Gary M. Chan

Growth and bone mineral status of discharged very low birth weight infants fed different formulas or human milk

The objective of this study was to determine whether the growth and bone mineral status of discharged preterm infants fed human milk differed from those of infants fed one of three different formulas varying in calcium content (545 mg/L, 660 mg/L, or 1290 mg/L). A randomized, blinded study was conducted for 16 weeks after discharge in 16 human milk-fed and 43 formula-fed infants. All formula-fed infants received one of the three study formulas from discharge to 8 weeks afterward, and the standard formula, which contained 545 mg/L calcium, from 8 to 16 weeks. The human milk-fed infants gained weight more slowly than the formula-fed infants. The human milk-fed infants also had lower gains in length and higher serum alkaline phosphatase values than the formula-fed infants. The infants who received the formula containing the highest calcium concentration (1290 mg/L) had greater bone mineral density during the first 8 weeks of the study. We conclude that preterm infants recently discharged from the hospital may benefit from higher calcium intake than is provided by either human milk or standard term formula.

Adequate bone mineralization in breast-fed infants

To determine if human milk provides sufficient nutrients for adequate bone mineralization in healthy term infants, 76 term Caucasian infants were evaluated at 2 and 16 weeks of age. The infants and their mothers were divided according to the infants diet into three groups: human milk alone, human milk with supplemental vitamin D, and Similac. At 2 and 16 weeks of age, bone mineral content was measured by photon absorptiometry and blood was drawn for measurement of serum calcium, phosphate, alkaline phosphatase, and 25-OH vitamin D. At both 2 and 16 weeks of age, BMC was similar among all three feeding groups. At 16 weeks of age there was no difference in serum total Ca, ionized Ca, P, or alkaline phosphatase values. At 16 weeks of age the serum 25-OH D concentration was lower in the infants fed human milk alone (P less than 0.05), but was within the normal adult range. Maternal BMC and serum 25-OH D values are similar among the three groups. No seasonal effect on BMC was observed. Our data suggest that during the first 16 weeks of life, routine vitamin D supplementation for breast-fed term Caucasian infants may not be necessary.

Nutritional therapy for burns in children and adults

Burns are a serious injury that requires optimal nutritional support. This review discusses the nutritional care for adults and children with major burns. A burned patients metabolism is greatly accelerated with increased requirements for energy, carbohydrates, proteins, fats, vitamins, minerals, and antioxidants. Early nutrition by parenteral and enteral feedings is vital. Careful assessment of the nutritional state of the burn patient is also important to reduce infection, recovery time, and long-term sequelae.

Selenium status of preterm infants fed human milk, preterm formula, or selenium-supplemented preterm formula*

The selenium status of 46 orally fed vitamin E-sufficient preterm infants (birth weight less than 1700 gm) was studied longitudinally for 3 weeks to determine the efficacy of selenium supplementation. Infants were fed either human milk (n = 21; 24 ng selenium/ml), preterm formula (n = 13; 7.8 ng selenium/ml), or preterm formula supplemented with sodium selenite (n = 12; 34.8 ng selenium/ml). Plasma and erythrocyte selenium and glutathione peroxidase activity and urinary and dietary selenium content were evaluated on study day 1 (day enteral feeds reached 100 kcal/kg/day) and weekly for 3 weeks. Throughout the study, selenium intakes of infants fed preterm formula plus sodium selenite were greater than those of infants fed human milk, which were greater than those of infants fed preterm formula (p less than 0.001). After 3 weeks no differences were observed among groups for plasma or erythrocyte selenium or glutathione peroxidase. Plasma selenium and glutathione peroxidase values within all groups were low compared with those reported for term infants fed human milk. Whereas urinary selenium levels of infants fed preterm formula plus sodium selenite were greater than those of infants fed preterm formula at weeks 1 and 2 (p less than 0.01), infants fed human milk and preterm formula had lower levels at week 3 than on study day 1 (p less than 0.05). We conclude that blood selenium measurements typically used to monitor selenium status do not reflect dietary selenium intakes of orally fed preterm infants.

Calcium and phosphorus requirements in bone mineralization of preterm infants

We studied postnatal bone mineralization, as measured by photon absorptiometry, in 36 preterm infants (birth weight less than 1600 gm) who were fed (1) a commercial premature formula containing 117 mg calcium and 58.8 mg phosphorus per 100 kcal, (2) the same formula containing a higher concentration of phosphorus (82 mg/100 kcal), (3) the same formula with higher concentrations of calcium (140 mg/100 kcal) and phosphorus (82 mg/100 kcal), or (4) their mothers milk. Serum calcium, phosphorus, protein, albumin, bicarbonate, 25-hydroxyvitamin D, and alkaline phosphatase levels were measured at the start of the study and every 2 weeks until the infants achieved a weight of 1900 gm. Birth weights and gestational ages were similar in all four groups. The human milk group had lower serum phosphate and bone mineral values than those in the three formula groups. Bone mineral content was similar in the three formula groups. However, only the formulas of the first and third groups allowed approximation of the intrauterine bone mineralization curve. Bone mineral content in infants fed human milk was below the intrauterine rate.

Alterations in vitamin D and calcium metabolism with magnesium sulfate treatment of preeclampsia

OBJECTIVE Our purpose was to determine the effects of magnesium sulfate therapy on preeclamptic women and their fetuses with regard to the hormones and ions involved with calcium homeostasis, including 1,25-dihydroxyvitamin D, 25-hydroxyvitamin D, parathyroid hormone, and calcium. STUDY DESIGN The study group comprised 15 preeclamptic women at term treated with magnesium sulfate during labor. Controls were seven normal women in term labor. The hormones and ions were measured in maternal blood obtained at the onset of labor and at delivery and in umbilical venous (fetal) blood. RESULTS Baseline maternal levels of 25-hydroxyvitamin D and parathyroid hormone were lower in preeclamptics than in controls. Magnesium infusion led to significant elevations in magnesium, 1,25-dihydroxyvitamin D, 25-hydroxyvitamin D, and parathyroid hormone levels and lowered calcium concentrations. Fetuses of treated subjects demonstrated reductions in serum total and ionized calcium and elevations of 1,25-dihydroxyvitamin D and parathyroid hormone. CONCLUSION Magnesium sulfate infusion causes reductions in both maternal and fetal calcium levels. Both mother and fetus respond with increased 1,25-dihydroxyvitamin D and parathyroid hormone levels, which may prevent more severe maternal, fetal, and neonatal hypocalcemia.

Effects of increased calcium and phosphorous formulas and human milk on bone mineralization in preterm infants.

Summary: By photon absorptiometry, extrauterine bone mineralization was evaluated in preterm infants (< 1,600 g birth weight) fed either (a) a commercial premature formula containing 117 mg calcium, 58.5 mg phosphorus/100 kcal, (b) the same formula containing higher phosphorus (82 mg/100 kcal), (c) the same formula with higher calcium (140 mg Ca) and phosphorus (82 mg/100 kcal), or (d) their own mothers milk. All infants had serum protein, albumin, calcium, phosphorus, bicarbonate, 25-hydroxy-vitamin D, and alkaline phosphatase levels done at the start of the study and every 2 weeks until they weighed 1,900 g. At the start of the study, birth weight and gestational ages were similar in all four groups. There were no biochemical differences among the four groups except for a lower serum P in the human milk group. The human milk group had lower bone mineralization rate compared with the three formula groups. Bone mineral content was similar in the three formula-fed groups. However, only formulas containing 117 mg Ca and 58.5 mg P or 140 mg Ca and 82 P mg/100 kcal approximated intrauterine bone mineralization. Human milk fed infants did not approximate and were significantly different from the intrauterine rate.

Postpartum body composition changes in lactating and non-lactating primiparas

The objective of this study is to evaluate the postpartum body composition changes in lactating versus non-lactating or formula-feeding primiparas during the first 12 wk. Twenty primiparous females (age range 17-35 y) who decided to nurse or formula feed their infant were studied. The non-lactating mothers (n = 6) were younger (21 versus 29 y) and had a lower prepregnancy weight (55 kg versus 63 kg) than the lactating mothers (n = 14). Body weight, height, waist and hip measurements, 3-d dietary and activity records, skin-fold thickness from triceps, suprailiac, midthigh, and midupper arm circumference, and total body composition were evaluated at three time periods (at delivery, at 6 wk, and at 12 wk postpartum). Total body composition for bone mineral, lean, and fat mass was measured by dual energy x-ray absorptiometry. At delivery and 6 wk postpartum, the weights and heights were similar between the two groups. By 12 wk postpartum, the formula-feeding group had a weight loss that was different from delivery, 66 +/- 10 kg to 59 +/- 8 kg, P < 0.03. There was no significant weight change in the lactating group during the study. The weight loss consisted of more lean mass than fat mass. The total body bone mineral content did not differ between the two groups during the study. Both groups had reduction in their waist size from delivery to 12 wk postpartum. But only the non-lactating mothers had reductions in their hip and midthigh measurements. There were no changes between the two groups in the skin-fold measurements. Lactating mothers had a higher total daily calories (1974 +/- 318 versus 1464 +/- 178 calories, P < 0.002) and fat intake (63 +/- 14 versus 47 +/- 9 g, P < 0.02) than the non-lactating mothers. The energy expenditure was similar between both groups. In conclusion, during the first 12 wk postpartum, non-lactating mothers who were younger and weighed less prepregnancy lost body weight and had more waist, hip, and midthigh size reductions compared to lactating mothers.

Selenium status of term infants fed human milk or selenite-supplemented soy formula†††

Infants fed a soy formula supplemented with selenite had plasma and erythrocyte selenium values lower than those of infants fed human milk. However, plasma and erythrocyte glutathione peroxidase activities were normal, indicating that the physiologic requirement for selenium was being met.

Evaluation of transthyretin as a monitor of protein-energy intake in preterm and sick neonatal infants.

In the past, weight and weight gain have been the two parameters used frequently in neonatal units to monitor nutrition among high-risk infants. Our investigation sought to assess how several anthropometric measures (weight, length, head circumference, arm:head circumference ratio, and tricep skinfold) and serum albumin, transthyretin, and transferrin concentrations reflect protein and energy intake. After monitoring 42 preterm and 40 sick infants over 3 consecutive weeks, we found that transthyretin concentration proved the only serum protein which accurately measured energy and protein intakes in less than 1 week from dietary manipulation. Among preterm infants, as protein and energy intakes rose, transthyretin concentration increased significantly (p less than 0.001). Preterm infants ingested 79 +/- 39 kcal/kg/day and 2.04 +/- 1.02 g protein/kg/day at the first assessment point after birth and rose to 103 +/- 34 kcal/kg/day and 2.64 +/- 0.94 g protein/kg/day. Likewise, transthyretin measured 10.83 +/- 3.91 mg/dl at the initial measurement and rose to 14.80 +/- 4.44 at the second measurement time. Although protein intakes measured slightly lower in the sick group, their intakes correlated to transthyretin concentration (assessment time 1, r = 0.39; time 2, r = 0.33; time 3, r = 0.33). Thus, transthyretin concentration in neonatal infants offers a rapid, accurate, and moderately inexpensive way to monitor protein-energy adequacy.