Decreased response to phototherapy for neonatal jaundice in breast-fed infants

Effect of phototherapy with turquoise vs. blue LED light of equal irradiance in jaundiced neonates

BACKGROUND

Blue light with peak emission around 460 nm is the preferred treatment of neonatal hyperbilirubinemia. However, studies using fluorescent light tubes have suggested that turquoise light with peak emission at 490 nm may be more efficient. At present, the predominant light source for phototherapy is light emitting diodes (LEDs). Hence, the aim of this study was to compare the bilirubin-reducing effect in jaundiced neonates treated either with turquoise or with blue LED light with peak emission at 497 or 459 nm, respectively, with equal irradiance on the infants.

METHODS

Infants with gestational age ≥33 wk and uncomplicated hyperbilirubinemia were randomized to either turquoise or blue LED light and were treated for 24 h. The mean irradiance footprint at skin level was 5.2 × 10(15) and 5.1 × 10(15) photons/cm(2)/s, respectively.

RESULTS

Forty-six infants received turquoise light and 45 received blue light. The median (95% confidence interval) decrease of total serum bilirubin was 35.3% (32.5; 37.3) and 33.1% (27.1; 36.8) for infants treated with turquoise and blue lights, respectively. The difference was nonsignificant (P = 0.53). The decrease was positively correlated to postnatal age and negatively to birth weight.

CONCLUSION

Using LED light of equal irradiance, turquoise and blue lights had equal bilirubin-reducing effect on hyperbilirubinemia of neonates.

Dose-response relationship of phototherapy for hyperbilirubinemia

BACKGROUND AND OBJECTIVE

Using light-emitting diodes during conventional phototherapy, it is possible to reduce the distance from light source to infant, thus increasing light irradiance. The objective of this study was to search for a "saturation point" (ie, an irradiation level above which there is no further decrease in total serum bilirubin [TsB]). This was a prospective randomized study performed in the NICU of Aalborg Hospital, Denmark.

METHODS

One hundred fifty-one infants (gestational age ≥ 33 weeks) with uncomplicated hyperbilirubinemia were randomized to 1 of 4 distances from the phototherapy device to the mattress (20, 29, 38, and 47 cm). TsB was measured before and after 24 hours of phototherapy and irradiance every eighth hour. Main outcome was 24-hour decrease of TsB expressed in percent, ( TsB(0-24), difference between TsB(0) and TsB(24) [%]).

RESULTS

A highly significant linear relation was seen between light irradiance and TsB(0-24) (%) (P < .001): when the irradiance increased from 20 to 55 μW/cm(2)/nm, TsB(0-24) (%) increased from approximately 30% to 50%. In addition, smooth regression showed no tendency for TsB(0-24) (%) to level off as irradiance increased. TsB(0-24) (%) was negatively correlated to birth weight and positively to formula volume. Average weight gain during phototherapy was 1%, independent of light irradiance.

CONCLUSIONS

By using light-emitting diodes, we found a linear relation between light irradiance in the range of 20 to 55 μW/cm(2)/nm and a decrease in TsB after 24 hours of therapy, with no evidence of a saturation point.

Effect of infants' position on serum bilirubin level during conventional phototherapy

AIM

To compare the decrease in total serum bilirubin (TSB) concentration during conventional phototherapy in infants treated in supine position exclusively versus infants alternated between exposure in supine and prone position every third hour. Moreover, to survey current practice patterns in two Scandinavian countries as far as alternating exposure.

METHODS

A total of 112 infants with non-haemolytic hyperbilirubinaemia, but otherwise healthy, and a gestational age > or =33 weeks were randomized to one of the treatment groups. All infants received phototherapy for 24 h. TSB was measured at start of phototherapy and after 12 and 24 h of treatment. Questionnaires about routines for position changes in infants during phototherapy were sent to all 41 neonatal departments in Denmark and Norway.

RESULTS

No statistically significant differences in the decrease in TSB were observed between the two treatment groups: at 12 h of therapy, TSB decreased 32% in both groups and at 24 h 49% and 50%, respectively. In two-thirds of Danish and Norwegian departments, the infants were routinely turned during phototherapy, most often every third hours.

CONCLUSION

The decrease in TSB was not significantly associated with positioning of the infant during conventional phototherapy. Alternating exposure is widely practiced in Scandinavia but is unnecessary.

Toward understanding the connections between infant jaundice and infant feeding

Parents face a paradox when they are told: Breast is best; bottle-feeding is hazardous to health. But breast-fed babies are more likely to become severely jaundiced than bottle-fed babies, and severe jaundice can lead to brain damage. This article will explore the natural physiology of jaundice with a focus on breast-feeding-associated jaundice, primary prevention of hyperbilirubinemia, and current evidence-based recommendations about feeding jaundice breast-fed infants.

Neonatal jaundice: physiologic variation or pathologic process

Neonatal hyperbilirubinemia and jaundice affect approximately 60% of the 4 million newborns in the United States each year. Jaundice results from bilirubin deposition in the skin and mucous membranes, becoming clinically visible at a serum bilirubin level of 5 to 7 mg/dL. At a higher but undefined level, bilirubin may deposit in the brain where it can cause transient dysfunction or permanent neurologic impairment.

Neonatal jaundice, animal-based injuries, and immunizations

The authors describe current investigation in three areas of pediatrics commonly faced by the office practitioner. Despite the fact that changes in medical practice and in patient demographics have resulted in the reemergence of severe hyperbilirubinemia and bilirubin encephalopathy, clinical assessment and evaluation of discharge bilirubin levels may help predict those infants at greatest risk. Progress in the use of inhibitors of bilirubin production may eventually decrease the need for phototherapy. Although dog-associated injuries continue to affect children disproportionately, additional attention to anticipatory guidance may prove beneficial. The practice of routine immunization has reshaped our view of pediatric illness. The development of pneumococcal, meningococcal, and rotaviral vaccines will alter significantly the prevalence of common pediatric infectious disease. However, with the advent of additional vaccines, attention to pain control will take on increasing urgency.