Visual acuity and fatty acid status of term infants fed human milk and formulas with and without docosahexaenoate and arachidonate from egg yolk lecithin.

Preterm infants fed formulas with docosahexaenoic acid (DHA, 22:6n-3) during the interval equivalent to the last intrauterine trimester and beyond have higher circulating DHA and transiently higher visual acuity compared with infants fed formulas containing linolenic acid. In term infants several nonrandomized studies of infants receiving DHA from human milk suggest a relationship between DHA status and acuity, but the evidence for a cause-and-effect relationship is mixed. In the present study, term infants were randomly assigned to a standard term formula (n = 20) or the same formula with egg yolk lecithin to provide DHA (0.1%) and arachidonic acid (AA, 20:4n-6, 0.43%) (n = 19) at levels reported in milk of American women. A third group of infants was breast fed for > or = 3 mo (n = 19). Grating visual acuity (Teller Acuity Card procedure) and plasma and red blood cell (RBC) phosphatidylcholine (PC) and phosphatidylethanolamine (PE) DHA and AA were determined at corrected ages of 2, 4, 6, 9 (acuity only), and 12 mo past term = 40 wk postmenstrual age (PMA). At 2 mo breast-fed infants and infants fed the supplemented formula had higher grating acuity than term infants fed standard formula. As in preterm infants, the increase was transient. Plasma PC DHA and AA and RBC PE AA increased by 2 mo in supplemented infants, but RBC PE DHA in supplemented infants was not higher than in controls until 4 mo and beyond. Despite normal intrauterine accumulation of DHA and AA, infants fed formula with 2% linolenic acid and 0.1% DHA had better 2-mo visual acuity than infants fed formula with 2% linolenic acid.

Long-chain fatty acids and early visual and cognitive development of preterm infants.

Preterm infants fed formula supplemented with DHA were shown in two randomized, clinical trials to have improved visual acuity in the first half of infancy. In the second clinical trial, infants simultaneously supplemented with DHA and provided with a nutrient-enriched preterm formula had a higher Bayley MDI score at 12 months than controls fed preterm formula. These data are the first evidence that DHA alone can also improve performance on early tests of mental development. Because visual and behavioural development are improved by providing this single dietary compound, DHA appears to be conditionally essential for preterm infants. Nevertheless, we would like to insert a few words of caution. More information about long chain n-3 and n-6 fatty acid requirements and balance for developing human infants is needed. As formulas are designed to meet n-3 and n-6 fatty acid needs, controlled studies of biochemistry and function should continue.

Effect of vitamin A supplementation of intravenous lipids on early vitamin A intake and status of premature infants.

Preterm infants were randomly assigned to receive routine vitamin A supplementation (Regular A) or additional vitamin A in intravenous lipids (High A). Because infants with bronchopulmonary dysplasia (BPD) have poorer vitamin A status than infants who do not develop BPD, High A and Regular A infants were divided by BPD (no or yes) before determining the effects of treatment on intake and plasma concentration of retinol in the first month. Compared with infants without BPD, those with BPD received less retinol (RE.kg-1.d-1) if assigned to Regular A and more if assigned to High A (BPD by vitamin A interaction, P < 0.002). High A-BPD infants compared with Regular A-BPD infants had significantly higher plasma retinol concentrations in the first month. Retinyl palmitate appears to be an effective adjunct to routine vitamin A administration. Infants most likely to benefit from receiving vitamin A in intravenous lipids are those advanced more slowly to full enteral feeding.

Arachidonic acid status correlates with first year growth in preterm infants.

Diets deficient in the omega-6 fatty acid linoleic acid reduce arachidonic acid (Ach) concentrations and retard growth of developing animals and humans. Nevertheless, plasma phosphatidylcholine Ach concentrations declined from 84 +/- 23 mg/liter at birth to a nadir of 38 +/- 11 mg/liter at 4 mo of age in preterm infants fed commercial formulas with linoleic acid, and weight normalized to that of term infants fell progressively beginning at 2 mo of age. The nadir of plasma phosphatidylcholine Ach (31 +/- 7 mg/liter) and growth were further reduced by formula containing marine oil compared with the commercial formulas. Ach status (defined as the mean plasma phosphatidylcholine Ach concentration at 2, 4, and 6.5 mo) correlated with one or more measures of normalized growth through 12 mo. Ach status and maternal height accounted for as much as 59% of the weight variance and 68% of the length variance in infants fed standard formulas. Better Ach status was not from higher energy intakes. A conditional Ach deficiency in preterm infants may contribute to growth over the first year of life. On the strength of the relationship between Ach status and growth, we hypothesize that dietary Ach could improve first year growth of preterm infants.

Effect of vegetable and marine oils in preterm infant formulas on blood arachidonic and docosahexaenoic acids.

Adding docosahexaenoic acid (DHA) (22:6n-3) to formulas is more effective than increasing formula alpha-linolenic acid (18:3n-3) in maintaining blood phospholipid DHA levels similar to those in breast-fed infants. However, in long-term trials supplementary DHA given as marine oil reduces blood phospholipid arachidonic acid (AA) in preterm infants. This effect is not seen in short-term trials unless the total n-3 intake from marine oil exceeds 0.5% of the total fatty acids. In addition, there is considerable variability among individual preterm infants in blood phospholipid AA and DHA levels that is not dependent on diet. Within dietary treatments, a significant positive correlation between AA and DHA concentrations suggests that factor(s) other than marine oil supplementation affect both AA and DHA status. Docosahexaenoic acid and AA concentrations in plasma phospholipids are significantly correlated with DHA and AA concentrations in red blood cell phospholipids, suggesting that the observed individual differences in DHA and AA within groups represent true differences in fatty acid status. Preterm infants appear to be vulnerable to a poor status of both DHA and AA; further feeding trials are needed to identify the optimal balance of fatty acids for feeding these infants.

Long-term feeding of formulas high in linolenic acid and marine oil to very low birth weight infants: phospholipid fatty acids.

Red blood cell (RBC) phospholipids of infants fed human milk compared with formula have more arachidonic acid (AA) and docosahexanoic acid (DHA). The addition of low levels of marine oil to infant formula with 0.6 to 2.0% alpha-linolenic acid (LLA, 18:3n-3) prevented declines in DHA in formula-fed infants; however, the feeding trials were short (4 to 6 wk), LLA concentrations were low compared with current formulas (3.0 to 5.0% LLA), and the formulas were unstable. Trials with stable formulas were necessary to determine if dietary DHA could maintain phospholipid DHA after discharge from the hospital and, in fact, if it was necessary with higher intakes of LLA. The results of acute (4 wk) and extended (to 79 wk postconception) feeding of such formulas on RBC and plasma phospholipid AA and DHA are reported here. Control formulas were identical to commercially available formulas. Experimental formulas differed only in the addition of small amounts of marine oil. DHA in RBC and plasma phosphatidylethanolamine (PE) declined during four weeks of feeding but not if marine oil provided DHA (0.2% or 0.4%) and plasma phospholipid AA (g/100 g) decreased with time and marine oil feeding. Extended feeding with marine oil accounted for half the DHA in RBC and plasma phosphatidylethanolamine at equilibrium; however, RBC (g/100 g) and plasma AA (g/100 g; mg/L plasma) decreased progressively until late infancy and were depressed further by marine oil.(ABSTRACT TRUNCATED AT 250 WORDS)

Vitamin A status of preterm infants during infancy.

Plasma retinol and retinol-binding protein (RBP) were measured in 67 enterally fed preterm infants (750-1398 g) at 33 +/- 2 wk postconceptional age (PCA), and at regular intervals during infancy. Retinol and RBP declined by 35 +/- 2 wk PCA and remained low at 38 wk after discharge, with the infants fed a term-infant formula. At 38 +/- 2 wk PCA, 48% (32 of 67) of these infants had plasma retinol concentrations less than 0.35 mumol/L. Mean retinol and RBP rose over the next 7 mo, but large numbers of infants (26 of 59 at 48 wk, 10 of 61 at 57 wk) had hyporetinolemia (0.35-0.67 mumol/L). Plasma RBP leveled off at 57 +/- 2 wk PCA and remained low (less than 0.95 mumol/L) in many infants throughout the first year of life. Lower plasma retinol and RBP concentrations at 33 and 38 wk correlated with longer periods of intravenous nutrition. At 57 and 69 wk, lower retinol and RBP correlated with higher birth order. Suboptimal vitamin A status may occur for many months after preterm infants are discharged from the hospital.

Hereditary polydactyly in Simmental cattle.

Five breeding trials were conducted in an attempt to clarify the mode of inheritance of bovine polydactyly. Two trials involved polydactylous females, superovulation, embryo transfer, and early fetal recovery. The other three trials were father-daughter mating, mother-son mating, and polydactylous X polydactylous matings. The results suggest that the mode of inheritance of bovine polydactylism is polygenic, requiring a dominant gene at one locus and two recessive genes at another locus.

Tungiasis in Tennessee.

Tungiasis, an infestation by a burrowing flea, may cause multiple, painful lesions which, if they become secondarily infected, may eventuate in death. With increasing air travel to tropical areas, American physicians should recognize the lesion of this intracutaneous parasite. The fully developed lesion resembles an abscess with a black center. An infestation diagnosed in Memphis, Tennessee, is reported in a businessman who had returned from Brazil. Treatment consists of excision of the gravid female flea and careful cleaning of the cystic cavity. Healing is usually complete without sequelae. In an early infestation, the smaller gravid female, like a splinter, can be removed with a sterile needle. Tetanus prophylaxis may be indicated, depending on the wound and its location.