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Environmental Control for Indoor Allergens

Environmental Control for Indoor Allergens

House dust contains a variety of allergens such as insect parts, animal dander, and dust mites. Furthermore, mold may also be present in homes. It is important to eliminate as much allergen as possible from the home in order to derive maximum benefit from your treatment.

House Dust Mite is probably the most important allergen in most homes. Controlling house dust mite exposure will decrease symptoms in allergic patients and may decrease the risk of developing dust mite allergy in patients not yet sensitized. Dust mites are tiny microscopic creatures that thrive in warm, moist climates. Upholstery (particularly the bed) is the ideal habitat for dust mites because they need the protection of the padding and a food supply (shed human skin) to survive. They cannot thrive on non-porous surfaces or in cool dry climates.

There are simple things you can do to minimize dust mite exposure:

  • You should concentrate on the bedroom (particularly the bed) because this is where you spend most of your time. In fact, when you are sleeping, you are breathing with your mouth and nose inches from a whole army of dust mites. The bedroom should be clutter free.
  • Dusting should be done frequently with a damp cloth.
  • The humidity in the bedroom should be kept below 50%. In Central Oklahoma this generally requires only air condition, but may require a de-humidifier. Humidifiers encourage dust mite and mold growth and should be avoided.
  • The mattress, box spring and pillow should be encased in dust mite proof encasements. All items on the bed should be washed in hot water (140 degrees) every one to two weeks. Stuffed animals should be removed from the bed.
  • Upholstered furniture and wall to wall carpet contain dust mites and should be avoided if possible, but these are not nearly as important as the bed.
  • Air filters, expensive vacuum cleaners, and duct cleaning help only minimally. When vacuuming, a HEPA filter or double bag should be used to minimize dust mites being stirred up and released into the air.

Cockroaches are now recognized as important indoor allergens. Other insects such as lady bugs, spiders, and crickets have recently been implicated. Keep the home clean and dry and fix any leaks or drips. It may be necessary to have an exterminator treat the home periodically.

Animal dander, generally from cats and dogs (but sometimes from gerbils, hamster, guinea pigs, mice, etc.) is a very important source of allergen in dust. Contrary to popular belief, animal hair is not the problem. Rather, it is a protein in the urine, saliva and dander of animal that provokes allergy. There are no “nonallergenic” furred pets. Some individual animals produce more allergen than others but there are no “safe” breeds.

  • The best thing you can do if you are allergic is to eliminate the pet.
  • Keeping the animal outside is only a partial solution because people who handle the animals outside will bring the allergen in on their clothes.
  • If you cannot eliminate the pet, try to keep the pet in non-upholstered areas and never let the pet in the bedroom. A HEPA filter in the bedroom may provide some protection.
  • Bathing the animals weekly may decrease the amount of allergen they produce.
  • After the animal has been removed, it can take as long as a year for allergen levels in the home to drop significantly, so a good thorough cleaning of the home is necessary after eliminating the animal.

Recently some information has come to light which suggests that if you are not already allergic it may actually be helpful to have cats or dogs in the home. However, if you are already pet allergic having the pets around will only worsen your allergic symptoms.

Indoor Mold can also cause significant allergic respiratory symptoms. Homes with high humidity and/or leaks have a high likelihood of having significant indoor molds. Once these issues have been fixed, it is generally easy to eliminate molds, but if you continue to have problems with water leaks or high humidity, you will have a hard time cleaning up your mold. Use a cleaning solution containing 5% bleach and a small amount of detergent to clean up moldy areas. Performing house dust control measures will help as well.

Recent News

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Therapy Aims to Turn IgE Allergy Antibodies into Reaction Blockers

A biotech company has developed a technique that transforms the antibodies that trigger allergic reactions into reaction blockers. Their first clinical trial on adults and teens with peanut allergy is set to begin in late 2024.

The innovative method developed by California startup IgGenix relies first on identifying the B cells in the blood that produce IgE antibodies. IgE is the major culprit in allergic reactions, but challenging to isolate.

When you have a food allergy, IgE antibodies to that food trigger become attached to cells called mast cells and basophils. If you consume that allergen, the IgE latches onto it. This triggers the mast cells and basophils to spew out histamines and other inflammatory chemicals that lead to symptoms such as itch, hives, swelling and potentially anaphylaxis.

To prevent this, researchers isolated the IgE and snipped off a portion of it. They then replaced that portion with a segment that transforms the IgE into a different type of antibody – IgG4. IgG4 is a protective antibody. It blocks the IgE from binding with the allergen – and triggering mast cells and basophils to release chemical agents.

“We’re able to chop off the part of the IgE antibody that binds to the mast cells and basophils, called the Fc portion, and instead we put on a benign portion that doesn’t bind,” says Dr. Jessica Grossman. The CEO of IgGenix explains that the new antibody “binds to peanut, but it no longer binds to the mast cells or basophils.”

The antibody for peanut, dubbed IGNX001, has already shown success in peanut-allergic mice. After a single injection of IGNX001, the mice didn’t react during an oral food challenge to peanut. Blood tests found their mast cells and basophils were no longer triggered when exposed peanut protein.

IgE Therapy: Goal of Many Allergens

Although peanut allergy is the company’s first treatment target, the approach should work for many allergens, says Derek Croote, PhD, IgGenix’s chief technical officer. The research team is working on creating batches of their monoclonal (lab-created) IgG4 antibodies for other major food allergens. They’re also investigating the therapy with allergens for dust mites, cat, dog, pollen and alpha-gal syndrome.

Ultimately, Croote says, they plan to build “a comprehensive database of IgE antibodies specific to everything humans are allergic to.”

IgGenix was founded by Dr. Kari Nadeau, Dr. Stephen Quake and Croote based on research they worked on at Stanford University. Nadeau is the former director of the Sean N. Parker Center for Allergy and Asthma Research at Stanford University and is now at Harvard University. Quake is a Stanford professor of bioengineering and applied physics, and co-president of the Chan Zuckerberg Biohub. Croote’s expertise is also in bioengineering.

To develop the treatment, the research team first had to overcome a challenge – finding and isolating the B cells that produce IgE antibodies. This “is our secret sauce,” Grossman says of IgGenix’s patented process.

Re-engineering IgE into IgG4   

B cells are a type of white blood cell. Only a tiny fraction of them actually produce IgE – less than 10 for very every 10 million white blood cells. “IgE antibodies are rare, and the blood cells that make them are rare,” Grossman explains.

breakthrough came in 2018, when Croote and colleagues isolated single IgE-producing B cells from six patients with peanut allergy. Of 973 suspect B cells, their investigation confirmed 89 “were actually the truly rare cells I was after,” Croote says.

Further study revealed that IgE antibodies bind to peanut protein in a similar place, called an epitope, from person to person. “It turns out that many people’s IgE is directed against the same spots on the same peanut allergen. That led us to an understanding that, if we block IgE from binding these spots, we can … prevent allergic reactions,” Croote says.

As a next step, researchers altered the IgE so that it would no longer latch onto the allergenic protein, mast cells and basophils. IgE antibodies are shaped like a Y. They cut off the bottom portion of the Y and replaced it with a different segment. That transformed it into an IgG4 antibody. The IgG4 antibody binds with the peanut allergen, while leaving the mast cells and basophils alone.

While a patient would still have existing IgE primed to grab onto the allergen, it won’t get the chance to. Croote says circulating IGNX001 antibodies “will intercept allergenic peanut proteins” first. As happened with the mice, this prevents the IgE binding that triggers symptoms.

IgE Therapy: Shellfish, Cat Possible

Croote and his IgGenix team have now analyzed blood samples from over 200 patients with a range of allergies. They’ve isolated some 10,000 IgE antibodies to numerous foods, cat, dog, dust mites, pollen, and alpha-gal.

They’re in the process of making batches of IgG4 for additional allergens. This involves sequencing the DNA and cloning the cells, so that they can be reproduced in large numbers. Shellfish will likely be next up, Grossman says. Other allergens will follow.

For some allergens, one protein is behind the allergic reactions. Therefore, blocking only one “immunodominant” protein should be enough to halt reactions, Croote says. This seems to be the case with peanut, and also potentially cat allergy, in which the protein Fel d1 is mainly to blame for the sneezing or wheezing. However, some allergens, like milk, may require blocking more than one allergenic protein to provide protection.

Croote says they looked for patients with severe allergies, and their powerfully binding IgE. Called “high affinity,” this is IgE that “the moment it sees and allergen, it grabs onto it, and doesn’t let go,” Croote says.

“We choose blood samples from people with extremely severe forms of disease because that is beneficial to our therapeutic process,” Croote says. “What better a starting point for a blocking therapy than an IgE that causes such potent reactions to an allergen?”

Clinical Trial to Kick Off

The first clinical trial for IGNX001 will enroll 24 peanut-allergic patients ages 15 and older in Australia. Study participants will undergo a food challenge to peanut prior to receiving a single injection of IGNX001.

“I am absolutely thrilled to be moving into human trials with a therapeutic for food allergy. This is a dream come true,” Croote says.

Since it’s a Phase 1 study, the researchers are primarily looking at the safety and tolerability of two dosing levels. But participants will be followed for three months to see how long the antibody remains in the blood and at what concentration.

Studies in primates suggest the dosing interval could potentially be an injection every other month, or six times a year. Each shot would cover one allergen, so if you have multiple allergies, you’d need an injection for each one. To maintain protection, the treatment would likely need to continue indefinitely, Croote adds.

Participants in the controlled trial will undergo skin and other tests and, at one month, an oral food challenge.

Grossman says the treatment has a similar effect as oral immunotherapy – only it would work much faster. In OIT, allergic individuals eat small amounts of their food allergen in increasing doses over the course of several months to build tolerance.

One effect of OIT is that levels of IgG4 often rise over months or years. With the IgGenix monoclonal antibody treatment, Grossman says “instead of having to wait for your body to naturally drive up levels of IgG, we’re going to give it to you in a shot. It’s giving you all of that protection from OIT, in a single shot.”

IgE Therapy: Fast Protection

Croote adds that OIT can also have side effects and safety concerns due to patients having to consume the allergen doses.

“Why put patients through this long, often challenging course of treatment where on a daily basis they’re exposed to what they’re allergic to in order to generate these IgG4s? Why not just give them the best most protective IgG4s in a subcutaneous injection and have them protected almost immediately?” he says.

As with Palforzia and Xolair, the two food allergy treatments approved by the U.S. Food and Drug Administration, Croote anticipates that an IgGenix product label would also recommend continued food avoidance.

However, research in animals suggests patients may be able to tolerate substantial amounts of their allergen. He says they’ll learn more about protection levels in the clinical trials.

If it gets approved, Croote says the IgGenix treatment could begin working in a few days. “We think that will be revolutionary for patients and caregivers. Imagine your kid going to summer camp and having them injected with a shot just a week beforehand, which would significantly reduce that anxiety” around camp.

“We think those types of scenarios will really bring the advantages of our product to light,” he says.

For Croote, the quest to develop a better allergy treatment has a personal element. He has a severe milk allergy that has sent him to the ER on multiple occasions. While traveling in France in June, he had a reaction while eating out. The reaction occurred despite his being “very careful,” and being assured by restaurant staff that his meal was dairy-free. His symptoms resolved after using his epinephrine auto-injector.

“I am all too familiar with the symptoms of an allergic reaction and the need for there to be better treatments,” Croote says.

Source: https://www.allergicliving.com/2024/06/24/therapy-aims-to-turn-ige-allergy-antibodies-into-reaction-blockers/

The post Therapy Aims to Turn IgE Allergy Antibodies into Reaction Blockers appeared first on Oklahoma Allergy and Asthma Clinic.

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