Plasma L-arginine concentration, oxygenation index, and systemic blood pressure in premature infants

The Functional DNA Methylation Signatures Relevant to Altered Immune Response of Neonatal T Cells with l-Arginine Supplementation

l-Arginine is an important nutrient in the infant diet that significantly regulates the maturation of the immune system in neonates, including the maturation of CD4⁺ T cells. The biological activities of CD4⁺ T cells differ substantially between neonates and adults, and these differences may be governed by epigenetic processes. Investigating these differences and the causative processes may help understand neonatal and developmental immunity. In this study, we compared the functional DNA methylation profiles in CD4⁺ T cells of neonates and adults, focusing on the role of l-arginine supplementation. Umbilical cord blood and adult CD4⁺ T cells were cultured with/without l-arginine treatment. By comparing DNA methylation in samples without l-arginine treatment, we found that CD4⁺ T cells of neonatal cord blood generally showed higher DNA methylation than those of adults (average CpG methylation percentage 0.6305 for neonate and 0.6254 for adult, t-test p-value < 0.0001), suggesting gene silencing in neonates. By examining DNA methylation patterns of CpG dinucleotides induced by l-arginine treatment, we found that more CpG dinucleotides were hypomethylated and more genes appeared to be activated in neonatal T-cells as compared with adult. Genes activated by l-arginine stimulation of cord blood samples were more enriched regarding immune-related pathways. CpG dinucleotides at IL-13 promoter regions were hypomethylated after l-arginine stimulation. Hypomethylated CpG dinucleotides corresponded to higher IL-13 gene expression and cytokine production. Thus, DNA methylation partially accounts for the mechanism underlying differential immune function in neonates. Modulatory effects of l-arginine on DNA methylation are gene-specific. Nutritional intervention is a potential strategy to modulate immune function of neonates.

The role of gasotransmitters in neonatal physiology

The gasotransmitters, nitric oxide (NO), hydrogen sulfide (H₂S), and carbon monoxide (CO), are endogenously-produced volatile molecules that perform signaling functions throughout the body. In biological tissues, these small, lipid-permeable molecules exist in free gaseous form for only seconds or less, and thus they are ideal for paracrine signaling that can be controlled rapidly by changes in their rates of production or consumption. In addition, tissue concentrations of the gasotransmitters are influenced by fluctuations in the level of O₂ and reactive oxygen species (ROS). The normal transition from fetus to newborn involves a several-fold increase in tissue O₂ tensions and ROS, and requires rapid morphological and functional adaptations to the extrauterine environment. This review summarizes the role of gasotransmitters as it pertains to newborn physiology. Particular focus is given to the vasculature, ventilatory, and gastrointestinal systems, each of which uniquely illustrate the function of gasotransmitters in the birth transition and newborn periods. Moreover, given the relative lack of studies on the role that gasotransmitters play in the newborn, particularly that of H₂S and CO, important gaps in knowledge are highlighted throughout the review.

Arginine supplementation for prevention of necrotising enterocolitis in preterm infants

BACKGROUND

Decreased concentration of nitric oxide has been proposed as one of the possible cellular mechanisms of necrotising enterocolitis (NEC). Arginine can act as a substrate for production of nitric oxide in the tissues, and arginine supplementation may help to prevent NEC.

OBJECTIVES

To examine the effect of arginine supplementation (administered by any route) on the incidence of NEC in preterm neonates. To conduct subgroup analyses based on the dose of arginine and the gestational age of participants (≤ 32 weeks, > 32 weeks).

SEARCH METHODS

We used the standard search strategy of the Cochrane Neonatal Review Group to search the Cochrane Central Register of Controlled Trials (CENTRAL; 2016, Issue 4), MEDLINE via PubMed (from 1966 to 12 May 2016), Embase (from 1980 to 12 May 2016) and the Cumulative Index to Nursing and Allied Health Literature (CINAHL; from 1982 to 12 May 2016). We also searched clinical trials databases, conference proceedings and reference lists of retrieved articles for randomised controlled trials and quasi-randomised trials.

SELECTION CRITERIA

Randomised and quasi-randomised controlled trials of arginine supplementation (administered orally or parenterally for at least seven days, in addition to what an infant may be receiving from an enteral or parenteral source) compared with placebo or no treatment.

DATA COLLECTION AND ANALYSIS

We assessed the methodological quality of trials by using information obtained from study reports and through personal communication with study authors. We extracted data on relevant outcomes and estimated and reported the effect size as risk ratio (RR), risk difference (RD) and mean difference (MD), as appropriate. We used the Grading of Recommendations Assessment, Development and Evaluation (GRADE) approach to assess the quality of evidence.

MAIN RESULTS

We identified three eligible studies that included a total of 285 neonates (140 received arginine) from three countries. We assessed the overall methodological quality of the included studies as good. We noted a statistically significant reduction in risk of development of NEC (any stage) among preterm neonates in the arginine group compared with the placebo group (RR 0.38, 95% confidence interval (CI) 0.23 to 0.64; I2 = 27%) (RD -0.19, 95% CI -0.28 to -0.10; I2 = 0%) and rated the quality of evidence as moderate. The number needed to treat for an additional beneficial outcome (NNTB) as required to prevent the development of NEC (any stage) was 6 (95% CI 4 to 10). Study results showed a statistically significant reduction in risk of development of NEC stage 1 (RR 0.37, 95% CI 0.15 to 0.90; I2 = 52%) (RD -0.07, 95% CI -0.14 to -0.01; I2 = 0%) and NEC stage 3 (RR 0.13, 95% CI 0.02 to 1.03; I2 = 0%) (RD -0.05, 95% CI -0.09 to -0.01; I2 = 89%) in the arginine group compared with the control group; the quality of evidence was moderate.Arginine supplementation was associated with a significant reduction in death related to NEC (RR 0.18, 95% CI 0.03 to 1.00; I2 = 0%) (RD -0.05, 95% CI -0.09 to -0.01; I2 = 87%). Results showed clinical heterogeneity in mortality rates. Mortality due to any cause was not significantly different between arginine and control or no treatment groups (RR 0.77, 95% CI 0.41 to 1.45; I2 = 42%) (RD -0.03, 95% CI -0.10 to 0.04; I2 = 79%). Investigators noted no significant side effects directly attributable to arginine, including hypotension or alterations in glucose homeostasis. Follow-up data from one trial revealed no statistically significant differences in adverse outcomes (cerebral palsy, cognitive delay, bilateral blindness or hearing loss requiring hearing aids) at 36 months. Limitations of the present findings include a relatively small overall sample size.

AUTHORS' CONCLUSIONS

Administration of arginine to preterm infants may prevent development of NEC. Because information was provided by three small trials that included 285 participants, the data are insufficient at present to support a practice recommendation. A multi-centre randomised controlled study that is focused on the incidence of NEC, particularly at more severe stages (2 and 3), is needed.

Effect of parenterally L-arginine supplementation on the respiratory distress syndrome in preterm newborns

L-Arginine (L-Arg) is the precursor of nitric oxide which plays an important role on pulmonary circulation and pulmonary vascular tone. Earlier studies suggested that L-Arg levels in preterm newborns with respiratory distress syndrome (RDS) were low due to its consumption and L-Arg supplementation may reduce the severity of RDS. Our aim was detect the effect of the parenterally L-Arg supplementation on RDS severity. The subjects were chosen between preterm newborns (gestational age <34 weeks) (n = 30). Twenty of the subjects were diagnosed with permaturity and RDS, and 10 of the subjects were healthy preterm newborns. Ten of the subjects was taken L-Arg (1.5 mmol/kg/d) in addition to routine RDS treatment and assumed as "Group 1". In this group, daily L-Arg supplementation was started end of the first day, and continued at end of fifth day. The others of the subjects diagnosed with RDS was take routine RDS treatment and assumed as "Group 2". Healthy preterm newborns assumed as "Group 3". Blood collections for L-Arg levels via tandem mass spectrometry were made in first day and repeated on the seventh days. Oxygenation index was used to determine severity of RDS. L-Arg consentrations in Group 1 were 8.7 ± 4.1 μM/L and 11.9 ± 5.0 μM/L in first and seventh day, respectively. L-Arg consentrations were 12.6 ± 4.5 μM/Land 10.9 ± 5.4 μM/L in Group 2 and 8.6 ± 5.1 μM/L and 9.4 ± 4.1 μM/L in Group 3. There is no correlation between L-Arg concentrations and OI also duration of the mechanical ventilation of the subjects in patient groups (Group 1 and 2).

Intestinal mucosal defense system, Part 1. Consensus recommendations for immunonutrients

When microbial communities colonize in the developing intestinal tract after birth, microorganisms interact with specific apical surface receptors on the enterocytes. This interaction triggers a response that prevents overexpression of inflammatory cytokines, thus providing protection from pathogen-induced mucosal damage. Multiple immune modulatory factors in human milk and innate humoral factors also control inflammatory responses, providing additional protective effects. Our understanding of the role of the luminal microbial communities or microbiota is growing rapidly as novel technologies provide new insights into their taxonomy, function during early development, and impact on life-long health. Multiple studies have evaluated the effects of the specific nutrients, glutamine, arginine, nucleotides, polyunsaturated fatty acids, and lactoferrin, on disease outcomes in premature infants. These studies support a role for nutrients to modulate host defense mechanisms in premature infants, to develop normal digestive function, to protect from bacterial translocation, and to preserve mucosal barrier integrity. These effects are clearly important. However, not enough is yet known to design specific clinical care practices that support a healthy microbiota.

Arginine supplementation for prevention of necrotising enterocolitis in preterm infants

BACKGROUND

Immaturity, ischemia, and disturbances in gut mucosal integrity due to infections or hyperosmolar feeds are some of the suspected mechanisms in the development of necrotising enterocolitis (NEC) in preterm infants. Decreased concentration of nitric oxide is proposed as one of the possible cellular mechanisms for NEC. Plasma arginine concentrations were found to be lower in infants who developed NEC. Arginine can act as a substrate for the production of nitric oxide in the tissues and arginine supplementation may help in preventing NEC.

OBJECTIVES

To examine the effect of arginine supplementation on the incidence of NEC in preterm neonates.

SEARCH STRATEGY

A literature search was performed using the following databases: MEDLINE (1966 - April 2007), EMBASE (1980 - April 2007), CINAHL (1982 - April 2007), Cochrane Controlled Trials Register (Issue 2, 2007 of Cochrane Library) and abstracts from the annual meetings of the Society for Pediatric Research, American Pediatric Society and Pediatric Academic Societies published in Pediatric Research (1991-2007). No language restrictions were applied.

STUDY DESIGN

randomized or quasi-randomized controlled trials.

POPULATION

preterm neonates.

INTERVENTION

enteral or parenteral arginine supplementation (in addition to what an infant may be receiving from enteral or parenteral source), compared to placebo or no treatment; arginine administered orally or parenterally for at least seven days in order to achieve adequate plasma arginine levels (145 umol/l).

OUTCOMES

any of the following outcomes - NEC, death prior to discharge, death due to NEC, surgery for NEC, duration of total parenteral nutrition, plasma concentrations of arginine and glutamine at baseline and seven days after intervention, side effects of arginine.

DATA COLLECTION AND ANALYSIS

The methodological quality of the trials was assessed using the information provided in the studies and by personal communication with the author. Data on relevant outcomes were extracted and the effect size was estimated and reported as relative risk (RR), risk difference (RD) and mean difference (MD) as appropriate.

MAIN RESULTS

Only one eligible study was identified. The methodological quality of the included study was good. There was a statistically significant reduction in the risk of developing NEC (any stage) in the arginine group compared with the placebo group [RR 0.24 (95% CI 0.10, 0.61), RD -0.21 (95% CI -0.32, -0.09)]. No significant side effects directly attributable to arginine were observed. In this updated version, follow up data from this trial were available that revealed no statistically significant difference in the adverse outcomes.

AUTHORS' CONCLUSIONS

The data are insufficient at present to support a practice recommendation. A multicentre randomized controlled study of arginine supplementation in preterm neonates is needed, focusing on the incidence of NEC, particularly the more severe stages (2 or 3).

Blood L-arginine levels in early respiratory distress syndrome

L-arginine is the precursor of nitric oxide which plays an important role on pulmonary circulation and pulmonary vascular tone. Our aim was to compare the levels of L-arginine between infants with respiratory distress syndrome and infants without respiratory distress syndrome and to determine the relationship between plasma L-arginine concentrations and severity of disease. Thirty premature infants who were admitted to our neonatal intensive care unit were included the study. Seventeen of these infants with respiratory distress syndrome were study group and the other 13 infants without respiratory distress syndrome served as controls. Blood collection was made before any treatment or intervention given to infants and tandem mass spectrometry was used for laboratory testing. In the respiratory distress syndrome group mean L-arginine level was 33.0 (+/- 11.5) mM/l, and in controls it was 79.0 (+/- 23) mM/l. This difference was statistically significant (P < 0.05). There was a reverse relationship between L-arginine levels and oxygenation index (r = 0.732, P = 0.001). If level of L-arginine is low or insufficient in respiratory distress syndrome patients' nitric oxide level would decrease in pulmonary circulation and results increased pulmonary resistance and severity of respiratory distress syndrome. We concluded that L-arginine levels are low in patients with rspiratory distress syndrome and for further investigations, supplementation of respiratory distress syndrome patients with L-arginine may decrease disease severity.

Polymyxin B-immobilized fiber hemoperfusion after emergency surgery in patients with chronic renal failure

The purpose of this study was to evaluate the effect of direct hemoperfusion using a Polymyxin B (PMX) immobilized fiber column in septic patients with chronic renal failure after emergency surgery. Twenty-four renal failure patients, including 19 dialysis patients, with sepsis or septic shock were treated with direct hemoperfusion after emergency surgery. The 24 consecutive patients included nine with necrotic enterocolitis, six with colonic perforation due to diverticulitis, three with ruptured suture after colectomy, one with duodenal perforation, four with blood access infection, and one with an infected abdominal aortic aneurysm. The acute physiology and chronic health evaluation II score ranged from 13 to 26 (19 +/- 3). After completion of the first and the second hemoperfusion, mean blood pressure was significantly elevated from 69 +/- 12 mm Hg to 89 +/- 15 mm Hg and from 78 +/- 14 mm Hg to 95 +/- 13 mm Hg, respectively (P < 0.01). In addition, the catecholamine dosage needed to maintain the circulation could be decreased markedly after the treatment. The blood concentration of endotoxin in patients with Gram-negative sepsis, before and after the treatment, significantly decreased from 36 +/- 19 pg/mL to 19 +/- 19 pg/mL (P < 0.05). PMX was effective in patients with Gram-positive sepsis as well as Gram-negative sepsis. The 28-day mortality rate in patients who had emergency abdominal surgery was 10% (2/20), whereas that in patients with dialysis access infection was 50% (2/4). There was a significant difference in the Sequential Organ Failure Assessment (SOFA) score of all patients before and after treatment using PMX (9.2 +/- 3.3 vs. 7.5 +/- 3.5, P < 0.05). Furthermore, the SOFA score of survivors decreased significantly after PMX treatment (8.4 +/- 3.5 vs. 6.7 +/- 2.6, P < 0.01). Our results suggest that the early application of PMX may prevent multiple organ failure and improve survival in patients with chronic renal failure and sepsis/septic shock after emergency abdominal surgery, regardless of the type of pathogenic bacteria involved.

Arginine supplementation for prevention of necrotising enterocolitis in preterm infants

BACKGROUND

Immaturity, ischemia, and disturbances in gut mucosal integrity due to infections or hyperosmolar feeds are some of the suspected mechanisms in the development of necrotising enterocolitis (NEC) in preterm infants. Decreased concentration of nitric oxide is proposed as one of the possible cellular mechanisms for NEC. Plasma arginine concentrations were found to be lower in infants who developed NEC. Arginine can act as a substrate for the production of nitric oxide in the tissues and arginine supplementation may help in preventing NEC.

OBJECTIVES

This review examines the efficacy and safety of arginine supplementation in decreasing the incidence of NEC among preterm neonates.

SEARCH STRATEGY

A literature search was performed using the following databases: MEDLINE (1966 - June 2004), EMBASE (1980 - June 2004), CINAHL (1982 - June 2004), Cochrane Controlled Trials Register (Issue 2, 2004 of Cochrane Library) and abstracts from the annual meetings of the Society for Pediatric Research, American Pediatric Society and Pediatric Academic Societies published in Pediatric Research (1991-2004). No language restrictions were applied.

STUDY DESIGN

randomized or quasi-randomized controlled trials.

POPULATION

preterm neonates.

INTERVENTION

enteral or parenteral arginine supplementation (in addition to what an infant may be receiving from enteral or parenteral source), compared to placebo or no treatment; arginine administered orally or parenterally for at least 7 days in order to achieve adequate plasma arginine levels (145 umol/l).

OUTCOMES

any of the following outcomes - NEC, death prior to discharge, death due to NEC, surgery for NEC, duration of total parenteral nutrition, plasma concentrations of arginine and glutamine at baseline and seven days after intervention, side effects of arginine.

DATA COLLECTION AND ANALYSIS

The methodological quality of the trials was assessed using the information provided in the studies and by personal communication with the author. Data on relevant outcomes were extracted and the effect size was estimated and reported as relative risk (RR), risk difference (RD) and mean difference (MD) as appropriate.

MAIN RESULTS

Only one eligible study was identified. The methodological quality of the included study was good. There was a statistically significant reduction in the risk of developing NEC (any stage) in the arginine group compared with the placebo group (RR 0.24 [95% CI 0.10, 0.61], RD -0.21 [95% CI -0.32, -0.09]). No significant side effects directly attributable to arginine were observed.

REVIEWERS' CONCLUSIONS

The data are insufficient at present to support a practice recommendation. A multicentre randomized controlled study of arginine supplementation in preterm neonates is needed, focusing on the incidence of NEC, particularly stage 2 or 3.

Arginine deficiency in preterm infants: biochemical mechanisms and nutritional implications

Arginine, an amino acid that is nutritionally essential for the fetus and neonate, is crucial for ammonia detoxification and the synthesis of molecules with enormous importance (including creatine, nitric oxide, and polyamines). A significant nutritional problem in preterm infants is a severe deficiency of arginine (hypoargininemia), which results in hyperammonemia, as well as cardiovascular, pulmonary, neurological, and intestinal dysfunction. Arginine deficiency may contribute to the high rate of infant morbidity and mortality associated with premature births. Although hypoargininemia in preterm infants has been recognized for more than 30 years, it continues to occur in neonatal intensive care units in the United States and worldwide. On the basis of recent findings, we propose that intestinal citrulline and arginine synthesis (the major endogenous source of arginine) is limited in preterm neonates owing to the limited expression of the genes for key enzymes (e.g., pyrroline-5-carboxylate synthase, argininosuccinate synthase and lyase), thereby contributing to hypoargininemia. Because premature births in humans occur before the normal perinatal surge of cortisol (an inducer of the expression of key arginine-synthetic enzymes), its administration may be a useful tool to advance the maturation of intestinal arginine synthesis in preterm neonates. Additional benefits of cortisol treatment may include the following: 1) allowing early introduction of enteral feeding to preterm infants, which is critical for intestinal synthesis of citrulline, arginine, and polyamines as well as for intestinal motility, integrity, and growth; and 2) shortening the expensive stay of preterm infants in hospitals as a result of accelerated organ maturation and the restoration of full enteral feeding. Further studies of fetal and neonatal arginine metabolism will continue to advance our understanding of the mechanisms responsible for the survival and growth of preterm infants. This new knowledge will be beneficial for designing the next generation of enteral and parenteral amino acid solutions to optimize nutrition and health in this compromised population.

Plasma Arginine and Urinary Nitrate and Nitrite Excretion in Bronchopulmonary Dysplasia

The aim of this prospective study was to determine whether preterm infants with bronchopulmonary dysplasia (BPD) and signs of increased pulmonary artery pressure have a deficiency of plasma arginine (ARG) and systemic nitric oxide (NO) synthesis. Plasma amino acid concentrations, Doppler pulmonary systolic time intervals (ratio of acceleration time and ejection time corrected for heart rate: AT/ET(C)) and urinary nitrate and nitrite concentrations were determined at the 28th day postnatal age and at 36 weeks postmenstrual age in 73 preterm infants less than 30 weeks gestational age. The AT/ET(C) ratios were significantly lower in infants with BPD (n = 32) compared to controls. However, total amino acid concentrations, ARG intake as well as plasma ARG concentrations were not different between groups (median (interquartile-range) micromol/l): control: 58 (42.5-75.5) and 54.5 (42-71) at day 28 and 36 weeks; BPD: 54.5 (31.5-70.5) and 43 (35-62), respectively. Urinary nitrate and nitrite concentrations, were not different between groups at day 28, but significantly higher in infants with BPD at 36 weeks (p = 0.014). In conclusion, plasma ARG concentrations and systemic NO synthesis were not deficient in preterm infants with BPD and signs of elevated pulmonary artery pressure.

Immunonutrients and neonates

The gastrointestinal tract is the largest surface area of the body and the primary site for microorganisms, foreign antigens and toxins to gain entry to the host's internal milieu. The use of enteral feedings enriched with immune-enhancing ingredients is attracting considerable interest because there is increasing application of enteral feeding and appreciation of the role of the gut in the development of infection and of multiple organ failure in critically ill patients.

CONCLUSION

in this review, we will discuss nutrients, such as glutamine, arginine, omega 3 fatty acids, nucleotides, probiotics, and lactoferrin, and how they might be used as immunonutrients in neonatal clinics.

The metabolic basis of arginine nutrition and pharmacotherapy

As an essential precursor for the synthesis of proteins and other molecules with enormous biological importance (including nitric oxide, urea, ornithine, proline, polyamines, glutamate, creatine, agmatine, and dimethylarginines), arginine displays remarkable metabolic and regulatory versatility. Evidence available to date provides a sound reason to classify arginine as an essential amino acid for young mammals (including parenterally fed human infants) and as a conditionally essential amino acid for adults under such conditions as trauma, burn injury, massive small-bowel resection, and renal failure. Arginine administration reverses endothelial dysfunction, enhances wound healing, prevents the early stages of tumorigenesis, and improves cardiovascular, reproductive, pulmonary, renal, digestive, and immune functions. Arginine or its effective precursor citrulline may hold great promise as a nutritional or pharmacotherapeutic treatment for a wide array of human diseases.

Nutrient requirements for preterm infant formulas

Achieving appropriate growth and nutrient accretion of preterm and low birth weight (LBW) infants is often difficult during hospitalization because of metabolic and gastrointestinal immaturity and other complicating medical conditions. Advances in the care of preterm-LBW infants, including improved nutrition, have reduced mortality rates for these infants from 9.6 to 6.2% from 1983 to 1997. The Food and Drug Administration (FDA) has responsibility for ensuring the safety and nutritional quality of infant formulas based on current scientific knowledge. Consequently, under FDA contract, an ad hoc Expert Panel was convened by the Life Sciences Research Office of the American Society for Nutritional Sciences to make recommendations for the nutrient content of formulas for preterm-LBW infants based on current scientific knowledge and expert opinion. Recommendations were developed from different criteria than that used for recommendations for term infant formula. To ensure nutrient adequacy, the Panel considered intrauterine accretion rate, organ development, factorial estimates of requirements, nutrient interactions and supplemental feeding studies. Consideration was also given to long-term developmental outcome. Some recommendations were based on current use in domestic preterm formula. Included were recommendations for nutrients not required in formula for term infants such as lactose and arginine. Recommendations, examples, and sample calculations were based on a 1000 g preterm infant consuming 120 kcal/kg and 150 mL/d of an 810 kcal/L formula. A summary of recommendations for energy and 45 nutrient components of enteral formulas for preterm-LBW infants are presented. Recommendations for five nutrient:nutrient ratios are also presented. In addition, critical areas for future research on the nutritional requirements specific for preterm-LBW infants are identified.

Arginine supplementation prevents necrotizing enterocolitis in the premature infant

OBJECTIVES

To determine whether supplementation with L -arginine reduces the incidence of all stages of necrotizing enterocolitis (NEC) in premature infants with birth weight < or =1250 g and gestational age < or =32 weeks.

STUDY DESIGN

In a randomized, double-blind, placebo-controlled study, 152 premature infants were prospectively, randomly assigned to receive either supplemental L -arginine (1.5 mmol/kg per day; n =75 [group A]) or placebo (control group; n = 77 [group B]) with oral feeds/parenteral nutrition during the first 28 days of life. Nutrient intake, plasma ammonia, arginine, and amino acid concentrations were measured in all infants at days 3, 14, and 28 and at the time of diagnosis of NEC.

RESULTS

NEC developed in 5 infants in group A compared with 21 infants in group B (P <.001). Arginine intake and plasma arginine concentrations were similar in both groups at study entry and (as expected) increased in group A at days 14 and 28. Plasma arginine concentrations were lower in both groups at time of diagnosis of NEC. No significant differences in maternal and neonatal demographics, nutrient intake, plasma ammonia and total and essential amino acid concentrations were present between the two groups.

CONCLUSIONS

Arginine supplementation (1.5 mmol/kg per day) in premature infants reduces the incidence of all stages of NEC.

Arginine nutrition in development, health and disease

As a precursor of nitric oxide, polyamines and other molecules with enormous biologic importance, L-arginine plays versatile key roles in nutrition and metabolism. Arginine is an essential amino acid in the fetus and neonate, and is conditionally an essential nutrient for adults, particularly in certain disease conditions. L-Arginine administration is beneficial in improving reproductive, cardiovascular, pulmonary, renal, gastrointestinal, liver and immune functions, and in facilitating wound healing. The effect of L-arginine in treating many common health problems is unique among amino acids, and offers great promise for improved health and well-being in the future.