Background: The increasing prevalence of myopia has become a global public health issue in recent decades. Both genetic and environmental factors, including near work and insufficient natural light, contribute to myopia pathogenesis and progression. Myopia pathogenesis involves altered intra-cellular signaling pathways from visual stimuli and resultant scleral tissue remodeling. Despite currently available pharmacological and optical intervention targeting on the pathogenesis, our study is looking for different possible treatment. Indoor luminaires using new technology of light emitting diodes with spectral distributions resembling natural light may be a new avenue of research. Purpose: To investigate the impact of broad-spectrum light emitting diodes (LEDs) with different light/dark cycles on ocular growth and refractive error development in a rat model of myopia. Methods: A total of 80 3-week-old Sprague-Dawley rats received eyelid injection of TGF-β2 in the right eye for myopia induction. Animals were exposed to one of two light source for 21 days: broad-spectrum white LED (BSLED) light and narrow-spectrum white LED light (NSLED). Five patterns of light/dark cycle of isoluminant LED light (500 Lux) were applied to the subgroups respectively, including 0hr/24hr, 8hr/16hr, 12hr/12hr, 16hr/8hr and 24hr/0hr of light/dark cycles. Change in the axial length, refractive status and electroretinogram were recorded on day 0 and day 21. Histology study of retina with immunohistochemistry stains of related signaling molecules were conducted in these rats. Results: Largest axial length increase was observed in the TGF-β2 injected eyes without light exposure (0hr group). Axial length increased more in the NSLED-illuminated eyes than BSLED groups among 5 light/dark cycles.The rats raised under 8hr light cycle of BSLED illumination showed less myopic refraction than the NSLED group and the control group. Comparison between the ERG on day 0 and 21 revealed deceased amplitude of rod and bipolar cells with prolonged illumination (16hr and 24 hr group) of BSLED and NSLED. Immunohistochemical analysis of TGF-β, MMP-2 and TNF-α in outer retina exhibited lower expression in BSLED groups than NSLED groups. Conclusions: Our results suggested that compared to NSLED, BSLED can reduce axial length elongation and myopia progression with 8/16 light/dark cycle safely. BSLED light protected ocular growth potentially through decreased retinal levels of TGF-β, MMP-2 and TNF-α, which regulate scleral extracellular matrix remodeling. Further studies are necessary to evaluate the impact of BSLED light on human ocular growth to offer new option for myopia prevention.