Objective: To evaluate the relation of clinical parameters and genotype with the serum phospholipid fatty acid (FA) composition in cystic fibrosis (CF) patients. Methods: A blood sample was taken from CF patients with stable pulmonary disease for the determination of phospholipid FA composition and vitamin E concentration who had been followed for at least 6 months at our Cystic Fibrosis Centre. Genotype, age, pancreatic function, nutritional status, caloric intake, pulmonary function and presence of Pseudomonas colonization, liver disease or diabetes mellitus were recorded. Patients were divided into two groups according to their genotype (group A: mutation class I, II, or III, group B: mutation class IV, V). Results: CF patients (group A and B together) have significantly lower docosahexaenoic acid (DHA) (p < 0.007) and linoleic acid (LA) (p < 0.0001) and higher dihomogammalinolenic acid (DHGLA) (p < 0.0001), oleic acid (OA) (p < 0.0001) and Mead acid (MA) (p < 0.0001), resulting in an increased ratio of arachidonic acid (AA)/DHA (p < 0.004), MA/AA (p < 0.0001) and OA/LA (p < 0.0001). Compared to group B, group A had a lower LA (p < 0.002) and a higher DHGLA (p < 0.002), 22:4ω–6 (p < 0.03), 22:5ω–6 (p < 0.03) and 20:3ω–9 (p < 0.04). There was however no significant difference between the groups for age, pulmonary function, nutritional status and vitamin E concentration. There was no relation of serum FA composition with nutritional status, caloric intake, pancreatic function, gender, pulmonary function, Pseudomonas colonization or diabetes mellitus. In CF with liver disease the DHA was lower than in the patients of the same genotype. Conclusion: FA disturbances are more pronounced in the severe CF genotypes and the presence of CF-related liver disease. Future studies on supplementation should take these parameters into account.
There is no consensus whether zinc (Zn) supplementation is necessary in cystic fibrosis (CF). For assessment of the Zn status, serum Zn concentration is the only easy available method. It is, however age dependent. We compare the serum Zn levels of CF patients with earlier reported normal values. Serum Zn was determined in all new diagnosed CF patients and a second time 1 yr later. Data concerning fat-soluble vitamin status, cholesterol, albumin, pancreatic insufficiency, and genotype were collected. Thirty-two patients, median age of 1.21 yr, were included. Four were pancreatic sufficient. The median Zn concentration at diagnosis was 10.7 micromol/L (5-21.4), with a significant increase 1 yr later (median: 12.1 micromol/L [7,803-16,1]). An association of serum Zn with vitamin A (p < 0.03) and with vitamin E (p < 0.02) was observed. Compared to age-matched healthy controls, there is no significant difference in serum Zn concentration either at diagnosis or 1 yr later. Although it was demonstrated that steatorrhoea causes Zn loss, the serum Zn concentration in CF is not significantly different from healthy controls. The relation with vitamin Aand E points to the increased losses by steatorrhoea. Therefore, Zn supplementation is advised in persisting steatorrhoea.
Many reports mention marginal zinc status in childhood. Information on serum zinc (Zn) in Belgian children since the last reports are old and feeding habits are changing. Four hundred fifty-seven healthy children (0-14 yr, 262 boys) had a venipuncture after an overnight fast during a vaccination campaign. Serum Zn, alpha-tocopherol (alpha-T), cholesterol, low-density lipoprotein cholesterol (LDL-C), high-density lipoprotein cholesterol (HDL-C), apolipoprotein B (Apo B), Apo A, and malondialdehyde (MDA) were determinated. The median Zn value is lower in infants than in older children (respectively 11.6 micromol/L vs 12.8 micromol/L). The type of infant feeding does not influence the serum Zn concentrations (breast-feeding, adapted, hypoallergenic, soy, or thickened). No children had increased serum MDA concentrations and the value is not influenced by the Zn concentration. Children presenting higher serum Zn values also have significantly higher serum alpha-T levels. In infants, there is a significant positive correlation between serum Zn and cholesterol, LDL-C, and Apo B. In this apparently healthy population, no signs of abnormal in vivo peroxidation of fatty acids are observed, even in the children with low serum Zn. More sensitive methods for the detection of peroxidation are necessary for determination of in vivo effects of marginal trace element status.
DHA concentration in patients with CFRLD is decreased more substantially compared with their genotype controls. The presence of CFRLD should be taken into account in future FA studies in CF patients.
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