Steve

In fact, SSRIs, which actually suck for depression, turn out to be great for older adults. Low-level SSRIs because serotonin levels decline over time and SSRIs can boost them. If you don't want to take a drug, Like with a weight vest, most of your serotonin is manufactured in your bones. And one of the reasons the brain has less is because you're making less in your bones.

In fact, SSRIs, which actually suck for depression, turn out to be great for older adults. Low-level SSRIs because serotonin levels decline over time and SSRIs can boost them. If you don't want to take a drug, Like with a weight vest, most of your serotonin is manufactured in your bones. And one of the reasons the brain has less is because you're making less in your bones.

The general thinking is sort of true, but a lot of those skills are used to lose it and And either we've already figured out how to fix them, or this stuff is also progressing really, really, really quickly. The whole other side of this is regenerative medicine, longevity science, all that stuff is moving at exponential rates.

The general thinking is sort of true, but a lot of those skills are used to lose it and And either we've already figured out how to fix them, or this stuff is also progressing really, really, really quickly. The whole other side of this is regenerative medicine, longevity science, all that stuff is moving at exponential rates.

The general thinking is sort of true, but a lot of those skills are used to lose it and And either we've already figured out how to fix them, or this stuff is also progressing really, really, really quickly. The whole other side of this is regenerative medicine, longevity science, all that stuff is moving at exponential rates.

The general thinking is sort of true, but a lot of those skills are used to lose it and And either we've already figured out how to fix them, or this stuff is also progressing really, really, really quickly. The whole other side of this is regenerative medicine, longevity science, all that stuff is moving at exponential rates.

The general thinking is sort of true, but a lot of those skills are used to lose it and And either we've already figured out how to fix them, or this stuff is also progressing really, really, really quickly. The whole other side of this is regenerative medicine, longevity science, all that stuff is moving at exponential rates.

And if you increase bone density, you get the serotonin back, you get a bunch of those neurochemicals back. The general thinking is sort of true, but a lot of those skills are use it or lose it. And either we've already figured out how to fix them, or this stuff is also progressing really, really, really quickly.

And if you increase bone density, you get the serotonin back, you get a bunch of those neurochemicals back. The general thinking is sort of true, but a lot of those skills are use it or lose it. And either we've already figured out how to fix them, or this stuff is also progressing really, really, really quickly.

And if you increase bone density, you get the serotonin back, you get a bunch of those neurochemicals back. The general thinking is sort of true, but a lot of those skills are use it or lose it. And either we've already figured out how to fix them, or this stuff is also progressing really, really, really quickly.

And if you increase bone density, you get the serotonin back, you get a bunch of those neurochemicals back. The general thinking is sort of true, but a lot of those skills are use it or lose it. And either we've already figured out how to fix them, or this stuff is also progressing really, really, really quickly.

And if you increase bone density, you get the serotonin back, you get a bunch of those neurochemicals back. The general thinking is sort of true, but a lot of those skills are use it or lose it. And either we've already figured out how to fix them, or this stuff is also progressing really, really, really quickly.

So for example, five years ago, we could not deal with most tendon, bone, and ligament problems. There's very little you can do to tendons, bones, or ligaments, that exosomes, stem cells, certain other things, like we are good at that stuff now. It's advanced really far.

So for example, five years ago, we could not deal with most tendon, bone, and ligament problems. There's very little you can do to tendons, bones, or ligaments, that exosomes, stem cells, certain other things, like we are good at that stuff now. It's advanced really far.

So for example, five years ago, we could not deal with most tendon, bone, and ligament problems. There's very little you can do to tendons, bones, or ligaments, that exosomes, stem cells, certain other things, like we are good at that stuff now. It's advanced really far.

So for example, five years ago, we could not deal with most tendon, bone, and ligament problems. There's very little you can do to tendons, bones, or ligaments, that exosomes, stem cells, certain other things, like we are good at that stuff now. It's advanced really far.

So for example, five years ago, we could not deal with most tendon, bone, and ligament problems. There's very little you can do to tendons, bones, or ligaments, that exosomes, stem cells, certain other things, like we are good at that stuff now. It's advanced really far.

That's the whole other side of this is regenerative medicine, longevity, science, all that stuff is moving at exponential rates. So for example, five years ago, we could not deal with most tendon, bone, and ligament problems. Today, There's very little you can do to tendons, bones, or ligaments, that exosomes, stem cells, certain other things, like we are good at that stuff now.

That's the whole other side of this is regenerative medicine, longevity, science, all that stuff is moving at exponential rates. So for example, five years ago, we could not deal with most tendon, bone, and ligament problems. Today, There's very little you can do to tendons, bones, or ligaments, that exosomes, stem cells, certain other things, like we are good at that stuff now.

That's the whole other side of this is regenerative medicine, longevity, science, all that stuff is moving at exponential rates. So for example, five years ago, we could not deal with most tendon, bone, and ligament problems. Today, There's very little you can do to tendons, bones, or ligaments, that exosomes, stem cells, certain other things, like we are good at that stuff now.