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Patients often overlook and mistake
allergy to horses, for allergy to pollens or molds.
These patients are usually allergic to horse hair and dander.
Treatment for this allergy would include medications, horse avoidance
and/or allergy immunization to decrease the sensitivity to horse allergen.
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Patients become allergic to rabbits due to exposure to these
animals in their daily work. The most common people at risk are veterinarians, laboratory technicians,
and pet owners . The rabbit's saliva and fur are the common allergen.
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Patients allergic to cats, are allergic to the cat's saliva.
However, typical allergic symptoms are not as a result of coming in direct
contact with the cat's saliva. Instead, when the cat grooms itself by
licking its fur and skin it deposits its saliva. They saliva dries,
leaving behind the protein antigen that are the source of allergy to cats.
These allergens (cat saliva antigens) are very light-weight and are
easily aerosolized. Once air-borne the antigen can spread to clothes,
furniture, carpeting, or any other household item.
Once cat allergy is confirmed, the best way to decrease
allergy symptoms is to remove the cat from the home. However, relatively high concentrations of cat antigen
can remain, even months after the cat is removed. Thereby it is important
to clean or replace the carpeting, furniture, and all other material that may
harbor the cat saliva antigen. Also, there are less dramatic means to
improve or eliminate cat allergy symptoms, this includes the use of medications
and allergy immunization.
ARTICLE: CAT
BATHING AS A MARTIAL ART
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Patients allergic to dogs, are allergic to the dog's saliva.
However, typical allergic symptoms are not as a result of coming in direct
contact with the dog's saliva.
Instead, when the dog grooms itself by
licking its fur and skin it deposits its saliva. They saliva dries,
leaving behind the protein antigen that are the source of allergy to dogs.
These allergens (dog saliva antigens) are very light-weight and are
easily aerosolized. Once air-borne the antigen can spread to
clothes, furniture, carpeting, or any other household item. Allergy to dogs is not as problematic as allergy to cats, primarily
because:
 |
Dogs
are usually kept outside |
|
Dogs
are kept outside of bedrooms |
|
Dogs
are washed regularly |
Once dog allergy is confirmed, the best
way to decrease allergy symptoms is to remove the dog from the home. Also,
there are less dramatic means to improve or eliminate dog allergy symptoms, this
includes the use of medications and allergy immunization.
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Patients become allergic to rodents due to exposure to these
animals in their daily work. The most common people at risk are veterinarians,
laboratory technicians, and people who live in close quarters with rodents (such
as pet owners and those who live in rodent-infested homes).
Some example of common rodent that humans come in
contact with include mice, rats, and guinea pigs.
The rodent's urine has a high concentration of protein, which is the
primary allergen to humans. The urine is often sprayed rather than
deposited, thereby increasing human exposure.
After the urine dries, the urinary proteins become air-borne and are inhaled, leading to
allergic symptoms.
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Dust mites are approximately 0.3 mm in length, too small to
be seen with the naked eye. They are eight-legged and sightless, and live on skin scales and other
debris. Mites excrete partially
digested food and digestive enzymes as a fecal particle, which release allergens
very rapidly. Most patients allergic to
dust mites are actually allergic to the dust mite feces. The mite
fecal pellets are similar to pollen grains in three major ways:
-
The fecal particles size
-
The quantity of allergen carried
-
The rate of proteins release
By being so similar to pollen grains, they are just the
right size to cause allergies.
Dust mites become a part of
our environment and lifestyle because of their natural adaptations. Since they
are entirely dependent on ambient humidity for hydration, and they are unable to
search for environmental water-supplies, they tend to live in places that
"store" water. This may include carpets, sofas, mattresses
and clothing. As humidity falls, mites withdraw from the surface
and migrate to where there is more humidity; e.g., deeper in the mattress.
Even in very dry conditions it may take
months for mites to die and for their allergen levels to fall.
Avoid and protecting yourself and your family from dust mite
allergies can be summarized as one important rule - Keep dust mites away from
coming in contact with you!
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When a person is stung by a bee, wasp, hornet, yellow
jacket or fire ants, the insect injects venom into its victim. This venom can
cause severe life threatening reactions in certain people who are allergic to
it. In a
typically normal reaction the sting site will be painful, reddened, may swell
and itch, but this will last only few hours. Enlarged local reactions might be
seen with a painful swelling of several inches surrounding the area of the
sting. This reaction might last for days. In a severe allergic reaction the
person might feel dizzy, nauseated and weak. Stomach cramps and diarrhea may
occur. Generalized hives and itching, wheezing and difficulty breathing, and
potentially an anaphylactic reaction with a sudden drop in blood pressure, loss
of consciousness which may lead to death if no immediate medical care is
provided. There is clear evidence that venom immunotherapy in the majority of
patients is protective for any future life
threatening reactions. Patients with known allergic sensitivities to insect
venom should be evaluated by the allergist and placed on protective
desensitization therapy.
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Roaches, especially the German Cockroach, are a very common pest
in crowded cities worldwide. Recent studies have
shown exposure to roach droppings as a major risk factor for the
development of allergies and asthma in the inner-city.
Avoidance consists of roach baits and traps, extermination and
cleanliness. This includes, not leaving food out in open containers, washing
dishes after each meal, and keeping cupboards free of food debris. Unfortunately, one
can’t encourage cleanliness in their neighbors!
Patients who are not responsive can be treated with medications and allergy
immunization.
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Milk
Patients with very sensitive milk allergy can react to a very small quantity
of milk protein, including minor contamination and even inhalation of milk
powder.
Milk may be found in a large variety of processed foods (some obvious and
others not), including confections, margarine, cheese, and pies (Table III) .
Cheese and cream contain milk protein and should be avoided. Milk contamination
of a product is possible if the same manufacturing equipment is used for various
products. There is also a carryover effect when one product is used in the
manufacture of another. In addition, patients should be careful when ordering
sliced products from outlets that use the same slicers for cutting a variety of
foods (e.g., cheese and cold meat). Lactose, which may contain residual milk
protein, may be found in foods and as a filler in the manufacture of medicines
such as Benadryl capsules (United States).
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TABLE
III -- Foods that may contain milk protein
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|
Batter-fried foods
Biscuits
Bread
Breakfast cereals
Cakes
Chocolate
Cookies
Cream sauces
Cream soups
Custard
Fish in batter
Gravies and gravy mixes
Ice cream (and ``non-milk'' fat)
Imitation sour cream
Instant mashed potatoes
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Margarine
Muesli
Muffins
Other baked goods
Packaged soups
Pies
Puddings
Rusks
Sausages
Sherbet
Soy cheese
Soup mixes
Sweets
Canned soups
Vegetarian cheese
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Hypoallergenic milk formulas have been used as a milk replacement for
children with milk hypersensitivity. However, hypoallergenic milk formulas are
not nonallergenic, and many children react to these, depending on the particular
formula.
Common descriptions on ingredient panels are milk, pasteurized milk, full
cream milk powder, dried milk, and skim milk powder'' (Table IV) . Extracted
milk proteins added to foods retain their antigenicity and may be described as
casein, caseinate, whey, or whey powder. In our community, many individuals
consider skim milk and skim milk powder not to be milk and substitute these for
milk. In some instances milk is used in emulsions and can be described as
caseinate, emulsifier, or protein.
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TABLE
IV -- Labels that may indicate the presence of milk protein
|
|
Artificial butter flavor
Butter
Butter fat
Buttermilk solids
Caramel color
Caramel flavoring
Casein
Caseinate
Cheese
Cream
Curds
``De-lactosed'' whey
Demineralized whey
Dried milk
Dry milk solids
Fully cream milk powder
High protein flavor
Lactalbumin
|
Lactalbumin phosphate
Lactose
Milk
Milk derivate
Milk protein
Milk solids
Natural flavoring
Pasteurized milk
Rennet casein
Skim milk powder
Solids
Sour cream (or solids)
Sour milk solids
Whey
Whey powder
Whey protein concentrate
Yogurt
|
Soy products are often purchased by those specifically avoiding cow's milk,
with the assumption that a soy-based product is free of cow's milk protein. This
is not true. Vegetarian cheese may contain cow's milk protein. This term simply
means that the rennet used in its manufacture is of vegetable origin.
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Egg is one of the most allergenic of all foods, and minute amounts of egg can
result in symptoms within minutes, including life-threatening anaphylaxis. This
is also seen after contact with egg through non-oral routes. Reactions may occur
the first time a child is given egg.
Although ovalbumin, ovomucoid, and ovotransferrin have been identified as the
major allergens in egg white, 10 other unnamed allergens of lesser importance
have been identified. These allergens are also present in egg yolk but in lesser
quantities. This is important because components of egg may be individually used
for specific actions in food preparation. For example, hen's egg lysozyme is
used as a preservative in food; and in some countries, notably Japan and
Switzerland, lysozyme is used in medications. Individuals sensitive to hen's egg
have been shown to be allergic to lysozyme produced from hen's egg.
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TABLE
I -- Labels that may indicate the presence of egg protein
|
|
Albumin
|
Globulin
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Ovamucoid
|
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Binder
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Lecithin
|
Ovovitellin
|
|
Coagulant
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Livetin
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Powdered egg
|
|
Egg white
|
Lysozyme
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Vitellin
|
|
Egg yolk or yellow
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Ovalbumin
|
Whole egg
|
|
Emulsifier
|
Ovamucin
|
|
A variety of descriptions may indicate the presence of egg protein in a
product (Table I). The function that egg performs in a product may be named on
the ingredient panel (e.g., binder, emulsifier, or coagulant). Because
legislation may permit a manufacturer not to list an ingredient constituting
less than a specific percentage of the total product, noodles containing egg may
not have egg listed on the ingredient panel. A similar situation may occur when
egg white is used to give pretzels, bagels, and other baked goods their shiny
appearance. In most products, lecithin is derived from soy, but sometimes it may
be egg-derived. Provitamin A (extracted from egg) may be used and described as a
colorant, but its antigenic properties are unknown.
In addition to food products (Table II) that may be dangerous to
egg-sensitive individuals, egg proteins are also found in cosmetics, shampoos,
and pharmaceuticals, such as the laxative Agarol. A patient allergic to egg
should avoid buying fried foods from vendors who use the same frying surface for
preparing multiple types of food. Recent evidence suggests that egg-sensitive
children can receive measles immunization safely.
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TABLE
II -- Foods that may contain egg protein
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|
Baked goods (most except some breads)
Baking mixes
Batters
Bearnaise sauce
Bouillon (in restaurants to clear it)
Breakfast cereals
Cake flours
Candy
Cookies
Creamy fillings
Custard
Egg noodles
Eggnog
French toast
Hollandaise sauce
Ice cream
Lemon curd
Macaroni
Malted cocoa drinks (e.g., Ovaltine)
|
Marshmallows
Mayonnaise
Meringues
Muffins
Noodles (egg)
Omelettes
Pancakes
Processed meat products (e.g., bologna, meat loaf, meatballs,
sausages)
Puddings
Salad dressing (creamy)
Sherbets
Souffles
Soups
Spaghetti
Sweets (e.g., fondant creams, truffles,
marshmallows, etc.)
Tartar sauce
Turkish Delight
Waffles
Wines (if cleared with egg white)
|
Although rare, avian proteins can induce egg allergy in susceptible
individuals. It has been suggested that duck egg be substituted for hen's egg in
egg-sensitive individuals. These individuals are able to tolerate cooked
chicken.
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Tree nuts are generally cross reactive.
If one is allergic to one, one should try to avoid all of them.
The list of common tree nuts include
almonds, Brazil nuts, cashews, hazelnuts (filberts), macadamia nuts, pecans,
pine nuts, pistachios, and walnuts. Peanuts
are not included in this group, because they are legumes. Anyone with nut allergy, however, should be cautious, because
they may be processed together.
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Peanuts
Peanuts are one of the most allergenic foods, and peanut allergy is one of
the most common food allergies. Peanuts are probably the most common cause of
death by food anaphylaxis in the United States, and about one third of
peanut-sensitive patients have severe reactions to peanuts.
Peanuts are added to a large variety of processed foods
(Table XI) . These include ice cream (as a flavoring), marinades, snack foods,
and biscuits. Peanuts can be used as a flavoring or a seasoning agent and may be
labeled as such (Table XII) . Nuts may be used in the manufacture of vegetable
burger patties. A fatal reaction to peanut antigen in almond icing has been
recorded. Peanut butter may also be used to glue down the ends of egg rolls to
keep them from coming apart. Some individuals do not know that peanut butter is
commonly used in Oriental cooking. Peanuts can be deflavored, reflavored, and
pressed into other shapes such as almonds and walnuts. These products retain the
allergenicity of the peanut. Some patients with peanut allergy also react to
sweet lupine seed flour, which may be used, for example, to fortify a
spaghetti-like pasta.
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TABLE
XI -- Foods that may contain peanut or peanut oil
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|
Baked goods
Baking mixes
Battered foods
Biscuits
Breakfast cereals
Candy
Cereal-based products
Chili
Chinese dishes
Cookies
Egg rolls
Ice cream
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Margarine
Marzipan
Milk formula
Pastry
Peanut butter
Satay sauce and dishes
Soups
Sweets
Thai dishes
Vegetable fat
Vegetable oil
|
Although uncommon, a peanut protein hydrolyzate may also be used in soft drinks
as a foaming agent or in confections as a whipping agent.
Peanut oil has been considered to be devoid of allergenicity, and this was
initially confirmed by double-blind crossover studies. However, peanut oil
allergenicity is clearly process-related, because cold-pressed peanut oils may
contain peanut allergen. Moneret-Vautrin et al. confirmed the
allergenicity of peanut oil in milk formulas, and 11 of 45 brands of milk
formulas in France contained variable amounts of peanut oil. Residual peanut
proteins are believed to become more allergenic with heating.
The oil is frequently used in the preparation of so-called health foods. The
oil can be used for many nonfood products, which may, on contact, affect
sensitive individuals. Like peanut oil, other vegetable oils such as soy, maize,
sesame, and sunflower oils contain very low quantities of protein.
Individuals who are allergic to peanuts are said to not be allergic to nuts
such as almonds, pecans, or walnuts; and these nuts can be substituted for
peanuts. This is contradicted by a recent study, which showed that 50% of
individuals allergic to peanuts reported allergic reactions to other nuts as
well. These findings were not validated by further clinical investigation.
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TABLE
XII -- Labels that may indicate the presence of peanut protein
|
|
Peanut
Peanut butter
Emulsifier (uncommon)
Flavoring
Oriental sauce
|
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Wheat
Wheat is the most allergenic of all cereals. IgE antibodies have been
demonstrated to many components of wheat kernels, including albumin, globulin,
gliadin, wheat germ agglutinin, a concanavalin A-purified glycoprotein, and a
trypsin inhibitor. Wheat is most rich in gluten, with the other grains
containing a lesser mixture of gluten and gliadin.
In addition to being present in all wheat-based food products, wheat gluten
is frequently added to baked products made from other grains, including those
made from soy flour. Wheat-sensitive individuals should avoid a product that
includes other flours, because it is likely that at least some wheat flour or a
derivative will also be present. Even gluten-free bread may contain small
amounts of gluten (0.4 mg per 30 gm slice). Bread wheat, durum wheat, triticale,
rye, and barley, to a lesser extent, are the main gluten-containing cereals.
Others include semolina, spelt, and kamut. Cereal products, such as couscous and
graham flour, are also prepared from wheat. Spelt has occasionally been marketed
as a wheat alternative but is part of the wheat family. Spelt may better be
described as nonhybridized wheat. No data have indicated differences in the
allergenic profiles of the various wheat varieties, and they should all be
viewed as potential allergens.
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TABLE
IX -- Labels that may indicate the presence of wheat protein
|
|
All-purpose flour
Bleached flour
Bulgur (cracked wheat)
Bran
Cornstarch
Couscous
Durum wheat
Enriched flour
Farina
Gelatinized starch * (or
pre-gelatinized)
Gluten
Graham flour
Hard durum flour
High gluten flour
High protein flour
Hydrolyzed vegetable protein
Kamut
Miller's bran
Modified food starch *
|
Modified starch *
MSG (monosodium glutamate)
Protein
Semolina
Spelt
Starch *
Unbleached flour
Vegetable gum *
Vegetable starch *
Vital gluten
Wheat bran
Wheat flour
Wheat germ
Wheat gluten
Wheat starch
White flour
Whole wheat
Whole wheat flour
|
* May indicate the presence of
soy protein or may be manufactured from cassava (tapioca), maize, or rice.
May be soy.
Sometimes
produced from soy or wheat but now mostly by synthetic means.
Hydrolyzed wheat proteins can be used in processed foods for flavoring
purposes (e.g., in meat flavorings) or as a binder in vegetarian burgers. In the
United States legislation dictates that this form of wheat must be labeled as
wheat-derived, but this is not always the case in other countries. Wheat can
appear under various names on ingredient panels (Table IX) and can be found in
many food products (Table X) . Gluten finds its way into a few pharmaceutical
products (e.g., Dimetapp LA, Nulacin, and Fybranta).
Buckwheat is not a member of the grass family and is thus not a true cereal.
The grain may be used for human food in various forms from pancake flour to
buckwheat noodles and baby foods.
For the wheat-hypersensitive individual, products made from oats, rice, rye,
barley, or corn or speciality foods made for gluten-sensitive individuals
generally may be used instead of wheat. However, cross-reactions, although
unusual, may occur between wheat, barley, rye, maize, and rice.
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TABLE
X -- Foods that may contain wheat
|
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Alcoholic beverages (made from grain
alcohol)
Ale
Beer
Wine
Bourbon
Whiskey
Baked goods
Biscuits
Breads (including rye bread)
Cakes
Cookies
Crackers, etc.
Baking mixes
Barley bread and drinks
Battered foods
Bouillon cubes
Breaded meats
Breaded vegetables
Breakfast cereals
Candy or chocolate candy
Canned processed meat
Cereal grains
Cousous
|
Gravy
Hot dogs
Ice cream
Ice cream cones
Luncheon meats
Licorice
Macaroni
Malt
Malted milks (e.g., Horlicks)
Milk shakes
Noodle products
Pasta (noodles, spaghetti, macaroni)
Pepper (compound or powdered flour filler)
Pies
Processed meats
Sausage
Semolina
Snack foods
Spaghetti
Soup mixes
Soups
Soy sauce
Tablets
|
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Fish are one of the most common causes of food allergy, particularly in
adults and in Scandinavian countries. Fish may find their way into processed
foods in raw, powder, or oil form. In the majority of instances, this substance
is clearly labeled as ``fish'' or with another obvious descriptor. However, fish
allergens may be found unlisted if added as part of an oil. Fish products are
not usually hidden ingredients but may be hidden in Caesar salad dressing or in
Worcestershire sauce if it contains anchovies.
Some seafood flavors (e.g., shrimp) are added to food in the form of a powder
manufactured from the seafood's shell. Shrimp antigen II is heat stable. A
variety of antigens are shared by several crustaceans including shrimp, prawns,
crabs, lobsters, and crayfish (crawfish).
At present, some manufacturers are researching the possibility of adding fish
meal (flour) to bread as a source of omega-3-fatty acids (personal
communication, M. M. Melnyczuk).
Skin prick tests and RASTs indicate extensive
cross-reactivity among fish species, but recent research suggests that patients
may be able to consume some species of fish despite positive test responses to
one or two. However, it is generally recommended that patients allergic to fish
avoid all fish species.
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Shellfish, or crustaceans are generally cross reactive.
If one is allergic to one, one should try to avoid all of them.
The list of common crustaceans include:
| Crab,
crayfish, lobster, shrimp
|
| Shellfish:
clams, Mussels, oysters, and scallops.
Fish are not included in this group.
Anyone with shellfish allergy, however, should be cautious, because
fish and shellfish may be processed together.
|
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Soy
Because of the almost unlimited uses of soy, it is a
particularly insidious hidden allergen. As with many other allergens, reactions
may occur to very small quantities of soy protein, and anaphylaxis to soybean
protein has been reported. Soybean lectin is also an important allergen and has
been associated with allergic reactions.
Soybeans may be ingested as whole beans, as flour, or as oil. In addition,
soy can be used in the manufacture of food in a great variety of ways, including
as a texturizer, emulsifier, and protein filler. Soy may thus be listed on the
ingredient panel according to its use (e.g., hydrolyzed protein or lecithin)
(Table V).
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TABLE
V -- Labels that may indicate the presence of soy protein
|
|
Gum arabic
Bulking agent
Carob
Emulsifier
Guar gum
Hydrolyzed vegetable protein (HVP)
Lecithin *
Miso
MSG (Monosodium glutamate)
Protein
Protein extender
Soy flour
Soy nuts
Soy panthenol
|
Soy protein
Soy protein isolate or concentrate
Soy sauce
Soybean
Soybean oil
Stabilizer
Starch
Textured vegetable protein (TVP)
Thickener
Tofu
Vegetable broth
Vegetable gum
Vegetable starch
|
*Mostly produced from soy but may
be manufactured from egg.
Sometimes
produced from soy or wheat but now mostly by synthetic means.
Soybean flour is often added to cereal flour and is used extensively in the
baking industry. The majority of breads contain some soy flour. Pastries, cakes,
biscuits, and baby foods may contain soy flour. It is also used in the
manufacture of sausages, processed meats, hamburgers, and other meat products
(Table VI) . Fermented soybean may be used in the preparation of soy sauce or
Worcestershire sauce. Fermented soy is in wide use as a food in the Far East.
Soy is so widely distributed in processed foods that avoidance of soy in the
diet is very difficult. Soy may find its way into a food product when added as a
compound ingredient. For example, if margarine is added to a food product it
will be listed as such, but soy present in the margarine itself will not be
listed on the ingredients panel.
Soy protein isolate or concentrate may be used to emulsify fat in food
products and may thus be used in the manufacture of ice cream, mayonnaise, and a
variety of other liquid fat- or oil-containing foods. The concentrate or isolate
may also be used in soymilk and as a protein concentrate added to health foods
and high-protein biscuits. Other foods that may contain soy include pureed and
cereal baby foods, margarine, and white and brown bread (Table VI).
|
TABLE
VI -- Foods that may contain soy protein
|
|
Baby foods
Bakery goods *
Black pudding
Bread (esp. high-protein bread) *
Breakfast cereals (some)
Burger patties
Butter substitutes
Cakes
Candy
Canned meat or fish in sauces *
Canned or packaged soups *
Canned tuna
Cheese (artificial) made from soybeans
*
Chinese food
Chocolates (cream centers)
Cookies
|
Cooking oils
Crackers
Desserts
Gravy (sauce) powders
Hamburger patties
Hot dogs
Hydrolyzed vegetable protein (may be wheat)
Ice cream
Infant formula (including cow's milk formula)
Liquid meal replacers
Margarine
Meat products (e.g., sausages, pastes, Vienna sausages
[wieners])
Muesli
Pies (meat or other) *
Powdered meal replacers
Salad dressings
|
Sauces (e.g., Worcestershire, sweet and sour, HP,
Teriyaki)
Seasoned salt
Shortenings
Snack bars
Soups
Soy pasta products
Soy sauce
Soy sprouts (Chinese restaurants)
Soybeans
Stews (commercial)
Stock cubes (bouillon cubes)
Tofu
Tofutti
TV dinners
|
*May be present because of
soya in the flour used.
Other uses for soy include the manufacture of tofu (soybean curd), which may
in turn be used for the manufacture of soy-based ice cream. Soy may be converted
into products having a meat-like texture. This textured vegetable protein is
used in simulated meat products or may be added to meat as an extender. These
products are often used as meat substitutes in vegetarian products and in
catering establishments, including hospital and army food services, and feeding
programs.
The seeds of soybeans are widely used as a source of oil. The oil has many
uses (e.g., in salad dressings, margarine, baby foods, industrial components,
linoleum, paint, plastics, soap, and glue for plywood) (Table VII). Although
soybean oil was initially thought to be safe for soy-sensitive individuals, it
is now evident that soy protein may occur in soybean oil. Thus the allergenicity
of soybean oil would depend on its purity, which in turn depends on the
extraction process. Recent evidence has demonstrated that although oxidized
soybean oil may not show allergenicity, proteins in soybeans are capable of
interacting with oxidized lipid to form products that are allergenic to
soybean-sensitive patients. Indeed, Hiyama et al. report a case of
urticaria associated with parenteral nutrition with an intravenous 10% lipid
emulsion containing a soybean oil base. Such reactions, however, appear to be
uncommon, and there are very few reports of this nature in the literature.
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TABLE
VII -- Other sources of contact with soy
|
|
Adhesives
Blankets
Body lotions and creams
Dog food
Enamel paints
Fabric finishes
Fabrics
|
Fertilizers
Flooring materials
Lubricants
Nitroglycerine
Paper
Printing inks
Soaps
|
Soy products are often purchased by those specifically avoiding cow's milk,
often with the assumption that a soy-based product is free of cow's milk
protein. This may not always be true, and caution is required. Again, labels
should be read carefully, and they should, of course, contain the correct
declaration.
Thickeners, stabilizers, emulsifiers, and bulking agents
may be manufactured from a variety of other members of the legume family in
addition to soybeans. On the basis of in vitro studies, Barnett et al.
suggested that there may be cross-reactions between soy and other members of the
legume family (Table VIII). Further evidence for broad cross-reactivity has been
provided by RAST and skin prick tests; however, it is rare to have symptomatic
reactivity to more than one member, and clinical hypersensitivity to one legume
does not require elimination of the entire legume family. Carob, derived from
the carob bean, is used commonly as a chocolate substitute, and one should
possibly guard against cross-reactivity to this legume. Peanut sensitivity is
discussed below. Sorghum, as well as between the pollens of cereals and cereal
flours.
|
TABLE VIII -- Members of legume family
|
|
Beans
|
Other
members
|
|
Aduki beans
Broad bean
Black turtle bean
Black-eyed bean
Chick pea
Cowpea
Fava bean
Garbanzo bean
Great Northern bean
Green bean
Kidney bean
Lima bean
Mung bean
Navy bean
Pinto bean
Snap bean
String bean
Wax bean
|
Alfalfa (sprouts)
Acacia (gum)
Carob (chocolate substitute)
Cassia or senna (in laxatives, curry, cinnamon)
Fenugreek (used in curries, cinnamon, primary flavoring in imitation maple
syrup)
Lentils
Masur bean
Licorice
Pea
Green pea
Purple-hull pea
Peanut
Senna or cassia (in laxatives and Epsom salts)
Soybean
Tamarind
Tragacanth (gum)
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Chocolate is commonly seen as an allergenic food but very few actual
'allergies' to chocolate have been documented. Yet, chocolate has been
blamed for a range of 'allergic' reactions including abdominal cramps,
angioedema, coughs, hypotension, itching, migraines, and urticaria.
A true intolerance or allergy to chocolate or cocoa would have to be to
either the cocoa mass or the cocoa butter. Yet, when assessing problems with
chocolate, these are rarely checked independently of other ingredients.
Eating a chocolate bar or drinking hot chocolate is NOT the way to test for a
'chocolate' intolerance.
Intolerance problems with chocolate can be caused by any ingredient or
naturally occurring chemical.
The ingredients that can cause problems include flavorings, milk and
emulsifiers. The chemicals include caffeine and theobromine, phenylethylamine,
and tyramine.
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Airborne pollen is one of the most annoying and common
allergens, and it causes 35 million people to suffer from upper respiratory
allergy symptoms each year. A little over 5 million (fifteen percent) of these
people suffer from spring seasonal tree pollen allergies.
Pollen allergy is one of the most common chronic diseases in the United
States. The seasonal variety of pollen allergies is commonly referred to as hay
fever (which has nothing to do at all with hay or with fever), but many doctors
reserve this term for the specific allergy to ragweed which pollinates in the
fall. Allergies that occur in the spring are usually a result of either grasses
(85%) or tree pollen (15%) and spring allergies are sometimes referred to as
rose fever (again nothing to do with roses or fever.)
Of the more than 50,000 species of trees worldwide, there are 600-700 native
to North America; only pollen from about 65 of these has been shown to cause
allergies. Most people are aware of their seasonal sensitivity, but may not know
what the specific cause is (i.e. tree pollen, grass pollen, or molds). Accurate
diagnosis should always include on detailed patient history and testing by your
allergist.
Each spring microscopic oval and circular tree pollen particles are released
to hitch a ride on currents of air. Their mission is to fertilize other trees of
the same species. Insects do this for some trees but for most the wind is relied
on. Small, dry and light, pollen granules have been known to travel as far out
as 400 miles out to sea and up to two miles high in the air. Because the
airborne pollens can travel so far, it does little good to remove the offending
tree ‚ pollen can drift in from miles away.
These lightweight windcarried pollens enter noses and throats to trigger
allergic reactions characterized by irritation of the eyes, nose and throat. In
more severe reactions lungs become affected as well.
Occasionally those with allergic reactions to tree pollens may also cross
react to certain raw fruits such as apples, plums and pears (though these foods
may be less allergenic when cooked). Food cross reactions are usually felt as
itchiness in the mouth and throat.
Tree pollens generally show little cross reactivity among themselves. You
must develop an allergy to each specific tree pollen in order for it to cause
symptoms. If you are sensitive to oak, you are not necessarily allergic to
cedar. There are two families of trees that are an exception to this; the family
that contains oaks, beeches, and birches and the family belonging to the cedars
and junipers. If you are allergic to the pollen of one of these trees, you will
probably experience symptoms from one or more members of the same family.
In the southeast Texas region the tree allergy season begins in February and
lasts sometimes until late June. Pollens from ash, box elder, cedar, elm,
hickory, juniper, oak, maple, and pecan are the primary allergy culprits.
Pine trees are one of the most noticeable producers of large amounts of
pollen, however pine trees are less of a culprit than you would think. Pine
pollen, the common yellow powdery dust is heavy and falls to the ground
immediately so these trees are bothersome only if you live beneath them. (Citrus
trees have heavy pollen as well.)
A little horticultural engineering can cut down offenders in the immediate
environs. Asking your nursery for hybrid varieties that produce no pollen
reduces the exposure but basically there is no real easy way to avoid windborne
pollen.
Tree pollen counts tend to be higher on warm, dry and breezy days than during
chilly, wet periods. Remain indoors when pollen counts are at there highest,
particularly the early morning, late afternoon and early evening. Because of the
microscopic size of tree pollens, most inexpensive masks sold at drug stores do
not prevent pollen from sneaking in around the edges.
Often common, over-the-counter antihistamines are how many people find relief
from tree pollen allergies. Newer antihistamines which do not cause drowsiness
are available by prescription. Topical corticosteriods are valuable in the form
of nasal sprays such as Beconase, Nasacort, Rhinocort and Flonase. If used
consistently during the hay fever season they are very effective relieving nasal
symptoms, with no major side effects.
Topical (local) nasal decongestant sprays can be used only occasionally, but
never regularly because they cause rebound congestion. In the long run,
decongestant nasal sprays can exacerbate rather than reduce tree pollen symptoms
and should only be used according to the directions and with caution.
Antihistamines work well to relieve symptoms, but remember that some induce
drowsiness and can interfere with driving, work and other activities. Recently
approved prescription antihistamines such as Claritin can be very effective and
not cause drowsiness.
Immunotherapy, or a series of allergy shots, is the best therapy for
long-term relief. Most patients will have a significant reduction in their
allergy symptoms within 9-12 months of starting their immunotherapy. As better
allergens for immunotherapy have been produced in recent years, this technique
has become an even more effective treatment.
Knowing when pollen counts are the greatest, paying attention to the
instructions on your medication and carefully following the advice and treatment
of you allergist should help see that the next allergy season is a breeze, not a
sneeze.
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People are generally not allergic to flowering plants,
because they are bee pollinated, not wind pollinated. This is why they
have bright colors, in order to attract bees. If you sneeze around
flowers, it may be that you happen to be allergic to what may be pollinating
nearby or that the smell of the flowers, much like perfume, is bothering your
nose.
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When "spring is in the air," grasses and flowers begin to revive,
releasing copious amounts of pollen into the air in an annual ritual of
survival.
But survival for these plants means misery for many allergy and asthma
sufferers. Seasonal allergies keep many people indoors in hopes of avoiding
pollens. Indeed, staying indoors does reduce one¼s exposure, particularly if
electrostatic air intake filters are used to keep the indoor environment clean.
When going outdoors, remember that pollen levels are highest in the morning,
and gradually subside as the day goes on.
For those who are not willing or able to stay indoors, there is still relief
available. Prescription antihistamines, decongestants, and anti-inflammatory
medications act to reduce symptoms. Immunotherapy (allergy shots) act to head
allergies off at the pass by reducing the body’s sensitivity to allergens over
a period of time.
The first step is accurate diagnosis. During the spring months, there are
many grass pollens in the air, and the trees have still not finished their
pollen performance.
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Ragweed and hayfever have become synonymous in people's
minds, especially during the cool Fall months. Ambrosia is the scientific name
given to ragweed, and is from the Latin term for "immortal." This
certainly seems true, because attempts to eradicate this hearty plant have met
with little success.
The ragweed is a hairy, coarse looking plant that has no pretty flowers, an
unpleasant smell, and no redeeming qualities. Its name was derived from the
ragged appearance of its leaves. Short ragweed can bloom and spew pollen into
the air when only a few inches tall, while the giant ragweed reaches twelve feet
in height. Both thrive in soil that has been eroded or otherwise disturbed. The
1960 area's proximity to Cypress Creek and many construction projects make this
a 'high risk' area for allergic individuals.
Another characteristic of ragweed is that the more hostile the growing
environment, the more pollen a ragweed plant will produce. Stressful conditions
and lack of rain shift the ragweed into a "procreation" mode; the
plant then skimps on foliage and directs its resources into the bloom.
Allergy sufferers can run, but they can¼t hide from ragweed, as the pollen
can travel for miles on the breeze. For those with the runny nose, congestion,
itching eyes, headaches and cough associated with hayfever, Dr. Bethea
recommends surviving ragweed allergy by limiting exposure. She offers the
following tips:
| Remain indoors as much as possible during ragweed season. Pollen levels
are highest in the morning hours. |
| Take a brief shower after outdoor activities to remove pollen from the
skin and hair. |
| Keep windows up during automobile travel. |
| It may be helpful to install electrostatic filters in place of the
standard fiberglass air-intake filters. |
There are options available other than 'shutting out the world.' New
prescription antihistamines, decongestants, and anti-inflammatory medications
can alleviate the severity of allergic rhinitis symptoms while having fewer side
effects than medications of years past.
And finally, there is desensitization through immunotherapy (allergy shots).
This method of treatment is effective in most individuals who suffer from severe
allergies, and offers a lasting remedy to this seasonal problem. (See the front
page story on "Prevention.")
Ragweed pollen levels begin to decline in late October, and by late November
are at a very low level... only to reprise their performance the next year!
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Each spring, summer, and fall, tiny particles are released from trees, weeds,
and grasses. These particles, known as pollen, hitch rides on currents of air.
Although their mission is to fertilize parts of other plants, many never reach
their targets. Instead, they enter human noses and throats, triggering a type of
seasonal allergic rhinitis called pollen allergy, which many people know as hay
fever or rose fever (depending on the season in which the symptoms occur). Of
all the things that can cause an allergy, pollen is one of the most widespread.
Many of the foods, drugs, or animals that cause allergies can be avoided to a
great extent; even insects and household dust are escapable. Short of staying
indoors when the pollen count is high--and even that may not help--there is no
easy way to evade windborne pollen.
People with pollen allergies often develop sensitivities to other troublemakers
that are present all year, such as dust mites. For these allergy sufferers, the
"sneezin' season" has no limit. Year-round airborne allergens cause
perennial allergic rhinitis, as distinguished from seasonal allergic rhinitis.
What is pollen?
Plants produce microscopic round or oval pollen grains to reproduce. In some
species, the plant uses the pollen from its own flowers to fertilize itself.
Other types must be cross-pollinated; that is, in order for fertilization to
take place and seeds to form, pollen must be transferred from the flower of one
plant to that of another plant of the same species. Insects do this job for
certain flowering plants, while other plants rely on wind transport.
The types of pollen that most commonly cause allergic reactions are produced
by the plain-looking plants (trees, grasses, and weeds) that do not have showy
flowers. These plants manufacture small, light, dry pollen granules that are
custom-made for wind transport. Samples of ragweed pollen have been collected
400 miles out at sea and 2 miles high in the air. Because airborne pollen is
carried for long distances, it does little good to rid an area of an offending
plant--the pollen can drift in from many miles away. In addition, most
allergenic pollen comes from plants that produce it in huge quantities. A single
ragweed plant can generate a million grains of pollen a day.
The chemical makeup of pollen is the basic factor that determines whether it
is likely to cause hay fever. For example, pine tree pollen is produced in large
amounts by a common tree, which would make it a good candidate for causing
allergy. The chemical composition of pine pollen, however, appears to make it
less allergenic than other types. Because pine pollen is heavy, it tends to fall
straight down and does not scatter. Therefore, it rarely reaches human noses.
Among North American plants, weeds are the most prolific producers of
allergenic pollen. Ragweed is the major culprit, but others of importance are
sagebrush, redroot pigweed, lamb's quarters, Russian thistle (tumbleweed), and
English plantain.
Grasses and trees, too, are important sources of allergenic pollens. Although
more than 1,000 species of grass grow in North America, only a few produce
highly allergenic pollen. These include timothy grass, Kentucky bluegrass,
Johnson grass, Bermuda grass, redtop grass, orchard grass, and sweet vernal
grass. Trees that produce allergenic pollen include oak, ash, elm, hickory,
pecan, box elder, and mountain cedar.
It is common to hear people say that they are allergic to colorful or scented
flowers like roses. In fact, only florists, gardeners, and others who have
prolonged, close contact with flowers are likely to become sensitized to pollen
from these plants. Most people have little contact with the large, heavy, waxy
pollen grains of many flowering plants because this type of pollen is not
carried by wind but by insects such as butterflies and bees.
When do plants make pollen?
One of the most obvious features of pollen allergy is its seasonal
nature--people experience it symptoms only when the pollen grains to which they
are allergic are in the air. Each plant has a pollinating period that is more or
less the same from year to year. Exactly when a plant starts to pollinate seems
to depend on the relative length of night and day--and therefore on geographical
location--rather than on the weather. (On the other hand, weather conditions
during pollination can affect the amount of pollen produced and distributed in a
specific year.) Thus, the farther north you go, the later the pollinating period
and the later the allergy season.
A pollen count, which is familiar to many people from local weather reports,
is a measure of how much pollen is in the air. This count represents the
concentration of all the pollen (or of one particular type, like ragweed) in the
air in a certain area at a specific time. It is expressed in grains of pollen
per square meter of air collected over 24 hours. Pollen counts tend to be
highest early in the morning on warm, dry, breezy days and lowest during chilly,
wet periods. Although a pollen count is an approximate and fluctuating measure,
it is useful as a general guide for when it is advisable to stay indoors and
avoid contact with the pollen.
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Along with pollens from trees, grasses, and weeds, molds are an important
cause of seasonal allergic rhinitis. People allergic to molds may have symptoms
from spring to late fall. The mold season often peaks from July to late summer.
Unlike pollens, molds may persist after the first killing frost. Some can grow
at subfreezing temperatures, but most become dormant. Snow cover lowers the
outdoor mold count dramatically but does not kill molds. After the spring thaw,
molds thrive on the vegetation that has been killed by the winter cold.
In the warmest areas of the United States, however, molds thrive all year and
can cause year-round (perennial) allergic problems. In addition, molds growing
indoors can cause perennial allergic rhinitis even in the coldest climates.
What is mold?
There are thousands of types of molds and yeast, the two groups of plants in
the fungus family. Yeasts are single cells that divide to form clusters. Molds
consist of many cells that grow as branching threads called hyphae. Although
both groups can probably cause allergic reactions, only a small number of molds
are widely recognized offenders.
The seeds or reproductive particles of fungi are called spores. They differ
in size, shape, and color among species. Each spore that germinates can give
rise to new mold growth, which in turn can produce millions of spores.
What is mold allergy?
When inhaled, microscopic fungal spores or, sometimes, fragments of fungi may
cause allergic rhinitis. Because they are so small, mold spores may evade the
protective mechanisms of the nose and upper respiratory tract to reach the
lungs.
In a small number of people, symptoms of mold allergy may be brought on or
worsened by eating certain foods, such as cheeses, processed with fungi.
Occasionally, mushrooms, dried fruits, and foods containing yeast, soy sauce, or
vinegar will produce allergic symptoms. There is no known relationship, however,
between a respiratory allergy to the mold Penicillium and an allergy to
the drug penicillin, made from the mold.
Where do molds grow?
Molds can be found wherever there is moisture, oxygen, and a source of the
few other chemicals they need. In the fall they grow on rotting logs and fallen
leaves, especially in moist, shady areas. In gardens, they can be found in
compost piles and on certain grasses and weeds. Some molds attach to grains such
as wheat, oats, barley, and corn, making farms, grain bins, and silos likely
places to find mold.
Hot spots of mold growth in the home include damp basements and closets,
bathrooms (especially shower stalls), places where fresh food is stored,
refrigerator drip trays, house plants, air conditioners, humidifiers, garbage
pails, mattresses, upholstered furniture, and old foam rubber pillows.
Bakeries, breweries, barns, dairies, and greenhouses are favorite places for
molds to grow. Loggers, mill workers, carpenters, furniture repairers, and
upholsterers often work in moldy environments.
Which molds are allergenic?
Like pollens, mold spores are important airborne allergens only if they are
abundant, easily carried by air currents, and allergenic in their chemical
makeup. Found almost everywhere, mold spores in some areas are so numerous they
often outnumber the pollens in the air. Fortunately, however, only a few dozen
different types are significant allergens.
In general, Alternaria and Cladosporium (Hormodendrum) are the
molds most commonly found both indoors and outdoors throughout the United
States. Aspergillus, Penicillium, Helminthosporium, Epicoccum, Fusarium,
Mucor, Rhizopus, and Aureobasidium (Pullularia) are also common.
Are mold counts helpful?
Similar to pollen counts, mold counts may suggest the types and relative
quantities of fungi present at a certain time and place. For several reasons,
however, these counts probably cannot be used as a constant guide for daily
activities. One reason is that the number and types of spores actually present
in the mold count may have changed considerably in 24 hours because weather and
spore dispersal are directly related. Many of the common allergenic molds are of
the dry spore type--they release their spores during dry, windy weather. Other
fungi need high humidity, fog, or dew to release their spores. Although rain
washes many larger spores out of the air, it also causes some smaller spores to
be shot into the air.
In addition to the effect of day-to-day weather changes on mold counts, spore
populations may also differ between day and night. Day favors dispersal by dry
spore types and night favors wet spore types.
Are there other mold-related disorders?
Fungi or microorganisms related to them may cause other health problems
similar to allergic diseases. Some kinds of Aspergillus may cause several
different illnesses, including both infections and allergy. These fungi may
lodge in the airways or a distant part of the lung and grow until they form a
compact sphere known as a "fungus ball." In people with lung damage or
serious underlying illnesses, Aspergillus may grasp the opportunity to
invade the lungs or the whole body.
In some individuals, exposure to these fungi also can lead
to asthma or to a lung disease resembling severe inflammatory asthma called
allergic bronchopulmonary aspergillosis. This latter condition, which occurs
only in a minority of people with asthma, is characterized by wheezing,
low-grade fever, and coughing up of brown-flecked masses or mucus plugs. Skin
testing, blood tests, X-rays, and examination of the sputum for fungi can help
establish the diagnosis. Corticosteroid drugs are usually effective in treating
this reaction; immunotherapy (allergy shots) is not helpful.
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Cigarette smoke is a major source of indoor pollution.
Active and secondary smoke increases the risk of developing asthma.
Children of mothers who smoke have a higher incidence of wheezing
illnesses. This effect worsens with
more years of exposure.
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Perfume is an indoor pollutant that can irritate already inflamed airways in
patients with allergies or asthma and should be avoided whenever possible.
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