John Mills acted as co-reviewer. He collaborated with Ms Faber in writing the protocol and review.
The early institution of enteral feeding in the first few days of life is known to impact on the development of unconjugated hyperbilirubinaemia. However, the effect of early intravenous nutrition on neonatal jaundice remains unknown.
To determine the effect of early intravenous nutrition on neonatal jaundice.
The standard search strategy of the Cochrane Neonatal Review Group was used including searches of the Cochrane Controlled Trials Register (Cochrane Library: Issue 3, 2002), MEDLINE (1966-December 2002), and EMBASE (1974-December 2002).
Randomised or quasi-randomised controlled trials evaluating the effect of early intravenous nutrition on unconjugated bilirubin.
The search strategy identified no eligible studies, thus no data were collected.
No studies were identified.
Decisions regarding the institution of early intravenous nutrition must continue to be based upon factors others than its effect on neonatal jaundice.
Approximately 65% of newborn infants develop clinically evident jaundice in the first week of life (Maisels 1992). In the majority of cases, the jaundice results from the increased production and decreased excretion of bilirubin which occurs in all newborns ('physiological' jaundice). In some infants however, jaundice is due to significant underlying disease such as infection, haemolysis or an inborn error of metabolism ('pathological' jaundice). If the hyperbilirubinaemia is principally unconjugated, and if it exceeds the binding capacity of albumin, the unbound fraction can cross the blood brain barrier and have a direct neurotoxic effect on the brain. This can cause a neonatal encephalopathy which may have significant neurodevelopmental sequelae.
Bilirubin metabolism is affected by caloric intake (Barrett 1971). The effect of timing of introduction of enteral feeds on neonatal jaundice is well recognised; Goodhart et al advocated early feeding of low birthweight infants as a treatment for neonatal jaundice in the early 20th century (Goodhart 1913). Subsequently, the early institution of enteral feeds was shown to decrease the severity and duration of neonatal jaundice (Wharton 1965; Wennberg 1966). This is due to a reduction in intestinal transit time with a resulting decrease in the enterohepatic circulation of bilirubin (Wennberg 1966), and may also be related to the effect of positive nitrogen balance on the hepatic conjugation of bilirubin.
In some newborn infants, enteral feeds cannot be commenced. This is most often due to concurrent illness (e.g. respiratory failure requiring ventilatory support) but may also be necessary if some gastrointestinal pathology precludes feeding (e.g. gastroschisis, oesophageal atresia). In these infants, the institution of enteral feeds may be delayed for many days and caloric support is achieved by the use of intravenous nutrition solutions. Such solutions contain dextrose, electrolytes, amino acids, fats and vitamins. The side-effects of chronic intravenous nutrition administration on the liver (cholestasis) are well known (Brown 1986); however, the short term effect on the rate of bilirubin conjugation in the first few days of life is unclear.
This systematic review examined the impact of early intravenous nutrition on the subsequent development of unconjugated hyperbilirubinaemia. Randomised controlled trials comparing intravenous nutrition which included amino acids and/or fats with routine intravenous fluids were included. The review also separately examined trials including preterm infants.
The primary objective of this systematic review was to answer the question:
Does the introduction of intravenous nutrition compared with routine intravenous
fluids to newborn infants less than 72 hours old who are not being enterally
fed decrease the severity, duration and need for treatment of neonatal jaundice?
The same question was also examined in a subset of trials enrolling preterm
infants.
Randomised and quasi-randomised controlled trials
Newborn infants, less than 72 hours of age, who were not receiving enteral feeds. Preterm infants were defined as those less than 37 weeks gestational age
Primary outcomes:
The standard search strategy of the Neonatal Review Group, as outlined in the Cochrane Library, was used. The following sources were searched for eligible reports in any language:
The standard methods of the Cochrane Neonatal Review Group were used. The methodological quality of each eligible trial was to have been assessed by both authors, with the second author blinded to trial author and institution. The following criteria were to have been used to assess trial methodology: blinding of randomisation, blinding of intervention, completeness of follow up and blinding of outcome assessment. It was planned that both authors would have independently extracted the data and compared results, resolving disagreements by consensus. Contact was to have been made with the primary author of each eligible trial to review the eligible trial list for completeness and to provide additional data if required. The standard statistical methods of the Cochrane Collaboration were to have been used. For categorical data, the relative risk (RR), risk difference (RD) and number needed to treat (NNT) were to have been calculated. For outcomes measured on a continuous scale, the weighted mean difference (WMD) was to have been calculated. 95% confidence intervals were to have been used. A fixed effects model was to have been assumed for the meta-analysis. A subgroup analysis, restricted to preterm infants, was planned.
Eight studies were identified using the described search strategy. Four of these were ineligible for inclusion in the review (Alvear 1974; Closa 1976; Ogata 1983; Yu 1979). The first, Closa et al (Closa 1976), was an uncontrolled case series. In two (Alvear 1974; Yu 1979), intravenous nutrition was compared with enteral feeds rather than with routine intravenous fluids, and in a further study (Ogata 1983) two different intravenous nutrition solutions were compared.
This left four trials which were eligible for inclusion (Black 1981; Pildes 1973; Rivera 1993; Van Lingen 1992). Two (Rivera 1993; Van Lingen 1992) were excluded as no outcomes relevant to this review were reported. The study of Black et al (Black 1981) reported relevant outcomes but was excluded because the infants were randomised after 72 hours of age. The study of Pildes et al (Pildes 1973) was excluded because some infants in both arms of the study received enteral feeds but no data were separately reported for the subgroup who did not.
Not applicable
No studies were included.
Bilirubin metabolism is affected by caloric intake. For infants receiving enteral feeds this may be mediated by a direct effect on nitrogen balance, as well as the indirect effect of decreased intestinal transit time on the enterohepatic circulation of bilirubin. Intravenous nutrition is commonly used in newborn infants who cannot be enterally fed, and is often commenced within the first few days of life at a time when unconjugated hyperbilirubinaemia is almost invariably present. Although the early institution of intravenous nutrition might be expected to result in lower levels of unconjugated hyperbilirubinaemia, no controlled or uncontrolled data have been published investigating this potential benefit. Future clinical trials investigating the merits of early institution of intravenous nutrition should include outcomes related to neonatal jaundice.
Many factors determine the optimum timing of institution of intravenous nutrition in newborn infants. These include the gestational age of the infant, the perceived adequacy of intrauterine nutrition, and the presence of co-existing morbidities such as sepsis, thrombocytopenia and respiratory disease. There is no evidence from clinical trials regarding the effect of early intravenous feeding on the prevention of neonatal jaundice. Decisions regarding the institution of early intravenous nutrition must therefore continue to be based upon these other factors.
Future randomised trials investigating the early institution of intravenous nutrition should include outcomes related to neonatal jaundice.
Nil
None
Study | Reason for exclusion |
Alvear 1974 | Infants randomised to intravenous nutrition or enteral feeding (rather than routine intravenous fluids). |
Black 1981 | Infants randomised after 72 hours of age. |
Closa 1976 | Uncontrolled case series |
Ogata 1983 | Infants randomised to two different TPN solutions. |
Pildes 1973 | Some infants were receiving enteral feeds. No separate data reported for exclusive intravenous nutrition group. |
Rivera 1993 | Eligible trial but no outcomes relevant to this review reported. |
Van Lingen 1992 | Eligible trial but no outcomes relevant to this review reported. |
Yu 1979 | Infants randomised to intravenous nutrition or enteral feeding (rather than routine intravenous fluids). |
Alvear DT, Morris N, Pilling GP, Cresson SL. Total parenteral hyperalimentation versus conventional techniques. Pa Med 1974;77:34-37.
Black 1981 {published data only}
Black DD, Suttle EA, Whitington PF, Whitington GL, Korones SD. The effect of short-term total parenteral nutrition on hepatic function in the human neonate: a prospective randomized study demonstrating alteration of hepatic canalicular function. J Pediatr 1981;99:445-449.
Closa 1976 {published data only}
Closa SJ, Meredith C, Rio ME, Serramalera ME. Parenteral nutrition in infants: biochemical findings. Acta Chir Scand Suppl 1976;466:110-111.
Ogata 1983 {published data only}
Ogata ES, Boehm JJ, Deddish RB, Wiringa KS, Yanagi RB, Bussey ME. Clinical trial of a 6.5% amino acid infusion in appropriate-for-gestational-age premature neonates. Acta Chir Scand Suppl 1983;517:39-48.
Pildes 1973 {published data only}
Pildes RS, Ramamurthy RS, Cordero GV, Wong PW. Intravenous supplementation of L-amino acids and dextrose in low-birth-weight infants. J Pediatr 1973;82:945-950.
Rivera 1993 {published data only}
Rivera A Jr, Bell EF, Bier DM. Effect of intravenous amino acids on protein metabolism of preterm infants during the first three days of life. Pediatr Res 1993;33:106-111.
Van Lingen 1992 {published data only}
Van Lingen RA, Van Goudoever JB, Luijendijk IH, Wattimena JL, Sauer PJ. Effects of early amino acid administration during total parenteral nutrition on protein metabolism in pre-term infants. Clin Sci 1992;82:199-203.
Yu VY, James B, Hendry P, MacMahon RA. Total parenteral nutrition in very low birthweight infants: a controlled trial. Arch Dis Child 1979;54:653-661.
* indicates the primary reference for the study
Barrett PVD. Hyperbilirubinaemia of fasting. JAMA 1971;217:1349-1353.
Brown MR, Thunberg BJ, Golub L, Maniscalco WM, Shapiro DL. Decreased cholestasis with oral instead of intravenous protein in the very low birth weight infant. Pediatr Res 1986;20:236A.
Dennery PA, Seidman DS, Stevenson DK. Neonatal hyperbilirubinaemia. N Engl J Med 2001;344:581-590.
Goodhart JF. In: Still G F, editor(s). The Diseases of Children. 10th edition. London: Churchill, 1913:36.
Maisels MJ. Neonatal jaundice. In: Sinclair JC, Bracken MB, editor(s). Effective Care of the Newborn Infant. New York: Oxford University Press, 1992:507-561.
Wennberg RP, Schwartz R, Sweet AY. Early versus delayed feeding of low birth weight infants: Effects on physiological jaundice. J Pediatr 1966;68:860-866.
Wharton BA, Bower BD. Immediate or later feeding for premature babies? A controlled trial. Lancet 1965;2:969-972.
This review is published as a Cochrane review in The
Cochrane Library 2003, Issue 3, 2003 (see www.CochraneLibrary.net for information).
Cochrane reviews are regularly updated as new evidence emerges and
in response to comments and criticisms, and The Cochrane Library should be
consulted for the most recent version of the Review. |