Polyunsaturated fatty acids in infant nutrition

The availability of long-chain polyunsaturated fatty acids (LCP), such as arachidonic (C20:4n-6) and docosahexaenoic (C22:6n-3) acids, is important for early human growth and development. The capacity for endogenous synthesis of LCP from the precursor fatty acids lineoleic (C18:2n-6) and alpha-linolenic (C18:3n-3) acid is limited in preterm and probably also in term infants. In utero, LCPs seem to be transferred preferentially from the mother to the foetus by the placenta. After birth, breastfed infants receive preformed dietary LCP with human milk. In contrast, most current infant formulae are devoid of LCP. Premature infants fed such formulae develop rapid LCP depletion of plasma and tissue lipids, which is associated with reduced visual acuity during the first postnatal months. Therefore, LCP enrichment of formulae for premature infants is desirable. Recent observations indicate that term infants fed conventional formulae also exhibit lower plasma LCP values and may show functional disadvantages, but these data require further confirmation prior to drawing definite conclusions.     

Docosahexaenoic and arachidonic acid content of serum and red blood cell membrane phospholipids of preterm infants fed breast milk,standard formula or formula supplemented with n-3 and n-6 long-chain polyunsaturated fatty acids

The contents of docosahexaenoic (DHA) and arachidonic acid (AA) of plasma and red blood cell membrane phospholipids were studied in 41 very low birth weight infants fed either breast milk (n=18), a standard formula without long-chain polyunsaturated fatty acids with 20 or 22 carbon atoms (LCP) but with -linolenic acid and linoleic acid (n=11) or a formula additionally supplemented with n-3 and n-6 LCP in relations typical for human milk (n=12) after 2, 6, and 10 weeks of feeding. The content of DHA and AA in plasma phospholipids declined in the infants fed the LCP-free formula but remained more or less constant during the whole feeding period in those infants fed breast milk as well as in those fed the LCP-supplemented formula. The differences between the group fed the LCP-free standard formula and the two groups fed LCP-containing diets became significant during the first 2 weeks of feeding. In contrast, there were no differences between the group fed breast milk and the group fed the supplemented formula during the study period. Similar effects could be observed regarding the composition of red blood cell membrane phospholipids, but the differences between the infants fed the LCP-free standard formula and the two other groups with LCP-containing diets were significant only for AA. The data indicate that very low birth weight infants are unable to synthesize LCP from -linolenic acid and linoleic acid in sufficient amounts to prevent a decline of LCP in plasma and red blood cell phospholipids. Additionally, the data show, that supplementation of formulas with n-3 and n-6 LCP in amounts typical for human milk fat results in similar fatty acid profiles of plasma and red blood cell membrane phospholipids as found during breast milk feeding.Conclusion Supplementation of formula with long-chain polyunsaturated fatty acids improves the LCP status of very low birth weight infants.     

Fatty acid balance studies in preterm infants fed formula milk containing long-chain polyunsaturated fatty acids (LCP) II

A milk formula (Prematil-LCP) containing long-chain polyunsaturated fatty acids (LCP) and with a fatty acid profile closely resembling breast milk has recently been introduced for preterm infants. A double-blind randomized controlled trial was performed comparing fatty acid absorption from Prematil-LCP (n = 10) and standard Prematil (n = 10). Formula-fed preterm infants underwent 3 d fat balances (once full enteral feeds were established) along with a parallel human milk fed group (n = 11). Plasma samples were taken on the last day. Median total fat excretion (absorption, %) was 2.34 g kg (82.0), 2.64 g kg (82.9) and 1.65 g kg (87.8) with Prematil, Prematil-LCP and human milk feeding, respectively. This reflected differences in the excretion and absorption of long-chain saturated fatty acids. All groups excreted detectable LCP. LCP disappearance was higher in infants fed human milk than in those fed Prematil-LCP, particularly for n -6 LCP (p <0:01). Nevertheless, excreted LCP equated to <30% dietary intake, with Prematil-LCP feeding. Plasma lipid fatty acid composition reflected differences in dietary LCP intake.     

Effect of dietary omega-3 fatty acids on retinal function of very-low-birth-weight neonates

Retinal function was assessed by electroretinogram in 32 neonates randomly assigned to formulas of different omega-3 fatty acid content and in 10 infants fed human milk. All neonates had a birth weight of 1000-1500 g and were fed study diets from d 10 to 45 or discharge. Group A received formula containing predominantly 18:2 omega-6. Group B received a balanced mix of 18:2 omega-6 and 18:3 omega-3. Group C was given a formula containing both essential fatty acids and supplemented with marine oil to provide 22:6 omega-3 content similar to that of human milk. The fatty acid composition of plasma and red blood cell (RBC) lipids were similar for all groups on entry but marked diet-induced differences were found after feeding the study diets. Group C was comparable to the human milk-fed group, but group A had lower 22:6 omega-3 and omega-3 long-chain polyunsaturated fatty acids (LCPUFA) in plasma and RBC membranes. Cone function was not affected by dietary essential fatty acids. Rod electroretinogram thresholds were significantly higher for group A relative to the human milk-fed group and group C and significantly correlated with RBC omega-3 LCPUFA (r = -0.63, p less than 0.0001); 44% of the variance could be explained by RBC and plasma omega-3 LCPUFA content.(ABSTRACT TRUNCATED AT 250 WORDS)     

Essential fatty acids in full term infants fed breast milk or formula.

To determine the biochemical effects of the fatty acid composition of plasma lipids, two groups of 10 healthy full term infants who were either exclusively breast fed or received a formula with similar contents of linoleic and alpha linolenic acids, but without long chain polyunsaturated (LCP) fatty acids, were studied prospectively. Plasma phospholipid, triglyceride, and sterol ester fatty acids were determined at the age of 2, 4, and 8 weeks by high resolution capillary gas chromatography. Breast fed infants maintained stable LCP fatty acid concentrations throughout the study. Formula fed infants had significantly lower median values of arachidonic acid (AA) at the ages of 2 (6.9 v 9.5% wt/wt) and 4 weeks (5.9 v 7.9%) and docosahexaenoic acid (DHA) at the ages of 4 (1.1 v 1.7%) and 8 weeks (1.0 v 1.7%) in plasma phospholipids. Median AA values in triglycerides were also significantly lower in the infants receiving formula at the ages of 2 (0.4 v 0.6%) and 4 weeks (0.3 v 0.6%). It is concluded that formula fed full term infants are unable to match the omega-3 and omega-6 LCP status of breast fed full term infants until at least two months after birth.     

Evaluation of a long-chain polyunsaturated fatty acid supplemented formula on growth, tolerance, and plasma lipids in preterm infants up to 48 weeks postconceptional age.

BACKGROUND: The last trimester of pregnancy is a period of rapid accretion of long-chain polyunsaturated fatty acids, both in the central nervous system and the body as a whole. Human milk contains these fatty acids, whereas some preterm infant formulas do not. Infants fed formulas without these fatty acids have lower plasma and erythrocyte concentrations than infants fed human milk. Preclinical and clinical studies have demonstrated that single-cell sources (algal and fungal) of long-chain polyunsaturated fatty acids are bioavailable. A balanced addition of fatty acids from these oils to preterm formula results in blood fatty acid concentrations in low birth weight infants comparable to those of infants fed human milk. METHODS: In the present study the growth, acceptance (overall incidence of discontinuation, reasons for discontinuation, overall incidence and type of individual adverse events), and plasma fatty acid concentrations were compared in three groups of infants fed a long-chain polyunsaturated fatty acid-supplemented preterm infant formula, an unsupplemented control formula, or human milk. The study was prospective, double-blind (formula groups only), and randomized (formula groups only). Two hundred eighty-eight infants were enrolled (supplemented formula group, n = 77; control formula group, n = 78; human milk group, n = 133). RESULTS: Anthropometric measurements at enrollment, at first day of full oral feeding, and at both 40 and 48 weeks postconceptional age did not differ between the formula groups, whereas the human milk-fed group initially grew at a lower rate. The incidence of severe adverse events was rare and not significantly different between formula groups. The groups fed either human milk or supplemented formula had long-chain polyunsaturated fatty acid concentrations higher than those in the control formula group. CONCLUSIONS: The results of this study demonstrate the safety and efficacy of a preterm formula supplemented with long-chain polyunsaturated fatty acids from single-cell oils.     

Impact of early dietary intake and blood lipid composition of long-chain polyunsaturated fatty acids on later visual development

BACKGROUND: In contrast to human milk, current infant formulas in the United States do not contain omega3 and omega6 long-chain polyunsaturated fatty acids. This may lead to suboptimal blood lipid fatty acid profiles and to a measurable diminution of visual function in developing term infants. The need for docosahexaenoic acid and arachidonic acid supplementation in the infant diet was evaluated in a double-blind, randomized clinical trial. METHODS: Healthy term infants were randomized to diets of (1) commercial formula, (2) docosahexaenoic acid-enriched formula (0.35% of total fatty acids), or (3) docosahexaenoic acid- (0.36%) and arachidonic acid- (0.72%) enriched formula. Eighty-seven infants completed the 17-week nutritional trial, and 58 were observed until 52 weeks of life. A reference group was exclusively breast fed for at least 17 weeks (n = 29). Outcome measures included electroretinographic responses, visual evoked potentials, and blood fatty acid analysis in infants at birth and at 6, 17, and 52 weeks of age. RESULTS: Commercial formula-fed infants had 30% to 50% lower content of docosahexaenoic acid in total red blood cell lipids during the 17-week feeding trial compared with breastfed infants. Significant differences persisted at the 1-year follow-up. Arachidonic acid content was consistently reduced in the commercial formula group by 15% to 20%. Infants fed long-chain polyunsaturated fatty acid-enriched formulas had docosahexaenoic acid and arachidonic acid blood lipid profiles resembling those of human milk-fed infants. Infants receiving this enriched formula had more mature electroretinographic responses than commercial formula-fed infants at 6 weeks of age. Human milk-fed and docosahexaenoic acid-enriched formula-fed infants had better visual acuity than commercial formula-fed infants at both 17 and 52 weeks of age. Early (17-week) fatty acid profiles in blood lipids were correlated with later (52-week) visual function development in study infants. CONCLUSIONS: Results from this clinical trial demonstrate that long-chain polyunsaturated fatty acid supplementation of formula in term infants produces blood lipid fatty acid profiles that are similar to those observed in breast-fed infants. This supplementation leads to better visual function later in life (i.e., 1 year of age) than that shown by infants fed commercial formula.     

Growth, fatty acid composition of plasma lipid classes, and plasma retinol and a-tocopherol concentrations in full-term infants fed formula enriched with Zω-6 and u-3 long-chain polyunsaturated fatty acids

Full-term infants fed formula without dietary long-chain polyunsaturated fatty acids (LCF) exhibit significantly lower plasma LCP values than breast-fed infants. We studied prospectively two groups of healthy full-term infants fed conventional infant formula without LCP (F, n = 10) or the same formula enriched with both ω-6 and ω- 3 LCP (LCP-F, n = 12). Anthropometric data were obtained and fatty acid (FA) compositions of plasma phospholipids, triglycerides and sterol esters as well as plasma retinol and α-tocopherol concentrations were determined at 5 days and 1, 2, 3 and 4 months of age. Gains in weight, length and head circumference did not differ between the two groups throughout the study period. Plasma FA values did not differ at 5 days of age. Between 1 and 4 months of age, plasma phospholipids of infants fed LCP-F consistently had significantly (p < 0.05) higher percentages of arachidonic acid (1 month: 9.7 (0.8) versus 7.0 (1.3) %wt/wt, 4 months: 8.7 (0.5) versus 6.6 (1.0) %wt/ wt, median (interquartile range), LCP-F versus F) and docosahexaenoic acid (1 month: 2.9 (0.5) versus 1.6 (0.3) %wt/wt; 4 months: 2.9 (0.4) versus 0.9 (0.3) % wt/wt). Plasma retinol and a-tocopherol concentrations did not differ between the two groups throughout the study. We conclude that this form of LCP enrichment of formula for full-term infants effectively enhances plasma LCP contents without detectable adverse effects. The potential effects on functional outcome need to be studied carefully in prospective clinical trials. Growth, infant formula, infant nutrition, long-chain polyunsaturated fatty acids, retinol, α-tocopherol     

Docosahexaenoic acid in red blood cells of term infants receiving two levels of long-chain polyunsaturated fatty acids

OBJECTIVES: A randomized, double-blind, prospective trial assessed effects of different formula levels of polyunsaturated fatty acids on blood phospholipid docosahexaenoic (DHA; 22:6omega3) and arachidonic acids (ARA; 20:4omega6) in term infants at 120 days of age. METHODS: Healthy, formula-fed term infants (n = 78) were randomized to 1) routine milk-based formula with 8 mg DHA, 21 mg ARA, 110 mg alpha-linolenic (ALA; 18:3omega3), and 1,000 mg linoleic acids (LA; 18:2omega6) per 100 kcal (Lower-long-chain polyunsaturated fatty acids [LCPUFA]; n = 39) or 2) routine milk-based formula with 17 mg DHA, 34 mg ARA, 85 mg ALA, and 860 mg LA per 100 kcal (Higher-LCPUFA; n = 39). Fatty acid methyl esters from red blood cell (RBC) and plasma phospholipid fractions were assessed using capillary column gas chromatography. RESULTS: Compared with infants fed Lower-LCPUFA formula, the Higher-LCPUFA group had significantly greater percentages of fatty acids as DHA in RBC phosphatidylethanolamine (PE), RBC phosphatidylcholine (PC), total RBC, and plasma phospholipids (P < 0.001). Infants fed Lower-LCPUFA formula had higher percentages of precursor omega6 fatty acids in the desaturation/elongation pathway but lower percentages of ARA (RBC PE, RBC PC, and plasma phospholipid, P < 0.001; total RBC, P = 0.017) compared with the Higher-LCPUFA group. CONCLUSIONS: Greater amounts of dietary ALA do not produce as great an increase in DHA in blood lipids as preformed dietary DHA. Infants fed DHA at levels similar to human milk had significantly greater percentage of DHAat 120 days of age compared with the Lower-LCPUFA group despite higher precursor levels of ALA.     

Cis- and trans-isomeric fatty acids in plasma lipids of newborn infants and their mothers

The proportionate fatty acid composition of plasma lipids was determined by high-resolution gas-liquid chromatography in 30 pairs of mothers and their term infants at the time of birth. Trans-fatty acids were found at similar percentage levels in maternal and infantile plasma, evidence for the first time of their placental permeability. In umbilical plasma, linoleic and alpha-linolenic acids contributed markedly smaller portions to total fatty acids, in contrast to clearly higher proportions of their long-chain polyunsaturated metabolites (LCP). Significantly larger percentage values in cord than in maternal plasma were found for those LCP that are structural components of brain lipids, which may reflect a discriminating placental transport mechanism for certain physiologically important LCP.     

Noninvasive assessment of essential fatty acid status in preterm infants by buccal mucosal cell phospholipid analysis.

BACKGROUND: The dietary supply of long-chain polyunsaturated fatty acids is receiving increased attention since a linkage to infant growth and development has been reported. To avoid repeated blood collections for determination of long-chain polyunsaturated fatty acid status, the authors developed and evaluated a noninvasive method for analysis of buccal mucosal cell phospholipids. METHODS: Oral mucosal cells were gently collected with a soft cotton swab, buccal cell lipids separated by thin-layer chromatography, and fatty acid methyl esters of the phospholipid fraction prepared. Subsequently, the fatty acid methyl esters were analyzed by high-resolution gas chromatography. RESULTS: The method allowed reliable analysis from very small amounts of oral mucosal cells, and results were well reproducible. The intraindividual coefficients of variation in four samples of three subjects were less than 5% for both arachidonic and docosahexaenoic acid. Fatty acid composition was not altered by consumption of milk formula before and after sample collection. The method was applied in a clinical trial with preterm infants fed human breast milk or assigned by double-blind randomization to preterm formula with or without arachidonic and docosahexaenoic acid. Buccal mucosal cells were collected in infants less than 14 days of age and at the postconceptional ages of 52 weeks and 64 weeks. Dietary long-chain polyunsaturated fatty acids showed a lasting influence on buccal cell phospholipid composition. In the course of the study, arachidonic and docosahexaenoic acid decreased significantly in the nonenriched formula group, whereas stable or rising values were observed in the groups receiving breast milk or enriched formula. CONCLUSIONS: Buccal mucosal cell phospholipids are feasible for use as a noninvasive marker for long-chain polyunsaturated fatty acid status in preterm infants and yield reliable results. Dietary long-chain polyunsaturated fatty acids have a lasting influence on fatty acid composition of buccal cells in preterm babies.     

Plasma lipid and apolipoprotein concentrations in full term infants fed formula supplemented with long-chain polyunsaturated fatty acids and cholesterol

Recent data indicate that supplementation of infant formula with ω-3 and ω-6 long-chain polyunsaturated fatty acids might offer developmental benefits for full term infants. We investigated biochemical consequences of feeding formula supplemented with egg lipids to provide long-chain polyunsaturated fatty acids and compared triglyceride, cholesterol, lipoprotein cholesterol (HDL₂-cholesterol, HDL₃-cholesterol, non-HDL-cholesterol) and apolipoprotein A-I, A-II and B concentrations in full term infants fed either conventional formula (n = 10) or a formula supplemented with ω-3 and ω-6 long-chain polyunsaturated fatty acids and cholesterol in amounts similar to those found in mature human milk (n = 12). At the age of 5 days, cholesterol, non-HDL-cholesterol and triglyceride concentrations were significantly higher in infants fed supplemented than in those receiving conventional formula. At the age of 30 days, triglyceride concentrations were significantly higher with supplemented than with conventional formula. Thereafter throughout the study, no significant differences were seen between the two groups. Conclusion Full term infants fed formula supplemented with ω-3 and ω-6 long-chain polyunsaturated fatty acids and cholesterol showed significantly higher plasma cholesterol and triglyceride concentrations than infants receiving conventional formula on day 5 and on days 5 and 30, respectively. Thereafter no appreciable effect of diet on plasma phospholipid, triglyceride, cholesterol, lipoprotein cholesterol and apolipoprotein concentrations were seen. Received: 13 March 1996 / Accepted: 21 October 1996     

Effect of type of early infant feeding on fatty acid composition of plasma lipid classes in full-term infants during the second 6 months of life

BACKGROUND: Previously, the authors found significantly higher arachidonic and docosahexaenoic acid values in plasma lipids in 2-month-old full-term infants fed human milk than in those receiving formula. This is the report of data obtained in full-term infants during the second half of the first year of life. METHODS: Healthy, full-term infants fed human milk (n = 12) or formula without preformed long-chain polyunsaturated fatty acids (n = 12) were investigated. Fatty acid composition of plasma lipid classes was determined by high-resolution capillary gas-liquid chromatography. RESULTS: Linoleic acid acid values in plasma phospholipids (18.5 [3.94] vs. 20.79 [4.34]) and gamma-linolenic acid values in plasma cholesteryl esters (0.17 [0.09] vs. 0.27 [0.20]) and triacylglycerols (0.27 [0.18] vs. 0.46 [0.27]) were significantly (P < 0.05) lower in breast-fed infants than in those receiving formula. Data are percentage weight by weight shown as median (range from 1st to 3rd quartile) for breast-fed vs. formula fed infants, respectively. In contrast, arachidonic acid values in plasma phospholipids (10.05 [2.90] vs. 7.03 [1.87]; P < 0.01), cholesteryl esters (7.54 [3.58] vs. 4.09 [1.81]; P < 0.05), and triacylglycerols (1.28 [0.84] vs. 0.80 [0.39]; P < 0.05), as well as docosahexaenoic acid values in plasma phospholipids (1.92 [0.36] vs. 1.02 [0.31]; P < 0.001), cholesteryl esters (0.39 [0.13] vs. 0.15 [0.13]; P < 0.001), and triacylglycerols (0.17 [0.17] vs. 0.09 [0.04]; P < 0.01) were significantly higher in infants fed human milk than in those receiving formula. CONCLUSION: Healthy, full-term infants fed formula without preformed dietary long-chain polyunsaturated fatty acids are unable to match the arachidonic and docosahexaenoic acid status of breast-fed infants even during the second half of the first year of life.     

Feeding preterm infants a formula containing C20 and C22 fatty acids simulates plasma phospholipid fatty acid composition of infants fed human milk.

Thirty-four premature infants weighing less than 1500 grams at birth were fed preterm formula (formula), preterm infant formula manufactured to contain a balance of C20 and C22 omega 6 and omega 3 fatty acids within the range characteristic of human milk (LCPE-formula) or their mothers' expressed breast milk (EBM). Blood samples were obtained during the first week of life and after 28 days of feeding to determine the effect of feeding C20 and C22 omega 6 and omega 3 fatty acids on plasma lipids. Fatty acid analyses of red blood cell phospholipids indicated few differences between dietary treatment and age. Fatty acid content of plasma cholesterol esters indicated a high plasma cholesterol linoleate level for infants fed formula and a reduced content of C20 and C22 omega 6 and omega 3 fatty acids. For infants fed the modified formula (LCPE-formula) the levels of 20:4 omega 6, 20:5 omega 3 and 22:6 omega 3 were higher than observed for the formula group and similar to those observed for infants fed EBM. By the fifth week of life, feeding the modified formula resulted in plasma phospholipid levels of C20 and C22 omega 6 and omega 3 fatty acids similar to levels of C20 and C22 omega 6 and omega 3 fatty acids found in infants fed EBM and significantly higher than levels characteristic of infants fed formula. It is concluded that infants fed LCPE-formula illustrate an overall balance between C20 and C22 omega 6 to omega 3 fatty acids in the plasma similar to that characteristic of infants fed human milk.     

Dietary supplementation of long-chain polyunsaturated fatty acids in preterm infants: effects on cerebral maturation

Aim: To study the influence of dietary-supplied long-chain polyunsaturated fatty acids on structural brain maturation in preterm infants and to investigate parameters of functional brain development, relating them to structural maturation. Other studies have suggested that dietary supplementation of long-chain polyunsaturated fatty acids in preterm infants may enhance their visual development. The influence on structural brain development has never been evaluated. Methods: In a prospective, double-blind study, 42 formula-fed premature infants were randomized to be fed either a standard preterm formula without long-chain polyunsaturated fatty acids or an identical formula supplemented with docosahexaenoic acid (0.015 g/100 ml) and arachidonic acid (0.031 g/100 ml). Infants with significant cerebral damage, retinopathy, chronic disease or feeding problems were excluded. Follow-up was focused on assessment of cerebral myelination by MRI. Psychomotor, mental and visual development was analysed and flash-visual evoked potentials were recorded. Results: It was found that progress of myelination, mental and motor development and latencies of visual evoked potentials were not positively influenced by supplementation of long-chain polyunsaturated fatty acids. At each test age, visual acuity was slightly better in the supplemented infants than in the non-supplemented infants, but the difference never reached significance level Conclusion: Supplementation of long-chain polyunsaturated fatty acids did not have a demonstrable positive influence on structural brain maturation. Related to this finding, in this small cohort of preterm infants without significant neurological damage, sample size being restricted by strict inclusion criteria and MRI procedures, no significant positive effects were found on psychomotor, mental and visual development.     

A multicenter long-term safety and efficacy trial of preterm formula supplemented with long-chain polyunsaturated fatty acids

BACKGROUND: The tissue accretion of long-chain polyunsaturated fatty acids is compromised in infants born prematurely. Human milk contains long-chain polyunsaturated fatty acids, but most preterm infant formulas do not. The long-term effects of preterm formula supplemented with arachidonic acid and docosahexaenoic acid, in proportions typical of those in human milk, were therefore investigated. METHODS: In this double-blind, randomized study, 288 preterm infants received experimental formula (n = 77), unsupplemented (control) formula (n = 78), or human milk (n = 133) until 48 weeks postconceptional age (PCA). Term formula, without supplemental long-chain polyunsaturated fatty acids, was administered from 48 to 92 weeks PCA to formula-fed infants and to infants weaned from human milk. Anthropometric and fatty acid data were assessed by using analysis of variance. RESULTS: At 92 weeks PCA, no statistically significant anthropometric measurement differences were found except for midarm circumference, which was smaller in human milk-fed infants than in those fed formula. Phospholipid concentrations were similar in the experimental and human milk-fed groups, and docosahexaenoic acid levels were significantly greater than in the control group. The types and incidences of adverse events were similar among the feeding groups. CONCLUSIONS: The results of this study demonstrate the efficacy and long-term safety of preterm formula supplemented with long-chain polyunsaturated fatty acids.     

Trans fatty acids may impair biosynthesis of long-chain polyunsaturates and growth in man

Human diet contains large amounts of trans fatty acids originating primarily from hydrogenated fats. Consumption of trans fatty acids is considered safe for man, but side effects, including impaired biosynthesis of long-chain polyunsaturated fatty acids with 20 and 22 carbon atoms and reduced growth have been observed in animals. We studied whether or not there are indications of untoward effects of trans fatty acids in 29 premature infants (birth weight 1700 +/- 127 g, gestational age 33.6 +/- 1.4 weeks, mean +/- SD). Plasma samples obtained on day 4 of life were analysed for fatty acid composition. Trans octadecenoic acid and total trans fatty acids in plasma lipid fractions (% wt/wt) were not related to the precursor essential fatty acids linoleic and alpha-linolenic acids but correlated inversely to n - 3 and n - 6 long-chain polyunsaturated fatty acids and to the product/substrate ratios of long-chain polyunsaturate biosynthesis. Trans fatty acids were also inversely correlated to birth weight but not to gestational age. These data indicate a potential impairment of essential fatty acid metabolism and early growth by trans isomers in man, and question the safety of high dietary trans isomer intakes during pregnancy and the perinatal period.     

Fatty acid balance studies in term infants fed formula milk containing long-chain polyunsaturated fatty acids

Long-chain polyunsaturated fatty acids (LCP) are thought to be required for optimal nervous system development in the newborn. A commercial milk formula containing LCP (Aptamil-LCP) with a fatty acid profile closely resembling breast milk, has recently been introduced for term infants. The absorption of fatty acids in term infants was examined in a double-blind randomized controlled trial comparing Aptamil-LCP ( n = 20) and standard Aptamil ( n = 20). Formula-fed newborn infants were studied from birth for 14 d. Fat balances (3 d) were performed from d 10. A 3-d stool collection was performed from d 10 in a parallel breastfed group ( n = 21). Plasma samples were taken on d 6. Median fat excretion (mg kg⁻¹) was 897.1, 615.0 and 355.2 with Aptamil, Aptamil-LCP and breastfeeding, respectively. The median total fat absorption coefficient in Aptamil-LCP-fed infants was higher than in those fed standard Aptamil ( p < 0:01). These findings were accounted for by differences in the excretion and absorption of long-chain saturated fatty acids (C14:0, C16:0 and C18:0). Higher fat excretion was associated with bulkier and firmer stools. Only trace amounts of LCP were detected in the stools of all groups. This accounted for less than 4% of dietary intake in Aptamil-LCP-fed infants. No differences in the utilization of LCP from Aptamil-LCP and breast milk feeding were apparent. Plasma phospholipid fatty acid composition data reflected differences in dietary LCP intake. Thus, PL LCP levels were highest in the breastfed infants and lowest in the Aptamil-fed infants, with values for the Aptamil-LCP-fed group falling in between.     

The influence of dietary nucleotides on erythrocyte membrane fatty acids and plasma lipids in preterm infants

Objective : The objective of this study was to evaluate whether a regular formula for premature infants supplemented with nucleotides has any influence on plasma lipids and erythrocyte membrane fatty acids. Methods : Preterm infants fed either human milk supplemented with human milk protein (HM, n = 14), nucleotide-supplemented preterm formula (NF, n = 13), or a regular preterm formula (F, n = 13) were included in the study. The NF was supplemented with 18.2 mg cytidine monophosphate/1 (CMP), 7.0 mg uridine monophosphate/1 (UMP), 6.4mg adenosine monophosphate/1 (AMP), 3.0mg inosine monophosphate/1 (IMP) and 3.0 mg guanosine monophosphate/1 (GMP). Results : There were significantly higher concentrations of triglycerides (TG) in infants fed NF compared to those fed F (191.42 ± 79.58 vs 108.21 ± 43.73, p < 0.001, mean ± SD lipid concentrations, mg/100ml plasma). Infants fed F had significantly lower concentrations of total cholesterol (94.34 ± 11.71 vs 115.69 ± 39.29, p < 0.01) and TG in plasma (108.21 ± 43.73 vs 172.27 ± 68.19, p < 0.001, mean ± SD lipid concentrations, mg/100ml plasma) when compared to HM-fed infants. There were no significant differences in any of the erythrocyte membrane fatty acids and total long-chain polyunsaturated fatty acids (LC-PUFA) between NF and F during the study period (6 weeks). Furthermore, total LC-PUFA and docosahexaenoic acid (DHA) concentrations in red blood cell were not significantly different when infants fed NF were compared to those fed HM. In contrast, however, infants fed F had significantly lower concentrations of total n-3 LC-PUFA ( p < 0.01) and DHA ( p < 0.01) than those found in HM-fed infants. Conclusions : These results do not suggest an effect of nucleotides on the red blood cell LC-PUFA profile in preterm infants. However, the nucleotides may increase the concentrations of triglycerides in plasma.     

Long-chain polyunsaturated fatty acids in Chinese and Swedish mothers: diet, breast milk and infant growth

Long-chain polyunsaturated fatty acids (LC-PUFAs) are essential dietary nutrients required for the optimal growth and development of infants, particularly of the brain and retina. It is important for exclusively breastfed infants to receive milk of a correct balance between omega-6 and omega-3 fatty acids. In this study, we compared the composition of LC-PUFAs in the diet and milk of mothers and their infants' growth between Chinese and Swedish. Twenty-three and 19 mother-term infant pairs from a rural area of northern Beijing, China, and Stockholm, Sweden, who were 3 mo old and exclusively breastfed, were studied. The Chinese diet was higher in carbohydrate (17% of energy) but lower in protein (4% of energy) and fat (12% of energy) than the Swedish diet. The intake of Chinese mothers contained more linoleic acid (LA, C(18 ratio 2 omega-6)) and less arachidonic acid (AA, C(20 ratio 4 omega-6)), eicosapentaenoic acid (EPA, C(20 ratio 5 omega-3)) and docosahexaenoic acid (DHA, C(22 ratio 6 omega-3)) than that of Swedish mothers. The breast milk of the Chinese mothers had significantly higher LA and lower EPA and DHA levels than that of the Swedish mothers. However, in Chinese breast milk the AA level was significantly higher than that in Swedish breast milk. The recommended ranges of the ratios of LA to alpha-linolenic acid (LNA, C(18 ratio 3 omega-3)) and of AA to DHA in human milk are 5-10 and 0.5-1 compared with 23.0 and 3.1 in the Chinese breast milk, and 7.5 and 1.6 in the Swedish breast milk, respectively.Conclusion: The diet of the studied Chinese mothers is less balanced with regard to the levels of omega-6 and omega-3 polyunsaturated fatty acids (PUFAs) than that of the Swedish mothers, which is also mirrored in the breast milk of these mothers. The clinical relevance of the difference between the levels of LC-PUFAs in the breast milk of Chinese and Swedish mothers may be elucidated by a follow-up study of the cognitive and visual functions of the infants involved.