Ben Greenfield

Like an hour.

The first thing she did was remove a bunch of my blood and ozonate it and then inject that ozonated blood back into my body. Yes. What? Which is kind of like an antiviral, antibacterial, oxygenates the blood. Then she did laser lights, which sounds kind of funky and weird. See, this is what I was telling you.

The first thing she did was remove a bunch of my blood and ozonate it and then inject that ozonated blood back into my body. Yes. What? Which is kind of like an antiviral, antibacterial, oxygenates the blood. Then she did laser lights, which sounds kind of funky and weird. See, this is what I was telling you.

The first thing she did was remove a bunch of my blood and ozonate it and then inject that ozonated blood back into my body. Yes. What? Which is kind of like an antiviral, antibacterial, oxygenates the blood. Then she did laser lights, which sounds kind of funky and weird. See, this is what I was telling you.

The light helps to direct the stem cells or activate the stem cells using photonic absorption of the light, so they're more efficacious. Then after all that and a few other little things like hydrogen water and some peptides, et cetera, then she did the stem cells as the icing on the cake.

The light helps to direct the stem cells or activate the stem cells using photonic absorption of the light, so they're more efficacious. Then after all that and a few other little things like hydrogen water and some peptides, et cetera, then she did the stem cells as the icing on the cake.

The light helps to direct the stem cells or activate the stem cells using photonic absorption of the light, so they're more efficacious. Then after all that and a few other little things like hydrogen water and some peptides, et cetera, then she did the stem cells as the icing on the cake.

So that means that they haven't grown them to increase the amount of mesenchymal stem cells, which are the active stem cells that would theoretically be rejuvenative or have some type of anti-aging qualities. Okay. And if you go overseas, MUSE stem cells, I don't know if those fall into the category of expanded cells, but that's a brand new form of stem cells that not a lot of people know about.

So that means that they haven't grown them to increase the amount of mesenchymal stem cells, which are the active stem cells that would theoretically be rejuvenative or have some type of anti-aging qualities. Okay. And if you go overseas, MUSE stem cells, I don't know if those fall into the category of expanded cells, but that's a brand new form of stem cells that not a lot of people know about.

So that means that they haven't grown them to increase the amount of mesenchymal stem cells, which are the active stem cells that would theoretically be rejuvenative or have some type of anti-aging qualities. Okay. And if you go overseas, MUSE stem cells, I don't know if those fall into the category of expanded cells, but that's a brand new form of stem cells that not a lot of people know about.

It's a multilinear lineage undifferentiated stem cell extract is what I believe MUSE stands for. Multilinear undifferentiated stem cell extract.

It's a multilinear lineage undifferentiated stem cell extract is what I believe MUSE stands for. Multilinear undifferentiated stem cell extract.

It's a multilinear lineage undifferentiated stem cell extract is what I believe MUSE stands for. Multilinear undifferentiated stem cell extract.

And the reason that that's interesting is because normally stem cells called ISPC stem cells have a high mesenchymal stem cell count, but they also have very low histocompatibility, meaning a lot of people have an inflammatory or an immune response that can be unhealthy or dangerous or very uncomfortable for people.

And the reason that that's interesting is because normally stem cells called ISPC stem cells have a high mesenchymal stem cell count, but they also have very low histocompatibility, meaning a lot of people have an inflammatory or an immune response that can be unhealthy or dangerous or very uncomfortable for people.

And the reason that that's interesting is because normally stem cells called ISPC stem cells have a high mesenchymal stem cell count, but they also have very low histocompatibility, meaning a lot of people have an inflammatory or an immune response that can be unhealthy or dangerous or very uncomfortable for people.

and the muse cells do have a high amount of histocompatibility meaning if you were to get an infusion with them or an injection into a joint there's a very low likelihood that you're going to feel crappy afterwards but they have a very high amount of healing capacity issue is you do have to travel internationally and they're expensive.

and the muse cells do have a high amount of histocompatibility meaning if you were to get an infusion with them or an injection into a joint there's a very low likelihood that you're going to feel crappy afterwards but they have a very high amount of healing capacity issue is you do have to travel internationally and they're expensive.

and the muse cells do have a high amount of histocompatibility meaning if you were to get an infusion with them or an injection into a joint there's a very low likelihood that you're going to feel crappy afterwards but they have a very high amount of healing capacity issue is you do have to travel internationally and they're expensive.

However, from what I understand, they require fewer expansions than a normal expanded stem cell. And every time you expand the stem cell lineage, you run the risk of mutations, you run the risk of impurities, and you run the risk of them causing issues in a patient in which they're injected. So if you get stem cells in the U.S., they're unexpanded,