Prodrome Science™ — Webinar Series
Why does traditional MS treatment stop relapses but fail to halt disease progression? Dr. Dayan Goodenowe explains the biochemical truth behind MS — and what that means for treatment.
Dr. Goodenowe opens with a challenge to the standard MS narrative. Go online, he says — visit the Mayo Clinic, the Cleveland Clinic, Harvard — and you will find the same information reproduced everywhere. “You get bombarded and drowned out by this common speak and you don’t really understand.” His goal in this webinar is to go deeper: to explain what MS actually is at the biochemical level, why conventional treatment stops relapses but not the disease, and what a genuinely restorative approach looks like in practice.
The webinar was recorded in Saskatchewan — a global hotspot for MS — and includes a live case study from Lisa Grillo, a fifty-three-year-old woman who was told she would develop MS at age twenty-one. After thirty years of progressive decline, drop foot, and legal blindness in her right eye, Lisa began Dr. Goodenowe’s protocol in March 2023. Within eight months she was reading with an eye she had been legally blind in for thirty-two years. Her neuroimaging tells the rest of the story.
According to Dr. Goodenowe, Lisa’s results are validated by advanced MRI taken at multiple points over two years. At baseline, he reports, eighteen regions of her brain showed cortical thinning two standard deviations below normal. After two years on his protocol, none did. Where published MS clinical trials show patients losing roughly half a percent of cortical thickness per year, Dr. Goodenowe reports Lisa gained one point three percent — and her total brain volume increased by two percent.
Most striking, according to Dr. Goodenowe, is what happened to her vision. He reports the optic nerve fibres connecting to her occipital cortex grew from approximately six thousand to nine thousand — a fifty percent increase. “We did not anticipate this fibre growth,” Dr. Goodenowe admits. “There’s no way we would have predicted that she actually regained vision to that level and that the fibre networks would just burst like that. That’s brand new stuff.”
The mechanism, as Dr. Goodenowe explains it: plasmalogens make up around eighty percent of the ethanolamine content of the myelin sheath. When plasmalogen levels fall, he argues, the brain cannot repair damaged myelin fast enough, oxidized phospholipids accumulate, and the immune system reacts to them. In his view, the slow smoldering fire of MS continues regardless of whether B cells are suppressed. Restore the plasmalogen levels and remove the immune trigger, and the brain — given the right raw materials — can begin to repair itself. As he puts it: “If there are no new oxidized phospholipids, you shouldn’t have to get rid of your B cells.”
To watch Dr. Goodenowe present Lisa’s full case — including the neuroimaging — visit his website: Watch Dr. Goodenowe’s Full MS Webinar ↗
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