Newborn and injection question

[Guest guest]

I have a question for anyone who may have an informed answer. I am

looking for any information on the use of phytonadione in a newborn. It

is basically vitamin K, and is going to be given to my new child which

will be born in the next week or two.

 

Any thoughts??

 

Marshall

 

 

 

Eye Health

 

 

From The April 2001 Issue of Nutrition Science News

A New Look at Eye Health

By Bill Sardi

 

Many people with deteriorating vision are seeing nutritional therapy as

a successful alternative to conventional medicine or surgery. An example

is Mildred Frank of Ormond Beach, Fla., who experienced a dramatic

improvement in her vision that was not the result of lasers or lens

implants. Her vision improvement began with a can of kale.

 

Frank had two retinal disorders: macular degeneration, which is the loss

of central vision, and retinitis pigmentosa (RP), which initially

manifests as night blindness and progresses to a permanently constricted

field of vision. Frank's friend said kale might help resolve her eye

troubles, so she began eating a can of cooked kale a day. Within weeks

she noticed some improvement in her vision.

 

Although anecdotal, Frank's success with nutritional therapy isn't

unprecedented. The journal Optometry recently reported on 16 night-blind

patients with retinitis pigmentosa who took 40 mg/day lutein for nine

weeks and 20 mg/day for 17 additional weeks. Ten of the participants

also took 500 mg/day docosahexaenoic acid (DHA), an essential component

of retinal light-receptor cells, along with a vitamin B complex and

digestive enzymes for the entire 26-week study. Although the research

was a preliminary pilot study, with no placebo controls, improvements

reportedly began two to four weeks after supplementation started and

plateaued at six to 14 weeks. Visual acuity gains were four times

greater in blue-eyed people compared to those with dark eyes.1

 

Vision researchers recognize that lutein and zeaxanthin-plant pigments

plentiful in collards, kale, mustard greens and spinach-play important

roles in maintaining a healthy visual system. Lutein supplements have

been available since 1995; commercially, it is extracted from marigold

flower petals. A February 2001 study between Johns Hopkins University

and the Chinese University of Hong Kong indicates a new rich source of

zeaxanthin with traces of lutein is an extract of the berry of Fructus

Lycii (Lycium barbarum).2

 

Lutein and zeaxanthin work because they act like sunglass filters to

protect the retina. The retina, about the size of a postage stamp,

contains millions of light receptor cells. Normal, healthy retinas

exhibit a yellow spot in their visual center, the macula. Lutein and

zeaxanthin are concentrated in the central retina, overlying the macula,

a pinpoint-wide zone where color vision and central vision is produced.

Yellow pigmentation of the central retina of animals disappears when

lutein and zeaxanthin pigments are removed from the diet.3

 

Both types of carotenoids-the carotenes such as beta-carotene and the

xanthophylls such as lutein and zeaxanthin-are essential to maintain

human vision. Beta-carotene converts to vitamin A in the liver and then

travels to the retina where it is converted into rhodopsin, the

night-vision chemical. Intense sunlight exposure can bleach out

rhodopsin from the night-vision cells (called rods) during the day and

prolong visual adaptation at dusk.

 

Foods such as cantaloupe, carrots, sweet potato, yams and yellow squash

are rich in beta-carotene but provide no lutein. Dark-green leafy

vegetables such as collards, kale, mustard greens and spinach are rich

sources of beta-carotene as well as lutein and zeaxanthin. Blue-eyed

individuals need more lutein and zeaxanthin because they have less of

these protective pigments in their retinas.

 

Although kale therapy is far from mainstream, researchers are observing

connections between nutrition and macular degeneration, cataracts, and

glaucoma.

 

Reverse Macular Degeneration?

Most patients with macular degeneration are given a poor prognosis for

their failing central vision. This has been changing slowly since a 1994

report showed that the equivalent of 6 mg lutein/day obtained from a

diet rich in dark-green leafy vegetables significantly reduces the risk

of advanced macular degeneration.4 In a pilot study with 14 patients at

the North Chicago Veterans Medical Center, Stuart Richer, O.D., Ph.D.,

showed that blind spots, the ability to see shades of gray (contrast),

and even visual acuity can be improved in the short-term by eating a

three-quarters portion of dark-green leafy vegetables daily along with

either 5 oz. spinach four to seven times a week or a lutein-based

antioxidant.5 Richer is now comparing a group taking 10 mg lutein/day

against another group taking lutein plus mixed supplemental

antioxidants.

 

Researchers at the Schapens Eye Research Institute in Boston report that

60-year-olds with normal levels of lutein and zeaxanthin in their

retinas exhibit the visual sensitivity of 20-year-olds.6

 

Lutein and zeaxanthin are not limited to protective roles in the retina

only. They may also prevent cataracts, a cloudy focusing lens, and

glaucoma, an optic nerve disease.

 

Protect Against Cataracts

The focusing lens of the human eye, about the size of an aspirin tablet,

is the only organ that never sheds a cell. It receives nutrients

indirectly via the aqueous fluid rather than the bloodstream. The lens

of the eye is under unusual stress because it is exposed to constant

bombardment by solar ultraviolet radiation through the transparent

cornea. In order to maintain lens transparency and thus clarity, the

protective antioxidant levels in the aqueous fluid of the eye must be

higher than in the blood plasma.7 The lens loses about 1 percent of its

transparency each year, so if a person lives long enough, he or she will

likely develop cloudy cataracts. But sufficient data exist that

nutritional therapy may help prevent cataracts.

 

In 1990, James Robertson, of the Department of Epidemiology at the

University of Western Ontario in Canada, compared adults with cataracts

to those without. He found that taking 300 to 600 mg supplemental

vitamin C reduced cataract risk by 70 percent and 400 IU supplemental

vitamin E for more than a year reduced cataract risk by 50 percent.8

 

The focusing lens is also sensitive to high blood-sugar levels, which

can cause inflammation, vision changes and eventually diabetic

cataracts. Sugar can oxidize and harden in the lens, a destructive

process among diabetics that can be countered by nutrients such as

inositol.9 Sulfur-bearing amino acids, such as taurine, can help to

prevent diabetic cataracts.10 Bioflavonoids such as quercetin are known

to inhibit the enzyme that promotes diabetic cataracts.11

 

Diet plays a significant role in cataract risk. One study found that

individuals who consume the highest amounts of butter and salt have

double the cataract risk compared to those who consume the lowest

amounts of these foods, while spinach, peppers, melons, tomatoes and

citrus fruits halve the relative risk of needing cataract surgery.12

Individuals who do not eat five servings of fruits and vegetables per

day are 5 to 13 times more likely to develop cataracts. Insufficient

dietary vitamin C intake also dramatically increases cataract risk 4 to

11 times.13 The typical American diet provides about 110 mg/day of

vitamin C, but the minimum amount of vitamin C required to prevent

cataracts is closer to 300 mg/day-about five oranges.14,15 It is

unlikely that consumers will eat this much fruit, so vitamin C

supplements are often more practical.

 

The potential to delay or avoid cataract surgery with lutein and

zeaxanthin became evident in 1992. A prospective study at Harvard

Medical School in Boston surveyed 50,828 nurses and found women who

consumed spinach five or more times per week, as well as those who took

vitamin C supplements for 10 years or more, reduced their risk of

cataract extraction by more than 45 percent.16 Although other

carotenoids in spinach could have been at work, this study suggests the

benefits of dietary lutein and zeaxanthin.

 

Nutrition and Glaucoma

For decades, eye doctors have approached glaucoma as a loss of

peripheral vision resulting from optic nerve damage caused by elevated

fluid pressure in the eye. However, eyes with normal fluid pressure can

also lose peripheral vision. Now researchers suspect a nerve toxin may

be involved in the common form of glaucoma. Glaucoma patients exhibit an

abnormally high concentration of glutamate in the vicinity of the optic

nerve.17 Glutamate is a primary chemical used in the transmission of

optic nerve impulses. Housed inside the nerve sheath, it is innocuous.

As optic nerves die off at a normal rate and release small amounts of

glutamate, surrounding Muller cells detoxify the area. But glutamate may

overwhelm the Muller cells and destroy surrounding cells, thus releasing

more nerve-toxic glutamate, resulting in an accelerated loss of vision

that is typically observed in the end stages of glaucoma.

 

While nerve-protective drugs may take years to develop, an array of

natural nerve protectors may be able to minimize glutamate toxicity.

These include vitamin B12 (methylcobalamin),<18 SAMe

(S-adenosylmethionine),18 ginkgo (Ginkgo biloba),19 vitamin E,19

coenzyme Q10,19 folic acid,20 and magnesium.21

Japanese researchers prescribed 28 glaucoma patients a high oral-dose of

1,500 mcg/day vitamin B12 for five years in an open-label study to

evaluate the vitamin's influence on vision. The patients receiving B12

experienced less measurable loss of peripheral vision, more stable

visual acuity, and better control of eye fluid pressure compared to a

group that did not take B12.22 The effects of vitamin B12 are attributed

to the preservation of myelin, which insulates nerve cells. Results of

this study were achieved with methylcobalamin, a readily absorbable form

of vitamin B12.

 

Cyanocobalamin, the more common form of vitamin B12 present in vitamin

supplements, has not been effective in other studies of optic nerve

disorders.23

 

Various studies reveal that Greenland Eskimos have lower rates of

glaucoma than other Caucasian populations, an observation attributed to

the consumption of omega-3 fish oil. Omega-3 fats appear to help prevent

optic nerve disorders. A proprietary combination of DHA-rich fish oil,

vitamin E, and vitamin B complex widened the visual field of 30 glaucoma

patients within 90 days in an open-label, nonrandomized study.24

 

In animal studies, researchers were able to lower ocular fluid pressure,

a measure of glaucoma, by injecting a very large dose of 0.2 mL/day cod

liver oil. Reduction was from 21 mmHg to 18, with injections of 1 mL/day

lowering pressure to 14.5 mmHg.25

 

There is also evidence that lutein and zeaxanthin also help protect the

optic nerve. The nerve layer of the retina, near where nerve cells exit

the eye and connect to the brain, is protected from oxidative damage by

lutein. Researchers have found that a lack of lutein in this nerve

bundle may be an early sign of glaucoma.26

 

Other Eye Disorders

The aqueous fluid in the eye delivers antioxidants to the front of the

inner eye, which helps to keep the fluid drain unobstructed. This fluid

drains out of the eye in a controlled manner that maintains the shape

and fluid pressure inside the eye. When drainage is blocked, fluid

pressure rises and can impinge upon peripheral optic nerve cells at the

back of the eye, narrowing side vision.

 

Glucosamine sulfate and vitamin C may counter fluid drain swelling. In a

preliminary, uncontrolled 1998 U.S. pilot study of two patients, an

unreported daily amount of glucosamine sulfate substantially reduced

abnormally high fluid pressure over the short term.27 Vitamin C may help

by maintaining the collagen structure of the fluid drain. 28,29 Taking

500 mg vitamin C four times a day moderately and significantly reduces

eye fluid pressure in humans.30,31 Typical recommended dosages of

glucosamine for collagen support are 1,500 mg/day.

 

Dry eye, which causes eye redness, itching, and burning, can be

bothersome. It is common among women and is often accompanied by dry

skin and brittle nails. Essential fatty acids (1,500 mg/day) derived

from evening primrose, borage or black currant seed, combined with

vitamin B6 (50 & shy;75 mg/day) and vitamin C (375 & shy;1,000 mg/day), have

been shown to improve tear production and provide symptomatic relief.32

 

With advancing age, the likelihood of macular degeneration, cataracts,

and glaucoma increases. The baby boomers will soon swell the population

of retirees in the United States, with inevitable increases in eye

disease and sight loss. The best answer to stem the tide of age-related

vision problems is prevention. Nutrition tops the list of preventive

measures for age-related eye disorders.

 

Sidebars:

Glutathione: The Eye Healer Within

 

 

Bill Sardi, president of Knowledge of Health in San Dimas, Calif, is a

health journalist.

 

http://www.askbillsardi.com/sdm.asp?pg=eye_health

 

 

 

The complete " Whole Body " Health line consists of the " AIM GARDEN TRIO "

Ask About Health Professional Support Series: AIM Barleygreen

 

" Wisdom of the Past, Food of the Future "

 

http://www.geocities.com/mrsjoguest/AIM.html

 

 

 

 

 

 

The New Search - Faster. Easier. Bingo.

 

 

[Guest guest]

If you will enter the word into the search engine it will give you a

list of sites that will explain all about it.

Kathryn

 

 

Gettingwell , Marshall Melnychuk <marshall-

m@s...> wrote:

> I have a question for anyone who may have an informed answer. I am

> looking for any information on the use of phytonadione in a

newborn. It

> is basically vitamin K, and is going to be given to my new child

which

> will be born in the next week or two.

>

> Any thoughts??

>

> Marshall

>

>

>

> Eye Health

>

>

> From The April 2001 Issue of Nutrition Science News

> A New Look at Eye Health

> By Bill Sardi

>

> Many people with deteriorating vision are seeing nutritional

therapy as

> a successful alternative to conventional medicine or surgery. An

example

> is Mildred Frank of Ormond Beach, Fla., who experienced a dramatic

> improvement in her vision that was not the result of lasers or lens

> implants. Her vision improvement began with a can of kale.

>

> Frank had two retinal disorders: macular degeneration, which is the

loss

> of central vision, and retinitis pigmentosa (RP), which initially

> manifests as night blindness and progresses to a permanently

constricted

> field of vision. Frank's friend said kale might help resolve her eye

> troubles, so she began eating a can of cooked kale a day. Within

weeks

> she noticed some improvement in her vision.

>

> Although anecdotal, Frank's success with nutritional therapy isn't

> unprecedented. The journal Optometry recently reported on 16 night-

blind

> patients with retinitis pigmentosa who took 40 mg/day lutein for

nine

> weeks and 20 mg/day for 17 additional weeks. Ten of the participants

> also took 500 mg/day docosahexaenoic acid (DHA), an essential

component

> of retinal light-receptor cells, along with a vitamin B complex and

> digestive enzymes for the entire 26-week study. Although the

research

> was a preliminary pilot study, with no placebo controls,

improvements

> reportedly began two to four weeks after supplementation started and

> plateaued at six to 14 weeks. Visual acuity gains were four times

> greater in blue-eyed people compared to those with dark eyes.1

>

> Vision researchers recognize that lutein and zeaxanthin-plant

pigments

> plentiful in collards, kale, mustard greens and spinach-play

important

> roles in maintaining a healthy visual system. Lutein supplements

have

> been available since 1995; commercially, it is extracted from

marigold

> flower petals. A February 2001 study between Johns Hopkins

University

> and the Chinese University of Hong Kong indicates a new rich source

of

> zeaxanthin with traces of lutein is an extract of the berry of

Fructus

> Lycii (Lycium barbarum).2

>

> Lutein and zeaxanthin work because they act like sunglass filters to

> protect the retina. The retina, about the size of a postage stamp,

> contains millions of light receptor cells. Normal, healthy retinas

> exhibit a yellow spot in their visual center, the macula. Lutein and

> zeaxanthin are concentrated in the central retina, overlying the

macula,

> a pinpoint-wide zone where color vision and central vision is

produced.

> Yellow pigmentation of the central retina of animals disappears when

> lutein and zeaxanthin pigments are removed from the diet.3

>

> Both types of carotenoids-the carotenes such as beta-carotene and

the

> xanthophylls such as lutein and zeaxanthin-are essential to maintain

> human vision. Beta-carotene converts to vitamin A in the liver and

then

> travels to the retina where it is converted into rhodopsin, the

> night-vision chemical. Intense sunlight exposure can bleach out

> rhodopsin from the night-vision cells (called rods) during the day

and

> prolong visual adaptation at dusk.

>

> Foods such as cantaloupe, carrots, sweet potato, yams and yellow

squash

> are rich in beta-carotene but provide no lutein. Dark-green leafy

> vegetables such as collards, kale, mustard greens and spinach are

rich

> sources of beta-carotene as well as lutein and zeaxanthin. Blue-eyed

> individuals need more lutein and zeaxanthin because they have less

of

> these protective pigments in their retinas.

>

> Although kale therapy is far from mainstream, researchers are

observing

> connections between nutrition and macular degeneration, cataracts,

and

> glaucoma.

>

> Reverse Macular Degeneration?

> Most patients with macular degeneration are given a poor prognosis

for

> their failing central vision. This has been changing slowly since a

1994

> report showed that the equivalent of 6 mg lutein/day obtained from a

> diet rich in dark-green leafy vegetables significantly reduces the

risk

> of advanced macular degeneration.4 In a pilot study with 14

patients at

> the North Chicago Veterans Medical Center, Stuart Richer, O.D.,

Ph.D.,

> showed that blind spots, the ability to see shades of gray

(contrast),

> and even visual acuity can be improved in the short-term by eating a

> three-quarters portion of dark-green leafy vegetables daily along

with

> either 5 oz. spinach four to seven times a week or a lutein-based

> antioxidant.5 Richer is now comparing a group taking 10 mg

lutein/day

> against another group taking lutein plus mixed supplemental

> antioxidants.

>

> Researchers at the Schapens Eye Research Institute in Boston report

that

> 60-year-olds with normal levels of lutein and zeaxanthin in their

> retinas exhibit the visual sensitivity of 20-year-olds.6

>

> Lutein and zeaxanthin are not limited to protective roles in the

retina

> only. They may also prevent cataracts, a cloudy focusing lens, and

> glaucoma, an optic nerve disease.

>

> Protect Against Cataracts

> The focusing lens of the human eye, about the size of an aspirin

tablet,

> is the only organ that never sheds a cell. It receives nutrients

> indirectly via the aqueous fluid rather than the bloodstream. The

lens

> of the eye is under unusual stress because it is exposed to constant

> bombardment by solar ultraviolet radiation through the transparent

> cornea. In order to maintain lens transparency and thus clarity, the

> protective antioxidant levels in the aqueous fluid of the eye must

be

> higher than in the blood plasma.7 The lens loses about 1 percent of

its

> transparency each year, so if a person lives long enough, he or she

will

> likely develop cloudy cataracts. But sufficient data exist that

> nutritional therapy may help prevent cataracts.

>

> In 1990, James Robertson, of the Department of Epidemiology at the

> University of Western Ontario in Canada, compared adults with

cataracts

> to those without. He found that taking 300 to 600 mg supplemental

> vitamin C reduced cataract risk by 70 percent and 400 IU

supplemental

> vitamin E for more than a year reduced cataract risk by 50

percent.8

>

> The focusing lens is also sensitive to high blood-sugar levels,

which

> can cause inflammation, vision changes and eventually diabetic

> cataracts. Sugar can oxidize and harden in the lens, a destructive

> process among diabetics that can be countered by nutrients such as

> inositol.9 Sulfur-bearing amino acids, such as taurine, can help to

> prevent diabetic cataracts.10 Bioflavonoids such as quercetin are

known

> to inhibit the enzyme that promotes diabetic cataracts.11

>

> Diet plays a significant role in cataract risk. One study found that

> individuals who consume the highest amounts of butter and salt have

> double the cataract risk compared to those who consume the lowest

> amounts of these foods, while spinach, peppers, melons, tomatoes and

> citrus fruits halve the relative risk of needing cataract surgery.12

> Individuals who do not eat five servings of fruits and vegetables

per

> day are 5 to 13 times more likely to develop cataracts. Insufficient

> dietary vitamin C intake also dramatically increases cataract risk

4 to

> 11 times.13 The typical American diet provides about 110 mg/day of

> vitamin C, but the minimum amount of vitamin C required to prevent

> cataracts is closer to 300 mg/day-about five oranges.14,15 It is

> unlikely that consumers will eat this much fruit, so vitamin C

> supplements are often more practical.

>

> The potential to delay or avoid cataract surgery with lutein and

> zeaxanthin became evident in 1992. A prospective study at Harvard

> Medical School in Boston surveyed 50,828 nurses and found women who

> consumed spinach five or more times per week, as well as those who

took

> vitamin C supplements for 10 years or more, reduced their risk of

> cataract extraction by more than 45 percent.16 Although other

> carotenoids in spinach could have been at work, this study suggests

the

> benefits of dietary lutein and zeaxanthin.

>

> Nutrition and Glaucoma

> For decades, eye doctors have approached glaucoma as a loss of

> peripheral vision resulting from optic nerve damage caused by

elevated

> fluid pressure in the eye. However, eyes with normal fluid pressure

can

> also lose peripheral vision. Now researchers suspect a nerve toxin

may

> be involved in the common form of glaucoma. Glaucoma patients

exhibit an

> abnormally high concentration of glutamate in the vicinity of the

optic

> nerve.17 Glutamate is a primary chemical used in the transmission of

> optic nerve impulses. Housed inside the nerve sheath, it is

innocuous.

> As optic nerves die off at a normal rate and release small amounts

of

> glutamate, surrounding Muller cells detoxify the area. But

glutamate may

> overwhelm the Muller cells and destroy surrounding cells, thus

releasing

> more nerve-toxic glutamate, resulting in an accelerated loss of

vision

> that is typically observed in the end stages of glaucoma.

>

> While nerve-protective drugs may take years to develop, an array of

> natural nerve protectors may be able to minimize glutamate toxicity.

> These include vitamin B12 (methylcobalamin),<18 SAMe

> (S-adenosylmethionine),18 ginkgo (Ginkgo biloba),19 vitamin E,19

> coenzyme Q10,19 folic acid,20 and magnesium.21

> Japanese researchers prescribed 28 glaucoma patients a high oral-

dose of

> 1,500 mcg/day vitamin B12 for five years in an open-label study to

> evaluate the vitamin's influence on vision. The patients receiving

B12

> experienced less measurable loss of peripheral vision, more stable

> visual acuity, and better control of eye fluid pressure compared to

a

> group that did not take B12.22 The effects of vitamin B12 are

attributed

> to the preservation of myelin, which insulates nerve cells. Results

of

> this study were achieved with methylcobalamin, a readily absorbable

form

> of vitamin B12.

>

> Cyanocobalamin, the more common form of vitamin B12 present in

vitamin

> supplements, has not been effective in other studies of optic nerve

> disorders.23

>

> Various studies reveal that Greenland Eskimos have lower rates of

> glaucoma than other Caucasian populations, an observation

attributed to

> the consumption of omega-3 fish oil. Omega-3 fats appear to help

prevent

> optic nerve disorders. A proprietary combination of DHA-rich fish

oil,

> vitamin E, and vitamin B complex widened the visual field of 30

glaucoma

> patients within 90 days in an open-label, nonrandomized study.24

>

> In animal studies, researchers were able to lower ocular fluid

pressure,

> a measure of glaucoma, by injecting a very large dose of 0.2 mL/day

cod

> liver oil. Reduction was from 21 mmHg to 18, with injections of 1

mL/day

> lowering pressure to 14.5 mmHg.25

>

> There is also evidence that lutein and zeaxanthin also help protect

the

> optic nerve. The nerve layer of the retina, near where nerve cells

exit

> the eye and connect to the brain, is protected from oxidative

damage by

> lutein. Researchers have found that a lack of lutein in this nerve

> bundle may be an early sign of glaucoma.26

>

> Other Eye Disorders

> The aqueous fluid in the eye delivers antioxidants to the front of

the

> inner eye, which helps to keep the fluid drain unobstructed. This

fluid

> drains out of the eye in a controlled manner that maintains the

shape

> and fluid pressure inside the eye. When drainage is blocked, fluid

> pressure rises and can impinge upon peripheral optic nerve cells at

the

> back of the eye, narrowing side vision.

>

> Glucosamine sulfate and vitamin C may counter fluid drain swelling.

In a

> preliminary, uncontrolled 1998 U.S. pilot study of two patients, an

> unreported daily amount of glucosamine sulfate substantially reduced

> abnormally high fluid pressure over the short term.27 Vitamin C may

help

> by maintaining the collagen structure of the fluid drain. 28,29

Taking

> 500 mg vitamin C four times a day moderately and significantly

reduces

> eye fluid pressure in humans.30,31 Typical recommended dosages of

> glucosamine for collagen support are 1,500 mg/day.

>

> Dry eye, which causes eye redness, itching, and burning, can be

> bothersome. It is common among women and is often accompanied by dry

> skin and brittle nails. Essential fatty acids (1,500 mg/day) derived

> from evening primrose, borage or black currant seed, combined with

> vitamin B6 (50 & shy;75 mg/day) and vitamin C (375 & shy;1,000 mg/day),

have

> been shown to improve tear production and provide symptomatic

relief.32

>

> With advancing age, the likelihood of macular degeneration,

cataracts,

> and glaucoma increases. The baby boomers will soon swell the

population

> of retirees in the United States, with inevitable increases in eye

> disease and sight loss. The best answer to stem the tide of age-

related

> vision problems is prevention. Nutrition tops the list of preventive

> measures for age-related eye disorders.

>

> Sidebars:

> Glutathione: The Eye Healer Within

>

>

> Bill Sardi, president of Knowledge of Health in San Dimas, Calif,

is a

> health journalist.

>

> http://www.askbillsardi.com/sdm.asp?pg=eye_health

>

>

>

> The complete " Whole Body " Health line consists of the " AIM GARDEN

TRIO "

> Ask About Health Professional Support Series: AIM Barleygreen

>

> " Wisdom of the Past, Food of the Future "

>

> http://www.geocities.com/mrsjoguest/AIM.html

>

>

>

>

>

>

> The New Search - Faster. Easier. Bingo.

>

>