Phototherapy using light-emitting diodes (LEDs) centered on the green spectrum, which has a high
cyclobilirubin production rate, was as effective as that centered on the blue spectrum for
neonatal hyperbilirubinemia. There are no reports of species differences in
bilirubin photochemical changes in this spectrum, and the characteristics of
bilirubin photochemical changes in humans must be elucidated to proceed with the development of new light sources that include these spectra. This report describes the characteristic photochemical kinetics of
bilirubin under green-spectrum LEDs in human, rat, rabbit, dog, pig, sheep, bovine and chicken serum albumin and rhesus monkey serum. These
albumin-bilirubin complex solutions were irradiated by green LEDs, and the time-course changes in
bilirubin photoisomers were measured by high-performance liquid chromatography. The
cyclobilirubin production rates in humans, pigs, and monkeys were significantly higher than those in other species. The rate constant of (
EZ)-cyclobilirubin production from (EZ)-
bilirubin 'k' was significantly higher in humans and monkeys than in other species. In conclusion,
bilirubin photochemical kinetics under green spectrum LEDs in humans were characterized by a high
cyclobilirubin production rate at a low substrate concentration. The
bilirubin photochemical kinetics in monkeys were similar to those in humans.