The Gary Null Show - 07.15.22
The Gary Null Show - A podcast by Progressive Radio Network
Lutein and zeaxanthin isomers benefits during high screen exposure University of Georgia, July 10, 2022 An exciting new peer reviewed publication based on ongoing research on macular carotenoids from the University of Georgia demonstrates that supplementation with lutein and zeaxanthin isomers can protect against a growing issue among the general population -- the undesirable effects of prolonged exposure to high-energy blue light emitted from digital screens of computers, tablets and smartphones. Lutein and zeaxanthin isomers -- known as the macular carotenoids -- are natural filters of high-energy blue light. High-energy blue light reaches deep into the eye and can harm the macula -- the region of the eye responsible for highest visual acuity- by promoting the production of free radicals. Short-term effects can cause eye fatigue while long-term exposure can lead to a progressive loss of visual function. This is the first study to examine the impact of macular carotenoids supplementation to protect visual health and performance, improve sleep quality and reduce eye strain and fatigue during prolonged exposure to blue light emitting digital screens. The study was a 6-month randomized, double-blind, placebo-controlled supplementation trial with 48 healthy, young adults with screen time exposure of at least 6 hours daily. Subjects were evaluated at baseline, 3-months and 6-months for MPOD (Macular Pigment Optical Density) and markers of visual performance including contrast sensitivity, photostress recovery and disability glare. Sleep quality, which is affected by blue light exposure, and physical indicators of excessive screen use were also measured. The results show that supplementing with lutein and zeaxanthin significantly improved macular pigment optical density, visual performance and indicators of excessive screen use, including eye strain and fatigue and headache frequency. Sleep quality also improved significantly. Study explores the effects of eating dark chocolate on the brain Isfahan University of Medical Science (Iran), July 14, 2022 Elham Kalantarzedeh, Maryam Radahmadi and Parham Reisi, three researchers at Isfahan University of Medical Science in Iran have recently carried out a study on rats investigating the impact of different dark chocolate dietary patterns on synapses in a specific region of the brain, known as the hippocampal CA1 area. Their findings, published in Nutritional Neuroscience, suggest that dark chocolate consumption could have beneficial effects on the brain of individuals exhibiting chronic isolation stress. "Although stress causes brain dysfunction, consumption of dark chocolate (DC) has positive effects on brain functions," the researchers wrote in their paper. "The current study investigated the impact of different DC dietary patterns on synaptic potency and plasticity in the hippocampal CA1 area, as well as food intake and body weight in rats under chronic isolation stress." Overall, the experiments carried out by this team of researchers suggest that the systematic consumption of dark chocolate could reverse the adverse effects of chronic isolation stress on the synaptic potency and plasticity of the hippocampal CA1 area. This would in turn have beneficial effects on both memory and learning. Vitamin C found to block growth of cancer stem cells, says peer reviewed study University of Salford (UK), July 8, 2022 Increasingly, researchers are discovering the role played by cancer stem cells in the growth and spread of the disease. In groundbreaking new research, vitamin C showed its ability to target cancer stem cells and stop their growth – preventing the recurrence of tumors. In a newly-published study conducted at the University of Salford in Manchester, vitamin C demonstrated its power to stop tumors in their tracks by interfering with cancer stem cell metabolism – suppressing their ability to process energy for survival and growth. The study explored