February 3, 2017

Asthma is the common chronic respiratory disease in childhood. Approximately 6.5million, or 9 percent of children under the age of 18, have asthma; that makes it the most common chronic condition in childhood. In fact, asthma is one of the leading reasons kids are hospitalized.

Unlike a cold or other respiratory illness, asthma isn’t contagious; hence a child will not catch it from his or her friends. It is a chronic inflammatory disorder of the airways, known as bronchial tubes, in which many cells and cellular elements play a role. The bronchial tubes are lined on the inside with mucous membranes and encased by smooth, sensitive muscles on the outside. The chronic inflammation is associated with airway hyper-responsiveness that leads to recurrent episodes of wheezing, breathlessness, chest tightness, and coughing, particularly at night or in the early morning. These episodes are usually associated with widespread, but variable, airflow obstruction within the lung that is often reversible either spontaneously or with treatment.

The inner lining of the bronchial tubes contains special cells, called inflammatory cells, which release chemicals after exposure to irritants. These chemicals cause the bronchial muscle constriction, mucous secretion, swelling of the bronchial tube inner lining, and coughing. Some of these chemicals also tell the body to send more inflammatory cells into the area. The lining of the bronchial tubes of asthmatics contain more of these special cells. In addition, in asthmatics, the inflammatory cells release their chemicals after exposure to things the person is allergic to — for example, after exposure to dogs, or cats, or ragweed.

The result is a wheezing sound that may be more noticeable when a child exhales. Frequent coughing is a common companion of asthma as well as a tight feeling in the chest.


Asthma results from an interaction between different environmental and genetic factors.

Environmental Factors The environmental influences begin during pregnancy: allergic sensitisation has been described before birth, and several studies have demonstrated reduced lung function in newborn infants of smoking mothers compared to those of nonsmoking mothers. Smoking increases the risk of both asthma and poorer lung function throughout childhood. All children should have the right to an environment free from tobacco smoke products both before and after birth.

Allergens – Allergen exposure may cause acute asthma exacerbations, and even in the absence of an exacerbation, may increase airway inflammation and bronchial hyperresponsiveness. Allergens may be encountered both outdoors and indoors, and house dust mites and animal dander are particularly important perennial indoor allergens. Occupational agents play a minor role during childhood, but several types of allergy may influence the choice of education in relationship to later working life. Kindergartens and schools are the working environment of children, and the need for a healthy indoor environment in such institutions should be emphasised. Special consideration should be given to the increased risk of respiratory infections, especially in kindergartens. In schools, precautions may be taken to reduce allergen exposure for allergic asthmatic children.

Medicine – It is widely accepted that antibiotics play a role in asthma attacks and may contribute to its original cause. Many children are so well protected from germs, bacteria and childhood illnesses that their immune systems don’t develop properly. Instead of acquiring the immune cells specific to certain bacteria and viruses, they retain highly reactive immune cells.

Ampicillin, amoxycilllin cephalosporins, erythromycin, spiramycin and tetracycline, both in prescription form and the antibiotic-treated animal products we ingest, worsen asthma attacks. Acetaminophen, aspirin, ibuprofen and naproxen can trigger or worsen asthma attacks. Other drugs such as betablockers, estrogen, NSAIDs and sulfites can trigger or worsen asthma attacks.

Genetic – Asthma, and one of its major causes, allergy, have strong hereditary traits. During recent years, much effort has been put into genetic family studies in order to identify genetic markers. A large number of markers with possible relationships to asthma and airway inflammation have already been identified, but these vary between populations. There has also been increased focus upon epigenetics: the finding that environmental influences may cause DNA methylation and histone formation, and thus change and inactivate the influence of specific genes, has given insight into how the environment may interact with genes, and has shown that this interaction may even be transferred from mother to child.

Infections – Respiratory virus infections are the major cause of acute bronchiolitis in infancy and of acute asthma attacks among older asthmatic children. From 2 years of age, rhinovirus infections are the most frequent precipitators of acute asthma.

Exercise – Throughout childhood, but increasingly during school age, exercise is an important cause of asthma exacerbations (exercise-induced asthma). It has been reported that 30% of all asthmatic children suffer from restriction of physical activity and it is very important to teach asthmatic children to master exercise, by education, advice related to ‘warming up’ and medical treatment.

Risk Factors

Factors that may increase the child’s likelihood of developing asthma include –

  • Exposure to tobacco smoke
  • Previous allergic reactions, including skin reactions, food allergies or hay fever (allergic rhinitis)
  • A family history of asthma, allergic rhinitis, hives or eczema
  • Living in an urban area with increased exposure to air pollution
  • Low birth weight
  • Obesity
  • A chronic runny or stuffy nose (rhinitis)
  • Severe lower respiratory tract infection, such as pneumonia
  • Inflamed sinuses (sinusitis)
  • Heartburn (gastroesophageal reflux disease, or GERD)
  • Being male
  • Pet dander


Breathing problems are common. They can include –

  • Shortness of breath
  • Feeling out of breath
  • Gasping for air
  • Trouble breathing out (exhaling)
  • Breathing faster than normal
  • When the child is has a hard time breathing, the skin of the chest and neck may suck inward.

Other symptoms of asthma in children include –

  • Coughing that sometimes wakes the child up at night (it may be the only symptom)
  • Dark bags under the eyes
  • Feeling tired
  • Irritability
  • Tightness in the chest
  • A whistling sound made when breathing (wheezing).


Asthma may cause a number of complications, including –

  • Severe asthma attacks that require emergency treatment or hospital care
  • Permanent narrowing of the airways (bronchial tubes)
  • Missed school days or getting behind in school
  • Poor sleep and fatigue
  • Symptoms that interfere with play, sports or other activities


Inhalers – There are different types of inhaler devices, which deliver asthma medication to the airways either in dry powdered form, or as an aerosol form with a propellant.

  • Preventers are used to reduce the inflamed areas of the lungs and to prevent the symptoms of asthma occurring. They contain steroid medication to be inhaled usually once or twice a day, and work as a long term treatment to control asthma.
  • Relievers (bronchodilators) are used to provide immediate relief from the symptoms of asthma when they develop. These inhalers work by opening up the airways to allow more air into the lungs and make breathing easier. They do not help reduce inflammation or prevent symptoms from occurring in the future. Some medicines work as both a preventer and a reliever.

Nebulisers – Nebulisers are sometimes used to treat emergency situations where asthma has become out of control. They used to be used in children experiencing a particularly severe attack of asthma, but research has shown that inhalers used with a spacer are as effective as nebulisers in delivering medicine. Nebulisers continue to be used by ambulance crews, some GPs and in A&E departments, as they allow oxygen to be given at the same time. However, a hospital may use an inhaler with spacer instead as doing so may allow the child to be discharged from hospital sooner.

Steroids – Steroids work by reducing inflammation. In the case of asthma, when a patient uses an inhaler, steroids are taken directly to the lungs, thereby directly treating the area that is affected by the allergy. The steroids then reduce the swelling of the airways which is the underlying problem in asthma. Also, some allergic responses involve a second (late phase) reaction after the initial allergic reaction. Steroids, unlike anti-histamines, can reduce the symptoms of these late phase reactions, by limiting the activity of the cells responsible for releasing further chemicals in the body. In this way steroids not only reduce inflammation, but they can also stop an ongoing allergic reaction.

Anti-leukotrienes – Leukotrienes are chemicals released by the immune system that cause swelling and secretion, and can cause allergy symptoms to persist. Anti-leukotrienes work by reducing inflammation and mucus production, and work in a similar way to steroids, but with fewer side effects.

Lifestyle Changes for Parents –

  • Try to avoid triggers which could makes the child’s asthma symptoms worse (e.g. animal hair) and note down any new ones to discuss with your doctor.
  • Do not smoke around the child or allow the child to stay in smoky surroundings.
  • Exercise can play an important part for the child. Swimming and sport should be encouraged as long as the child’s asthma is under control.
  • Think about any triggers in holiday areas, such as house dust mite or pets. Request a pet-free place to stay if possible, and make sure to give details to any holiday club staff about your child’s condition.

Alternative Treatment

Beta-carotene, the compound that gives fruit and vegetables their orange or red color, reduced asthma attacks in 53% of people in one study. Carotenoids are the basis of vitamin A which is involved in the mucous membranes. Severity of asthma correlates with low vitamin A.

Vitamin B3 and vitamin B12 are commonly low in asthmatics. These nutrients lower antihistamine levels and reduce wheezing.

Folate, or vitamin B9, reduced allergic reactions and inflammation. It lowers wheezing by 40%.

Fish oil – The evidence for using omega-3 fatty acids (found in fish oil) to treat asthma is mixed. At least a few studies have found that fish oil supplements may reduce inflammation and symptoms in children.

Quercetin, a kind of antioxidant called a flavonoid, helps to reduce the release of histamine and other allergic or inflammatory chemicals in the body. Histamine contributes to allergy symptoms, such as a runny nose, watery eyes, and hives.

Coenzyme Q 10 (CoQ10) to act as antioxidants.

Vitamin C is a powerful antioxidant and helps to detoxify the body. Vitamin C reduces wheezing and inflammation.

Magnesium – The idea of using magnesium to treat asthma comes from the fact that people who have asthma often have low levels of magnesium.

Potassium – For healthy immune system.

Coleus forskohlii – Coleus forskohlii, or forskolin, is another herb used in Ayurvedic medicine to treat asthma.

Pycnogenol – French maritime pine bark, called pycnogenol, suggests that it may reduce symptoms and improve lung function in children with asthma

Boswellia (Boswellia serrata) – Boswellia (also known as Salai guggal) is an herb commonly used in Ayurvedic medicine, a traditional Indian system of health care.

Saiboku-to – In three preliminary studies, a traditional Japanese herbal mixture called Saiboku-to has helped reduce symptoms and allowed study participants to reduce doses of corticosteroids.


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February 3, 2017

Asthma is characterized by inflammation of the air passages resulting in the temporary narrowing of the airways that transport air from the nose and mouth to the lungs. Asthma symptoms can be caused by allergens or irritants that are inhaled into the lungs, resulting in inflamed, clogged and constricted airways. Symptoms include difficulty breathing, wheezing, coughing tightness in the chest. In severe cases, asthma can be deadly.

Asthma is a chronic inflammatory disorder of the airways in which many cells and cellular elements play a role, in particular, mast cells, eosinophils, T lymphocytes, macrophages, neutrophils, and epithelial cells. In susceptible individuals, this inflammation causes recurrent episodes of wheezing, breathlessness, chest tightness, and coughing, particularly at night or in the early morning. These episodes are usually associated with widespread but variable airflow obstruction that is often reversible either spontaneously or with treatment. The inflammation also causes an associated increase in the existing bronchial hyper-responsiveness to a variety of stimuli.

The inside walls of an asthmatic’s airways are swollen or inflamed. This swelling or inflammation makes the airways extremely sensitive to irritations and increases your susceptibility to an allergic reaction.

As inflammation causes the airways to become narrower, less air can pass through them, both to and from the lungs. Symptoms of the narrowing include wheezing (a hissing sound while breathing), chest tightness, breathing problems, and coughing. Asthmatics usually experience these symptoms most frequently during the night and the early morning. Asthma is an incurable illness. However, with good treatment and management there is no reason why a person with asthma cannot live a normal and active life.

Asthma is among the most common chronic childhood illnesses, accounting for 10.5 million missed school days a year. It also accounts for 14.2 million lost workdays for adults. Every year, about 14 million Americans see a doctor for asthma. About 1.4 million patients visit a hospital outpatient department for asthma; almost 1.75 million go to a hospital emergency room. The number of people in the U.S. diagnosed with asthma is increasing.

How is an Asthma Attack?

An asthma episode, or an asthma attack, is when symptoms are worse than usual. They can come on suddenly and can be mild, moderate or severe.

  • The muscles around the airways tighten up, narrowing the airway.
  • Less air is able to flow through the airway.
  • Inflammation of the airways increases, further narrowing the airway.
  • More mucus is produced in the airways, undermining the flow of air even more.

Types of Athma

  • Child-Onset Asthma – Asthma that begins during childhood is called child-onset asthma. This type of asthma happens because a child becomes sensitized to common allergens in the environment – most likely due to genetic reasons. The child is atopic – a genetically determined state of hypersensitivity to environmental allergens.
  • Adult-Onset Asthma – This term is used when a person develops asthma after reaching 20 years of age. Adult-onset asthma affects women more than men, and it is also much less common than child-onset asthma. It can also be triggered by some allergic material or an allergy. It is estimated that up to perhaps 50% of adult-onset asthmas are linked to allergies. However, a substantial proportion of adult-onset asthma does not seem to be triggered by exposure to allergen(s); this is called non-allergic adult-onset asthma.
  • Exercise-Induced Asthma – If a person coughs, wheezes or feels out of breath during or after exercise, he or she could be suffering from exercise-induced asthma. Obviously, the level of fitness is also a factor – a person who is unfit and runs fast for ten minutes is going to be out of breath. However, if the coughing, wheezing or panting does not make sense, this could be an indication of exercise-induced asthma.
  • Cough-Induced Asthma – Cough-induced asthma is one of the most difficult asthmas to diagnose. The doctor has to eliminate other possibilities, such as chronic bronchitis, post nasal drip due to hay fever, or sinus disease.
  • Occupational Asthma – This type of asthma is triggered by something in the patient’s place of work. Factors such as chemicals, vapors, gases, smoke, dust, fumes, or other particles can trigger asthma. It can also be caused by a virus (flu), molds, animal products, pollen, humidity and temperature.
  • Nocturnal Asthma – Nocturnal asthma occurs between midnight and 8 AM. It is triggered by allergens in the home such as dust and pet dander or is caused by sinus conditions. Nocturnal or nighttime asthma may occur without any daytime symptoms recognized by the patient.
  • Steroid-Resistant Asthma (Severe Asthma) – While the majority of patients respond to regular inhaled glucocorticoid (steroid) therapy, some are steroid resistant. Airway inflammation and immune activation play an important role in chronic asthma. Current guidelines of asthma therapy have therefore focused on the use of anti-inflammatory therapy, particularly inhaled glucocorticoids (GCs).


Allergies – Almost all asthma sufferers have allergies. In fact, over 25% of people who have hay fever (allergic rhinitis) also develop asthma. Allergic reactions triggered by antibodies in the blood often lead to the airway inflammation that is associated with asthma. Common sources of indoor allergens include animal proteins (mostly cat and dog allergens), dust mites, cockroaches, and fungi. It is possible that the push towards energy-efficient homes has increased exposure to these causes of asthma.

Environmental Factors – Pollution, sulfur dioxide, nitrogen oxide, ozone, cold temperatures, and high humidity have all been shown to trigger asthma in some individuals. During periods of heavy air pollution, there tend to be increases in asthma symptoms and hospital admissions. Smoggy conditions release the destructive ingredient known as ozone, causing coughing, shortness of breath, and even chest pain. These same conditions emit sulfur dioxide, which also results in asthma attacks by constricting airways.

Pregnancy – Babies born by Caesarean sections have a 20% increase in asthma prevalence compared to babies born by vaginal birth. It is possible that immune system-modifying infections from bacterial exposure during Cesarean sections are responsible for this difference.

Obesity – Overweight adults – those with a body mass index (BMI) between 25 and 30 – are 38% more likely to have asthma compared to adults who are not overweight. Obese adults – those with a BMI of 30 or greater – have twice the risk of asthma. According to some researchers, the risk may be greater for nonallergic asthma than allergic asthma.

Tobacco smoke has been linked to a higher risk of asthma as well as a higher risk of death due to asthma, wheezing, and respiratory infections. In addition, children of mothers who smoke – and other people exposed to second-hand smoke – have a higher risk of asthma prevalence. Adolescent smoking has also been associated with increases in asthma risk.

Stress – People who undergo stress have higher asthma rates. Part of this may be explained by increases in asthma-related behaviors such as smoking that are encouraged by stress. However, recent research has suggested that the immune system is modified by stress as well.

Genetic Factors – Genes linked to asthma also play roles in managing the immune system and inflammation. There have not, however, been consistent results from genetic studies across populations – so further investigations are required to figure out the complex interactions that cause asthma.

Inflammatory Triggers – Inflammatory (allergic) triggers can cause inflammation of the lungs’ airways or tightening of the airways’ muscles. Inflammatory triggers include –

  • Dust mites
  • Animals
  • Cockroaches
  • Moulds
  • Pollens
  • Viral infections
  • Certain air pollutants

Symptom Triggers – Symptom (non-allergic) triggers generally do not cause inflammation, but they can provoke “twitchy” airways, especially if they’re already inflamed. Symptom triggers include-

  • Smoke
  • Exercise
  • Cold air
  • Chemical fumes and other strong-smelling substances like perfumes
  • Certain food additives like sulfites
  • Certain air pollutants
  • Intense emotions


Asthma symptoms can differ for each person, but here are some of the most common:

  • Wheezing – People may notice a whistling sound when you breathe. Sometimes this happens only when you exercise or have a cold.
  • Frequent cough – This may be more common at night. People may or may not cough up mucus.
  • Shortness of breath – This is the feeling that you can’t get enough air into the lungs. It may occur only once in a while, or often.
  • Chest tightness – The chest may feel tight, especially during cold weather or exercise. This can also be the first sign of a flare-up.


Conventional Treatment

MedicineLong-term asthma control medications, generally taken daily, are the cornerstone of asthma treatment. These medications keep asthma under control on a day-to-day basis and make it less likely you’ll have an asthma attack. Types of long-term control medications include –

  • Inhaled corticosteroids – These anti-inflammatory drugs include fluticasone (Flonase, Flovent HFA), budesonide (Pulmicort Flexhaler, Rhinocort), flunisolide (Aerospan HFA), ciclesonide (Alvesco, Omnaris, Zetonna), beclomethasone (Qnasl, Qvar), mometasone (Asmanex) and fluticasone furoate (Arnuity Ellipta).
  • Leukotriene modifiers. These oral medications — including montelukast (Singulair), zafirlukast (Accolate) and zileuton (Zyflo) — help relieve asthma symptoms for up to 24 hours.
  • Long-acting beta agonists – These inhaled medications, which include salmeterol (Serevent) and formoterol (Foradil, Perforomist), open the airways.
  • Combination inhalers – These medications — such as fluticasone-salmeterol (Advair Diskus), budesonide-formoterol (Symbicort) and formoterol-mometasone (Dulera) — contain a long-acting beta agonist along with a corticosteroid.
  • Theophylline – Theophylline (Theo-24, Elixophyllin, others) is a daily pill that helps keep the airways open (bronchodilator) by relaxing the muscles around the airways.
  • Short-acting beta agonists – These inhaled, quick-relief bronchodilators act within minutes to rapidly ease symptoms during an asthma attack. They include albuterol (ProAir HFA, Ventolin HFA, others) and levalbuterol (Xopenex).
  • Ipratropium (Atrovent) – Like other bronchodilators, ipratropium acts quickly to immediately relax your airways, making it easier to breathe.
  • Oral and intravenous corticosteroids – These medications — which include prednisone and methylprednisolone — relieve airway inflammation caused by severe asthma.


Alternative Treatment

Vitamins – Antioxidant vitamins are commonly suggested complementary therapies for asthma. Adults whose diets are naturally high in antioxidants such as vitamin C– and vitamin E–rich foods have the fewest pulmonary problems.

Magnesium – Dietary magnesium intake is strongly correlated with asthma symptoms; the more magnesium, the fewer the symptoms. Intravenous magnesium has proven helpful in treating pediatric status asthmatics.

Selenium – Plasma and erythrocyte levels of selenium and the activity of the selenium-dependent enzyme glutathione reductase are lower in asthmatic adults than in non-asthmatics.

Salt restriction – While bronchial sensitivity to methacholine is increased by high salt intakes, a pediatric case control study found no association between levels of salt intake and asthma or exerciseinduced bronchospasm.

Fatty acids – Omega-3 fatty acids (found in fish oils, canola oil, and flax seed oil) have been touted as important anti-inflammatory food supplements. Omega-3 fatty acids limit leukotriene synthesis by blocking arachidonic acid metabolism.

Zinc – There is little evidence of zinc deficiency causing asthma symptoms, but asthma patients have been shown to have lower plasma zinc than healthy controls.

Ginkgo extract has been shown to reduce inflammation.

Lobelia (Indian tobacco) was used by Native Americans to treat respiratory disorders, including asthma.

Other natural herbs that have been used to treat asthma include mullein, boswellia (Indian frankincense), dried ivy, and butterbur.

Coffee and tea can both be useful in treating asthma symptoms. Caffeine is a natural (mild) bronchodilator. Tea contains minute amounts of theophylline, one of the major prescription drugs for asthma.

Complementary Treatment

Acupuncture – A technique that involves inserting needles into key points of the body. Evidence suggests that acupuncture may signal the brain to release endorphins. These are hormones made by the body.

Biofeedback – A technique that helps people control involuntary physical responses. Results are mixed, with children and teenagers showing the greatest benefit.


Chiropractic spinal manipulation – A technique that emphasizes manipulation of the spine in order to help the body heal itself. There is no evidence that this treatment impairs the underlying disease or pulmonary function.

Hypnosis – An artificially induced dream state that leaves the person open to suggestion, hypnosis is a legitimate technique to help people manage various conditions. Hypnosis might give people with asthma or allergies more self-discipline to follow good health practices.

Laser treatment – A technique that uses high intensity light to shrink swollen tissue or unblock sinuses.

Massage, relaxation techniques, art/music therapy, yoga – Stress and anxiety may cause your airways to constrict more if you have asthma or allergies. Various techniques can help you relax, reduce anxiety or control your breathing.



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February 3, 2017

Allergy is more than just a runny nose. In the practice of Environmental Medicine, allergy is the number one environmentally caused disease or disorder. Yet many people don’t realize how many different problems can develop because of allergies.

The term allergy was first introduced by Dr. Von Pirquet in 1904 and was defined as “any altered reaction to a substance.” This definition of allergy was generally accepted until 1967, when Dr. Ishizaka isolated immunoglobulin E in a person’s blood and identified this protein as the specific marker to identify allergic reactions. With identification of what was then thought of as the only physiological means of mediating allergy, the term allergy came to be applied only to immunoglobulin E (IgE) mediated reactions.

Ishizaka’s new definition of allergy, however, resulted in the failure of most physicians to recognize that people can and do react to many things which are not IgE mediated. Inhalant allergens such as pollen, dust, molds, and danders (typically IgE mediated) are indeed major causes of classical allergy—allergic rhinitis, asthma, and eczema—and it is helpful to reduce the allergic load coming from them through avoidance or allergy extracts.

However, sensitivities to foods and chemicals are often not IgE mediated and are thus missed in the diagnosis. In our 36 years of experience at The Center for Occupational and Environmental Medicine, we have found that chronic symptoms and disease are very often caused by exposures to allergenic foods and chemicals. Reactions to these substances may be mediated by immunoglobulin G (IgG) or other immunoglobulins, or may occur as a reaction within the gastrointestinal tract itself.

Based on our experience from working with thousands of patients, we at The Center, prefer to use the terms “food and chemical sensitivity” rather than “food and chemical allergy,” knowing that people do react even if the mechanism is not IgE mediated. We have found that common causes of headaches are often (but not always) sensitivity to cane, corn, cola, chocolate, and/or citrus, and common causes of arthritic pain are sensitivity to beef, pork, apple, soy, coffee, and the solanine containing foods—tomato, potato, eggplant and peppers. The mechanism of these reactions is clearly not IgE mediated. To complicate matters further, each person is unique and their triggers for these disorders and other pain syndromes are highly individual.

Most physicians practicing Environmental Medicine are of the opinion that if you could do only one thing with a patient presenting with multiple chronic signs and symptoms, it would be an elimination diet followed by a deliberate challenge testing of the patient’s foods. Most patients are amazed to learn that problem foods are usually those that are eaten frequently or craved. Experience with brittle asthmatics reveals that 50-60 percent get better with food elimination. This again emphasizes the important role of the gut as the gatekeeper of the body and also the importance of good digestion.

Any organ or system of the body can be the target of an “allergic” or sensitivity reaction. Thus, we often see patients presenting with multi-system involvement. Identifying their food, chemical, and inhalant triggers helps resolve such problems as gastro-esophageal reflux, chronic nausea, vomiting, diarrhea, bedwetting, frequency and urgency of urination, chronic persistent cough, asthma, and chronic joint pain. Yet the organ system taking the biggest hit is the nervous system. Allergy or sensitivity involving the nervous system as the target of reactions can cause learning disabilities, psychosis and schizophrenia, depression, lethargy, fatigue, agoraphobia, panic attacks, sleep apnea, restless legs, and other neurological impairments. Why use life-long drug therapy when in many cases identifying contributing allergies or sensitivities can eliminate or greatly reduce such problems?

People may often note that their medical problems are cyclical, occurring at a specific time of the year. What they don’t recognize is that the seasonality of onset is related to pollens—trees in the spring, grass in the summer, and weeds in the fall. It is therefore important to ask not only what problem the patient has, but also when do they get their symptoms? It is equally important to understand that foods cross-react with pollens. One may be more reactive to specific foods when there are concomitant pollens in the air. In addition, in women cyclical signs and symptoms may be related to their menstrual cycle. We call this endocrine allergy, reactions being related to hormone sensitivities. Premenstrual syndrome (PMS) is a manifestation of hormonal sensitivity and responds quickly to the Environmental Medicine approach.

One of the major causes of disease is autoimmunity: the body literally attacks itself because it no longer recognizes self from non-self. Such diseases as lupus, rheumatoid arthritis, Sjogren’s syndrome, multiple sclerosis, and thyroiditis are autoimmune diseases. They are often caused by microorganisms living in the body that cross-react against specific body tissues. Cross-reactivity of the organism Group A beta hemolytic streptococcus with heart and kidney tissue is the cause of rheumatic fever and glomerulonephritis. Allergy or sensitivity to even normally occurring microbial flora may trigger autoimmune diseases in susceptible individuals. Using techniques of hypo-sensitization and neutralization can be beneficial in overcoming cross-reactivity to various organisms and thus helping to control autoimmune diseases.

Hopefully, this article has demonstrated that “allergy” is more than just a runny nose, and that it can be the cause of many of your signs and symptoms. For nearly four decades the Center for Occupational and Environmental Medicine has helped identify the cause of chronic disease and disorders through comprehensive diagnostic evaluation, utilizing allergy and sensitivity testing as needed. We’re very pleased that our success rate in this area has been so helpful in returning patients to good health.