Low essential fatty acid and B-vitamin status in a subgroup of patients with schizophrenia and its response to dietary supplementation.

We assessed essential fatty acid (EFA) and B-vitamin status, together with their determinants, in 61 patients with schizophrenia and established whether those with poor status responded biochemically to the appropriate dietary supplements. As a group, the patients had high erythrocyte saturated fatty acids (FAs), monounsaturated FA and low polyunsaturated FA of the omega3 and omega6 series. Patients reporting not to take vitamin supplements had low vitamin B12 and high homocysteine. Homocysteine variance proved best explained by folate in both the total group and male patients, and by vitamins B12 and B6 in females. Alcohol consumption and duration of illness are risk factors for low polyunsaturated FA status (< P2.5 of reference range), while male gender and absence of fish consumption predict hyperhomocysteinemia (> P97.5 of reference range). Two patients exhibited biochemical EFA deficiency and seven showed biochemical signs of omega3/docosahexaenoic acid (DHA) marginality. Four patients exhibited moderate hyperhomocysteinemia with plasma values ranging from 57.5 to 74.8 micromol/L. None of the five patients with either moderate hyperhomocysteinemia, biochemical EFA deficiency, or both, was predicted by their clinicians to have poor diets. That diet was nevertheless at the basis of these abnormalities became confirmed after supplementing 4 of them with B vitamins and with soybean and fish oils. We conclude that a subgroup of patients with schizophrenia has biochemical EFA deficiency, omega3/DHA marginality, moderate hyperhomocysteinemia, or combinations. Correction seems indicated in view of the possible relation of poor EFA and B-vitamin status with some of their psychiatric symptoms, but notably to reduce their high risk of cardiovascular disease.

Fatty acids in formulae for term infants: compliance of present recommendations with the actual human milk fatty acid composition of geographically different populations.

AIM: Recommendations for formula fatty acids (FA) are largely based on the mature human milk FA composition. This study aimed to investigate whether current recommendations for formula FA for term infants comply with the actual breast-milk FA composition of geographically distinct populations and to provide more realistic grounds for future recommendations. METHODS: 455 mature breast-milk samples were collected in different countries over 25 y. Recommendations of different organizations were projected on their FA data. FA interrelationships were calculated with Spearman's rank tests. FA compositions of 30 formulae were compared with those of breast milk. RESULTS: Many samples from non-Western communities did not meet the recommendations for formula 12:0, 14:0 and 18:2omega6, since these are mainly based on breast milk of mothers living in Western countries. Recommendations for 18:3omega3, 18:2omega6/18:3omega3, 20:4omega6 and 22:6omega3 were not met by many milk samples, which may point to the poorly developed recommendations for long-chain polyunsaturated FA. Most of the investigated breast-milk FA (12:0, 14:0, 16:0, 18:0, 18:3omega3, 22:6omega3, 18:2omega6, 20:4omega6, 18:1omega9) were either positively or negatively interrelated. Many formulae had FA compositions that were not consistent with the physiological interrelationships of FA in breast milk. CONCLUSION: Future recommendations, if based on human milk, should derive from its FA balance, as indicated by the FA interrelationships. A "humanized" formula FA composition would in this sense be any composition that cannot be distinguished from that of breast milk by techniques such as principal component analysis.