liposomal delivery

[Guest guest]

We are having discussions are about precursors to glutathione, such as NAC. Livon Labs just introduced liposomal glutathione, which has never been available before. Here's what Dr. Levy, probably the main expert on using and outcomes with liposomals has to say in a forwarded email. Rhoda

Dr. Levy's E-Mail ***********************************************************************

 

I recently submitted some info on a vitamin C forum about

liposome encapsulation that should answer your questions

and give you even a little more info:

 

1. Absorption/bioavailability. Liposomes are changing the definition of

the word bioavailable. Percent absorption into the blood, always

erroneously in my opinion, has long been equated to bioavailability. If

something is 100% absorbed (or given IV), it is by " definition " 100%

bioavailable. Not true, however, not even close. Because of this,

however, IV administration of anything has long been and continues to

be the " gold standard " of drug, vitamin, or nutrient administration.

Intracellular delivery is now the " new " definition of bioavailability.

This is accomplished by nontargeted, unmodified liposomes. Except for

very, very few substances, IV delivery does not really even come close

to what these liposomes can do.

Oral ascorbic acid is poorly absorbed. The 1 to 5 ratio is a fair

approximation for just its absorption into the blood versus liposome

encapsulation absorption, without addressing intracellular uptake. My

actual " estimation " is that for many conditions the oral liposome

encapsulated vitamin C is 10 times as effective as intravenous vitamin

C. And, believe me, I have always loved (and still do) intravenous

vitamin C. And for those who can have it, there is a synergism between

the oral liposome encapsulated vitamin C and the intravenous vitamin C.

I fought this conclusion for a very long time as I continued to witness

what were inexplicable clinical responses at the time to the oral

liposome encapsulated vitamin C.

 

2. Liposomes have been well-documented to deliver their encapsulated

substances directly into the cytoplasm, mitochondria, endoplasmic

reticula, and even the nucleus. These cellular compartments are rarely

approached efficiently to even a minimal degree with any other form of

delivery.

 

3. Many substances, including reduced vitamin C, once effectively

delivered into the blood, require the consumption of energy to be taken

up into the cell. This is very counterproductive to the goal of net

electron donation, especially when you are trying to deliver

energy-delivering substances such as antioxidants inside the cell.

Liposomes, in many cases, are energy-sparing (or non-energy-consuming)

vehicles for intracellular delivery of their contents.

 

4. Macrophages and monocytes take up many of the liposomes. This, if

you will, helps to " supercharge " these important components of the

immune system.

 

5. The liposome itself (largely phosphatidylcholine) is a very good

supplement, having anti-atherosclerotic and cell wall-repairing

qualities independently.

 

6. Blood levels, except acutely, mean little with the liposome

encapsulated vitamin C. As blood levels drop, this means much more that

the liposomes and vitamin C are going inside the cells, not being

excreted into the urine as with regular vitamin C.

 

7. There is now a liposome encapsulated glutathione, and its clinical

effectiveness is surpassing that of the lipsome encapsulated vitamin C,

not surprising, when you appreciate how important glutathione is as an

intracellular antioxidant and how much energy needs to be expended to

increase its intracellular levels, even after IV administration of the

glutathione.

 

8. My prediction is that orally ingested liposomes will eventually be

the administration of choice for a majority of drugs and nutrients,

clearly outstripping IV administration for very many clinical

applications. Also, intravenous administration of liposome encapsulated

substances in some circumstances will have its own distinct advantages

over the oral administration of liposome products.

Dr. Levy

[Guest guest]

In the last few days, I've become very confused on the whole issue

of glutathione and cancer. I used to think that raising glutathione

levels was the do-all end-all of cancer cures. Now I am finding out

that cancer cells are chock full of glutatione! They love the stuff

and it protects them from destruction. How? Why? Because it is

probably the most powerful antioxidant there is in the body.

 

Oddly, normal cells in cancer patients are depleted in glutathione,

while cancer cells are loaded with the stuff. Interestingly, whey

isolate seems to raise glutathione levels in normal cells while

stripping it from cancer cells. Why? I have no idea.

 

But what about all the glutathione precursors? They are all powerful

antioxidants too, and glutathione makes sure that they are all

recycled in the body -- these precursors are vitamins C, E, selenium,

zinc, and alpha lipoic acid.

 

So are antioxidants actually BAD for cancer patients? Gee, the

Budwig people seem to think so. This guy also seems to think so (Dr.

Steve): http://grouppekurosawa.com/blog/2006_03_29_

 

This runs contrary to so much that I have read about alternative

cancer cures to date. I am completely confused.

 

oleander soup , Rhoda Mead <hummingbird541

wrote:

>

> *We are having discussions are about precursors to glutathione*,

*such as

> NAC. Livon Labs just introduced liposomal glutathione, which has

never been

> available before. Here's what Dr. Levy, probably the main expert on

using

> and outcomes with liposomals has to say in a forwarded email. Rhoda*

>

> Dr. Levy's E-Mail ******************************

> *****************************************

>

> I recently submitted some info on a vitamin C forum about

> liposome encapsulation that should answer your questions

> and give you even a little more info:

>

> 1. Absorption/bioavailability. Liposomes are changing the

definition of the

> word bioavailable. Percent absorption into the blood, always

erroneously in

> my opinion, has long been equated to bioavailability. If something

is 100%

> absorbed (or given IV), it is by " definition " 100% bioavailable.

Not true,

> however, not even close. Because of this, however, IV

administration of

> anything has long been and continues to be the " gold standard " of

drug,

> vitamin, or nutrient administration. Intracellular delivery is now

the " new "

> definition of bioavailability. This is accomplished by nontargeted,

> unmodified liposomes. Except for very, very few substances, IV

delivery does

> not really even come close to what these liposomes can do.

> Oral ascorbic acid is poorly absorbed. The 1 to 5 ratio is a fair

> approximation for just its absorption into the blood versus liposome

> encapsulation absorption, without addressing intracellular uptake.

My actual

> " estimation " is that for many conditions the oral liposome

encapsulated

> vitamin C is 10 times as effective as intravenous vitamin C. And,

believe

> me, I have always loved (and still do) intravenous vitamin C. And

for those

> who can have it, there is a synergism between the oral liposome

encapsulated

> vitamin C and the intravenous vitamin C. I fought this conclusion

for a very

> long time as I continued to witness what were inexplicable clinical

> responses at the time to the oral liposome encapsulated vitamin C.

>

> 2. Liposomes have been well-documented to deliver their encapsulated

> substances directly into the cytoplasm, mitochondria, endoplasmic

reticula,

> and even the nucleus. These cellular compartments are rarely

approached

> efficiently to even a minimal degree with any other form of

delivery.

>

> 3. Many substances, including reduced vitamin C, once effectively

delivered

> into the blood, require the consumption of energy to be taken up

into the

> cell. This is very counterproductive to the goal of net electron

donation,

> especially when you are trying to deliver energy-delivering

substances such

> as antioxidants inside the cell. Liposomes, in many cases, are

> energy-sparing (or non-energy-consuming) vehicles for intracellular

delivery

> of their contents.

>

> 4. Macrophages and monocytes take up many of the liposomes. This,

if you

> will, helps to " supercharge " these important components of the

immune

> system.

>

> 5. The liposome itself (largely phosphatidylcholine) is a very good

> supplement, having anti-atherosclerotic and cell wall-repairing

qualities

> independently.

>

> 6. Blood levels, except acutely, mean little with the liposome

encapsulated

> vitamin C. As blood levels drop, this means much more that the

liposomes and

> vitamin C are going inside the cells, not being excreted into the

urine as

> with regular vitamin C.

>

> 7. There is now a liposome encapsulated glutathione, and its

clinical

> effectiveness is surpassing that of the lipsome encapsulated

vitamin C, not

> surprising, when you appreciate how important glutathione is as an

> intracellular antioxidant and how much energy needs to be expended

to

> increase its intracellular levels, even after IV administration of

the

> glutathione.

>

> 8. My prediction is that orally ingested liposomes will eventually

be the

> administration of choice for a majority of drugs and nutrients,

clearly

> outstripping IV administration for very many clinical applications.

Also,

> intravenous administration of liposome encapsulated substances in

some

> circumstances will have its own distinct advantages over the oral

> administration of liposome products.

> Dr. Levy

>