Nutr 98, 1214–1223. | Article | PubMed | ChemPort |
  10. Yokoyama K, Araki S (1994). The Profile of Mood States. Tokyo: Kanekoshobou (in Japanese).
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Acknowledgements

This study was supported in part by the Japan Society Sasakawa Science Foundation (2006) and the Ito Foundation (2006–2007).

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