The aim of this study was to test if the three cone photopic visual system
is the primary ocular photoreceptor input for human circadian regulation by
determining the effects of different wavelengths on light-induced melatoni
n suppression. Healthy subjects with stable sleeping patterns (wake-up time
7:30 AM +/- 12 min) and normal color vision were exposed at night to full-
field 505 nm or 555 nm monochromatic stimuli or darkness for 90 min. Plasma
collected before and after exposures was quantified for melatonin. Subject
s exposed to 10 irradiances at 505 nm showed no significant differences acr
oss mean pre-exposure melatonin values (F=0.505). A sigmoidal fluence-respo
nse curve fitted to the melatonin suppression data (R-2=0.97) indicated tha
t 9.34 x10(12) photons/cm(2)/sec induced a half-saturation response (ED50)
while 6.84 x10(13) photons/cm(2)/sec induced a saturation melatonin suppres
sion response. Further, a dose of 4.19 x10(13) photon/cm(2)/sec at 505 nm w
as significantly stronger (P<0.01) than an equal photon dose at 555 nm for
melatonin suppression. These data demonstrate that the cone system that med
iates human photopic vision is not the primary photoreceptor system to tran
sduce light stimuli for melatonin regulation.