All true teas—as distinct from herbal and flower infusions, which afficiandos
call tisanes, are made from the leaves of an evergreen tree with the botanical name
of Camellia sinensis. Although reaching a height of 30 feet in the wild, on tea
plantations (called gardens or estates), the plant is kept as a shrub, constantly
pruned to a height of about 3 feet to encourage new growth and for convenient
picking. Tea plants grow only in warm climates but can flourish at altitudes ranging from sea
level to 7,000 feet. The best teas, however, are produced by plants grown at higher
altitudes where the leaves mature more slowly and yield a richer flavor. Depending
upon the altitude, a new tea plant may take from 2-1/2 to 5 years to be ready for
commercial picking, but once productive, it can provide tea leaves for close to a
century. Tea plants produce abundant foliage, a camellia-like flower, and a berry, but only the
smallest and youngest leaves are picked for tea—the two leaves and bud at the top
of each young shoot. The growth of new shoots, called a flush, can occur every week
at lower altitudes but takes several weeks at higher ones. The new leaves are picked
by hand by "tea pluckers," the best of whom can harvest 40 pounds per day, enough
to make 10 pounds of tea. All tea plants belong to the same speciesCamellia sinensis, but local growing
conditions (altitude, climate, soils, etc.) vary, resulting in a multitude of distinctive
leaves. The way the leaves are processed, however, is even more important in
developing the individual characteristics of the three predominant types of tea:
green, black and oolong. Green tea is the least processed and thus provides the most antioxidant
polyphenols, notably a catechin called epigallocatechin-3-gallate (EGCG), which is
believed to be responsible for most of the health benefits linked to green tea. Green
tea is made by briefly steaming the just harvested leaves, rendering them soft and
pliable and preventing them from fermenting or changing color. After steaming, the
leaves are rolled, then spread out and "fired" (dried with hot air or pan-fried in a
wok) until they are crisp. The resulting greenish-yellow tea has a green, slightly
astringent flavor close to the taste of the fresh leaf. In black tea production, the leaves are first spread on withering racks and air-blown,
which removes about one-third of their moisture and renders them soft and pliable.
Next, they are rolled to break their cell walls, releasing the juices essential to
fermentation. Once again, they are spread out and kept under high humidity to
promote fermentation, which turns the leaves a dark coppery color and develops
black tea's authoritative flavor. Finally, the leaves are "fired," producing a brownish
black tea whose immersion in hot water gives a reddish-brown brew with a stronger
flavor than green or oolong teas. Oolong tea, which is made from leaves that are partially fermented before being
fired, falls midway between green and black teas. Oolong is a greenish-brown tea
whose flavor, color and aroma are richer than that of green tea, but more delicate
than that of black. Green tea has always been, and remains today, the most popular type of tea from
China where most historians and botanists believe the tea plant originated
throughout all of Asia. Why is this so? Perhaps because green tea not only captures
the taste, aroma and color of spring, but delivers this delightful bouquet along with
the highest concentration of beneficial phytonutrients and the least caffeine of all
Nutrients in Green Tea 2.00 g (2.00 grams) Health Benefits Green tea is particularly rich in health-promoting flavonoids (which account for 30%
of the dry weight of a leaf), including catechins and their derivatives. The most
abundant catechin in green tea is epigallocatechin-3-gallate (EGCG), which is
thought to play a pivotal role in the green tea's anticancer and antioxidant effects.
Catechins should be considered right alongside of the better-known antioxidants like
vitamins E and C as potent free radical scavengers and health-supportive for this
reason. Most of the research showing the health benefits of green tea is based on the
amount of green tea typically consumed in Asian countries—about 3 cups per day
(which would provide 240-320 mg of polyphenols). Just one cup of green tea supplies
20-35 mg of EGCG, which has the highest antioxidant activity of all the green tea
catechins. The health benefits of green tea have been extensively researched and, as the
scientific community's awareness of its potential benefits has increased, so have the
number of new studies. As of November 2004, the PubMed database contained more
than 1,000 studies on green tea, with more than 400 published in 2004! Following is
a brief summary of some of the high points of this most current research. Green tea drinkers appear to have lower risk for a wide range of diseases, from
simple bacterial or viral infections to chronic degenerative conditions including
cardiovascular disease, cancer, stroke, periodontal disease, and osteoporosis. The
latest studies provide a deeper understanding of the ways in which green tea: Protects against Death from All Causes, Especially Cardiovascular Disease In August 2006, a European study, published in the European Journal of Clinical Nutrition, found that tea is a healthier choice than almost any beverage, including
pure water, because tea not only rehydrates as well as water, but provides a rich
supply of polyhenols protective against heart disease. Now, a Japanese study published in the September 2006 issue of JAMA, suggests
that drinking green tea lowers risk of death due to all causes, including
cardiovascular disease. Shinichi Kuriyama, M.D., Ph.D., of the Tohoku University School of Public Policy,
Sendai, Japan, and colleagues examined the association between green tea
consumption and death due to all causes, cardiovascular disease (CVD), and cancer.
The study, which began in 1994, followed 40,530 adults, ranging in age from 40 to
79, in northeastern Japan for up to 11 years. Within this region, 80% of the
population drinks green tea with more than half consuming at least 3 cups a day. Compared with participants who consumed less than 1 cup of green tea per day,
those drinking 5 or more cups a day had a significantly lower risk of death from all
causes and, specifically, risk of death from CVD, with women receiving even stronger
Green Tea Benefits
23% lower risk of dying from any cause 12% lower risk of dying from any cause31% lower risk of dying from CVD
Only weak or neutral relationships were seen between black tea or oolong tea and
all-cause or CVD mortality. While this study found no cancer-preventive benefit from drinking green tea, other
large studies, including a meta-analysis of 13 studies published July 2006
in Carcinogenesis (Sun CL et al), suggest that green tea reduces risk of breast
cancer. In this study, compared to women who did not drink green tea, those
consuming the most green tea were 22% less likely to develop breast cancer. Often in studies, the effects of a certain health-promoting behavior are likely to be
confounded by the fact that those who try to follow a healthy lifestyle practice a
variety of healthy habits. In this study, however, since green tea is the most
commonly consumed beverage in Japan, it is unlikely that study participants were
choosing to drink green tea primarily for their health, and thus also unlikely that the
significant drop in risk of death due to all causes and CVD was due to other habits
related to health consciousness. Given the significant benefit green tea can provide, even to those who are not
especially health conscious, just imagine its health-protective potential as part of
your healthy way of eating!If you simply cannot start your day without a cup of coffee, try enjoying a cup of
green tea at your mid-morning break, with lunch or as an afternoon pick-me-up.
You'll quickly discover green tea's irresistible combination of invigorating and
calming qualities, plus its delicious flavor, make it one of your favorite healthy
habits. Protects against Coronary Artery Disease In Japanese studies, green tea consumption has been found to be an independent
predictor for risk of coronary artery disease. In one study, those drinking 5 or more
cups of green tea each day were found to be 16% less likely to suffer from coronary
artery disease. The relationship was so significant researchers concluded, "The more
green tea patients consume the less likely they are to have coronary artery disease."An elevation in the amount of free radicals in the arteries is a key event in many
forms of cardiovascular disease. The latest research shows that green tea catechins
inhibit the enzymes involved in the production of free radicals in the endothelial
lining of the arteries. The arterial endothelium is a one-cell thick lining that serves as
the interface between the bloodstream and the wall of the artery where plaques can
form. By protecting the endothelium from free radical damage, green tea catechins
help prevent the development of cardiovascular disease. Inhibits Atherosclerosis
Green tea has been shown to effectively lower risk of atherosclerosis by lowering
LDL cholesterol, triglycerides, lipid peroxides (free radicals that damage LDL
cholesterol and other lipids or fats) and fibrinogen (a protein in the blood involved in
the formation of blood clots), while improving the ratio of LDL (bad) to HDL (good)
cholesterol. In animal studies in which green tea was given in human equivalent doses to
hamsters, atherosclerosis was inhibited 26-46% in those receiving the lower dose
(equivalent in humans to 3-4 cups per day) , and 48-63% in those receiving the
higher dose (10 cups a day in humans). Special Benefits for Persons with High Triglycerides Green tea may offer special heart-protective benefits for persons with high
triglycerides, suggests a laboratory study, published in the February 2005 issue of
the Journal of Nutrition. A series of experiments revealed that the mix of catechins naturally found in green
tea dose-dependently inhibit the activity of pancreatic lipase, the enzyme secreted
by the pancreas that digests fat. As a result, the rate at which the body breaks down
of fats into triglycerides, and the rise of triglyceride levels in the bloodstream that
occurs after meals, is greatly slowed. Since a large rise in blood levels of triglycerides after a meal is a significant risk
factor for coronary heart disease, drinking a cup of two green tea along with your
meals is a good idea, especially if your triglyceride levels are higher than normal. Thins the Blood and Helps Prevent Blood Clots Green tea catechins help thin the blood and prevent the formation of blood clots by
preventing the formation of pro-inflammatory compounds derived from omega-6
fatty acids, which are found in meats and polyunsaturated vegetable oils such as
corn, safflower and soy oil. These pro-inflammatory compounds—specifically,
arachidonic acid from which the inflammatory cytokines thromboxane A2 and
prostaglandin D2 are derived—cause platelets to clump together. Protects the Heart in Patients with Acute Cardiovascular Disease The primary catechin in green tea, EGCG (epigallocatechin-3-gallate) confers such
powerful protection that it can help prevent the death of heart muscle cells following
ischemia/reperfusion injury. Ischemia is the medical term for a restriction in blood
supply and therefore in oxygen and nutrients. When circulation is restored, oxidative
damage occurs, and this is referred to as reperfusion injury. EGCG prevents heart muscle damage by blocking the activation of inflammation-
related compounds (including NF-kappa-B and STAT-1) that play a critical role in
promoting the oxidative damage that kills heart cells in reperfusion injury.
Researchers believe EGCG can be used to help minimize damage in patients with
acute coronary artery disease. Minimizes Damage and Speeds Recovery after a Heart Attack Research conducted over the last several years by Dr. Anastasis Stephanou and his
team at the UK's Institute of Child Health and published in the FASEB Journal, the
journal of the Federation of Experimental Biology and the Journal of Cellular and Molecular Medicine has focused on EGCG's ability to block the action of the protein,
STAT-1. Normally activated in cells after a heart attack or stroke, STAT-1 plays a
major role in inducing cell death. Not only does green tea minimize heart cell death after a heart attack or stroke,
ECGC also appears to speed up heart cells' recovery from damage, allowing the
tissues to recover more quickly and alleviating damage to organs.
Dr. Stephanou, a molecular biologist, noted: "We're extremely encouraged by these
findings and hope to implement them in the clinical setting to minimize cell death
activation in patients with acute coronary heart disease." Minimizes Damage to the Brain after a Stroke EGCG has also been shown to protect brain cells by these same mechanisms and
thus may help minimize the brain damage that occurs after a stroke. In one animal
study, green tea was so effective in reducing the formation of free radicals in brain
tissue that the researchers concluded, "Daily intake of green tea catechins efficiently
protects the brain from irreversible damage due to cerebral ischemia, and
consequent neurologic deficits." Lowers Blood Pressure and Helps Prevent Hypertension A study published in the July 2004 issue of the Archives of Internal Medicine found
that among persons consuming tea regularly for at least one year, the risk of
developing high blood pressure was 46% lower among those who drank 1/2 cup to 2-
1/2 cups per day, and 65% less among those consuming more than 2-1/2 cups per
day. In another study, this one of rats bred not only have high blood pressure but also to
be prone to strokes, those rats given green tea had significantly lower systolic and
diastolic blood pressure compared to controls, who received plain water. The animals
in this study, which was published in the January 2004 issue of the Journal of Nutrition, consumed the human equivalent of 1 liter (1.1 quarts or a little more than
4 cups) of green tea per day. Helps Prevent the Development of Atherosclerosis and Cancer In both atherosclerosis and cancer, cell growth and proliferation is central to the
disease process. In atherosclerosis, plaques form in the lining of the arteries, which
grow thicker and less elastic, impeding blood flow. In cancer, normal brakes on cells
turn off, and they multiply out of control. Green tea can help stop abnormal cell
proliferation. Catechins, among the main active compounds in green tea leaves, shut down the
primary relay station through which growth factors central to both atherosclerosis
and cancer send their messages for growth. These relay stations, called tyrosine
kinase receptors, are essential for the transmission of messages sent by platelet
derived growth factor, insulin-like growth factor, epidermal growth factor, fibroblast
growth factor, and vascular endothelial growth factor. The result is the prevention of
or halting of the disease processes that depend upon excessive cellular growth. Two other damaging factors that cause the cells lining our vasculature to proliferate
are AGEs (advanced glycation end products) and MAPK (mitogen-activated protein
kinase). AGEs form when sugars inappropriately bind to and distort proteins. MAPK
activity is normally enhanced in the presence of elevated levels of LDL cholesterol.
In laboratory studies, green tea polyphenols were shown to dose-dependently inhibit
AGE-stimulated proliferation of vascular smooth muscle cells and to prevent the
increase in MAPK normally seen when LDL levels are high. Protects against Cancer In the last ten years, green tea's cancer-preventive effects have been widely
supported by epidemiological, cell culture, animal and clinical studies. For cancer
prevention, the evidence is so overwhelming that the Chemoprevention Branch of
the National Cancer Institute has initiated a plan for developing tea compounds as
cancer-chemopreventive agents in human trials.
When confronted with a cancerous cell, green tea becomes the plant kingdom's
Arnold Schwarzenegger, helping to terminate cancer cells in a remarkable number of
ways. Laboratory cell culture studies show that green tea polyphenols are powerful triggers
of apoptosis (cell suicide) and cell cycle arrest in cancerous but not in normal cells.
(Cell cycling is the process cells go through to divide and replicate.)These anticancer actions have been assumed to be due to the powerful antioxidant
effects of green tea's catechins, especially epigallocatechin-3-gallate (EGCG). This is
a reasonable assumption, given that a number of studies have shown that green tea
possesses remarkable antioxidant properties. In one study published in the
November 2004 issue of Mutation Research, EGCG's protective antioxidant effects
against several carcinogens were found to be 120% stronger than those of vitamin
C. But while green tea's antioxidant prowess is impressive, recent studies show it is far
from the only way in which this multi-talented beverage protects us against cancer. One of these mechanisms is green tea's ability to inhibit angiogenesis, the
development of new blood vessels. Cancer cells, which are constantly attempting to
divide and spread, have an endless appetite that can only be temporarily quieted by
increasing the number of blood vessels that supply them with nutrients. By inhibiting
angiogenesis, green tea helps starve cancer. Studies also show that green tea works at the genetic level, shutting off genes in
cancerous cells that are involved in cell growth, while turning on those that instruct
the cancer cells to self-destruct. EGCG has even been found to work as a pro-oxidant
or free radical, but just inside cancer cells, where it causes so much damage that the
cancer cells' self-destruct mechanisms are triggered. A study of ECGC's effects on keratinocytes (the major type of epidermal or skin cell)
found that this green tea compound has yet another means of correcting cancer—
that of turning on the genes that direct the cancer cell to return to normal. Green tea's anticancer effects include its ability to inhibit the overproduction of the
enzyme cyclooxygenase (COX)-2, a protein whose overproduction has been
implicated as a factor in many diseases, including arthritis and cancer. COX-2 has an
enzyme counterpart, called COX-1, which may be helpful to leave untouched when
preventing overproduction of COX-2. Nonsteroidal anti-inflammatory drugs (NSAIDs)
such as aspirin and ibuprofen (which inhibit both COX-1 as well as COX-2), and
specific COX-2 inhibitors such as Vioxx and Celebrex (which inhibit only COX-2), have
been considered as possible agents in the prevention of some forms of cancer, but
their severe toxic side effects on normal cells limit their usefulness. In studies of
prostate cancer cells, EGCG appears to block only COX-2 and to have no negative
side effects. Phytonutrients in green tea, specifically, its catechins, increase the production and
activity of detoxification enzymes in humans, and may enhance our ability to
detoxify carcinogens, shows research supported by the National Cancer Institute. 42 healthy volunteers refrained from tea or tea-related products for one month, after
which blood samples were taken to assess the activity and levels of their glutathione
S-transferases (GST), a major group of detoxification enzymes. Volunteers then
consumed green tea catechins in amounts equivalent to consuming between 8-16
cups of green tea each day. GST activity was greatly enhanced in those whose
baseline GST activity was low-1/2those most susceptible to damage from
carcinogens. (Chow HH, Hakim IA, et al.,Cancer Epidemiol Biomarkers Prev.) Prostate Cancer
EGCG provides other benefits specific to prostate cancer prevention. A study
published in the December 2004 issue of the International Journal of Cancer found
that EGCG significantly inhibited, in a dose-dependent manner, the production of
prostate-specific antigen (PSA), a marker for prostate cancer risk. Not only did EGCG
lower PSA levels, but it also suppressed all the activities of PSA which were
examined that promote prostate cancer. Green tea polyphenols halt prostate cancer at multiple levels The polyphenols in green tea help prevent the spread of prostate cancer by
mobilizing several molecular pathways that shut down the proliferation and spread
of tumor cells, while also inhibiting the growth of blood vessels that supply the
cancer with nourishment, according to research published in the December 2004
issue of Cancer Research. Green tea polyphenols:
• decrease insulin-like growth factor-1 (IGF-1), while increasing levels of IGF
binding protein-3, which binds IGF-1, further diminishing its activity. (Increased
levels of IGF-1 are associated not only with prostate cancer, but cancers of the
• inhibit key cell survival proteins, promoting apoptosis or programmed cell
• reduce the expression of several compounds (urokinase plasminogen activator
and matrix metalloproteinase 2 and 9) involved in the metastasis and spread
• reduce the amount of vascular endothelial growth factor (VEGF), which
develops new blood vessels to carry nutrients to developing tumors.
All these effects were seen in this animal study within 6 months of continuous
infusion. While obviously impractical for humans, the study suggests that daily
consumption of green tea may be highly protective. Choosing to regularly drink green tea and eat fruits and vegetables rich in the
carotenoid, lycopene, may greatly reduce a man's risk of developing prostate
cancer, suggests research published the Asia Pacific Journal of Clinical Nutrition (Jian
L, Lee AH, et al.)In this case-control study involving 130 prostate cancer patients and 274 hospital
controls, men drinking the most green tea were found to have an 86% reduced risk
of prostate cancer compared, to those drinking the least. A similar inverse association was found between the men's consumption of
lycopene-rich fruits and vegetables such as tomatoes, apricots, pink grapefruit,
watermelon, papaya, and guava. Men who most frequently enjoyed these foods were
82% less likely to have prostate cancer compared to those consuming the least
lycopene-rich foods. Regular consumption of both green tea and foods rich in lycopene resulted in a
synergistic protective effect, stronger than the protection afforded by either, the
researchers also noted. Practical Tips: Get in the habit of drinking green tea and eating lycopene-rich foods.
• Take a quart of iced green tea to work and sip throughout the day or take it to
the gym to provide prostate protection while replenishing fluids after your
• Start your breakfast with a half grapefruit or a glass of papaya or guava juice. • Begin lunch or dinner with some spicy tomato juice on the rocks with a twist of
lime. Snack on tomato crostini: in the oven, toast whole wheat bread till
crusty, then top with tomato sauce, herbs, a little grated cheese, and reheat
• Top whole wheat pasta with olive oil, pine nuts, feta cheese and a rich tomato
Drinking 5 cups of green tea a day may cut the risk of advanced prostate cancer in
half, shows data collected in The Japan Public Health Center-based Prospective
Study. The JPHC Study followed 49,920 Japanese men aged from 40 to 69 from 1990
to 2004. Compared to men who drank less than one cup of green tea per day, those
consuming 5 or more cups daily reduced their risk of developing advanced prostate
cancer by 48%!If you don't already drink green tea, consider making this energizing, delicious
beverage a healthy habit. Over half a million new cases of prostate cancer are
diagnosed each year world wide, and, incidence of the disease, which is the direct
cause of more than 200,000 deaths annually, is increasing with a rise of 1.7% over
15 years. (Kurahashi N, Sasazuki S, et al., Am J Epidemiol.) Ovarian Cancer Green tea consumption has been shown to enhance survival in women with ovarian
cancer. In a study published in the November 2004 issue of the International Journal of Cancer, women with ovarian cancer who drank at least 1 cup of green tea daily
had a 56% lowered risk of death during the 3 years of the study compared to non-
tea drinkers. A laboratory study of human ovarian cancer cells published in the
September 2004 issue of Gynecologic Oncology explains why: EGCG not only
suppresses the growth of ovarian cancer cells, but also induces apoptosis (cell
suicide) in these cells by affecting a number of genes and proteins. An epidemiological (population) study published in the December 2005 issue of
the Archives of Internal Medicine, adds more evidence that enjoying a cup or two of
tea each day may significantly lower a woman's risk of ovarian cancer. Data from numerous other studies has suggested that both green and black tea may
offer protection against various cancers, with tea polyphenols thought to be the
most likely protective agents. In this research, Susanna Larsson and Alicja Wolk from
the National Institute of Environmental Medicine, Stockholm, Sweden, decided to
look specifically at the relationship between tea consumption and ovarian cancer. Participants in their study were 61,057 Swedish women aged 40-76 years who were
in the Swedish mammography cohort and had completed a validated 67 item food
frequency questionnaire at baseline (between 1987-1990), after which the women
were followed an average of 15.1 years. Analysis of the data found that even women who averaged less than one cup of tea
per day had an 18% lower risk of ovarian cancer than non-tea-drinkers. Those who drank one cup per day had a 24% lower risk, and those who drank two or
more cups of tea per day had a 46% lower risk of ovarian cancer than non-tea-
drinkers. Each additional cup of tea per day was associated with an 18% lower risk of ovarian
cancer. Although higher tea consumption was generally associated with other health-
promoting behaviors, including higher consumption of fruits and vegetables, when
compared to the lifestyle behaviors of those who seldom or never drank tea, the
large drop in ovarian cancer risk seen as tea consumption increased does suggest
that tea is likely to offer significant protection. Kaempferol-rich Tea and Broccoli Protective against Ovarian Cancer
A prospective study looking at dietary intake of 5 common flavonoids in 66,940
women in the Nurses Health Study over 18 years of follow up found those whose
diets provided the most of 5 common flavonoids (myricetin, kaempferol, quercetin,
and luteolin), had a 25% reduced risk of ovarian cancer, compared with those
consuming the least. Women whose diets provided the most kaempferol, a flavonoid concentrated in non-
herbal tea (like green tea), broccoli and onions, were found to have a 40% lower risk
of ovarian cancer, compared to women with the lowest kaempferol intake. Similarly, women whose diets provided the most luteolin intake had a 34% reduced
risk of ovarian cancer, compared those with the lowest luteolin intake. Celery and
parsley are some of the most highly concentrated sources of luteolin, which is also
found in rutabagas, hot peppers and spinach. (Gates MA, Tworoger SS, et al., Int J Cancer.) Brain Tumors in Children Green tea's ability to inhibit telomerase may also translate into help for children with
the most common malignant brain tumors of childhood, primitive neuroectodermal
tumors. Telomerase's activity allows cancer cells to avoid the normal limits on the
number of times a cell can replicate before it self-destructs. In a study published in
the January 2004 issue of Neuro-oncology, investigators found that telomerase
activity was at least five times higher in children with these brain tumors than in
normal brain cells and that EGCG strongly inhibited telomerase activity in a dose-
dependent manner. Colorectal Cancer Green tea may also reduce the increased risk for colon cancer caused by a high fat
diet. An animal study published in the journal Nutrition and Cancer in 2003 found
that when green tea was given along with a diet high in omega 6 fat (in the form of
corn oil), the amount of pro-inflammatory compounds produced in the colon (5-
lipoxygenase, leukotriene A4 hydrolase, and leukotriene B4) was significantly lower,
as was the resulting number of precancerous colon cells (aberrant crypt foci). Green
tea consumption even reduced the amount of abdominal fat produced in the animals
that received it compared to controls. Regular Green Tea Drinking Cuts Colorectal Cancer Risk in Half To evaluate the link between green tea consumption and colorectal cancer risk,
researchers followed 69,710 Chinese women ranging in age from 40 to 70 for 6
years. Women who regularly drank green tea when the study began were 37% less likely to
develop colorectal cancer compared to infrequent green tea drinkers. Women who
continued to drink green tea regularly throughout the study fared even better,
reducing their risk of colorectal cancer by 57%.(Yang G, Shu XO, et al., Cancer Epidemiol Biomarkers Prev.)Practical Tip: Enjoy green tea as both a hot and iced beverage.
• Brew green tea with thinly sliced ginger and lemon, or sprigs of spearmint.
Add one teaspoon of honey per cup, stir and serve hot, or use half the amount
of hot water (or twice the amount of tea), allow the tea to brew and cool, then
combine half and half with fruit juice, such as peach, pineapple or papaya.
• Make green tea chai by brewing green tea in hot vanilla soy milk. Top with a
dash each of cinnamon, black pepper, ginger and allspice. Gallstones and Biliary Tract Cancers
Green tea lowers risk of gallstones and biliary tract cancers, suggests a large
population-based, case-control study led by Ann Hsing of the National Cancer
Institute, Bethesda, Maryland, and published in theInternational Journal of Cancer,
June 2006. Hsing's team gathered demographic, medical and dietary data from 627 individuals
with biliary tract cancer, 1037 persons with gallstones, and 959 randomly selected
controls in Shanghai, China. Among women, after taking account of age, education and body mass index, those
who consumed at least one cup of tea each day for at least 6 months had a 27%
reduced risk of developing gall stones, a 44% reduced risk of getting gallbladder
cancer, and 35% reduced risk of bile duct cancer. Among men, most tea drinkers were cigarette smokers, which likely affected their
results. Men's risk of biliary disease was lower with tea consumption, but the drop in
risk was not considered statistically significant. Lung Cancer While we certainly do not recommend smoking, if you or someone you love smokes,
or if you must be around smokers and are exposed to second hand smoke, drinking
green tea can offer some protection against lung cancer. A human pilot study
recently confirmed the protective effects of green tea against lung cancer seen in
cell culture and animal studies. The study, published in the November 2004 issue
ofMolecular Nutrition and Food Research evaluated the effect of green tea (5 cups
per day) on 3 heavy smokers (>10 cigarettes a day) and 3 individuals who had never
smoked. When the study subjects were drinking green tea, DNA damage caused by
smoking was decreased, cell growth was inhibited, and cellular triggers for apoptosis
(cell suicide) in abnormal cells increased. Another larger four month study of heavy smokers involving 100 women and 33 men
found that levels of urinary 8-hydroxydeoxyguanosine, a marker of free radical
damage to DNA, dropped significantly in individuals drinking decaffeinated green but
not black tea. Decaffeinated green tea was especially effective in reducing DNA damage in
individuals who lack the genetic ability to produce normal amounts of an enzyme
called glutathione S-transferase, which plays a key role in the liver's ability to
detoxify many of the carcinogens found in cigarette smoke. Individuals whose
genetic inheritance does not include the GSTM1 and GSTT1 variants of the genes
that instruct the cell to produce glutathione S-transferase are more susceptible to
developing many different cancers. For these individuals, green tea may be
especially beneficial. Bladder Cancer Research by a multi-departmental team from UCLA has produced valuable insights
into how green tea extract might be capable of acting against the invasive growth of
bladder cancer tumors. Green tea extract has been shown, via a mechanism that
affects cell movement, to target cancer cells while leaving healthy cells alone. For cancer to grow and spread, the malignant cells must be able to move, and their
movement depends on a process called actin remodeling, which itself is carefully
regulated by complex signaling pathways, including the Rho pathway. By inducing Rho signaling, green tea causes cancer cells to mature more rapidly and
to bind together more closely, a process called cell adhesion. Both their increased
maturity and cell adhesion inhibit cancer cells' mobility, according to Rao, senior
author of the study, published in the February 2005 issue of Clinical Cancer Research, in which green tea's effects on Rho signaling were noted.
"Cancer cells are invasive and green tea extract interrupts the invasive process of
the cancer�In effect, the green tea extract may keep the cancer cells confined and
localized, where they are easier to treat and the prognosis is better," explained Rao. About 56,000 new cases of bladder cancer are diagnosed each year, making it the
fifth most common cancer in the United States. About half of all bladder cancers are
believed to be related to cigarette smoking. Bladder cancer can be difficult to detect
in the early, most treatable stages, yet, when not found early, the tumors can be
aggressive, and more than half of patients with advanced cancers experience
recurrences. In the next phase of his research, Rao and his team will analyze urine from bladder
patients, looking particularly for biomarkers associated with actin remodelling and
the activation of the Rho pathway, to determine which subset of patients might
benefit most from green tea. Improves the Efficacy of Cancer Drugs While Lessening Their Negative Side-Effects In the fight against cancer, green tea polyphenols are team players, helping cancer-
killing drugs do their job. In a study published in the October 2004 issue of
the Journal of Pharmacy and Pharmacology, green tea polyphenols caused drug-
resistant cancer cells, which were able to extrude or push out one of the most
commonly used cancer drugs, doxorubicin, to retain the drug, which could then
destroy them. According to a study published in the August 2004 issue of Cancer Letters, another
compound in green tea, the amino acid theanine, reduces the negative side effects
of doxorubicin by increasing the level of one of the body's most important internally
produced antioxidants, glutathione, in normal tissues in the liver and heart—but not
in tumors. Understanding How Green Tea Fights Cancer Spanish and British scientists have discovered at least one of the mechanisms
through which green tea helps to prevent certain types of cancer, according to a
study published in the March 2005 issue ofCancer Research. ECGC, a catechin present in green tea in amounts about 5 times higher than in black
tea, inhibits the enzyme dihydrofolate reductase (DHFR), which cancer cells need to
be able to grow, and which is a well recognized target of anti-cancer drugs. Scientists decided to look at ECGC after they realized the green tea catechin looks a
lot like the cancer drug methotrexate, which prevents cancer cells from making DNA
by inhibiting the DHFR enzyme. They discovered that ECGC kills cancer cells in the
same way as the drug. Although ECGC binds strongly to DHFR, which is essential in both healthy and
cancerous cells, it does not bind as tightly as methotrexate, so its side effects on
healthy cells are less severe than those of the drug. ECGC's binding to DHFR may also explain why women who drink large amounts of
green tea around the time they conceive and early in their pregnancy may have an
increased risk of having a child with spina bifida or other neural tube disorders. Women are advised to take supplements of folic acid when trying to conceive and
during the first trimester (the first 3 months) of pregnancy because it is during this
time period that the baby's neural tube is developing. Folic acid helps ensure normal
development and protects against spina bifida by enabling the production of the
While a cup or two of green tea is unlikely to pose a problem, drinking large amounts
of green tea could decrease the activity of DHFR, increasing risk of neural tube
defects. Improves Insulin Sensitivity in Type 2 Diabetes Population studies suggest that green tea consumption may help prevent type 2
diabetes. A number of animal studies are beginning to explain why. New studies
suggest that green tea may improve glucose tolerance and insulin sensitivity in
individuals with diabetes. In one study, after receiving green tea for 12 weeks,
diabetic rats had lower fasting blood levels of glucose, insulin, triglycerides and free
fatty acids compared to controls, and the ability of their adiopcytes (fat cells) to
respond to insulin and absorb blood sugar greatly increased. In another study by the same research group, diabetic rats were separated into
three groups and followed for 12 weeks. One group was given with standard rat
chow and water (the control group), the second group received a high fructose diet
and water (fructose group), and the third group got the same high fructose diet and
green tea (green tea group). By the end of the study, the fructose group had high
blood sugar, high insulin levels, and high blood pressure, while the animals receiving
green tea along with a high fructose diet showed improvement in all three. A study published in the August 2004 issue of BMC Pharmacology, in which oral
glucose tolerance tests were given to healthy humans after they consumed green
tea, showed that it increased the body's ability to utilize blood sugar. Another interesting animal study compared the effects of a Western diet, a
vegetarian diet and a Japanese diet, each with or without green tea. Blood sugar
concentrations were highest in the animals on the Western diet followed by the
Vegetarian diet with the Japanese diet producing the lowest blood sugars. When
supplemented with green tea, blood sugar levels dropped in rats on all three diets,
with those on the Japanese diet having not only the lowest blood sugars but also
rating the best on other risk factors for type 2 diabetes. Rats on the Japanese diet
that also were given green tea had the lowest triglycerides and cholesterol as well as
the highest ratio of beneficial omega-3 fatty acids to potentially inflammatory
omega-6 fatty acids. The researchers concluded that Japanese eating habits
combined with drinking green tea might help prevent type 2 diabetes. One of the mechanisms through which green tea improves insulin sensitivity has
recently been identified in laboratory studies that show that epigallocatechin 3-
gallate (EGCG) does a good deal more to prevent type 2 diabetes than lower the
production of free radicals. EGCG also works on the genetic level, causing a
reduction in the number of messenger RNAs that direct liver cells to produce the
enzymes involved in the creation of glucose (sugar). Protects against Kidney Disease An animal study published in the January 2005 issue of Pharmacological Research suggests yet another beneficial effect of green tea consumption: the
prevention of kidney dysfunction in persons who must take powerful
immunosuppressant drugs, for example, after an organ transplant. One such drug, cyclosporine A, while a very effective immunosuppressant, also
markedly elevates the production of free radicals highly toxic to the kidneys. In this
study, rats given green tea as their drinking water along with cyclosporine A
produced far fewer damaging free radicals than rats given plain water. In addition, a
number of other indicators of kidney function (serum creatinine, blood urea nitrogen,
uric acid and urinary excretion of glucose) were significantly better in rats given
Another animal study published in May 2004 in the Annals of Nutrition & Metabolism explains why. Diabetic rats given green tea catechins and then exposed
to a kidney-damaging drug, streptozotocin, produced less than half the amount of
superoxide radicals (a particularly damaging type of free radical) compared to
diabetic rats on a catechin-free diet. As a result, a cellular waste product formed by
free radical damage to fats, lipofuscin, was almost 200% higher in the diabetic rats
who did not receive green tea catechins compared to those who did. Builds Bone Researchers at the University of Tokyo have shown drinking green tea may
significantly increase bone mineral density. Their study, presented at the International Osteoporosis Foundation World Congress
on Osteoporosis, Toronto, Canada, June 5, 2006, included 655 women aged 60 years
or older. Participants completed a questionnaire about their consumption of green
tea, milk, cheese, yogurt, fish, vegetable, tofu, natto (a soy food), meat and coffee;
smoking, alcohol consumption, physical activity and use of anti-osteoporosis
bisphosphonate drugs like Fosamax. For each dietary item, subjects were divided into two groups: 1) those who
consumed the item five or more days per week, and 2) those who consumed the
item fewer than five days per week. The researchers then measured the bone
mineral density (BMD) of the women's lumbar spines, as well as blood markers for
osteoporosis risk, including levels of calcium, phosphorus, parathyroid hormone,
alkaline phosphatase, osteocalcin, and vitamin D. Women who drank green tea 5 or more days per week had an average BMD
significantly higher (0.808 grams of hydroxyapatite-form calcium per square
centimeter) than those drinking green tea less than 5 days per week (0.738 grams
per square centimeter). Green tea drinkers' bone-density advantage persisted even after results were
adjusted for age, body mass index, other dietary items, smoking, alcohol, physical
activity and use of osteoporosis drugs. The Tokyo team hypothesized the catechin flavonoids in green tea provided the
benefits via estrogenic effects known to build bone strength and/or induce apoptosis
("suicide") in bone-destroying cells called osteoclasts. Both mechanisms are similar
to the ways in which bisphosphonate drugs like Fosamax prevent bone loss. But
while these potent drugs can provoke inflammatory eye disorders, abdominal pain,
nausea, vomiting, dyspepsia and diarrhea, green tea is not only completely safe, but
a delicious beverage that offers a legion of other health benefits. Green Tea Provides Bone Benefits Similar to Calcium or Exercise Australian researchers report that bone mineral density (BMD) is 2.8% greater in tea
drinkers than non-drinkers. The study involved 1,500 women (age range from 70-85)
in a 5-year prospective trial looking at the effects of calcium supplements on
osteoporotic fracture. Not only was tea drinkers' total BMD 2.8% higher than non-tea
drinkers, but over the course of 4 years, tea drinkers lost an average of 1.6% of their
total hip BMD, while non-tea drinkers lost more than twice as much (4%). The 4 primary polyphenols in tea (epigallocatechin gallate (EGCG), epigallocatechin,
epicatechin gallate, and epicatechin) were identified as being responsible. Green tea
contains between 30-40% of water-extractable polyphenols, while black tea contains
between 3-10%. "A recent review suggests that flavonoids from green tea may be associated with
increases in BMD via a potent stimulatory effect on osteoblast function," noted lead
researcher Amanda Devine. (Osteoblasts are the cells responsible for producing new
bone.) (Devine A, Hodgson JM, et al., Am J Clin Nutr.) Prevents Osteoporosis and Periodontal diseases Excessive bone loss is a characteristic feature not only of osteoporosis but of
periodontal disease. Green tea supports healthy bones and teeth both by protecting
osteoblasts (the cells responsible for building bone) from destruction by free
radicals, and by inhibiting the formation of osteoclasts (the cells that break down
bone). Another benefit of green tea consumption for those with periodontal disease: green
tea short circuits the damaging effects of the bacteria most responsible for gum
disease, Porphyromonas gingivalis. P. gingivalis causes gum damage by producing
toxic byproducts such as phenylacetic acid and by stimulating the activity and
production of enzymes called metalloproteinases (MMPs), which destroy both the
mineral and organic constituents that make up the matrix of our bones.
Epigallocatechin-3-gallate (EGCG) inhibits P. gingivalis' production of both
phenylacetic acid and MMPs. Protects the Liver from Alcohol and Other Harmful Chemicals Alcohol metabolism results in the production of damaging free radicals that can
overwhelm the liver's supply of antioxidants, resulting in liver injury. In a study
published in the January 2004 issue of Alcohol in which rats were chronically
intoxicated with alcohol for 4 weeks, green tea prevented damage to their livers. Other animal research shows that epigallocatechin-3-gallate (EGCG) protects the
liver against the free radicals generated when mice are exposed to carbon
tetrachloride, a toxic chemical solvent. Without the protection afforded by EGCG,
carbon tetrachloride exposure resulted in the production of numerous free radicals
that destroyed a significant amount of the animals' liver cells. With EGCG, free
radical production and liver injury was so greatly reduced that researchers
suggested green tea should be used in the treatment of liver disease. Unlike some herbs, green tea's protective effects do not appear to affect two of the
liver enzymes most often responsible for detoxifying and eliminating drugs,
cytochrome P-450 2D6 and 3A4. This suggests that green tea might be safely
consumed when taking medications primarily dependent upon the CYP2D6 or
CYP3A4 pathways of metabolism. Hopefully, future research studies will bear out this
potential benefit. On the other hand, one study found that Japanese green tea did increase the activity
of the CYP1A1 enzyme. Researchers hypothesized that the increase in activity of this
liver enzyme may be one of the ways in which green tea helps protect against
cancers caused by various dietary carcinogens. Promotes Fat Loss Green tea not only promotes fat loss, but specifically, the loss of visceral fat—fat
that accumulates in the tissues lining the abdominal cavity and surrounding the
intestines (viscera) and internal organs. Unlike fat deposits on the hips and thighs
(which result in the so-called "pear" body shape), visceral fat (which produces the
"apple" body shape) is highly associated with increased risk for metabolic syndrome
and type 2 diabetes. Green tea contains three major components that promote fat loss: catechins,
caffeine and theanine. Studies suggest that green tea compounds promote fat loss
by inhibiting both gastric and pancreatic lipase, the enzymes that digest
triglycerides, and fatty acid synthetase, the enzyme responsible for synthesizing
fatty acids into the form in which they can be stored in the body's adipose (fat) cells.
In a study published in the January 2004 issue of In Vivo in which mice were fed diets
containing 2% green tea powder for 16 weeks, visceral fat decreased by 76.8% in
those receiving green tea compared to the control group. Green tea also decreased
blood levels of triglycerides (the chemical form in which most fats exist in the body). A human study, published in the January 2005 issue of the American Journal of Clinical Nutrition, confirms green tea's ability to not only reduce body fat, but
damage to LDL cholesterol as well. After 12 weeks of drinking just one bottle of
green tea each day, 38 normal-to-overweight men in Tokyo had a significantly lower
body weight, BMI, waist circumference, body fat mass and amount of subcutaneous
fat compared to men given a bottle of oolong tea each day. After a 2 week diet run-in period, the men were divided into two groups, one of
which drank a bottle of green tea containing 690 mg of catechins, while the other
group drank a bottle of oolong tea containing 22 mg catechins. Not only did the men
drinking green tea lose weight and fat, but the amount of their LDL cholesterol
damaged by free radicals also dropped significantly. Since atherosclerotic plaques
develop when cholesterol circulating in the bloodstream is damaged or oxidized,
green tea's ability to prevent these oxidation reactions may explain some of its
protective effects against cardiovascular diseases. Increases Exercise Endurance Green tea extract given to lab rats over a 10-week span increased the amount of
time the animals could swim before becoming exhausted by as much as 24%. Green tea's catechins appear to stimulate the use of fatty acids by liver and muscle
cells. In muscle cells, the ability to burn more fat translates into a reduction in the
rate at which glycogen, the form in which carbohydrates are stored for ready access
in muscle, is used up, thus allowing for longer exercise times. Green tea's effect on
muscle cells' ability to take in and burn fatty acids, speeding up fat breakdown, is
also thought to be the reason why it helps weight loss. The idea for the experiment came from the fact that skeletal muscles utilize
carbohydrates, lipids (fats) and amino acids (protein) as energy sources, but the
ratio in which they are used varies with the intensity and type of the exercise, and
the level of the individual's fitness. During endurance exercise, the use of too much
carbohydrate is undesirable because it triggers insulin secretion, which, in turn, both
inhibits the burning of fatty acids and stimulates lactic acid production. (Lactic acid
buildup is what causes that sore achy feeling in your muscles when you exercise.)
Conversely, enhanced availability and utilization of free fatty acids reduces
carbohydrate utilization, which in turn spares glycogen (the form in which
carbohydrates are stored in muscle for quick use) and suppresses lactic acid
production, resulting in an increase in endurance."Drinking a single cup of green tea before exercise, however, will not be effective.
One single, higher "dose" of green tea did nothing to improve lab rats' performance.
The animals had to receive green tea daily, and endurance increased gradually over
the 10 weeks of the study. To match the beneficial effect on test animals' endurance capacity seen in the
experiments, the researchers estimate a 165-pound athlete would need to drink
about 4 cups of green tea daily. Protects against Cognitive Decline, Alzheimer's Disease and Parkinson's Disease Damage to brain cells in Parkinson's, Alzheimer's and other neurodegenerative
diseases seems to result from the combination of a number of damaging factors
including excessive inflammation and increased levels of iron, both of which lead to
increased free radical production, exhaust the brain's supply of protective
antioxidants and trigger the production of certain proteins, such as amyloid-beta,
which promote apoptosis (cell suicide). Green tea catechins, until recently thought to work simply as antioxidants, are now
known to invoke a wide spectrum of neuroprotective cellular mechanisms. These
include iron chelation, scavenging of free radicals, activation of survival genes and
cell signaling pathways, and regulation of mitochondrial function. (The mitochondria
are the energy production factories inside our cells. When they are not working
properly, they generate many free radicals and little energy.) The end result is a
significant lessening of damage to brain cells. Iron accumulation in specific brain areas and free radical damage to brain cells are
considered the major damaging factors responsible for a wide range of
neurodegenerative disorders including both Parkinson's and Alzheimer's disease. In the brain, epigallocatechin-3-gallate (EGCG) has been shown to act as an iron
chelator, binding to and removing iron, thus preventing it from contributing to the
production of free radicals. In addition to removing iron, EGCG also increases the
activity of two major antioxidant enzymes, superoxide dismutase (SOD) and
catalase, further helping to decrease free radical damage. Another active compound in green tea, epicatechin (EC), reduces the formation of a
protein called amyloid-beta. Plaque-like deposits of amyloid-beta in the brain are a
defining characteristic of Alzheimer's disease. Animal studies conducted at the Douglas Hospital Research Centre, McGill
University, Quebec, Canada, suggest that a daily cup or two of either black or green
tea may reduce the risk of age-related degenerative brain disorders such as
Alzheimer disease. The researchers looked at the protective effects of two tea extracts and their main
constituents, epigallocatechin gallate and epicatechin gallate, which are highly
concentrated in green tea, on dying nerve cells. Both black and green tea extracts
and catechins strongly blocked death of neurons (brain nerve cells)When researchers exposed cultured neurons to amyloid alone, its effects were so
toxic that the brain cells died, but when the cell cultures received amyloid
immediately followed by tea extracts and catechins, the neurons were rescued and
survived. Green tea polyphenols have also demonstrated the ability to affect cell signaling
pathways, in particular the MAPK pathways, which are triggered by oxidative stress
(free radicals), and themselves set in motion a series of chemical reactions so
damaging that they can result in brain cell death. MAPK signaling pathways inside
brain cells are thought to play a critical role in neurodegenerative diseases. Another important cell signaling pathway beneficially affected by EGCG, the PKC
pathway, is also thought to play an essential role in the regulation of cell survival
and programmed cell death. Although no human studies on Alzheimer's disease have yet reported benefit from
tea consumption, recent population studies have shown that simply consuming 2 or
more cups of green tea daily reduces risk of cognitive decline and Parkinson's
disease. Green Tea Keeps Elders Mentally Sharp: Research Showing Multiple Ways
Green tea helps slow the age-related decline in brain function seen as declining
memory, cognitive impairment, dementia and Alzheimer's, shows a human study
published in the February 2006 issue of theAmerican Journal of Clinical Nutrition. Researchers at Japan's Tohoku University studied 1003 subjects over age 70,
comparing their green tea intake and mental sharpness, using a Mini-Mental State
Examination, a well-accepted standardized test for measuring cognitive function. Drinking more than 2 cups a day of green tea slashed odds of cognitive impairment
in elderly Japanese men and women by 64%! And a Japanese cup of green tea is
much smaller than its American counterpart—only about 3.2 fluid ounces. And at every level of cognitive impairment—from minimal to severe—those drinking
the most green tea experienced significantly less mental decline than those drinking
the least:Compared with elderly Japanese who drank less than 3 cups a week, those drinking
more than 2 cups a day had a 54% lower risk of age-related declines in memory,
orientation, ability to follow commands and attention. Those drinking 4 to 6 cups of green tea a week (1 cup a day) had a 38 lower risk of
declines in brain function. Green tea's primary protective agent is thought to be its catechin phytonutrient
epigallocatechingallate or EGCG. Research shows this highly potent antioxidant:
• helps prevent the formation of B-amyloid, a protein whose accumulation is
recognized as causing Alzheimer's (Basianetto S, Eur J Neurosci Jan 2006).
• protects brain cells by chelating (removing) iron, which might otherwise
produce destructive free radicals (Reznichenko L, J Neurochem, March 2006).
• helps prevent oxidative stress-induced brain cell death by "talking" to brain
cells' genes responsible for cell cycling and survival. Specifically, EGCG tells
the genes in neurons to decrease production of caspase 3, an enzyme
involved in initiating programmed cell death. (Park HJ, Life Sci Jan 2006;
• promotes memory-related learning ability by protecting cells in the
hippocampus, a part of the brain involved in spatial cognition and memory-
related learning ability, from free radical damage (Haque AM, J Nutr April
Green Tea Fights the Flu A cup of green tea may help prevent or lessen the duration of the flu. In a lab study,
published in the November 2005 issue of Antiviral Research, EGCG dramatically
inhibited influenza virus replication in cell culture in all the subtypes of influenza
virus tested. EGCG appears to suppress viral RNA synthesis by altering the
properties of the viral membrane. Pepper increases EGCG availability An animal study suggests that consuming the spice, black pepper, when drinking
green tea can significantly increase the amount of epigallocatechin-3-gallate (EGCG)
absorbed. In this study, rats and mice given green tea along with piperine (a
bioactive component in black pepper) absorbed 130% more EGCG than control
animals receiving EGCG alone. In this study, piperine was found to inhibit the glucuronidation of EGCG in the
intestines. Glucuronidation is a chemical pathway that serves as one of the major
ways our bodies convert drugs, steroids, and many other substances into
metabolites that can then be excreted into the urine or bile. By inhibiting EGCG's
glucuronidation, piperine allowed more of this catechin to be absorbed and utilized.
So, next time you have a cup of green tea along with a meal, be sure to spice up
your soup, salad and/or entrée with a little freshly ground black pepper. Description An oriental evergreen tree that can reach a height of 30 feet in the wild, the tea
plant is kept as a shrub on tea plantations, where it is pruned to a height of about 3
feet to encourage new growth. A relative of the camellia with the botanical name
of Camellia sinesis, the tea plant produces abundant foliage, a camellialike flower
and berries containing one to two seeds. Only the smallest, youngest parts of the
plant—the two leaves and bud at the tip of each new shoot—are picked for tea. History The tea plant, source of the most popular beverage in the world, is believed to have
originated in the landmass encompassing Tibet, western China, and northern India.
According to ancient Chinese legend, tea was discovered by the Chinese emperor
Shen-Nung in 2737 B.C., when leaves from a wild tea bush accidentally fell into a pot
of water he was boiling. The first recorded mention of tea appears in a contract for
slaves known as "Tan Yuch," written by Wang Pao, poet laureate to Emperor Husan,
in 59 B.C. By 780 A.D., when Lu Yu's The Classic of Tea was published in China, the
cultivation and consumption of tea, whose name derives from the Chinese Amoy
dialect word "t'e," pronounced "tay," had developed into a fine art. Today, "cha"
means tea in Chinese. As this word moved westward into Middle Eastern languages,
it sometimes became altered to "chai."India attributes the discovery of tea to the Buddhist monk Siddhartha in the 6th
century. Legend has it that the prince-turned-monk traveled north from India to
China to preach Buddhism, vowing he would meditate without sleeping for nine
years. Reaching Canton in 519 A.D., he stationed himself before a wall of meditation
where, after a mere five years, he was overcome by drowsiness. Inspired by divine
intervention, he picked and chewed the leaves of a nearby tree, discovering, to his
delight, a great sense of alertness and well-being. The tree whose health-giving
properties enabled him to keep his vow was, of course, Camellia sinesis, whose
leaves and seeds he carried with him as he continued his journey into Japan. In
Japan, Buddhist monks quickly embraced tea, using it to remain alert during their
own meditations and creating a simple drinking ritual that several hundred years
later, tea master Sen-no Rikyu (1521-1591) developed into the high art of chanoyu,
the Japanese tea ceremony. From Japan, where tea was widely cultivated and consumed by the 9th century A.D.,
tea culture spread to Java, the Dutch East Indies, and other tropical and subtropical
areas. In the 16th century, traders from Europe sailing to and from the Far East
introduced Europeans to the delicious Asian drink, and by the 18th century, tea had
become the national beverage of England. Thousands of Chinese bushes stealthily acquired by botanist Robert Fortune, a "spy"
for Great Britain's East India Trading Company, were introduced into India in the
1840s, where they quickly became a popular and profitable crop for the Empire. Tea crossed the Atlantic with the American colonists, among whom its popularity led
to the British imposition in 1767 of a tea tax that so infuriated the colonists that they
revolted, tossing tons of tea into the harbor in 1733 in what became known as the
Boston Tea Party. Freedom from unfair British taxation, symbolized by the tax on tea,
became a central contributing factor to the Revolutionary War. The type of tea
tossed into Boston harbor? Probably green since it was likely "gunpowder tea," green
tea rolled tightly into pellets that looked like gunpowder shot to preserve its
Several new innovations in tea consumption originated in the United States. In 1904,
when a New York City merchant, Thomas Sullivan, sent his customers samples of tea
in small silk bags, they found the bags could be used to conveniently brew a single
cup of tea, and the tea bag was born. Another American innovation in tea drinking,
instant tea, was first marketed in 1948. Today, not China but India ranks as the number one producer of tea, although Sri
Lanka (formerly Ceylon) is the major tea supplier to the U.S. Worldwide, more than
2.5 million metric tons of tea are produced each year with India, China, Sri Lanka,
Kenya, Indonesia, Turkey, U.S.S.R, Japan, Iran and Bangladesh being the leading tea
growing countries. How to Select and Store Whenever possible, ask for a sample of prepared tea before buying. Most high-
quality teas will produce a pale green to yellow-green cup. Loose Tea To test for freshness, tightly squeeze a small amount and smell the aroma. The
freshest, most flavorful tea will smell sweet and grassy. Tea Bags To test tea bags for freshness, remove the tea from one bag, place the empty bag in
a cup, pour hot water over it., and let it steep for 2-3 minutes. If the result takes like
plain hot water, the tea itself is likely fresh. If the tea bag water tastes like tea, the
tea is old, and the paper has absorbed its flavor. Since a single ounce of tea should produce 15 to 30 cups, the best way to ensure
your tea is fresh is to purchase it in small amounts—two to four ounces at most. To
retain freshness and flavor in both loose and bagged tea, store it in a tightly
constructed opaque container to protect it from light, moisture and food odors. Dark glass or ceramic containers are best; tins often leak as their seams are
soldered. Use a small container just large enough to accommodate the amount of
tea; tea exposed to the air in a half-empty large container will continue to oxidize. It's best to store tea in a dark, cool, dry cupboard. Tea stored in the refrigerator is
vulnerable to moisture and odors from other foods, and the water condensation that
occurs when frozen tea is defrosted can ruin it. The following are just a few delicious green teas available in most serious tea shops,
mail-order catalogues and on-line sources of fine green teas: Chinese Green Teas The best Chinese green teas are thought to be those picked in early spring at the
time of the Qing Ming festival, which takes place on April 5th of the solar calendar.
These include: After the Snow Sprouting: among the first tender sprouts available
after the winter snows, these leaves produce a delicate tea with a fresh green
scent. Ching Ca: grown in mainland China, these teas include the famous Pi Lo Chun
and Tai Ping Hou Gui. Chun Mei (Precious Eyebrows): a name reflecting the fact that
these springtime leaves are twisted into small curved shapes like lovely eyebrows.
This high-grown tea from Yunnan province should be brewed lightly to produce an
amber liquid with a wonderful aftertaste reminiscent of plums. Dragonwell: with a
fresh green taste, this is the favorite green tea of mainland China. The highest grade
of this tea, Qing Ming, is named for the opening spring festival when the finest teas
are picked. Green Pearls: each pearl unfurls into three or four leaves that yield a
lovely golden aromatic brew. Gunpowder: a combination of buds and young green
leaves rolled into balls reminiscent of gunpowder shot (hence its name), these also
unfurl when infused. To test the freshness of gunpowder tea, pinch or squeeze a
pellet. If fresh, it will resist; if stale, it will crumble. Two excellent gunpowder teas
with a sweet, grassy taste are Gunpowder Pinhead Temple of Heaven and
Gunpowder Temple of Heaven. Guzhang Maohan (Mao Jin): these tea leaves from the
Yellow Mountains of Anhui province produce a darker brew with a sweet, smoky
flavor. Pan Long Yin Hao: from Zhejiang province, this tea, a repeat winner in tea
competitions conducted by the Chinese Ministry of Agriculture, is described as "a
complex brew of multiple flavor notes." Po Lo Chun: which translates to "Astounding
Fragrance," aptly describes this slightly sweet yellowish tea with a lovely
aftertaste. Snow Dragon: grown near the border between Fujian and Zhejiang
province, this tea is roasted in a large wok to produce a nutty, sweet flavor. Yunnan Green Needle: a pleasantly astringent clean-tasting tea made from delicate green
buds. Organic Green Teas The most stringent standards for organic produce are found in California, Japan and
Germany. Any tea that meets these standards is a high quality organic product. The two most respected organic tea farms are in India: the Oothu Tea Estate, the
first organic tea farm in the world, and Makaibari Tea Estates, which follows Rudolph
Steiner's principles of harmony with nature through organic, sustainable methods of
agriculture. Indian Green Teas Although green teas are a very small part of overall tea production in India, the
following are notable. Bherjan Estate: an organic green tea grown in Assam, India's
most plentiful tea district. Assam teas are renowned for their hearty taste and
"strength" in aroma and body. Ambootia Tea Estate: a Darjeeling district organic
green tea that produces a light, fragrant cup. Makaibari Tea Estates: a multiple
award winning Darjeeling green tea, flavorful but light. Craigmore Estate: grown at
high altitutes in the spectacular range of the Nilgiris, India's Blue Mountains, these
green teas are exceptionally fragrant and sweet. Japanese Green Teas The best quality green teas are grown in the prefectures of Shizuoka and Uji. Ban- cha: an earthy brown tea with an astringent taste made from roasted green tea
leaves, bancha should only steep two to three minutes or it will become
bitter. Houjica: a lightly roasted bancha tea with a nutty flavor. A good nighttime
choice as it is very light and low in caffeine. Sen-cha: about 75% of the green tea
harvested in Japan is Sencha, making it the most commonly consumed green tea in
Japan. Sencha is especially rich in vitamin C and provides a clear rich yellow-green
liquor that is grassy sweet and cleanly astringent. Made from a higher quality leaf
than bancha or houjica, sencha is often called "guest tea." The most delightful
sencha is Sencha Sakuro, a spring green tea scented with cherry blossoms. Another
cherry-scented sencha to try is Spiderleg Sakuro whose longer, more "spidery"
leaves produce a rich flavorful bouquet. Gyokuro: the highest quality Japanese green
tea, gyokuro has been called "history, philosophy and art in a single cup." For three
weeks before the spring harvest, gyokuro leaves are shaded from direct sunlight,
leading to a slower maturation that enhances the leaves' content of flavenols, amino
acids, sugars and other substances that provide green tea's health benefits, aroma
and taste. Intensely green and sweeter than sencha, gyokuro leaves can serve as
the base for matcha—the silky chartreuse tea powder used to make chanoyu, the
tea of the Japanese tea ceremony. Mat-cha: Matcha differs from gyokuro in that the
leaves are not rolled. After steaming, they are immediately and thoroughly dried,
after which they are called tencha. Tencha is then ground into the superfine powder
known as matcha. Use about two level teaspoons of matcha to � cup water and
whip into a thick, invigorating brew, wonderful as an energizing morning tea or
before exercise. Shin-cha: In Japanese, "shin" means new and "cha" means tea.
Shincha is literally "new tea" as it consists of leaves very lightly steamed
immediately after harvesting. Shincha, which is only sold from May through July, is a
highly aromatic tea with the aroma of freshly picked leaves. Because it is quite
perishable, only a very small percentage of the tea harvest is processed as shincha;
most of the leaves are used for sencha. Genmai cha: Made from sencha mixed with
genmai (puffed brown rice), this tea may be made from lower quality second harvest
sencha but can also be found made from premium first-leaf sencha. The rice
supplies a slightly nutty taste. Some tea retailers also add a pinch of matcha to the
blend, giving it a vibrant green color. How to Enjoy A Few Quick Serving Ideas
• Brew green tea with thinly sliced ginger and lemon, or sprigs of spearmint.
Add one teaspoon of honey per cup, stir and serve hot or use half the amount
of hot water (or twice the amount of tea), allow the tea to brew and cool, then
• Make a green tea chai by brewing green tea in hot vanilla soy milk and
topping with a dash each of cinnamon, black pepper, ginger and allspice.
• Brew 1-2 teaspoons loose leaf green tea in 8 ounces cool water for 20-30
minutes to develop flavor without bitterness and add to stir-fries, marinades,
• Sprinkle gyokuro tea over a salad, stew or rice dish. • Add 1/2 teaspoon gyokuro tea to an almost set omelet or scrambled eggs. • Add crushed gunpowder tea and rice vinegar to sesame oil for a delicious
• Mix gyokuro tea with sesame seeds and sea salt and use to dredge shrimp or
fish filets before lightly pan-frying them.
• Cook Japanese udon noodles in green tea for about 5 minutes, then remove
from heat and leave noodles in tea until cool. Drain and toss lightly with soy
sauce and sesame oil. Add thinly sliced tofu, scallions, mushrooms, and
• Poach Asian or Bosc pears in green tea with fresh thinly sliced gingerroot.
Drizzle with honey and top with a sprig of fresh mint.
• Combine cooled green tea half and half with a fruit juice, such as peach,
pineapple or papaya. Sweeten with a teaspoon of honey per cup. Blend and
Safety Green Tea and Caffeine Green tea contains caffeine, although half that found in coffee. The amount of
caffeine that ends up in your cup of green tea will vary according to the amount of
tea used, the length of time the leaves are infused, and if you drink the first or
second infusion. Most of the caffeine in green tea is extracted into the water the first
time the tea is infused.The table below compares the average amount of caffeine
found in tea, other caffeinated drinks and chocolate. There is limited research in the published literature comparing the caffeine content
of green vs black tea. A recent study1 measured the caffeine content in the dry
matter of the tea leaves, an approach that allows for control of any confounding
variables related to preparation techniques that may impact the caffeine content in
the final tea product. This study found that the caffeine content of one gram of black
tea ranged from 22-28 milligrams while the caffeine content of one gram of green
tea ranged from 11-20 milligrams, reflecting a significant difference. (Please note
that not all of the caffeine from the tea leaves is extracted into the tea beverage, so
these numbers only provide a relative level of caffeine difference between black and
green tea, and not a reflection on the absolute amount contained in each tea
Caffeine-containing Product Type of Product
1. Khokhar S, Magnusdottir SG. Total phenol, catechin, and caffeine contents of teas
commonly consumed in the United kingdom. J Agric Food Chem. 2002 Jan
30;50(3):565-70.2.Gray J (1998). Caffeine, coffee and health. Nutrition and Food
Science 6:314-319.3. Unpublished data4. USDA National Nutrient Database for
Standard Reference, Release 17 (2004)5. Ministry of Agriculture, Fisheries and Food
(MAFF) (1998). Survey of caffeine and other methylxanthines in energy drinks and
other caffeine containing products (updated). Food Surveillance Information Sheet
No. 144 (No. 103 revised). London.Source: Tea Council Fact Sheet,
http://www.teacouncil.co.uk/ What is a safe intake of caffeine? The safety of caffeine consumption remains a topic of major debate in the research
literature. To our knowledge, no studies have shown problems with caffeine
consumption of less than 75 milligrams per day. Most studies showing potentially
problematic effects of caffeine consumption have focused on intakes above 200
milligrams. In addition, there appears to be a significant difference in people's
sensitivity to caffeine. People sensitive to caffeine may wish to drink a decaffeinated
green tea or, since approximately 80% of the caffeine is released in the first infusion,
simply infuse the tea for 45 seconds in hot water, then pour off the liquid. Add more
hot water and steep again. This method removes most of the tea's caffeine but little
of its flavor and aroma. At least two beneficial components in green tea—;its catechins and the amino acid L-
theanine—lessen the impact of its caffeine. When green tea is brewed, its caffeine
combines with catechins in the water, reducing the caffeine's activity compared to
coffee or cocoa. In addition, L-theanine, which is only found in tea plants and some
mushrooms, directly stimulates the production of alpha brain waves, calming the
body while promoting a state of relaxed awareness. Green Tea and Drug Interactions The tannins in green tea may decrease the absorption and thus the activity of the
following drugs: atropine, Cardec DM®, codeine, ephedrine and pseudoephedrine,
Lomotil®, Lonox®, theoplylline, aminophylline, and warfarin. The caffeine in green tea may interact with the following drugs heightening their
effects to dangerous levels: ephedrine and pseudoephedrine, theophylline,
aminophylline. Green Tea and Iron Absorption
Due to their high tannin-content, teas, including green tea, have been shown to
prevent iron absorption. While this effect is helpful in persons with too much iron,
consuming several cups of green tea daily may not be a good idea for persons
deficient in iron or susceptible to iron deficiency. Limit Green Tea Consumption During the First Trimester of Pregnancy According to a study published in the March 2005 issue of Cancer Research, ECGC, a
catechin present in green tea in amounts about 5 times higher than in black tea,
inhibits the enzyme dihydrofolate reductase (DHFR), which cancer cells need to be
able to grow, and which is a well recognized target of anti-cancer drugs. Scientists decided to look at ECGC after they realized the green tea catechin looks a
lot like the cancer drug methotrexate, which prevents cancer cells from making DNA
by inhibiting the DHFR enzyme. They discovered that ECGC kills cancer cells in the
same way as the drug. Although ECGC binds strongly to DHFR, which is essential in both healthy and
cancerous cells, it does not bind as tightly as methotrexate, so its side effects on
healthy cells are less severe than those of the drug. ECGC's binding to DHFR may also explain why women who drink large amounts of
green tea around the time they conceive and early in their pregnancy may have an
increased risk of having a child with spina bifida or other neural tube disorders. Women are advised to take supplements of folic acid when trying to conceive and
during the first trimester (the first 3 months) of pregnancy because it is during this
time period that the baby's neural tube is developing. Folic acid helps ensure normal
development and protects against spina bifida by enabling the production of the
enzyme DHFR. While a cup or two of green tea is unlikely to pose a problem,
drinking large amounts of green tea could decrease the activity of DHFR, increasing
risk of neural tube defects. Nutritional Profile Introduction to Food Rating System Chart The following chart shows the nutrients for which this food is either an excellent,
very good or good source. Next to the nutrient name you will find the following
information: the amount of the nutrient that is included in the noted serving of this
food; the %Daily Value (DV) that that amount represents (similar to other
information presented in the website, this DV is calculated for 25-50 year old healthy
woman); the nutrient density rating; and, the food's World's Healthiest Foods Rating.
Underneath the chart is a table that summarizes how the ratings were devised. Read
Green Tea 2.00 grams 0.00 calories DV Nutrient World's Healthiest Nutrient Amount (%) Density Foods Rating World's Healthiest Foods Rating References
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Bent Christensen · Karen Folmar · Marianne Steen Larsen · Chr. Gorm Tortzen Babelstårnet Langt de fleste fremmedord stammer fra latin og græsk. Grunden er,som nævnt i I.2.3 , at disse to sprog lige siden antikken har været viden- skabens sprog og er blevet talt og skrevet af videnskabsmænd helt op tilnutiden. Græsk og latin leverer den dag i dag nye ord til nye begreberinden fo
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