Aletheia from the Fountain Portal #1

Circadian Rhythms and Photobiomodulation

About & Introduction

  • Thank you for joining Fountain Portal. You can also read this newsletter in a collapsible tree format on Roam Research, which will eventually become a knowledge graph that allows you to explore all research from prior newsletters through bi-directional links.

  • The anchor content of this newsletter is links to recent research studies, with a sentence or two summary. Occassionally a bit of additional commentary may be included. Whereas most medicine in use today is based on either the mechanical or the biochemical, this newsletter will focus on the photonic, thermal, and electromagnetic.

  • Additional content includes

    • Links to every blog-post. The blog-posts should be more enjoyable to read than the newsletter research round-ups, which may be a bit on the dry side.

    • Every product launch. We are trying to build iconic products here so don't expect very many of these.

    • Any interesting articles, news, or product from other companies, even if they compete with us.

  • For the forseeable future, this is the primary and only mailing list for Fountain Portal. The reasons for this format, our approach, and the scope of content we'll cover will be the subject of one of our first few blog posts. Those should start trickling in within the next month or so. Please bear with us in the meantime.

  • The Fountain Portal website launched recently if you want to check that out. No blog posts yet, but there is a glossary and a teaser description of the 1st product that is currently being built.

Photobiomodulation Research

  • Photobiomodulation therapy decreases free fatty acid generation
    and release in adipocytes to ameliorate insulin resistance in type 2
    diabetes (December 2019)

    635 nm red light. They say they used a 5 Watt laser for 10 minutes on mice, but that the irradiance was only 72 mW/cm^2. This makes little sense since lasers usually focus light in a small area so one would expect irradiance to be many times _higher_ than 5 Watts. Maybe just a translation error

    Showed reduced free-fatty-acids and improved insulin sensitivity i.e. the light made the mice less diabetic.

  • Application of oxytocin with low-level laser irradiation suppresses the facilitation of cortical excitability by partial ligation of the infraorbital nerve in rats: An optical imaging study (December 2019)

    A study in rats showed that adding a daily dose of 810 nm light from a 0.1 watt laser for 500 seconds to oxytocin improved markers for reduced neuropathic pain. Pharmaceutical opiods have a high addiction risk so if near-IR light can lower the necessary doses to alleviate pain, it may reduce this risk.

  • Opposite effects of low intensity light of different wavelengths on the planarian regeneration rate [December 2019]

    A variety of wavelengths were applied to worms, which have a high percentage of stem cells, which improves sensitivity. They found that red (635 nm) increased regeneration after decapitation by 24% while green (520 nm) decreased it by 22%. Other wavelengths had negligible effects. They noted another study which showed enhanced regeneration with near-IR (880 nm), but no effects from 630 nm red light. It is unfortunate that the researchers in this did not include longer wavelengths than 635 nm since they could have confirmed the greater effects from near-IR.

    Idea: My impression from skimming a number of studies on red and infrared light is that 810-850nm (near-IR) is generally far more useful than red light at 600-640 nm, or deep red at 660-680 nm. I suspect the reason this is not instantly obvious is that most studies are not actually hitting the upper limits of the beneficial dose response. (Some studies manage to show a decrease in effects with an increase in dose, but the dose is not a linear space since total energy as varied with time is the modulated variable with power usually kept constant.)

    At a basic level, near-IR effectively penetrates tissue while visible wavelengths for the most part do not. Given similar power levels being studied with both, there is then a much higher volumetric dose from red since it concentrates on a thin surface. I suspect even larger effect sizes would be possible if the power levels of near-IR were increased correspondingly. (Note, this is a bit of a simplification since there are both localized and global effects.) A key reason this isn't happening is likely ease of use. 620-635 nm light as was used in this study is easy to obtain because it is the wavelength that is used commercially to produce red light. 660 nm is very uncommon because it is a bad choice if your goal is simply to illuminate a room. I cannot be certain about my conjecture, but if I do nothing to determine the answer to this question, that I actually care about, the scientists will be perfectly happy studying thousands more worms and learning all the minutia there is to know in that niche.

Melatonin Research

  • The Role of Melatonin in Colorectal Cancer (December 2019)

    Overall, the anticancer activity of melatonin, combined with its actions via multiple signaling pathways, is considered hugely exciting to use this drug as a possible treatment strategy to cure cancer. Apart from its anticancer potential, this drug has shown to induce modulation of chemotherapy toxicity and improving its therapeutic efficacy.

Electricity and Magnetism Research

Product News, Patents, & Interesting Articles

  • The Sea Was Never Blue

    Neat article about how the Greeks and other people interpreted and described color in the world with minimal knowledge about the physics of light and color.

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the right... to share in scientific advancement and its benefits.

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