Abstract
PurposeThe photoreceptor classes driving the flicker pupil light response (fPLR) to monochromatic sinusoidal temporal modulation are largely unknown. Here, we determine the photoreceptor inputs to the fPLR.MethodsThe 0.5-Hz fPLR was measured in healthy observers using a Maxwellian view (41° diameter) pupillometer at five narrowband wavelengths (short: 409 nm; intermediate: 462, 507, 530 nm; and long: 592 nm) over ∼10 log units of irradiance spanning scotopic to photopic levels (5.6 to 15.6 log quanta·cm−2·s−1; −6.9 to 3.6 log cd·m−2). The relative photoreceptor contributions to the fPLR were then derived from these amplitude-irradiance functions using a criterion fPLR.ResultsThe fPLR amplitude is small (≤ 3.9 ± 3.1%; mean ± SEM) below 8.0 log quanta·cm−2·s−1 then increases with retinal irradiance in accordance with a Hill function that asymptotes between 13.0 to 15.0 log quanta·cm−2·s−1 (wavelength dependent). The Hill slope is steepest for the intermediate wavelengths. Further increases in irradiance (>15.0 log quanta·cm−2·s−1) produce a distinct suppression of the fPLR for the intermediate wavelengths. The fPLR phase delay shows a linear decrease with increasing irradiance. The spectral sensitivity of the fPLR is dominated by inner retinal melanopsin ganglion cell and outer retinal rod photoreceptor inputs to the afferent pupil control pathway; the relative melanopsin : rhodopsin weighting decreases with the transition from photopic to scotopic lighting.ConclusionsThe fPLR can be used as a marker of melanopsin and rod interactions during the flicker stimulation and to quantify their contributions to the post-illumination pupil response (PIPR).Translational RelevanceThese irradiance and wavelength responses will be useful in standardizing the measurements of the fPLR using chromatic pupillometry.
Highlights
Melanopsin ganglion cells receive extrinsic outer retinal rod and cone photoreceptor signals[12,13,14,15] as well as generate intrinsic signals that are transmitted to the olivary pretectal nucleus (OPN), the relay nucleus for pupil control.[16]
The flicker pupil light response (fPLR) has been studied using a method of silent substitution that independently controls the relative rod, cone, and melanopsin inputs to the afferent pupil pathway[4,5,10,24,25,26,27]; under mesopic illuminations ( 11.0 log quantaÁcmÀ2ÁsÀ1) the rod and cone signals modulate the fPLR,[4,5] whereas at moderate photopic illuminations melanopsin contributes to the afferent fPLR signal along with rods and cones.[5,10,24]
The aim of this study was to determine the relative photoreceptor contributions to the fPLR for monochromatic test stimuli used in chromatic pupillometry
Summary
The pupil light response tracks sinusoidal light modulations[1] with a low-pass temporal response and peak amplitude between approximately 0.5 and 1.0 Hz,[1,2,3,4,5,6,7] a cut-off resolution frequency in the order of approximately 8 to 9 Hz,[3,5,8] and a phase delay relative to the input signal that increases with increasing temporal frequency.[3,5,6,9,10] This flicker pupil light response (fPLR) has been termed phasic pupil light response.[5,6,10,11] At low photopic irradiances (11.4 log quantaÁcmÀ2ÁsÀ1) the peaktrough amplitudes of the fPLR are similar for long (reddish) and short (bluish) wavelength lights, whereas at high-photopic irradiances (15.2 log quantaÁcmÀ2Á sÀ1) the fPLR is suppressed at short wavelengths.[6]Melanopsin ganglion cells receive extrinsic outer retinal rod and cone photoreceptor signals[12,13,14,15] as well as generate intrinsic signals that are transmitted to the olivary pretectal nucleus (OPN), the relay nucleus for pupil control.[16]. The fPLR has been studied using a method of silent substitution that independently controls the relative rod, cone, and melanopsin inputs to the afferent pupil pathway[4,5,10,24,25,26,27]; under mesopic illuminations ( 11.0 log quantaÁcmÀ2ÁsÀ1) the rod and cone signals modulate the fPLR,[4,5] whereas at moderate photopic illuminations melanopsin contributes to the afferent fPLR signal along with rods and cones.[5,10,24]
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