Re: Methodology / Angel

[Guest guest]

Thank you, , for your espeically articulate way of explaining things!

Ruth

On Wed, 19 May 2004 15:22:29 -0000 " erik_johnson_96140 "

<erikj6@...> writes:

True MCS can not be *GOTTEN RID OF*.

As soon as someone says they have gotten cured of MCS you know it was

not true MCS. Mostly likely they had allergies. As MCS is NOT an

allergy

and can not be handled with shots etc.

There is not a single case on record on anyone with MCS ever getting

cured, they have abated a lot of the symptoms from exposures but they

are still sick. This is a lifetime illness and it's just a matter of

degrees.

-Angel

If you employ a methodology which is predicated upon the belief that

MCS can not be " gotten rid of " then you have no means of identifying

anyone who might have been successful.

With this methodology, there can never be " a single case on record on

anyone with MCS ever getting cured " because if they conceivably do,

they are automatically dismissed as having an allergy.

With this perspective, one might be surrounded by people who

successfully addressed their MCS and never see it.

-

FAIR USE NOTICE:

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been specifically authorized by the copyright owner. We are making such

material available in our efforts to advance understanding of

environmental, political, human rights, economic, democracy, scientific,

and social justice issues, etc. We believe this constitutes a 'fair use'

of any such copyrighted material as provided for in section 107 of the US

Copyright Law. In accordance with Title 17 U.S.C. Section 107, the

material on this site is distributed without profit to those who have

expressed a prior interest in receiving the included information for

research and educational purposes. For more information go to:

http://www.law.cornell.edu/uscode/17/107.shtml. If you wish to use

copyrighted material from this site for purposes of your own that go

beyond 'fair use', you must obtain permission from the copyright owner.

[Guest guest]

Thank you, , for your espeically articulate way of explaining things!

Ruth

On Wed, 19 May 2004 15:22:29 -0000 " erik_johnson_96140 "

<erikj6@...> writes:

True MCS can not be *GOTTEN RID OF*.

As soon as someone says they have gotten cured of MCS you know it was

not true MCS. Mostly likely they had allergies. As MCS is NOT an

allergy

and can not be handled with shots etc.

There is not a single case on record on anyone with MCS ever getting

cured, they have abated a lot of the symptoms from exposures but they

are still sick. This is a lifetime illness and it's just a matter of

degrees.

-Angel

If you employ a methodology which is predicated upon the belief that

MCS can not be " gotten rid of " then you have no means of identifying

anyone who might have been successful.

With this methodology, there can never be " a single case on record on

anyone with MCS ever getting cured " because if they conceivably do,

they are automatically dismissed as having an allergy.

With this perspective, one might be surrounded by people who

successfully addressed their MCS and never see it.

-

FAIR USE NOTICE:

This site contains copyrighted material the use of which has not always

been specifically authorized by the copyright owner. We are making such

material available in our efforts to advance understanding of

environmental, political, human rights, economic, democracy, scientific,

and social justice issues, etc. We believe this constitutes a 'fair use'

of any such copyrighted material as provided for in section 107 of the US

Copyright Law. In accordance with Title 17 U.S.C. Section 107, the

material on this site is distributed without profit to those who have

expressed a prior interest in receiving the included information for

research and educational purposes. For more information go to:

http://www.law.cornell.edu/uscode/17/107.shtml. If you wish to use

copyrighted material from this site for purposes of your own that go

beyond 'fair use', you must obtain permission from the copyright owner.

[Guest guest]

ERIC...

when you get at least a FOUNDATION course in neurology or even cell

physiology and understand what can and cannot REGENERATE itself, then you

can open your mouth.

The BLOOD BRAIN BARRIER CAN NOT BE REGENERATED! Stop thinking you can

dispense medical information that is erroneous. I told you read up on

physiology then claim you CURED ypurself.

As I also stated before, Grace is right, and your only audience is here

that is seeking TRUE information and you are dispensing fallacies!

If you CURED yourself you would be in every Environmental MEdicine

publication and they ould be researching you and how you achieved

it....apparently, you are a legend in your own mind.

NUFF SAID.

" If having endured much, we at last asserted our 'right to know' and if,

knowing, we have concluded that we are being asked to take senseless and

frightening risks, then we should no longer accept the counsel of those

who tell us that we must fill our world with poisonous chemicals, we

should look around and see what other course is open to us. "

Carson

" My toxicasa (world) is your toxicasa (world). "

Judith Goode

On Wed, 19 May 2004, erik_johnson_96140 wrote:

> True MCS can not be *GOTTEN RID OF*.

> As soon as someone says they have gotten cured of MCS you know it was

> not true MCS. Mostly likely they had allergies. As MCS is NOT an

> allergy

> and can not be handled with shots etc.

>

> There is not a single case on record on anyone with MCS ever getting

> cured, they have abated a lot of the symptoms from exposures but they

> are still sick. This is a lifetime illness and it's just a matter of

> degrees.

> -Angel

>

> If you employ a methodology which is predicated upon the belief that

> MCS can not be " gotten rid of " then you have no means of identifying

> anyone who might have been successful.

> With this methodology, there can never be " a single case on record on

> anyone with MCS ever getting cured " because if they conceivably do,

> they are automatically dismissed as having an allergy.

>

> With this perspective, one might be surrounded by people who

> successfully addressed their MCS and never see it.

>

> -

>

>

>

> FAIR USE NOTICE:

>

> This site contains copyrighted material the use of which has not always been

specifically authorized by the copyright owner. We are making such material

available in our efforts to advance understanding of environmental, political,

human rights, economic, democracy, scientific, and social justice issues, etc.

We believe this constitutes a 'fair use' of any such copyrighted material as

provided for in section 107 of the US Copyright Law. In accordance with Title 17

U.S.C. Section 107, the material on this site is distributed without profit to

those who have expressed a prior interest in receiving the included information

for research and educational purposes. For more information go to:

http://www.law.cornell.edu/uscode/17/107.shtml. If you wish to use copyrighted

material from this site for purposes of your own that go beyond 'fair use', you

must obtain permission from the copyright owner.

>

[Guest guest]

ERIC...

when you get at least a FOUNDATION course in neurology or even cell

physiology and understand what can and cannot REGENERATE itself, then you

can open your mouth.

The BLOOD BRAIN BARRIER CAN NOT BE REGENERATED! Stop thinking you can

dispense medical information that is erroneous. I told you read up on

physiology then claim you CURED ypurself.

As I also stated before, Grace is right, and your only audience is here

that is seeking TRUE information and you are dispensing fallacies!

If you CURED yourself you would be in every Environmental MEdicine

publication and they ould be researching you and how you achieved

it....apparently, you are a legend in your own mind.

NUFF SAID.

" If having endured much, we at last asserted our 'right to know' and if,

knowing, we have concluded that we are being asked to take senseless and

frightening risks, then we should no longer accept the counsel of those

who tell us that we must fill our world with poisonous chemicals, we

should look around and see what other course is open to us. "

Carson

" My toxicasa (world) is your toxicasa (world). "

Judith Goode

On Wed, 19 May 2004, erik_johnson_96140 wrote:

> True MCS can not be *GOTTEN RID OF*.

> As soon as someone says they have gotten cured of MCS you know it was

> not true MCS. Mostly likely they had allergies. As MCS is NOT an

> allergy

> and can not be handled with shots etc.

>

> There is not a single case on record on anyone with MCS ever getting

> cured, they have abated a lot of the symptoms from exposures but they

> are still sick. This is a lifetime illness and it's just a matter of

> degrees.

> -Angel

>

> If you employ a methodology which is predicated upon the belief that

> MCS can not be " gotten rid of " then you have no means of identifying

> anyone who might have been successful.

> With this methodology, there can never be " a single case on record on

> anyone with MCS ever getting cured " because if they conceivably do,

> they are automatically dismissed as having an allergy.

>

> With this perspective, one might be surrounded by people who

> successfully addressed their MCS and never see it.

>

> -

>

>

>

> FAIR USE NOTICE:

>

> This site contains copyrighted material the use of which has not always been

specifically authorized by the copyright owner. We are making such material

available in our efforts to advance understanding of environmental, political,

human rights, economic, democracy, scientific, and social justice issues, etc.

We believe this constitutes a 'fair use' of any such copyrighted material as

provided for in section 107 of the US Copyright Law. In accordance with Title 17

U.S.C. Section 107, the material on this site is distributed without profit to

those who have expressed a prior interest in receiving the included information

for research and educational purposes. For more information go to:

http://www.law.cornell.edu/uscode/17/107.shtml. If you wish to use copyrighted

material from this site for purposes of your own that go beyond 'fair use', you

must obtain permission from the copyright owner.

>

[Guest guest]

> The BLOOD BRAIN BARRIER CAN NOT BE REGENERATED!

Is the intent of this statement to pursuade people to stop wasting

their time looking to cure something that cannot be " cured " ?

Is your counsel to spread hope - or despair?

Stop thinking you can

> dispense medical information that is erroneous. I told you read up

on

> physiology then claim you CURED ypurself.

I just said that exposures which used to knock me flat don't bother

me anymore. I can enjoy perfume instead of running from the room.

Is that dispensing medical advice?

>

> As I also stated before, Grace is right, and your only audience is

here

> that is seeking TRUE information and you are dispensing fallacies!

What makes you so sure I'm lying? What if I'm not?

> If you CURED yourself you would be in every Environmental MEdicine

> publication and they ould be researching you and how you achieved

> it

How do you know I'm not in research studies without even asking?

-The Legendary (in my own mind, of course)

[Guest guest]

> The BLOOD BRAIN BARRIER CAN NOT BE REGENERATED!

Is the intent of this statement to pursuade people to stop wasting

their time looking to cure something that cannot be " cured " ?

Is your counsel to spread hope - or despair?

Stop thinking you can

> dispense medical information that is erroneous. I told you read up

on

> physiology then claim you CURED ypurself.

I just said that exposures which used to knock me flat don't bother

me anymore. I can enjoy perfume instead of running from the room.

Is that dispensing medical advice?

>

> As I also stated before, Grace is right, and your only audience is

here

> that is seeking TRUE information and you are dispensing fallacies!

What makes you so sure I'm lying? What if I'm not?

> If you CURED yourself you would be in every Environmental MEdicine

> publication and they ould be researching you and how you achieved

> it

How do you know I'm not in research studies without even asking?

-The Legendary (in my own mind, of course)

[Guest guest]

>

> > The BLOOD BRAIN BARRIER CAN NOT BE REGENERATED!

>

> Is the intent of this statement to pursuade people to stop wasting

> their time looking to cure something that cannot be " cured " ?

> Is your counsel to spread hope - or despair?

REALITY and how to deal with a life long disability...not to give a FALSE

hope.

>

> Stop thinking you can

> > dispense medical information that is erroneous. I told you read up

> on

> > physiology then claim you CURED ypurself.

>

> I just said that exposures which used to knock me flat don't bother

> me anymore. I can enjoy perfume instead of running from the room.

> Is that dispensing medical advice?

YOu are TELLING abput supplements aka Zinc...medical advice.

>

>

> >

> > As I also stated before, Grace is right, and your only audience is

> here

> > that is seeking TRUE information and you are dispensing fallacies!

>

> What makes you so sure I'm lying? What if I'm not?

If you WERE ALL that you propose to be someone in the MCS arena would know

about you and the MIRACLE you have acheived....and since not one doctor,

activist etc., has heard of this miracle or you I still say...legend in

your won mind.

>

> > If you CURED yourself you would be in every Environmental MEdicine

> > publication and they ould be researching you and how you achieved

> > it

>

> How do you know I'm not in research studies without even asking?

Research topics are known...aka the glutthione nasal trial...good try..but

I am not buying into it.

>

> -The Legendary (in my own mind, of course)

>

>

>

>

>

> FAIR USE NOTICE:

>

> This site contains copyrighted material the use of which has not always been

specifically authorized by the copyright owner. We are making such material

available in our efforts to advance understanding of environmental, political,

human rights, economic, democracy, scientific, and social justice issues, etc.

We believe this constitutes a 'fair use' of any such copyrighted material as

provided for in section 107 of the US Copyright Law. In accordance with Title 17

U.S.C. Section 107, the material on this site is distributed without profit to

those who have expressed a prior interest in receiving the included information

for research and educational purposes. For more information go to:

http://www.law.cornell.edu/uscode/17/107.shtml. If you wish to use copyrighted

material from this site for purposes of your own that go beyond 'fair use', you

must obtain permission from the copyright owner.

>

[Guest guest]

>

> > The BLOOD BRAIN BARRIER CAN NOT BE REGENERATED!

>

> Is the intent of this statement to pursuade people to stop wasting

> their time looking to cure something that cannot be " cured " ?

> Is your counsel to spread hope - or despair?

REALITY and how to deal with a life long disability...not to give a FALSE

hope.

>

> Stop thinking you can

> > dispense medical information that is erroneous. I told you read up

> on

> > physiology then claim you CURED ypurself.

>

> I just said that exposures which used to knock me flat don't bother

> me anymore. I can enjoy perfume instead of running from the room.

> Is that dispensing medical advice?

YOu are TELLING abput supplements aka Zinc...medical advice.

>

>

> >

> > As I also stated before, Grace is right, and your only audience is

> here

> > that is seeking TRUE information and you are dispensing fallacies!

>

> What makes you so sure I'm lying? What if I'm not?

If you WERE ALL that you propose to be someone in the MCS arena would know

about you and the MIRACLE you have acheived....and since not one doctor,

activist etc., has heard of this miracle or you I still say...legend in

your won mind.

>

> > If you CURED yourself you would be in every Environmental MEdicine

> > publication and they ould be researching you and how you achieved

> > it

>

> How do you know I'm not in research studies without even asking?

Research topics are known...aka the glutthione nasal trial...good try..but

I am not buying into it.

>

> -The Legendary (in my own mind, of course)

>

>

>

>

>

> FAIR USE NOTICE:

>

> This site contains copyrighted material the use of which has not always been

specifically authorized by the copyright owner. We are making such material

available in our efforts to advance understanding of environmental, political,

human rights, economic, democracy, scientific, and social justice issues, etc.

We believe this constitutes a 'fair use' of any such copyrighted material as

provided for in section 107 of the US Copyright Law. In accordance with Title 17

U.S.C. Section 107, the material on this site is distributed without profit to

those who have expressed a prior interest in receiving the included information

for research and educational purposes. For more information go to:

http://www.law.cornell.edu/uscode/17/107.shtml. If you wish to use copyrighted

material from this site for purposes of your own that go beyond 'fair use', you

must obtain permission from the copyright owner.

>

[Guest guest]

Actually research has shown that the blood brain barrier can be

regenerated.

It is better to keep an open mind and try/research new things.

[Guest guest]

Actually research has shown that the blood brain barrier can be

regenerated.

It is better to keep an open mind and try/research new things.

[Guest guest]

I had the same negative response from CFS groups when I told them

about this six years ago. Just like Rick did before me.

I told Rick that I can understand peoples frustration because there

is no end of snake oil making the rounds.

When you are fighting for your life with something that people don't

even believe in and a person tells you that all you have to do to get

over it is buy their product or chant some secret Mantra or rub Bee

Balm on your butt, it's natural to become enraged and want to club

them over the head.

Been there and done it.

But before you completely flush everything I say, call up

of CIIN.

As you know, the co-founder Duehring fought MCS as hard as any

human on this planet can fight.

Just before MCS took her life, suddenly turned her attention to

mold. This was right at the last and I don't think she had a chance

to publish any of her thoughts on this change in focus.

Duehring was a brilliant person and I suspect she had a good

reason for her interest in mold as a driving force in this illness.

I just got lucky about discovering the mycotoxin connection to MCS.

Call and ask her if I speak the truth.

-

[Guest guest]

I had the same negative response from CFS groups when I told them

about this six years ago. Just like Rick did before me.

I told Rick that I can understand peoples frustration because there

is no end of snake oil making the rounds.

When you are fighting for your life with something that people don't

even believe in and a person tells you that all you have to do to get

over it is buy their product or chant some secret Mantra or rub Bee

Balm on your butt, it's natural to become enraged and want to club

them over the head.

Been there and done it.

But before you completely flush everything I say, call up

of CIIN.

As you know, the co-founder Duehring fought MCS as hard as any

human on this planet can fight.

Just before MCS took her life, suddenly turned her attention to

mold. This was right at the last and I don't think she had a chance

to publish any of her thoughts on this change in focus.

Duehring was a brilliant person and I suspect she had a good

reason for her interest in mold as a driving force in this illness.

I just got lucky about discovering the mycotoxin connection to MCS.

Call and ask her if I speak the truth.

-

[Guest guest]

h

Really...please post this information as I am sure the MCS doctors

would like to know this.

Has Kay Kilburn been told of this revelation?

" If having endured much, we at last asserted our 'right to know' and if,

knowing, we have concluded that we are being asked to take senseless and

frightening risks, then we should no longer accept the counsel of those

who tell us that we must fill our world with poisonous chemicals, we

should look around and see what other course is open to us. "

Carson

" My toxicasa (world) is your toxicasa (world). "

Judith Goode

On Thu, 20 May 2004, rainbowcarebearstitch10 wrote:

> Actually research has shown that the blood brain barrier can be

> regenerated.

>

> It is better to keep an open mind and try/research new things.

>

>

>

>

>

>

> FAIR USE NOTICE:

>

> This site contains copyrighted material the use of which has not always been

specifically authorized by the copyright owner. We are making such material

available in our efforts to advance understanding of environmental, political,

human rights, economic, democracy, scientific, and social justice issues, etc.

We believe this constitutes a 'fair use' of any such copyrighted material as

provided for in section 107 of the US Copyright Law. In accordance with Title 17

U.S.C. Section 107, the material on this site is distributed without profit to

those who have expressed a prior interest in receiving the included information

for research and educational purposes. For more information go to:

http://www.law.cornell.edu/uscode/17/107.shtml. If you wish to use copyrighted

material from this site for purposes of your own that go beyond 'fair use', you

must obtain permission from the copyright owner.

>

[Guest guest]

h

Really...please post this information as I am sure the MCS doctors

would like to know this.

Has Kay Kilburn been told of this revelation?

" If having endured much, we at last asserted our 'right to know' and if,

knowing, we have concluded that we are being asked to take senseless and

frightening risks, then we should no longer accept the counsel of those

who tell us that we must fill our world with poisonous chemicals, we

should look around and see what other course is open to us. "

Carson

" My toxicasa (world) is your toxicasa (world). "

Judith Goode

On Thu, 20 May 2004, rainbowcarebearstitch10 wrote:

> Actually research has shown that the blood brain barrier can be

> regenerated.

>

> It is better to keep an open mind and try/research new things.

>

>

>

>

>

>

> FAIR USE NOTICE:

>

> This site contains copyrighted material the use of which has not always been

specifically authorized by the copyright owner. We are making such material

available in our efforts to advance understanding of environmental, political,

human rights, economic, democracy, scientific, and social justice issues, etc.

We believe this constitutes a 'fair use' of any such copyrighted material as

provided for in section 107 of the US Copyright Law. In accordance with Title 17

U.S.C. Section 107, the material on this site is distributed without profit to

those who have expressed a prior interest in receiving the included information

for research and educational purposes. For more information go to:

http://www.law.cornell.edu/uscode/17/107.shtml. If you wish to use copyrighted

material from this site for purposes of your own that go beyond 'fair use', you

must obtain permission from the copyright owner.

>

[Guest guest]

During was poisoned by pesticides that caused her extreme

isolation and eventual death.

I know of people who traveled to her memorial service and there were some

who still didn't get it and were wearing fragrances ...a life wasted.

I know of CIIH and .

I am tired of arguing with you...you are now on automatic placement

into my junk mail. YOu are wrong...deal with it.

Case closed at my end and do not try to contact me back channel either.

" If having endured much, we at last asserted our 'right to know' and if,

knowing, we have concluded that we are being asked to take senseless and

frightening risks, then we should no longer accept the counsel of those

who tell us that we must fill our world with poisonous chemicals, we

should look around and see what other course is open to us. "

Carson

" My toxicasa (world) is your toxicasa (world). "

Judith Goode

On Thu, 20 May 2004, erik_johnson_96140 wrote:

> I had the same negative response from CFS groups when I told them

> about this six years ago. Just like Rick did before me.

> I told Rick that I can understand peoples frustration because there

> is no end of snake oil making the rounds.

> When you are fighting for your life with something that people don't

> even believe in and a person tells you that all you have to do to get

> over it is buy their product or chant some secret Mantra or rub Bee

> Balm on your butt, it's natural to become enraged and want to club

> them over the head.

> Been there and done it.

> But before you completely flush everything I say, call up

> of CIIN.

> As you know, the co-founder Duehring fought MCS as hard as any

> human on this planet can fight.

> Just before MCS took her life, suddenly turned her attention to

> mold. This was right at the last and I don't think she had a chance

> to publish any of her thoughts on this change in focus.

> Duehring was a brilliant person and I suspect she had a good

> reason for her interest in mold as a driving force in this illness.

> I just got lucky about discovering the mycotoxin connection to MCS.

> Call and ask her if I speak the truth.

> -

>

>

>

> FAIR USE NOTICE:

>

> This site contains copyrighted material the use of which has not always been

specifically authorized by the copyright owner. We are making such material

available in our efforts to advance understanding of environmental, political,

human rights, economic, democracy, scientific, and social justice issues, etc.

We believe this constitutes a 'fair use' of any such copyrighted material as

provided for in section 107 of the US Copyright Law. In accordance with Title 17

U.S.C. Section 107, the material on this site is distributed without profit to

those who have expressed a prior interest in receiving the included information

for research and educational purposes. For more information go to:

http://www.law.cornell.edu/uscode/17/107.shtml. If you wish to use copyrighted

material from this site for purposes of your own that go beyond 'fair use', you

must obtain permission from the copyright owner.

>

[Guest guest]

During was poisoned by pesticides that caused her extreme

isolation and eventual death.

I know of people who traveled to her memorial service and there were some

who still didn't get it and were wearing fragrances ...a life wasted.

I know of CIIH and .

I am tired of arguing with you...you are now on automatic placement

into my junk mail. YOu are wrong...deal with it.

Case closed at my end and do not try to contact me back channel either.

" If having endured much, we at last asserted our 'right to know' and if,

knowing, we have concluded that we are being asked to take senseless and

frightening risks, then we should no longer accept the counsel of those

who tell us that we must fill our world with poisonous chemicals, we

should look around and see what other course is open to us. "

Carson

" My toxicasa (world) is your toxicasa (world). "

Judith Goode

On Thu, 20 May 2004, erik_johnson_96140 wrote:

> I had the same negative response from CFS groups when I told them

> about this six years ago. Just like Rick did before me.

> I told Rick that I can understand peoples frustration because there

> is no end of snake oil making the rounds.

> When you are fighting for your life with something that people don't

> even believe in and a person tells you that all you have to do to get

> over it is buy their product or chant some secret Mantra or rub Bee

> Balm on your butt, it's natural to become enraged and want to club

> them over the head.

> Been there and done it.

> But before you completely flush everything I say, call up

> of CIIN.

> As you know, the co-founder Duehring fought MCS as hard as any

> human on this planet can fight.

> Just before MCS took her life, suddenly turned her attention to

> mold. This was right at the last and I don't think she had a chance

> to publish any of her thoughts on this change in focus.

> Duehring was a brilliant person and I suspect she had a good

> reason for her interest in mold as a driving force in this illness.

> I just got lucky about discovering the mycotoxin connection to MCS.

> Call and ask her if I speak the truth.

> -

>

>

>

> FAIR USE NOTICE:

>

> This site contains copyrighted material the use of which has not always been

specifically authorized by the copyright owner. We are making such material

available in our efforts to advance understanding of environmental, political,

human rights, economic, democracy, scientific, and social justice issues, etc.

We believe this constitutes a 'fair use' of any such copyrighted material as

provided for in section 107 of the US Copyright Law. In accordance with Title 17

U.S.C. Section 107, the material on this site is distributed without profit to

those who have expressed a prior interest in receiving the included information

for research and educational purposes. For more information go to:

http://www.law.cornell.edu/uscode/17/107.shtml. If you wish to use copyrighted

material from this site for purposes of your own that go beyond 'fair use', you

must obtain permission from the copyright owner.

>

[Guest guest]

Do not think this classifies as a revelation...To my knowledge Dr.

Kilburn does testing and research not treatment.

This group is supposed to be here for emotional support and to try

and help others get well. We are not doctors so please do not squash

people's hopes of recovering.

Looks like a blueberry a day keeps the neurologist away.

http://www.lef.org/magazine/mag2000/mar00-cover.html

LE Magazine March 2000

Antioxidant Power

Blueberries and bilberries slow brain aging and protect vision

by Ivy Greenwell

When it comes to antioxidant power, according to a measure called

ORAC (oxygen radical absorbance capacity), blueberries are at the

top of the USDA chart-ahead of blackberries, garlic, kale and

strawberries, and far ahead of broccoli and spinach. Not only that,

but they taste delicious. Here, nature has been gracious to us: a

favorite food has been found to be a powerhouse of antioxidants.

Talk about a miracle anti-aging food that is actually a treat!

Now, by all means keep eating spinach and kale-these vegetables

contain the powerful carotenoids, lutein and zeaxanthin, as well as

a sulfur-containing antioxidant, lipoic acid-nutrients that help

protect us against macular degeneration and cataracts, and probably

against cardiovascular disease and other aging-related disorders as

well. Eating spinach, kale and other green leafy vegetables at least

twice a week is highly recommended. But do consider consuming half a

cup or more of blueberries every day in addition to all the

vegetables and fruit you already consume. Yes, you've read that

correctly: this article is urging you to eat blueberries every day.

Why? Because adding blueberries to your daily diet could double your

antioxidant intake from food. Frozen blueberries are fine when fresh

ones are out of season. Wild blueberries may be more potent than the

larger, sweeter cultivated blueberries, but even the cultivated

blueberries apparently can pack a ferocious punch against free

radicals.

Why this sudden urgency about eating blueberries? It started with

the scientists at the USDA Nutrition Research Center on Aging at

Tufts University in Boston. They have discovered that the blueberry

comes close to being a miracle food, considering the important

health and anti-aging benefits it offers. It is rumored that the

Tufts researchers themselves have begun to eat blueberries by the

pint during the berry season; off-season, their freezers are stacked

with frozen blueberries. Dr. ph, a senior scientist at

Tufts, admits that he started adding blueberries to his morning

protein shake after he saw the results of his own research. This

comes as no surprise: scientists have known for a long time that

restoring and maintaining youthful brain function is key in slowing

aging.

European bilberries (Vaccinium myrtillus) and North American

blueberries (Vaccinium corymbosum) are closely related; cranberries

(Vaccinium macrocarpon) are also close cousins to blueberries.

Scientists think that the antioxidant and general anti-aging

benefits of the Vaccinium species berries come from the compounds

that give them their deep pigmentation. These compounds are a class

of flavonoids (phenolic compounds) called anthocyanins, which often

occur together with proanthocyanidins. Proanthocyanidins are the

precursors of anthocyanins, and also excellent antioxidants in their

own right.

Sometimes these complex flavonoids are referred to by an older term

that seems to be regaining popularity, namely " condensed tannins. "

It is these tannins that give flowers, vegetables and fruit hues

that include deep red, purple, mauve, blue, all the way to the

extremely dark blue of Northern European bilberries, which can

appear practically black. Thus, the redness of strawberries and

raspberries and the blueness of blueberries are due to the same

class of compounds. Elderberry, persimmon, tart red cherries

(tartness indicates the presence of condensed tannins), red and

purple grapes, beets, purple cabbage, and the peel of the purple

eggplant also contain anthocyanins and proanthocyanidins.

So do many flowers-the very names of certain anthocyanins such as

petunidine, malvidine, delphynidine, and peonidine indicate in which

flowers these anthocyanins were first discovered. The anthocyanins

in hydrangea have the interesting property of imparting mauve-pink

color when the plant grows in acid soil, and blue color in alkaline

soil. The red-mauve hues of autumn leaves are also due to these

complex polyphenols. Those stunning scarlets of New England in

October are the gift of anthocyanins. The astringent taste of wine

and unripe fruit is also due to various condensed tannins.

In addition, one of the most potent flavonoids-quercetin-widely

researched due to its powerful anti-cancer, anti-inflammatory, and

cardioprotective properties, is chemically closely related to

anthocyanins. Quercetin is present in wine, ginkgo, onions, apples,

black tea and grapefruit. But berries appear to have something

possibly even more potent in some ways than quercetin: a simple

phenolic compound called ellagic acid, which has emerged as a star

in natural chemoprevention.

Please note that green tea contains mainly catechins, which are

relatively simple phenolic compounds. " Simple " doesn't mean that

they are less beneficial. Black tea and many fruits and vegetables

contain mainly complex polyphenols, also called polymeric

polyphenols, or condensed tannins. Both simple and complex

polyphenols, often present side by side, have been found to have a

wide range of health benefits. Ellagic acid, for instance, a

powerful anti-carcinogen, is also present in many kinds of berries,

including blueberries and raspberries, as well as in cherries and

pomegranates. Catechins are found not only in green tea, but also in

red wine and dark chocolate (cocoa powder and bittersweet chocolate

are good sources; " white chocolate " does not contain polyphenols).

Likewise, coffee contains not only caffeine (an alkaloid; by the

way, caffeine is also a strong antioxidant), but also catechins, as

well as simple phenolic acids, such as chlorogenic acid, caffeic

acid, and tannic acid. Hence, for instance, the well-established

effectiveness of coffee in decreasing iron levels, or helping fight

certain bacterial and viral infections.

Tannins are very common in the plant world. Apart from the sources

already mentioned, they are also found in the bark of various trees-

the best-known bark extract, Pycnogenol, comes from the bark of the

French Maritime Pine, Pinus maritima. The wide distribution of

tannins in the plant kingdom is probably related both to their

antioxidant and antimicrobial properties. The presence of tannins in

wood, for instance, is likely to be a key reason for the durability

of wood. The fact that chocolate doesn't spoil in spite of its high

fat content is also due to these fascinating polyphenols. Also, in

spite of containing sugar, chocolate, like tea and other flavonoid-

rich foods, appears to help prevent cavities. There is emerging

evidence that thanks to their antimicrobial action, flavonoids can

help prevent dental decay and oral diseases.

Bioflavonoids in general are amazingly bioactive with a wide range

of benefits. Like many other powerful antioxidants, they show a

biphasic action, depending on the dose. Lower doses, available from

diet and supplements (even if you take several capsules per day of

various flavonoid extracts, it is still a fairly low dose) act as

antioxidants and raise the levels of reduced glutathione (GSH) and

vitamin C. Negative effects such as pro-oxidant action and

glutathione depletion become an issue only if huge megadoses are

taken over a longer period of time. Again: neither blueberry eaters

nor supplement takers need worry, since it would be very difficult

and extremely expensive to reach the kind of tissue concentrations

at which damage from flavonoids might occur. As Dr. Shukitt-Hale

says, " You can't overdose on blueberries. "

At the same, we badly need more research to investigate some

unanswered questions about the dose range that produces optimum

results. And of course, as usual, there are questions about in-vivo

effects and complex interactions. Taking a single very potent

flavonoid such as quercetin in megadoses (several grams a day, for

instance) for an extended period of time should not be done without

the supervision of an experienced clinician. We must remember that

flavonoid research is still in infancy, and our knowledge is partial

at best.

A lot of the benefits of phenolic compounds stem from their

antioxidant properties. Flavonoids are powerful scavengers of free

radicals. They also enter the body's antioxidant network, boosting

the levels of vitamin C and of our chief endogenous antioxidant,

glutathione. Higher levels of ascorbate and glutathione mean better

protection of DNA and cell proteins against free radical damage.

Higher levels of glutathione also mean better recycling of other

antioxidant compounds, including, very importantly, estrogens, to

their reduced (antioxidant) form so that these substances do not

produce damage. Estrogens are excellent at protecting neural

membranes from peroxidation and preventing neural death-but only if

there is sufficient glutathione to keep recycling these powerful

hormones to their antioxidant form. Thus, the ability of phenolic

compounds such as anthocyanins to raise glutathione levels is

extremely important. This, together with the inhibition of the

enzymes needed for cell proliferation, such as tyrosine kinase and

ornithine decarboxylase, leads to a longer cell cycle and a lower

cellular turnover, since fewer damaged cells need to be replaced.

The implications for anti-aging and cancer prevention are profound.

Hormone-like?

You may wonder why flavonoids have such a wide range of

physiological effects, resembling those of hormones. Apparently this

stems from the fact that flavonoids have chemical and structural

similarities to steroid hormones, thyroid hormones, prostaglandins,

retinoids, and fatty acids. Thus it should not be altogether

surprising that flavonoids can even affect gene expression-both the

expression of our own genes, and the genes of the various bacteria

and viruses that may invade us.

Flavonoids can also attach themselves to proteins, modulating the

action of enzymes. They inhibit certain digestive enzymes and also

the kinase enzymes necessary for cell proliferation. This partly

explains how flavonoids can serve as a valuable adjunct cancer

therapy for many kinds of cancer. When very high doses of flavonoids

are used, the proliferation of normal cells is also inhibited, but

that generally doesn't hurt these cells, which just " sit. " In fully

developed cancer, however, tumor cells cannot survive in the resting

state.

On the other hand, very high levels of flavonoids are undesirable

for women seeking to become pregnant, since these compounds are also

known to decrease fertility, possibly by modulating hormone levels

and even by interfering with the critical early stages of pregnancy.

Soy and red clover phytoestrogens are a particular culprit here,

acting as endocrine disruptors because of their high ability to bind

to estrogen receptors. Less estrogenic flavonoids may have less

impact on the menstrual cycle and other aspects of fertility. A lot

remains to be explored.

We are barely beginning to research flavonoids and other

phytochemicals in the kind of depth they deserve. For a long while

it has been known that people who consume more vegetables and fruit

showed significantly superior health compared to those eating the

least, especially in regard to lower rates of cardiovascular disease

and cancer. Now the reasons for this are emerging. While eating a

wide variety of plant foods is highly recommended, due to the

synergy of various phytochemicals, we are discovering that certain

compounds are particularly valuable. The phytochemicals in

blueberries and bilberries are now at the top of the list.

What is so special about blueberries and bilberries? They are the

richest known source of anthocyanins. But it's possible that it is

the synergy of the various compounds these berries contain that is

responsible for the dramatic results recently obtained at Tufts

University in Boston.

Repairing the aging brain

The main reason there has been a recent flurry of articles and media

reports on blueberries is the groundbreaking research at Tufts

University in Boston, conducted under the direction of Dr.

ph.

Nineteen-month-old Fisher rats, the equivalent of 60- to 65-year-old

humans, were fed dried aqueous blueberry extract in a dose assumed

by the investigators to be the human equivalent of one-half cup of

blueberries a day. Other experimental groups received either vitamin

E, dried aqueous spinach extract, or strawberry extract. After eight

weeks in which the rats were the equivalent of 70- to 75-year-old

humans, the control rats and rats supplemented with strawberry,

blueberry, and spinach extracts were subjected to various tests of

memory and motor function. The latter included such challenging

tasks as walking on a narrow rod and, most difficult of all, staying

on an accelerating rotating rod (the researchers jocularly referred

to these tests as the " rat Olympics " ).

While all supplemented rats showed some improvement on memory and

learning tasks, only the rats fed blueberry extract showed a

dramatic improvement in balance and motor coordination compared to

unsupplemented rats. Rats fed blueberries could run faster and stay

longer on the narrow rod and on the rotating rod. In fact, on the

average they managed to stay on almost twice as long as all the

other aged rats before falling off.

The blueberry-supplemented rats even came close to the youthful norm

on maintaining balance while walking on the narrow rod. Young rats

can stay on for 13 seconds; old rats fall off after five seconds.

Rats in the groups receiving vitamin E, spinach extract, and

strawberry extract fell off just as quickly as control rats. But the

blueberry-supplemented old rats managed to stay on for 10 to 11

seconds.

All these feats show a reversal of the usual aging-related

dysfunction in motor behavior, balance and coordination. Again, the

blueberry-supplemented animals were the only group to show reversals

in motor-behavioral deficits. Neither vitamin E, spinach extract or

strawberry extract produced these rejuvenating effects on the motor

function.

In his paper in the September 1999 issue of the Journal of

Neuroscience, Dr. ph states, " This is the first study that has

shown that dietary supplementation with fruit and vegetable extracts

that are high in phytonutrient antioxidants can actually reverse

some of the aging-related neuronal/behavioral dysfunction. " The

dryness and formality of this statement should not obscure the fact

that something extraordinary has been discovered. We do not know of

any other agent that can reverse the deterioration of motor function

with aging. And yet daily doses of blueberry extract have done just

that.

An impaired sense of balance is one of the telltale signs of aging.

For instance, a young person can usually stand on one leg, even with

eyes closed, much longer than an older person, who begins to sway

and quickly needs to put down the raised leg in order to prevent a

fall. The elderly are also notorious for falling down for no

apparent reason. We maintain our posture by automatically correcting

against swaying motion; when the conduction of neural signals slows

down due to aging, we easily lose our balance. The phytochemicals in

the blueberry extract appear to have speeded up neural communication.

The next project is to start feeding blueberry extract to very young

rats, to see to what extent the age-related deterioration in both

cognitive and motor function can be prevented. Previous Tufts

studies have already shown that if rats are fed antioxidants

beginning at six months of age, their aging process is partly slowed

down (in animal studies, various antioxidants have been found to

extend the average life span by 10% to 30%). It would be interesting

to see if any of the fruit- or vegetable-extract supplemented diets

also extend longevity. The fact that blueberry extract resulted in

greater ability to release dopamine may be significant for

longevity. Several nutrients that increase dopamine (and thus also

growth hormone) have been shown to increase the average life span.

The supplemented rats also showed improved learning and short-term

memory, performing closer to youthful levels in tests such as

navigating mazes and finding an underwater platform. One possible

explanation is vision improvement, since flavonoids and other

compounds found in berries and spinach are known for their benefits

to the eyes. However, an improvement in memory and cognition in

general is also likely to be involved. This is to be expected when

the levels of neurotransmitters, which typically decline with

advancing age, are raised through a powerful antioxidant

intervention. In separate studies, it has also been found that

phytochemicals contained in blueberry, strawberry and spinach

extracts prevented cell death and the loss of nerve growth factors.

When the brain tissue from the blueberry-supplemented rats was

subjected to various in-vitro tests, it was discovered that it

showed the greatest dopamine release, and the best ability to handle

calcium ions. " It appears that blueberry supplementation may be

effective in reversing the deleterious effects of aging on calcium

homeostasis, " Dr. ph states in his paper. Other changes also

confirmed that the neurons from blueberry-supplemented rats had the

best ability to communicate with other cells. Dr. ph speculates

that mechanisms other than the antioxidant protection may be

involved here, mainly an increase in membrane fluidity and lower

levels of inflammatory compounds. An increase in glutathione was

also found, but it did not reach statistical difference.

A co-author of the study, Barbara Shukitt-Hale, said in an

interview, " People are told once you're old, there's nothing you can

do. That might not be true. " You may chuckle at this truism. Coming

from the scientific establishment, however, the suggestion that

nutrients easily obtained from the diet might at least partially

reverse aging-related impairment is quite revolutionary. Up to now,

the belief has been that the decline in brain function, both the

cognitive and motor aspects, is inevitable and irreversible. Now,

more and more evidence points the opposite way.

If simply eating one-half cup of blueberries a day might produce

dramatic changes (though of course this is yet to be documented in

humans), then a more aggressive and multi-factorial approach might

yield even more profound results. For instance, we know that certain

hormones have a profound impact on brain function. In terms of motor

function, coordination has been shown to improve when the levels of

estradiol and progesterone are high. Likewise, postmenopausal women

have shown faster reaction time and improved manual dexterity when

put on hormone replacement. A popular old definition of flavonoids

used to be " weak plant estrogens. " These compounds often bind to the

newly discovered human Type II estrogen receptors. A great deal of

exploration remains to be done.

Are there yet other possible mechanisms through which blueberries

might work to protect and repair neural tissue? One interesting

property of polyphenols is their ability to modulate the production

of nitric oxide. In correct amounts, nitric oxide is extremely

useful. In excess, it is neurotoxic. Phenolic compounds seem

particularly effective in terms of keeping nitric oxide within the

correct range, thus improving circulation and reducing free-radical

damage from nitrogen peroxides.

Another important property of flavonoids is their ability to raise

the levels of glutathione. Glutathione is arguably the most

important neuroprotector, being not only our primary antioxidant

defense, but also an effective suppressor of chronic inflammation,

known to be a significant factor in all the major diseases related

to aging. Victims of Parkinson's disease show low levels of

glutathione in brain tissue. It's interesting to speculate that

perhaps compounds that raise glutathione, such as lipoic acid, NAC,

and the potent phenolics found in berries, cherries and walnuts,

might be able to help prevent the development of Alzheimer's disease

and Parkinson's disease, two of the most feared and disabling

degenerative disorders of old age. Both could be called " death in

life " and are a tragedy for both the victim and the nearest family

members. What if it turned out that simply eating half a cup of

blueberries every day could largely prevent an enormous amount of

suffering later! (For even better prevention, one needs to boost the

entire antioxidant network-see the review of Packer's Antioxidant

Miracle in the June 1999 issue of Life Extension magazine. -Eds.)

Flavonoids also tend to lowerblood sugar, and thus glycation. An

extract of blueberry leaves has been a traditional folk remedy

against diabetes. Glycation and its toxic end product, known as AGEs

(a singularly apt acronym for " advanced glycation end products " ),

are regarded as one of the important factors in the development and

progression of brain diseases such as Alzheimer's disease.

In addition, bilberry extract has been shown to enhance the blood-

brain barrier, which tends to become impaired with aging, showing a

decrease in vascular density, increased permeability and other

abnormalities. The normal functioning of blood-brain barrier is

important not only for keeping out toxins and undesirable compounds,

but also for glucose transport to the brain. Anthocyanins and

related compounds seem able to decrease capillary permeability

(possibly by stabilizing membrane phospholipids). Animal studies

have also shown that if the blood-brain barrier becomes damaged and

too permeable, anthocyanins help restore normal permeability.

In general, we have plenty of evidence that Dr. Packer is right when

he says, " Flavonoids are a brain booster. " But their action goes

beyond mere " boosting. " At least some flavonoids can apparently

repair the age-related damage to the neurons-and here the

anthocyanins and proanthocyanidins in blueberries, bilberry extract

and grape seed extract (or red wine and purple grape juice) are the

best candidates for this starring new role in the anti-aging regimen.

Berries, true eye-openers

The public became interested in bilberry extract after the news

about its vision-improving benefits. Bilberry flavonoids appear to

protect the retina and enhance the production of rhodopsin, also

called the visual purple. Rhodopsin is a protein necessary for near

vision. Exposure to light, particularly bright daylight, high-

contrast lights or even computer screens deplete rhodopsin,

resulting in poor night vision. A sufficient dose of bilberry

anthocyanins apparently leads to an increase in rhodopsin.

The first anecdotal reports about the effectiveness of bilberries

came from British pilots who consumed bilberry jam in order to

improve their night vision. This story became so widely known to the

readers of popular alternative health magazines that unfortunately

for quite a while the public assumed that the only benefits of

bilberry extract relate to night vision. Later on we learned about

bilberry in relation to enhanced mirocirculation in the retina. Even

now, many people assume that the benefits of bilberry extract are

confined to vision. This is reminiscent of a similar development in

regard to glutathione. Because glutathione is present in especially

high levels in the lens of the eye, early research focused on the

role of glutathione in vision; the understanding of glutathione's

primary role as the body's main antioxidant, detoxifier, anti-

inflammatory and possibly the key anti-aging compound came only

later.

This is not to deny that the protection of the retina is indeed

extremely important. Interestingly, it was not in England, but in

Italy that most studies on bilberry extract and vision were

performed, mostly in the late 1980s. One study achieved an

unprecedented 97% success in halting cataract progression using

bilberry extract and vitamin E. In another exciting study,

bilberryextract improved vision in 75% of nearsighted subjects. A

German study using a combination of vitamin E and anthocyanins found

either a stabilization of myopia or an actual improvement in visual

acuity in the majority of patients, whereas the control group showed

further deterioration. The progressive nature of myopia is one of

axioms of traditional ophthalmology: once you become near-sighted,

the older you get, the more near-sighted you get, requiring a

stronger prescription every couple of years. Hence, it is truly

revolutionary to note that a group of naturally occurring flavonoids

has been shown to either arrest or even reverse the progression of

myopia.

Please note: those who wish to experiment with bilberry extract for

reversing myopia should understand that there is no guarantee of

this benefit. On the other hand, there is nothing to lose, since it

is likely that at least the progressive deterioration of vision can

be arrested. In addition, bilberry extract has many other health

benefits, typical for phenolic antioxidants.

Of special interest in various ophthalmic pathologies are the anti-

angiogenic properties of certain flavonoids, when these

phytonutrients are used in the correct dosage range. Catechins,

anthocyanins and proanthocyanidins have been found to inhibit the

growth of abnormal blood vessels. This happens to be one of the

mechanisms through which phenolic compounds can inhibit the growth

and spread of tumors. But it also applies to the growth of abnormal

blood vessels involved in the " wet, " or advanced macular

degeneration.

But perhaps the greatest enemy of good eye health is elevated blood

glucose. You do not need to be diagnosed with diabetes to suffer

some degree of damage to the tiny blood vessels of the retina

(microvascular damage) due to the destructive action of glucose.

Serum glucose levels typically rise with age. Apart from a low-

carbohydrate diet combined with exercise, can anything be done? Here

again the finding that various kinds of polyphenols lower blood

sugar is of great relevance.

Interestingly, Chinese medicine recommends raspberries for vision

improvement. Close enough: raspberries contain many of the same

flavonoids as blueberries and bilberries. For vision improvement,

think in terms of deeply colored berries (and probably cherries and

plums as well). Red wine may also help: one study found that red

wine drinkers were 20% less likely to develop macular degeneration.

And since we have mentioned Oriental medicine, ginkgo too has been

shown to have benefits for the retina, thanks to its antioxidant

properties, its ability to raise glutathione levels, and its

enhancement of the blood-retinal barrier. To put it simply, various

potent flavonoids have similar effects, whether on the brain,

eyesight or the vascular system.

Again, a reminder that vegetables and/or supplements containing

lutein and zeaxanthin are also a must if you wish to protect your

vision against aging-related deterioration. Egg yolks are a rich

source of lutein, as is spinach. Vitamins E and C (800 mg/d), as

well as zinc, have also been documented to help prevent cataracts.

In addition, antioxidant hormones such as estrogens and DHEA may

also be protective. Finally, the alkaloid vinpocetine (an extract of

the lesser periwinkle, Vinca minor) is a promising new addition to

the growing arsenal of compounds that can help protect our eyesight.

The omega-3 fatty acid known as DHA (docosahexaenoic), richly

present in fish oil, also appears to be important for protecting

vision. When you use a variety of protective supplements are used,

you lower your chances of developing the " inevitable " senile

cataracts and other age-related eye problems.

References

Asgary S et al. Antioxidant effect of flavonoids on hemoglobin

glycosylation. Pharma Acta Helv 1999; 73:223-6.

Atkins R. The Vita-Nutrient Solution. Simon and Schuster, 1999, pp.

310-311.

Bagchi D et al. Protective effects of grape seed proanthocyanidins

and selected antioxidants against TPA-induced hepatic and brain

lipid peroxidation and DNA fragmentation, and peritoneal macrophage

activation in mice. Gen Pharmacol 1998; 30: 771-6.

Baker ME. Flavonoids as hormones. A perspective from an analysis of

molecular fossils. Adv Exp Med Biol 1998;439:249-67.

Bickford PC et al. Diets high in antioxidants can reverse age-

related declines in cerebellar beta-adrenergic receptor functions

and motor learning. Paper presented at the 1999 AGE Annual Meeting,

Seattle.

Buee L. Cerebrovascular aging. Therapie 1999; 54:155-65.

Cao G et al. Hyperoxia-induced changes in antioxidant capacity and

the effect of dietary antioxidants. J Appl Physiol 1999; 86:1917-22.

Chung KT et al. Tannins and human health: a review. Crit Rev Food

Sci Nutr 1998; 38:421-64.

Hampson E, Kimura D. Reciprocal effects of hormonal fluctuations on

human motor and perceptual-spatial skills. Behav Neurosci 1988;

102:456-9.

ph JA et al. Membrane and receptor modifications of oxidative

stress vulnerability in aging. Nutritional considerations. Ann NY

Acad Sci 1998; 854:268-76.

King A, Young G. Characteristics and occurrence of phenolic

phytochemicals. J Am Diet Assoc 1999; 99:213-8.

Li JJ et al. Age-dependent accumulation of advanced glycosylation

end products in human neurons. Neurobiol Aging 1995; 16:69-76.

Mian E et al. Anthocyanosides and the walls of the microvessels:

further aspects of the mechanism of action of their protective

effect in syndromes due to abnormal capillary fragility. Minerva Med

1977; 68:3565-81.

Nagata H et al. Antioxidant action of flavonoids, quercetin and

catechin, mediated by the activation of glutathione peroxidase.

Tokai J Exp Clin Med 1999; 24:1-11.

Paasche G et al. The glutathione content of retinal Muller (glial)

cells: the effects of aging and of application of free-radical

scavengers. Ophthalmic Res 1998;30:351-60.

Packer L and Colman C. The Antioxidant Miracle. Wiley and Sons,

1999.

Packer L et al. Antioxidant activity and biologic properties of a

procyanidin-rich extract from pine bark, Pycnogenol. Free Radic Biol

Med 1999; 27:704-24.

Politzer M. Experiences in the medical treatment of progressive

myopia. Klin Monatsbl Augenheilkd 1977; 17:616-9.

AM et al. Action of anthocyanins of Vaccinium myrtillis on

the permeability of blood-brain barrier. J Med 1977; 8:321-32.

Sakagami H et al. Prevention of oral diseases by polyphenols. In

Vivo 1999; 13:155-7.

Sasaki N et al. Advanced glycation end products in Alzheimer's

disease and other neurodegenerative disorders. Am J Pathol 1998;

153:1149-55.

Shukitt-Hale B et al. Prevention and reversal of age-related motor

and cognitive behavioral deficits with antioxidant diets. Paper

presented at the 1999 AGE Annual Meeting, Seattle.

, LU et al. Relationship between polyphenol intake and blood

glucose response of normal and diabetic individuals. Am J Nutr

1984;39:745-51.

Winter JC. The effects of an extract of ginkgo biloba on cognitive

behavior and longevity in the rat. Physiol Behav 1998; 63:425-33.

Quotations by Shukitt-Hale - " A berry good nutrition tip, " AARP

Bulletin, November 1999, p.15; Reuters Health News, September 12,

1999.

[Guest guest]

Do not think this classifies as a revelation...To my knowledge Dr.

Kilburn does testing and research not treatment.

This group is supposed to be here for emotional support and to try

and help others get well. We are not doctors so please do not squash

people's hopes of recovering.

Looks like a blueberry a day keeps the neurologist away.

http://www.lef.org/magazine/mag2000/mar00-cover.html

LE Magazine March 2000

Antioxidant Power

Blueberries and bilberries slow brain aging and protect vision

by Ivy Greenwell

When it comes to antioxidant power, according to a measure called

ORAC (oxygen radical absorbance capacity), blueberries are at the

top of the USDA chart-ahead of blackberries, garlic, kale and

strawberries, and far ahead of broccoli and spinach. Not only that,

but they taste delicious. Here, nature has been gracious to us: a

favorite food has been found to be a powerhouse of antioxidants.

Talk about a miracle anti-aging food that is actually a treat!

Now, by all means keep eating spinach and kale-these vegetables

contain the powerful carotenoids, lutein and zeaxanthin, as well as

a sulfur-containing antioxidant, lipoic acid-nutrients that help

protect us against macular degeneration and cataracts, and probably

against cardiovascular disease and other aging-related disorders as

well. Eating spinach, kale and other green leafy vegetables at least

twice a week is highly recommended. But do consider consuming half a

cup or more of blueberries every day in addition to all the

vegetables and fruit you already consume. Yes, you've read that

correctly: this article is urging you to eat blueberries every day.

Why? Because adding blueberries to your daily diet could double your

antioxidant intake from food. Frozen blueberries are fine when fresh

ones are out of season. Wild blueberries may be more potent than the

larger, sweeter cultivated blueberries, but even the cultivated

blueberries apparently can pack a ferocious punch against free

radicals.

Why this sudden urgency about eating blueberries? It started with

the scientists at the USDA Nutrition Research Center on Aging at

Tufts University in Boston. They have discovered that the blueberry

comes close to being a miracle food, considering the important

health and anti-aging benefits it offers. It is rumored that the

Tufts researchers themselves have begun to eat blueberries by the

pint during the berry season; off-season, their freezers are stacked

with frozen blueberries. Dr. ph, a senior scientist at

Tufts, admits that he started adding blueberries to his morning

protein shake after he saw the results of his own research. This

comes as no surprise: scientists have known for a long time that

restoring and maintaining youthful brain function is key in slowing

aging.

European bilberries (Vaccinium myrtillus) and North American

blueberries (Vaccinium corymbosum) are closely related; cranberries

(Vaccinium macrocarpon) are also close cousins to blueberries.

Scientists think that the antioxidant and general anti-aging

benefits of the Vaccinium species berries come from the compounds

that give them their deep pigmentation. These compounds are a class

of flavonoids (phenolic compounds) called anthocyanins, which often

occur together with proanthocyanidins. Proanthocyanidins are the

precursors of anthocyanins, and also excellent antioxidants in their

own right.

Sometimes these complex flavonoids are referred to by an older term

that seems to be regaining popularity, namely " condensed tannins. "

It is these tannins that give flowers, vegetables and fruit hues

that include deep red, purple, mauve, blue, all the way to the

extremely dark blue of Northern European bilberries, which can

appear practically black. Thus, the redness of strawberries and

raspberries and the blueness of blueberries are due to the same

class of compounds. Elderberry, persimmon, tart red cherries

(tartness indicates the presence of condensed tannins), red and

purple grapes, beets, purple cabbage, and the peel of the purple

eggplant also contain anthocyanins and proanthocyanidins.

So do many flowers-the very names of certain anthocyanins such as

petunidine, malvidine, delphynidine, and peonidine indicate in which

flowers these anthocyanins were first discovered. The anthocyanins

in hydrangea have the interesting property of imparting mauve-pink

color when the plant grows in acid soil, and blue color in alkaline

soil. The red-mauve hues of autumn leaves are also due to these

complex polyphenols. Those stunning scarlets of New England in

October are the gift of anthocyanins. The astringent taste of wine

and unripe fruit is also due to various condensed tannins.

In addition, one of the most potent flavonoids-quercetin-widely

researched due to its powerful anti-cancer, anti-inflammatory, and

cardioprotective properties, is chemically closely related to

anthocyanins. Quercetin is present in wine, ginkgo, onions, apples,

black tea and grapefruit. But berries appear to have something

possibly even more potent in some ways than quercetin: a simple

phenolic compound called ellagic acid, which has emerged as a star

in natural chemoprevention.

Please note that green tea contains mainly catechins, which are

relatively simple phenolic compounds. " Simple " doesn't mean that

they are less beneficial. Black tea and many fruits and vegetables

contain mainly complex polyphenols, also called polymeric

polyphenols, or condensed tannins. Both simple and complex

polyphenols, often present side by side, have been found to have a

wide range of health benefits. Ellagic acid, for instance, a

powerful anti-carcinogen, is also present in many kinds of berries,

including blueberries and raspberries, as well as in cherries and

pomegranates. Catechins are found not only in green tea, but also in

red wine and dark chocolate (cocoa powder and bittersweet chocolate

are good sources; " white chocolate " does not contain polyphenols).

Likewise, coffee contains not only caffeine (an alkaloid; by the

way, caffeine is also a strong antioxidant), but also catechins, as

well as simple phenolic acids, such as chlorogenic acid, caffeic

acid, and tannic acid. Hence, for instance, the well-established

effectiveness of coffee in decreasing iron levels, or helping fight

certain bacterial and viral infections.

Tannins are very common in the plant world. Apart from the sources

already mentioned, they are also found in the bark of various trees-

the best-known bark extract, Pycnogenol, comes from the bark of the

French Maritime Pine, Pinus maritima. The wide distribution of

tannins in the plant kingdom is probably related both to their

antioxidant and antimicrobial properties. The presence of tannins in

wood, for instance, is likely to be a key reason for the durability

of wood. The fact that chocolate doesn't spoil in spite of its high

fat content is also due to these fascinating polyphenols. Also, in

spite of containing sugar, chocolate, like tea and other flavonoid-

rich foods, appears to help prevent cavities. There is emerging

evidence that thanks to their antimicrobial action, flavonoids can

help prevent dental decay and oral diseases.

Bioflavonoids in general are amazingly bioactive with a wide range

of benefits. Like many other powerful antioxidants, they show a

biphasic action, depending on the dose. Lower doses, available from

diet and supplements (even if you take several capsules per day of

various flavonoid extracts, it is still a fairly low dose) act as

antioxidants and raise the levels of reduced glutathione (GSH) and

vitamin C. Negative effects such as pro-oxidant action and

glutathione depletion become an issue only if huge megadoses are

taken over a longer period of time. Again: neither blueberry eaters

nor supplement takers need worry, since it would be very difficult

and extremely expensive to reach the kind of tissue concentrations

at which damage from flavonoids might occur. As Dr. Shukitt-Hale

says, " You can't overdose on blueberries. "

At the same, we badly need more research to investigate some

unanswered questions about the dose range that produces optimum

results. And of course, as usual, there are questions about in-vivo

effects and complex interactions. Taking a single very potent

flavonoid such as quercetin in megadoses (several grams a day, for

instance) for an extended period of time should not be done without

the supervision of an experienced clinician. We must remember that

flavonoid research is still in infancy, and our knowledge is partial

at best.

A lot of the benefits of phenolic compounds stem from their

antioxidant properties. Flavonoids are powerful scavengers of free

radicals. They also enter the body's antioxidant network, boosting

the levels of vitamin C and of our chief endogenous antioxidant,

glutathione. Higher levels of ascorbate and glutathione mean better

protection of DNA and cell proteins against free radical damage.

Higher levels of glutathione also mean better recycling of other

antioxidant compounds, including, very importantly, estrogens, to

their reduced (antioxidant) form so that these substances do not

produce damage. Estrogens are excellent at protecting neural

membranes from peroxidation and preventing neural death-but only if

there is sufficient glutathione to keep recycling these powerful

hormones to their antioxidant form. Thus, the ability of phenolic

compounds such as anthocyanins to raise glutathione levels is

extremely important. This, together with the inhibition of the

enzymes needed for cell proliferation, such as tyrosine kinase and

ornithine decarboxylase, leads to a longer cell cycle and a lower

cellular turnover, since fewer damaged cells need to be replaced.

The implications for anti-aging and cancer prevention are profound.

Hormone-like?

You may wonder why flavonoids have such a wide range of

physiological effects, resembling those of hormones. Apparently this

stems from the fact that flavonoids have chemical and structural

similarities to steroid hormones, thyroid hormones, prostaglandins,

retinoids, and fatty acids. Thus it should not be altogether

surprising that flavonoids can even affect gene expression-both the

expression of our own genes, and the genes of the various bacteria

and viruses that may invade us.

Flavonoids can also attach themselves to proteins, modulating the

action of enzymes. They inhibit certain digestive enzymes and also

the kinase enzymes necessary for cell proliferation. This partly

explains how flavonoids can serve as a valuable adjunct cancer

therapy for many kinds of cancer. When very high doses of flavonoids

are used, the proliferation of normal cells is also inhibited, but

that generally doesn't hurt these cells, which just " sit. " In fully

developed cancer, however, tumor cells cannot survive in the resting

state.

On the other hand, very high levels of flavonoids are undesirable

for women seeking to become pregnant, since these compounds are also

known to decrease fertility, possibly by modulating hormone levels

and even by interfering with the critical early stages of pregnancy.

Soy and red clover phytoestrogens are a particular culprit here,

acting as endocrine disruptors because of their high ability to bind

to estrogen receptors. Less estrogenic flavonoids may have less

impact on the menstrual cycle and other aspects of fertility. A lot

remains to be explored.

We are barely beginning to research flavonoids and other

phytochemicals in the kind of depth they deserve. For a long while

it has been known that people who consume more vegetables and fruit

showed significantly superior health compared to those eating the

least, especially in regard to lower rates of cardiovascular disease

and cancer. Now the reasons for this are emerging. While eating a

wide variety of plant foods is highly recommended, due to the

synergy of various phytochemicals, we are discovering that certain

compounds are particularly valuable. The phytochemicals in

blueberries and bilberries are now at the top of the list.

What is so special about blueberries and bilberries? They are the

richest known source of anthocyanins. But it's possible that it is

the synergy of the various compounds these berries contain that is

responsible for the dramatic results recently obtained at Tufts

University in Boston.

Repairing the aging brain

The main reason there has been a recent flurry of articles and media

reports on blueberries is the groundbreaking research at Tufts

University in Boston, conducted under the direction of Dr.

ph.

Nineteen-month-old Fisher rats, the equivalent of 60- to 65-year-old

humans, were fed dried aqueous blueberry extract in a dose assumed

by the investigators to be the human equivalent of one-half cup of

blueberries a day. Other experimental groups received either vitamin

E, dried aqueous spinach extract, or strawberry extract. After eight

weeks in which the rats were the equivalent of 70- to 75-year-old

humans, the control rats and rats supplemented with strawberry,

blueberry, and spinach extracts were subjected to various tests of

memory and motor function. The latter included such challenging

tasks as walking on a narrow rod and, most difficult of all, staying

on an accelerating rotating rod (the researchers jocularly referred

to these tests as the " rat Olympics " ).

While all supplemented rats showed some improvement on memory and

learning tasks, only the rats fed blueberry extract showed a

dramatic improvement in balance and motor coordination compared to

unsupplemented rats. Rats fed blueberries could run faster and stay

longer on the narrow rod and on the rotating rod. In fact, on the

average they managed to stay on almost twice as long as all the

other aged rats before falling off.

The blueberry-supplemented rats even came close to the youthful norm

on maintaining balance while walking on the narrow rod. Young rats

can stay on for 13 seconds; old rats fall off after five seconds.

Rats in the groups receiving vitamin E, spinach extract, and

strawberry extract fell off just as quickly as control rats. But the

blueberry-supplemented old rats managed to stay on for 10 to 11

seconds.

All these feats show a reversal of the usual aging-related

dysfunction in motor behavior, balance and coordination. Again, the

blueberry-supplemented animals were the only group to show reversals

in motor-behavioral deficits. Neither vitamin E, spinach extract or

strawberry extract produced these rejuvenating effects on the motor

function.

In his paper in the September 1999 issue of the Journal of

Neuroscience, Dr. ph states, " This is the first study that has

shown that dietary supplementation with fruit and vegetable extracts

that are high in phytonutrient antioxidants can actually reverse

some of the aging-related neuronal/behavioral dysfunction. " The

dryness and formality of this statement should not obscure the fact

that something extraordinary has been discovered. We do not know of

any other agent that can reverse the deterioration of motor function

with aging. And yet daily doses of blueberry extract have done just

that.

An impaired sense of balance is one of the telltale signs of aging.

For instance, a young person can usually stand on one leg, even with

eyes closed, much longer than an older person, who begins to sway

and quickly needs to put down the raised leg in order to prevent a

fall. The elderly are also notorious for falling down for no

apparent reason. We maintain our posture by automatically correcting

against swaying motion; when the conduction of neural signals slows

down due to aging, we easily lose our balance. The phytochemicals in

the blueberry extract appear to have speeded up neural communication.

The next project is to start feeding blueberry extract to very young

rats, to see to what extent the age-related deterioration in both

cognitive and motor function can be prevented. Previous Tufts

studies have already shown that if rats are fed antioxidants

beginning at six months of age, their aging process is partly slowed

down (in animal studies, various antioxidants have been found to

extend the average life span by 10% to 30%). It would be interesting

to see if any of the fruit- or vegetable-extract supplemented diets

also extend longevity. The fact that blueberry extract resulted in

greater ability to release dopamine may be significant for

longevity. Several nutrients that increase dopamine (and thus also

growth hormone) have been shown to increase the average life span.

The supplemented rats also showed improved learning and short-term

memory, performing closer to youthful levels in tests such as

navigating mazes and finding an underwater platform. One possible

explanation is vision improvement, since flavonoids and other

compounds found in berries and spinach are known for their benefits

to the eyes. However, an improvement in memory and cognition in

general is also likely to be involved. This is to be expected when

the levels of neurotransmitters, which typically decline with

advancing age, are raised through a powerful antioxidant

intervention. In separate studies, it has also been found that

phytochemicals contained in blueberry, strawberry and spinach

extracts prevented cell death and the loss of nerve growth factors.

When the brain tissue from the blueberry-supplemented rats was

subjected to various in-vitro tests, it was discovered that it

showed the greatest dopamine release, and the best ability to handle

calcium ions. " It appears that blueberry supplementation may be

effective in reversing the deleterious effects of aging on calcium

homeostasis, " Dr. ph states in his paper. Other changes also

confirmed that the neurons from blueberry-supplemented rats had the

best ability to communicate with other cells. Dr. ph speculates

that mechanisms other than the antioxidant protection may be

involved here, mainly an increase in membrane fluidity and lower

levels of inflammatory compounds. An increase in glutathione was

also found, but it did not reach statistical difference.

A co-author of the study, Barbara Shukitt-Hale, said in an

interview, " People are told once you're old, there's nothing you can

do. That might not be true. " You may chuckle at this truism. Coming

from the scientific establishment, however, the suggestion that

nutrients easily obtained from the diet might at least partially

reverse aging-related impairment is quite revolutionary. Up to now,

the belief has been that the decline in brain function, both the

cognitive and motor aspects, is inevitable and irreversible. Now,

more and more evidence points the opposite way.

If simply eating one-half cup of blueberries a day might produce

dramatic changes (though of course this is yet to be documented in

humans), then a more aggressive and multi-factorial approach might

yield even more profound results. For instance, we know that certain

hormones have a profound impact on brain function. In terms of motor

function, coordination has been shown to improve when the levels of

estradiol and progesterone are high. Likewise, postmenopausal women

have shown faster reaction time and improved manual dexterity when

put on hormone replacement. A popular old definition of flavonoids

used to be " weak plant estrogens. " These compounds often bind to the

newly discovered human Type II estrogen receptors. A great deal of

exploration remains to be done.

Are there yet other possible mechanisms through which blueberries

might work to protect and repair neural tissue? One interesting

property of polyphenols is their ability to modulate the production

of nitric oxide. In correct amounts, nitric oxide is extremely

useful. In excess, it is neurotoxic. Phenolic compounds seem

particularly effective in terms of keeping nitric oxide within the

correct range, thus improving circulation and reducing free-radical

damage from nitrogen peroxides.

Another important property of flavonoids is their ability to raise

the levels of glutathione. Glutathione is arguably the most

important neuroprotector, being not only our primary antioxidant

defense, but also an effective suppressor of chronic inflammation,

known to be a significant factor in all the major diseases related

to aging. Victims of Parkinson's disease show low levels of

glutathione in brain tissue. It's interesting to speculate that

perhaps compounds that raise glutathione, such as lipoic acid, NAC,

and the potent phenolics found in berries, cherries and walnuts,

might be able to help prevent the development of Alzheimer's disease

and Parkinson's disease, two of the most feared and disabling

degenerative disorders of old age. Both could be called " death in

life " and are a tragedy for both the victim and the nearest family

members. What if it turned out that simply eating half a cup of

blueberries every day could largely prevent an enormous amount of

suffering later! (For even better prevention, one needs to boost the

entire antioxidant network-see the review of Packer's Antioxidant

Miracle in the June 1999 issue of Life Extension magazine. -Eds.)

Flavonoids also tend to lowerblood sugar, and thus glycation. An

extract of blueberry leaves has been a traditional folk remedy

against diabetes. Glycation and its toxic end product, known as AGEs

(a singularly apt acronym for " advanced glycation end products " ),

are regarded as one of the important factors in the development and

progression of brain diseases such as Alzheimer's disease.

In addition, bilberry extract has been shown to enhance the blood-

brain barrier, which tends to become impaired with aging, showing a

decrease in vascular density, increased permeability and other

abnormalities. The normal functioning of blood-brain barrier is

important not only for keeping out toxins and undesirable compounds,

but also for glucose transport to the brain. Anthocyanins and

related compounds seem able to decrease capillary permeability

(possibly by stabilizing membrane phospholipids). Animal studies

have also shown that if the blood-brain barrier becomes damaged and

too permeable, anthocyanins help restore normal permeability.

In general, we have plenty of evidence that Dr. Packer is right when

he says, " Flavonoids are a brain booster. " But their action goes

beyond mere " boosting. " At least some flavonoids can apparently

repair the age-related damage to the neurons-and here the

anthocyanins and proanthocyanidins in blueberries, bilberry extract

and grape seed extract (or red wine and purple grape juice) are the

best candidates for this starring new role in the anti-aging regimen.

Berries, true eye-openers

The public became interested in bilberry extract after the news

about its vision-improving benefits. Bilberry flavonoids appear to

protect the retina and enhance the production of rhodopsin, also

called the visual purple. Rhodopsin is a protein necessary for near

vision. Exposure to light, particularly bright daylight, high-

contrast lights or even computer screens deplete rhodopsin,

resulting in poor night vision. A sufficient dose of bilberry

anthocyanins apparently leads to an increase in rhodopsin.

The first anecdotal reports about the effectiveness of bilberries

came from British pilots who consumed bilberry jam in order to

improve their night vision. This story became so widely known to the

readers of popular alternative health magazines that unfortunately

for quite a while the public assumed that the only benefits of

bilberry extract relate to night vision. Later on we learned about

bilberry in relation to enhanced mirocirculation in the retina. Even

now, many people assume that the benefits of bilberry extract are

confined to vision. This is reminiscent of a similar development in

regard to glutathione. Because glutathione is present in especially

high levels in the lens of the eye, early research focused on the

role of glutathione in vision; the understanding of glutathione's

primary role as the body's main antioxidant, detoxifier, anti-

inflammatory and possibly the key anti-aging compound came only

later.

This is not to deny that the protection of the retina is indeed

extremely important. Interestingly, it was not in England, but in

Italy that most studies on bilberry extract and vision were

performed, mostly in the late 1980s. One study achieved an

unprecedented 97% success in halting cataract progression using

bilberry extract and vitamin E. In another exciting study,

bilberryextract improved vision in 75% of nearsighted subjects. A

German study using a combination of vitamin E and anthocyanins found

either a stabilization of myopia or an actual improvement in visual

acuity in the majority of patients, whereas the control group showed

further deterioration. The progressive nature of myopia is one of

axioms of traditional ophthalmology: once you become near-sighted,

the older you get, the more near-sighted you get, requiring a

stronger prescription every couple of years. Hence, it is truly

revolutionary to note that a group of naturally occurring flavonoids

has been shown to either arrest or even reverse the progression of

myopia.

Please note: those who wish to experiment with bilberry extract for

reversing myopia should understand that there is no guarantee of

this benefit. On the other hand, there is nothing to lose, since it

is likely that at least the progressive deterioration of vision can

be arrested. In addition, bilberry extract has many other health

benefits, typical for phenolic antioxidants.

Of special interest in various ophthalmic pathologies are the anti-

angiogenic properties of certain flavonoids, when these

phytonutrients are used in the correct dosage range. Catechins,

anthocyanins and proanthocyanidins have been found to inhibit the

growth of abnormal blood vessels. This happens to be one of the

mechanisms through which phenolic compounds can inhibit the growth

and spread of tumors. But it also applies to the growth of abnormal

blood vessels involved in the " wet, " or advanced macular

degeneration.

But perhaps the greatest enemy of good eye health is elevated blood

glucose. You do not need to be diagnosed with diabetes to suffer

some degree of damage to the tiny blood vessels of the retina

(microvascular damage) due to the destructive action of glucose.

Serum glucose levels typically rise with age. Apart from a low-

carbohydrate diet combined with exercise, can anything be done? Here

again the finding that various kinds of polyphenols lower blood

sugar is of great relevance.

Interestingly, Chinese medicine recommends raspberries for vision

improvement. Close enough: raspberries contain many of the same

flavonoids as blueberries and bilberries. For vision improvement,

think in terms of deeply colored berries (and probably cherries and

plums as well). Red wine may also help: one study found that red

wine drinkers were 20% less likely to develop macular degeneration.

And since we have mentioned Oriental medicine, ginkgo too has been

shown to have benefits for the retina, thanks to its antioxidant

properties, its ability to raise glutathione levels, and its

enhancement of the blood-retinal barrier. To put it simply, various

potent flavonoids have similar effects, whether on the brain,

eyesight or the vascular system.

Again, a reminder that vegetables and/or supplements containing

lutein and zeaxanthin are also a must if you wish to protect your

vision against aging-related deterioration. Egg yolks are a rich

source of lutein, as is spinach. Vitamins E and C (800 mg/d), as

well as zinc, have also been documented to help prevent cataracts.

In addition, antioxidant hormones such as estrogens and DHEA may

also be protective. Finally, the alkaloid vinpocetine (an extract of

the lesser periwinkle, Vinca minor) is a promising new addition to

the growing arsenal of compounds that can help protect our eyesight.

The omega-3 fatty acid known as DHA (docosahexaenoic), richly

present in fish oil, also appears to be important for protecting

vision. When you use a variety of protective supplements are used,

you lower your chances of developing the " inevitable " senile

cataracts and other age-related eye problems.

References

Asgary S et al. Antioxidant effect of flavonoids on hemoglobin

glycosylation. Pharma Acta Helv 1999; 73:223-6.

Atkins R. The Vita-Nutrient Solution. Simon and Schuster, 1999, pp.

310-311.

Bagchi D et al. Protective effects of grape seed proanthocyanidins

and selected antioxidants against TPA-induced hepatic and brain

lipid peroxidation and DNA fragmentation, and peritoneal macrophage

activation in mice. Gen Pharmacol 1998; 30: 771-6.

Baker ME. Flavonoids as hormones. A perspective from an analysis of

molecular fossils. Adv Exp Med Biol 1998;439:249-67.

Bickford PC et al. Diets high in antioxidants can reverse age-

related declines in cerebellar beta-adrenergic receptor functions

and motor learning. Paper presented at the 1999 AGE Annual Meeting,

Seattle.

Buee L. Cerebrovascular aging. Therapie 1999; 54:155-65.

Cao G et al. Hyperoxia-induced changes in antioxidant capacity and

the effect of dietary antioxidants. J Appl Physiol 1999; 86:1917-22.

Chung KT et al. Tannins and human health: a review. Crit Rev Food

Sci Nutr 1998; 38:421-64.

Hampson E, Kimura D. Reciprocal effects of hormonal fluctuations on

human motor and perceptual-spatial skills. Behav Neurosci 1988;

102:456-9.

ph JA et al. Membrane and receptor modifications of oxidative

stress vulnerability in aging. Nutritional considerations. Ann NY

Acad Sci 1998; 854:268-76.

King A, Young G. Characteristics and occurrence of phenolic

phytochemicals. J Am Diet Assoc 1999; 99:213-8.

Li JJ et al. Age-dependent accumulation of advanced glycosylation

end products in human neurons. Neurobiol Aging 1995; 16:69-76.

Mian E et al. Anthocyanosides and the walls of the microvessels:

further aspects of the mechanism of action of their protective

effect in syndromes due to abnormal capillary fragility. Minerva Med

1977; 68:3565-81.

Nagata H et al. Antioxidant action of flavonoids, quercetin and

catechin, mediated by the activation of glutathione peroxidase.

Tokai J Exp Clin Med 1999; 24:1-11.

Paasche G et al. The glutathione content of retinal Muller (glial)

cells: the effects of aging and of application of free-radical

scavengers. Ophthalmic Res 1998;30:351-60.

Packer L and Colman C. The Antioxidant Miracle. Wiley and Sons,

1999.

Packer L et al. Antioxidant activity and biologic properties of a

procyanidin-rich extract from pine bark, Pycnogenol. Free Radic Biol

Med 1999; 27:704-24.

Politzer M. Experiences in the medical treatment of progressive

myopia. Klin Monatsbl Augenheilkd 1977; 17:616-9.

AM et al. Action of anthocyanins of Vaccinium myrtillis on

the permeability of blood-brain barrier. J Med 1977; 8:321-32.

Sakagami H et al. Prevention of oral diseases by polyphenols. In

Vivo 1999; 13:155-7.

Sasaki N et al. Advanced glycation end products in Alzheimer's

disease and other neurodegenerative disorders. Am J Pathol 1998;

153:1149-55.

Shukitt-Hale B et al. Prevention and reversal of age-related motor

and cognitive behavioral deficits with antioxidant diets. Paper

presented at the 1999 AGE Annual Meeting, Seattle.

, LU et al. Relationship between polyphenol intake and blood

glucose response of normal and diabetic individuals. Am J Nutr

1984;39:745-51.

Winter JC. The effects of an extract of ginkgo biloba on cognitive

behavior and longevity in the rat. Physiol Behav 1998; 63:425-33.

Quotations by Shukitt-Hale - " A berry good nutrition tip, " AARP

Bulletin, November 1999, p.15; Reuters Health News, September 12,

1999.