Melatonin Regulation

Articles tagged with "Melatonin Regulation".

Action Spectrum for Melatonin Regulation: Novel Circadian Photoreceptor Evidence

Tags: Melatonin Regulation, Light Wavelength, Circadian Photoreceptors, Blue Light, Action Spectrum

October 22, 2025

Which Wavelengths of Light Most Effectively Suppress Melatonin Production?

Research reveals that blue light wavelengths (460-480 nanometers) most effectively suppress melatonin production, providing evidence for novel circadian photoreceptors distinct from traditional vision systems. The study found that blue light is 5-10 times more potent at suppressing melatonin than other wavelengths, with peak sensitivity at approximately 464 nanometers. This action spectrum matches the sensitivity profile of intrinsically photosensitive retinal ganglion cells (ipRGCs), specialized neurons that regulate circadian rhythms independently of image-forming vision. The research demonstrates that even relatively dim blue light (as low as 15 lux) can significantly suppress melatonin production, while red light wavelengths (>600 nm) have minimal effects on melatonin regulation even at much higher intensities.

Circadian Light Sensitivity: How Different Wavelengths Regulate Melatonin

Tags: Circadian Light, Melatonin Regulation, Light Wavelengths, Spectral Sensitivity

October 22, 2025

How Do Different Light Wavelengths Affect Melatonin Production?

Different wavelengths of light have dramatically different effects on melatonin regulation, with blue light being up to 5 times more effective than green light at suppressing melatonin production. This comprehensive spectral analysis reveals that human circadian photoreception follows a distinct sensitivity curve, peaking in the blue range (460-480nm) and declining sharply toward longer wavelengths. The research demonstrates that the circadian system uses a specialized light-detection pathway that differs significantly from vision, explaining why the color and timing of light exposure are crucial for healthy sleep-wake cycles.