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Alzheimer’s disease has always felt like a one-way street. Once the brain starts to slip, it just keeps going. Memory fades, and for over a hundred years, nobody seriously talked about turning back the clock. Right now, according to Alzheimer’s Disease International, more than 55 million people live with dementia — most of them with Alzheimer’s. Every year, another 10 million join their ranks. The numbers are expected to nearly double by 2050, and the hardest hit will be lower-income countries, where most cases already live. Up until now, treatments have only tried to slow the damage — not undo it.But this time, that story just got a lot more interesting.A new study, published in Cell Reports Medicine, suggests it’s possible to actually reverse Alzheimer’s — at least in mice. Researchers ran a series of tightly controlled experiments and managed to bring lost brain function and memory back in these animals.And this isn’t just another incremental step. Scientists from University Hospitals Cleveland, Case Western Reserve, and the Cleveland VA are saying the unthinkable: Alzheimer’s might not be a one-way process after all. Their work is changing how people talk about what’s possible for the millions of families facing this disease.So, what’s the secret? It all comes down to a molecule called NAD+ (nicotinamide adenine dinucleotide). Think of NAD+ as the fuel that keeps brain cells running. In Alzheimer’s, the brain’s NAD+ levels drop sharply, and this shortfall seems to drive the disease.
Here’s why that matters
Brains low on NAD+ start to break down, much like what doctors see in people with Alzheimer’s.But when the scientists restored NAD+ levels in older mice with pretty advanced disease, the animals bounced back. They used a drug called P7C3-A20, which helps keep NAD+ steady. The treated mice didn’t just stop getting worse — they actually got better. Their memory and brain chemistry returned to normal.This is a huge shift in thinking. It means Alzheimer’s might not be a dead end. If you can restore the right signals, the brain seems able to heal itself, even after damage has set in.
What went into the study
Let’s break down what the team actually did. The scientists worked with two types of mice, both engineered to get Alzheimer’s-like brain changes. One group developed the infamous amyloid plaques, the other had tangles of tau protein — both classic signs of the disease in humans.Here’s what stood out:
- When they kept NAD+ levels up from the start, the mice mostly dodged Alzheimer’s altogether.
- But even after symptoms and brain damage had set in, starting treatment helped the mice recover memory and repair their brains.
- The mice weren’t just getting by — they scored way better on memory and behavior tests, showing real, functional recovery.
All of this points to a new way to fight Alzheimer’s: by focusing on how brain cells make and use energy.
Other promising approaches
And this isn’t the only exciting thing happening in Alzheimer’s research. Scientists in Europe and Asia are using nanotechnology to repair the blood-brain barrier in mice. That’s helping clear out the toxic proteins that pile up in Alzheimer’s. Other groups are testing lithium-based drugs, which seem to help with plaques and memory in animal studies, too. All together, these different approaches are opening up new paths toward actually curing the disease someday.
Why does this matter for patients and families
Because Alzheimer’s steals so much from people — their memories, their independence, their whole sense of self. The idea of reversing it has always felt out of reach. But now, at least in animal models, scientists have shown that lost brain function can come back. That’s a huge shot of hope.
What’s next
Although this study paints a promising picture, there’s a catch, of course. Right now, all this research is still in the lab. These results need to be tested in people, and that’s going to take time — years, probably. But for the first time in decades, the field is buzzing with optimism. There’s a real chance we’re moving from just slowing the disease to actually restoring what was lost. And that changes everything.
