Allergic rhinitis is the way some people respond to outdoor or indoor allergens:
Allergic rhinitis tends to run in families. If one or both parents have allergic rhinitis, there is a higher likelihood that their children will also have allergic rhinitis. People with allergic rhinitis have an increased risk of developing asthma and other allergies. They are also at risk for developing chronic sinusitis, sleep disorders (including snoring), and ear infections.
Common symptoms of allergic rhinitis include:
Home remedies for allergic rhinitis include nasal washes with saline solution. Many different over-the-counter and prescription drugs are used to treat allergic rhinitis. First-line medications include corticosteroid nasal sprays and oral antihistamines. Immunotherapy (allergy shots or under-the-tongue tablets) and medications like montelukast may also be options for some people.
In addition to avoiding exposure to allergy triggers, people with allergic rhinitis can take precautions to control their environment. These measures include bathing pets weekly, using vacuum cleaners and air conditioners with high-efficiency particulate air (HEPA) filters, frequent washing of bedding and curtains, using dust mite-proof covers on their beds (especially if they are allergic to dust mites), reducing humidity in the house, and removing sources of mold.
Acupuncture may be helpful for some people with allergic rhinitis, according to 2015 guidelines from the American Academy of Otolaryngology -- Head and Neck Surgery Foundation. Acupuncture would typically be used in addition to, rather than to replace, more conventional therapies noted above.
Rhinitis is inflammation of the mucous membranes of the nasal and sinus passages. It can result in severe nasal and sinus congestion or other changes that irritate the nose.
Allergic rhinitis is caused by a substance (allergen) that triggers an allergic response. As part of the allergic response, the body's immune system releases histamine and other chemicals.
Allergic rhinitis is generally classified as either:
Allergens involved in allergic rhinitis come from either outdoor or indoor substances:
Rhinitis can also be due to non-allergic causes, such as infections, temperature changes, hormonal changes, certain medications, cigarette smoke, stress, exercise, structural problems in the nose, or other factors. In non-allergic rhinitis, the immune system plays a different role in the body's response to these factors.
Basic symptoms of both allergic and non-allergic rhinitis include:
The allergic process, called atopy, occurs when the body overreacts to a substance that it inappropriately senses as a foreign invader. The immune system works continuously to protect the body from potentially dangerous intruders such as bacteria, viruses, and toxins. However, for reasons not completely understood, some people are hypersensitive to substances that are typically harmless.
When the immune system inaccurately identifies these substances (allergens) as harmful, an allergic reaction and inflammatory response occurs.
There are many types of IgE antibodies, and each is associated with a specific allergen. This is why some people are allergic to cat dander, while others are not bothered by cats yet are allergic to pollen. In allergic rhinitis, the allergic reaction begins when an allergen comes into contact with the mucous membranes that contain mast cells in the lining of the nose.
Seasonal allergic rhinitis occurs only during periods of intense airborne pollen or spores. It is commonly, although inaccurately, called hay fever. No fever accompanies this condition, and the allergic response is not dependent on hay. (The historical reason for this term is that common pasture grasses, like timothy grass, are sources of hay for animal feed.) In general, triggers of seasonal allergy in the U.S. include:
Allergens in the home
Are the most common triggers of perennial (year-round) allergic rhinitis. Household allergens include:
Allergic rhinitis usually first appears in childhood or early adulthood but it can affect people of all ages.
Allergic rhinitis appears to have a genetic component. People with a parent who has allergic rhinitis have an increased risk of developing allergic rhinitis themselves. The risk increases significantly if both parents have allergic rhinitis.
Home, workplace, or outdoor environments can increase the risk for exposure to allergens (mold spores, dust mites, animal dander, pollen) associated with allergic rhinitis.
Seasonal allergic rhinitis that develops during childhood, on average, tends to diminish with age. In fact, many people who develop seasonal allergic rhinitis in early childhood tend not to have the allergy in adulthood. In some cases, allergies go into remission for years and then return later in life. People who develop allergies after age 20, however, tend to continue to have allergic rhinitis at least into middle age.
Asthma and allergies often coexist. People with allergic rhinitis often have asthma or are at increased risk of developing it. Allergic rhinitis is also associated with eczema (atopic dermatitis), an allergic skin reaction characterized by itching, scaling, and red swollen skin in certain typical areas of the body. Chronic uncontrolled allergic rhinitis can worsen asthma attacks and eczema.
People who have allergic rhinitis appear also to have an increased risk for other associated medical conditions. These conditions include:
People with allergic rhinitis, particularly those with perennial allergic rhinitis, may experience sleep-disordered breathing and daytime fatigue. Often they attribute this to allergy medication, but congestion may be the cause of these symptoms. People who have severe allergic rhinitis tend to have worse sleep problems, including snoring, than those with mild allergic rhinitis.
Any chronic rhinitis, whether allergic or non-allergic, can cause swelling in the turbinates, which may become persistent (turbinate hypertrophy). The turbinates are tiny, shelf-like bony structures covered by a cell layer that lines the nasal passages that project into the nasal passageways. They help warm, humidify, and clean the air that passes over them. If turbinate hypertrophy develops, it causes persistent nasal congestion and, sometimes, pressure and headache in the middle of the face and forehead. If severe, this condition may require surgery.
Although allergic rhinitis is not considered a serious condition, it can interfere with many important aspects of life. Nasal allergy sufferers often feel tired, miserable, or irritable. Chronic allergic or non-allergic rhinitis can interfere with work or school performance, as well as social functioning.
Symptoms of allergic rhinitis often occur in two phases, early and late.
Early Phase Symptoms
The early phase occurs within minutes of exposure to the allergen and includes:
Symptoms that may develop several hours or later after exposure commonly include:
An alternative classification system groups allergic rhinitis by how long symptoms last and how severe they are:
In most cases, a health care provider can diagnose allergic rhinitis based on the symptoms and medical history. Your provider will take your medical history and will ask about:
The provider may examine the inside of the nose with an instrument called a speculum. This is a painless procedure that allows the doctor to check for signs of inflammation and swelling on the turbinates and other areas of the nasal cavity. The provider will also check the eyes, ears, and chest.
Allergy testing may be used to confirm an allergic trigger identified by symptoms. A skin prick test is a simple method for detecting sensitivity to common allergens. People are usually tested for a panel of common allergens. Skin tests are rarely needed to diagnose milder seasonal allergic symptoms before treatment is tried. Skin tests are not completely accurate as they do not always predict symptoms, and are not appropriate for children younger than age 3.
The procedure is as follows:
Blood tests for immunoglobulin (IgE) production may be performed. Like skin tests, IgE blood tests detect increased levels of allergen-specific IgE in response to particular allergens. However, blood tests for IgE do not always correlate/agree with skin prick tests.
The health care provider may take a nasal smear. The nasal secretion is examined under a microscope for increased white blood cell counts (indicating infection), or high eosinophil counts (indicating an allergic condition, but low counts do not rule out allergic rhinitis).
In some cases of chronic or unresponsive seasonal rhinitis, a provider may use endoscopy to look for irregularities in the nose structure. Endoscopy inserts a tube containing a miniature camera through the nose to view the passageways and further back at the openings of the sinuses.
Rhinitis always precedes and accompanies sinusitis, which is inflammation or infection of the mucous lining of the sinuses. Acute sinusitis usually clears up on its own. Chronic sinusitis can be more difficult to treat.
Allergic rhinitis also needs to be distinguished from the cold or flu. This can be challenging, as there are several common symptoms. Some clues to differentiate the two:
There are several treatment approaches for allergic rhinitis:
Treatment depends on various factors, including:
For both adults and children who have allergic rhinitis and asthma, treatment of rhinitis may help control asthma symptoms.
Mild allergic rhinitis
May require only reducing exposure to allergens and using a nasal saline wash. You can buy a saline solution at a drug store or make one at home using 1 cup (250 mL) of warm water, half a teaspoon of table, Kosher or sea salt, and pinch of baking soda. If you prepare your own saline solution, use distilled or boiled water, not plain tap water, to avoid potential infection with a dangerous type of water-dwelling parasite called Naegleria fowleri. Many individuals with mild allergic rhinitis will also use a longer acting, non-sedating antihistamine (e.g. cetirizine, loratadine, fexofenadine) on an as needed basis.
Moderate-to-severe allergic rhinitis
May require a prescription drug in addition to environmental control measures. Intranasal steroids or oral antihistamines are generally the first choices and are available over the counter. Intranasal steroids are a more effective treatment since they help relieve congestion as well as sneezing, runny nose, and itchy eyes. Antihistamines alone are not effective for treating nasal and/or sinus congestion. If your allergic rhinitis does not improve, other types of drugs may be tried or added. Immunotherapy (allergy shots or sublingual tablets) are another option.
Antihistamine and steroid drugs treat nasal symptoms but they can also help itchy, watery, and red eyes. OTC eye drops can also provide relief, but should not be used for prolonged periods of time. If your eye allergy symptoms continue to bother you, discuss with your provider other types of prescription eye drops.
Corticosteroids (steroids) help reduce the inflammatory response associated with allergic reactions. They can help improve both nasal and eye symptoms. Nasal-spray corticosteroids are considered the most effective drugs for controlling the symptoms of moderate-to-severe allergic rhinitis.
Nasal spray steroids
May be used alone or in combination with a nasal antihistamine or nasal decongestant. (A nasal spray decongestant should be used only for 3 days or less.) As a rule, it takes 1 to 2 weeks before seeing symptomatic improvement from nasal steroids, and as much as 4 weeks for maximal improvement. It is therefore important that these medications be taken regularly as directed to get the most benefit. Nasal steroids are considered 'controller' medications and do not provide quick relief, so it is very important not to 'give up' and stop after a week, for example, as it takes longer to notice benefit.
Corticosteroids available in nasal spray form include:
These nasal sprays are approved for children. Ages vary depending on brand.
Side effects of nasal steroids may include:
While effective for treating symptoms of allergic rhinitis, oral steroids can have many systemic side effects, most often when used repeatedly or for a long time, including stunting growth in children and increasing risk for glaucoma. Nasal spray steroids do not appear to carry these risks. Still, discuss with your provider any possible risks and whether these drugs are appropriate for you.
Histamine is one of the chemicals released when antibodies overreact to allergens. It is the cause of many symptoms of allergic rhinitis. Antihistamine drugs block the effects of histamine. These drugs can help prevent and relieve nasal, eye, and itching symptoms associated with allergic rhinitis. As noted earlier, they are not effective for treating nasal and/or sinus congestion.
Antihistamine drugs are available in oral tablet and nasal spray forms, and also as eyedrops and a liquid preparation. Some antihistamines need a prescription while others are available over the counter. Some oral antihistamines come in combination with a decongestant.
Antihistamines are generally categorized as first- or second-generation.
Which include diphenhydramine (Benadryl, generic) and clemastine (Tavist, generic) cause more side effects (such as drowsiness) than most second-generation antihistamines. For this reason, as well as the fact that they are longer acting, second-generation antihistamines are generally preferred and recommended, especially for people whose main symptoms are sneezing and itching.
Are sometimes referred to collectively as nonsedating antihistamines. However, cetirizine (Zyrtec, generic) and the nasal spray antihistamines (Astelin, Patanase) may cause drowsiness when taken at recommended doses. Loratadine (Claritin, generic) and desloratadine (Clarinex) can cause drowsiness when taken at doses exceeding the recommended dose.
Second-generation antihistamines in pill form include:
Second-generation antihistamines in nasal form are as good as, or better than the oral forms for treating seasonal allergic rhinitis. However, they can cause drowsiness, and they are not as effective for allergic rhinitis as nasal corticosteroids. Nasal spray antihistamines are available by prescription and include:
Side effects of antihistamines may include:
Decongestants work by shrinking blood vessels in the nose. Many over-the-counter decongestants are available, which can be either taken by mouth or applied to the nose.
Nasal-delivery decongestants are applied directly into the nasal passages with a spray, gel, drops, or vapors. Nasal decongestants come in long-acting or short-acting forms. The effects of short-acting decongestants last about 4 hours. Long-acting decongestants last 6 to 12 hours. The active ingredients in nasal decongestants include oxymetazoline, xylometazoline, and phenylephrine.
Nasal forms work faster than oral decongestants. They also do not cause the drowsiness that can occur with decongestants that are combined with an antihistamine (e.g. Claritin-D). However, they can cause dependency and rebound congestion. The decongestant loses effectiveness and can cause increased congestion. The 12-hour brands pose a particular risk for this effect. The medical term for this is rhinitis medicamentosa (RM).
The following precautions are important for people taking nasal decongestants:
Oral decongestants also come in many brands, which have similar ingredients. The most common active ingredients are pseudoephedrine (Sudafed, other brands, generic) and phenylephrine, sometimes in combination with an antihistamine. Oral decongestants can cause side effects such as insomnia, irritability, nervousness, and heart palpitations. Taking pseudoephedrine in the morning, as opposed to later in the day or before bedtime, can help people avoid these side effects. Although much less common than with nasal decongestants, some individuals, with frequent and/or prolonged use, can develop RM from oral decongestants.
Decongestants should not be used in children or infants under the age of 4 years. Some health care providers recommend not giving decongestants to children under the age of 14. Children are at particular risk for central nervous system side effects including convulsions, rapid heart rates, loss of consciousness, and death.
Standard oral decongestants pose serious risks for people with high blood pressure. Your provider may recommend you take an alternative type of decongestant or avoid them all together.
If you are pregnant or have any type of medical condition that affects your blood or circulation, discuss with your provider whether decongestants are safe for you.
Oral decongestants can cause dangerous interactions when combined with certain types of medications, such as the antidepressant MAO inhibitors. They can also cause serious problems when combined with methamphetamines or diet pills. Be sure to tell your provider about any drug or herbal remedy you are taking. Caffeine can also increase the stimulant side effects of pseudoephedrine.
Leukotriene antagonists are oral drugs that block leukotrienes, powerful immune system factors that cause airway constriction and mucus production in allergy-related asthma. They also mediate some of the typical symptoms of allergic rhinitis. Although formally FDA approved to treat allergic rhinitis, they are not a first-line treatment for allergic rhinitis. Leukotriene antagonists are sometimes used in combination with a nasal spray steroid or oral antihistamine.
Leukotriene antagonists include zafirlukast (Accolate) and montelukast (Singulair). These drugs are mainly used to treat asthma. Montelukast is also approved to treat seasonal allergies and indoor allergies.
The FDA warns that these drugs have been associated with behavior and mood changes, including agitation, aggression, anxiousness, dream abnormalities, hallucinations, depression, insomnia, irritability, restlessness, tremor, and suicidal thinking and behavior. People who take a leukotriene antagonist drug such as montelukast should be monitored for signs of behavioral and mood changes, especially after starting the medication. If you exhibit any symptoms, your provider should consider discontinuing the drug.
Ipratropium bromide (Atrovent HFA) is a prescription nasal spray that can help relieve runny nose. It works best when given in combination with a nasal corticosteroid. Side effects include nasal dryness, nosebleeds, and sore throat. It should not be used by people who have glaucoma or men who have an enlarged prostate gland.
Cromolyn sodium is both an anti-inflammatory drug and a specific blocker for allergens. The standard prescription cromolyn nasal spray (NasalCrom) is not as effective as steroid nasal sprays, and does not work in all people with allergic rhinitis. However, cromolyn-based medications have been available for decades and have an excellent safety profile with minimal side effects. Like nasal steroids, it may take several weeks to experience symptom relief.
Immunotherapy is based on the premise that people who receive injections of a specific allergen will lose sensitivity to that allergen. Immunotherapy is given either as subcutaneous (under the skin) injections or as sublingual (under the tongue) tablets.
The most common allergens for which allergy shots are given are house dust mites, cat dander, pollens, and mold. Sublingual tablets are approved for grass and ragweed pollen. (Tablets for house dust mite allergens are being studied in clinical trials.)
Immunotherapy benefits include:
Immunotherapy may be given to anyone with allergies who does not get better with medication and who has had a positive allergy skin test to specific allergens. Immunotherapy should not be based on blood tests alone (presence of allergen-specific IgE antibodies).
The latest guidelines indicate that immunotherapy injections are safe for young children. Some, but not all, sublingual tablets are approved for children. Immunotherapy is safe for pregnant women who are already receiving it, although doses are not increased. Immunotherapy should not be started during pregnancy.
People who should probably avoid immunotherapy include those who have:
Everyone's health status should be determined before starting treatment.
Subcutaneous immunotherapy (SCIT), also called allergy shots, uses a prolonged course of weekly injections:
The use of an injection series is effective, but people often have difficulty complying with the regimens. For some people, rush immunotherapy may be an alternative option. Rush immunotherapy uses several shots a day over a period of 3 to 5 days to achieve the full dose. Studies suggest that it is effective and safe, but anaphylaxis and severe reactions can occur. It is only appropriate for some people and they must be monitored closely during this period for severe reactions.
Sublingual immunotherapy (SLIT) is an oral form of immunotherapy that uses a fast-dissolving under-the-tongue tablet.
The FDA approved sublingual immunotherapy products for treating allergic rhinitis are:
A sublingual tablet is taken once daily. Treatment typically starts 3 to 4 months before pollen season begins and continues thereafter. Unlike injection immunotherapy, there is no gradual dose buildup in sublingual immunotherapy; there is a single dose preparation that is taken daily at home after the first dose is given in an observed setting.
If complications or allergic reactions develop, they usually occur within 30 minutes, although some can develop up to 2 hours after the shot is given. Minor side effects may include swelling and soreness at the injection site, which can warrant adjustments to the dosing schedule. More severe allergic reactions can also occur including anaphylaxis which can require urgent medical treatment. Injection immunotherapy should NOT be administered outside of a physician's office or medical setting.
Sublingual tablets may cause throat irritation and itching in the mouth or ears. The first dose is given at a health care provider's office to make sure an allergic reaction does not occur. Subsequent doses are taken at home. Severe reactions are extremely rare with SLIT. People with severe or uncontrolled asthma should not use this treatment.
People with existing allergies should avoid irritants or allergens. These triggers include:
Dust mites are extremely small (around 0.3 mm in length), so they are difficult to spot with the naked eye. Therefore, it is important to avoid the house conditions that can promote their growth. Follow these steps to avoid dust mite allergens:
Some studies suggest that early exposure to some of these allergens, including dust mites and pets, may actually prevent allergies from developing in children.
People who already have pets and are not allergic to them are probably at low risk for developing such allergies later on. When children are exposed to more than one dog or cat during their first year, they have a much lower risk for not only pet allergies, but also seasonal allergies and asthma. (Pet exposure does not protect them from other allergens, notably dust mites and cockroaches).
For children who have an existing allergy to pets:
Preventing Exposure to Cigarette and Cooking Smoke
Although cigarette smoke is not a trigger for allergic rhinitis, parents who smoke should quit. Cigarette smoking can worsen non-allergic rhinitis and increases the risk of developing sinusitis.Studies show that exposure to secondhand smoke in the home increases the risk for asthma and asthma-related emergency room visits in children.
Spray furniture polish is very effective for reducing both dust and allergens. Air purifiers and vacuum cleaners with High Efficiency Particulate Air (HEPA) filters can help remove particles and small allergens found indoors. Neither vacuuming nor the use of anti-mite carpet shampoo is effective in removing mites in house dust. Vacuuming actually stirs up both mites and cat allergens. People with these types of allergies should avoid having carpets or rugs in their bedrooms. For children with allergies, vacuuming should be performed when the child is not around.
Bedding and Curtains:
Reducing Humidity in the House
Living in a damp environment can lead to allergy problems:
Exterminating Pests (Cockroaches and Mice):
Avoiding Outdoor Allergens
The following are recommendations for avoiding allergens outside:
For mild allergic rhinitis, a nasal wash can help remove mucus from the nose. You can purchase a saline solution at a drug store or make one at home by mixing 2 cups (500 mL) of warm water (distilled or boiled), a teaspoon salt, and a pinch of baking soda.
Here is a simple method for administering a nasal wash:
Neti pots have also become popular in recent years for prevention and treatment of allergic rhinitis. To do nasal irrigation with a saline solution through a Neti pot:
Some evidence suggests that people with allergic rhinitis and asthma may benefit from a diet rich in omega-3 fatty acids (found in fish, almonds, walnuts, pumpkin, and flax seeds) and fruits and vegetables (at least 5 servings a day). Researchers are also studying probiotics, good bacteria such as lactobacillus and bifidobacterium, which can be obtained in supplements. However, clear evidence that probiotics improved symptoms of allergic rhinitis is lacking.
Some people with allergies report symptom relief through modalities such as acupuncture and Chinese herbal medicine. Recent guidelines suggest that acupuncture may indeed be helpful for people with perennial allergic rhinitis, and possibly seasonal rhinitis too. The evidence is inconclusive as to the benefits of Chinese herbal medicine.
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Reviewed By: Frederic F. Little, MD, Department of Allergy and Pulmonary/Critical Care Medicine, Boston University School of Medicine, Boston, MA. Review provided by VeriMed Healthcare Network. Also reviewed by David Zieve, MD, MHA, Medical Director, Brenda Conaway, Editorial Director, and the A.D.A.M. Editorial team.