Chaetomium Mold: The Hidden Danger After Water Damage

Most homeowners know to worry about mold after a flood or leak—but they may not realize that some of the most destructive types of mold grow behind the scenes, inside walls or under carpets. One of the most commonly overlooked yet serious molds in water-damaged properties is Chaetomium (pronounced key-TOE-mee-um).

If your home or business has suffered a roof leak, plumbing failure, or flooding, you need to know about this mold—and why it’s a red flag for more than just allergies.


What Is Chaetomium Mold?

Chaetomium is a cellulose-loving mold commonly found in buildings that have suffered water damage. It thrives on materials like drywall, wallpaper, carpets, wood, and insulation—basically anything organic that stays damp for too long.

Unlike many molds that grow in visible patches, Chaetomium often hides inside walls or under floors, growing undetected until serious damage occurs.


Where Does Chaetomium Grow?

Chaetomium needs high moisture and cellulose to grow. It’s commonly found in:

  • Drywall after roof or pipe leaks
  • Carpet padding and subflooring
  • Basement walls and foundation leaks
  • Behind wallpaper or paneling
  • Attics and crawlspaces with poor ventilation

Its presence often indicates prolonged moisture exposure—and sometimes deeper structural issues.


Health Risks Associated with Chaetomium

While Chaetomium isn’t as notorious as Stachybotrys (black mold), it can still cause a range of health issues, especially in people with:

  • Asthma or respiratory sensitivity
  • Weakened immune systems
  • Allergies or chronic sinus infections

Exposure to Chaetomium spores may lead to:

  • Persistent coughing or sneezing
  • Skin and eye irritation
  • Headaches or fatigue
  • Neurological symptoms in severe or long-term cases

In rare situations, certain species of Chaetomium have been associated with opportunistic infections in immunocompromised individuals.


Why Chaetomium Indicates Bigger Problems

One of the biggest concerns with Chaetomium is that its presence often means there’s been significant, ongoing water damage. By the time it’s detected, building materials may already be compromised.

It’s also commonly found alongside other toxic molds like Stachybotrys and Aspergillus, which makes accurate identification and complete remediation critical.


How to Detect and Remove Chaetomium Mold

Chaetomium is difficult to identify without laboratory testing. That’s why professional mold inspection is the safest first step after water damage.

At MSI, we conduct:

  • Air and surface mold testing to identify the type and severity of mold
  • Moisture mapping to find the source of dampness
  • Containment and HEPA air filtration to prevent cross-contamination
  • Safe removal of affected materials followed by antimicrobial treatment

Because of its hidden nature and aggressive growth, Chaetomium cleanup should never be DIY.


Water Damage? Don’t Wait for Chaetomium to Appear

If your property has experienced flooding, leaks, or high humidity, don’t assume the problem is gone just because surfaces look dry. Hidden mold can begin growing within 24–48 hours of water exposure.

The sooner it’s identified, the easier and safer the cleanup process will be.


Schedule a Mold Inspection with MSI Today

At MSI, we’ve been inspecting and remediating mold since 1998. Our certified team has seen thousands of water-damaged buildings and knows exactly what to look for—even the mold you can’t see.

Call us at 877-712-1600 to schedule a professional mold inspection and protect your home, health, and investment.

Why Proper Mold Remediation Protocols Truly Matter

When it comes to mold remediation, appearances can be deceiving. A company might have great reviews online, but that doesn’t always mean their work follows professional standards. Without the right protocols, you could be left with hidden risks long after the job is “finished.”

What Proper Mold Remediation Should Look Like

Professional mold remediation isn’t just about removing visible mold. It’s a detailed process that should always include:

  • Full containment to prevent cross-contamination
  • Use of proper personal protective equipment (PPE), including respirators, suits, and gloves
  • Air filtration devices (HEPA filters) running throughout the job
  • Safe removal and disposal of affected materials
  • Proper cleaning and post-remediation verification

If any of these steps are skipped—or if crews aren’t even wearing the right PPE—it’s a clear sign that corners are being cut.

The Dangers of Cutting Corners

When mold remediation isn’t done properly:

  • Mold spores can spread to other areas of the home
  • Occupants may continue to experience health issues
  • Moisture problems may not be fully addressed, leading to future growth
  • Insurance claims related to the damage could be denied

In short, improper remediation doesn’t just waste your money—it puts your property and your health at risk.

Certifications Matter

At MSI, we take mold remediation seriously. As an IICRC Certified Firm, we follow strict industry protocols to ensure every project is handled safely, thoroughly, and professionally. Certification isn’t just a title—it’s proof that we meet the highest standards for mold removal and safety.

Before you trust any company with your home, make sure they have the training, equipment, and certifications necessary to protect you—not just their own image.

How Mold Effects Us

After pollens, molds are the leading cause of outdoor airborne allergies, which can recur year-round. Some of the most common symptoms of those sensitive to molds include nasal stuffiness, eye irritation, wheezing, cold and flu-like symptoms, rashes, conjunctivitis, inability to concentrate, and fatigue. Mold exposure has also been associated with asthma onset. Symptoms usually disappear when the mold is removed. However, under certain conditions, exposure to mold can cause serious health problems. Some people with chronic illnesses, such as obstructive lung disease, for example, may develop mold infections in their lungs. Also, some people exposed to large amounts of mold at work, such as farmers working with moldy hay, may develop even more severe reactions, including fever and shortness of breath. Some molds are toxic, producing chemicals called “mycotoxins,” which in large doses may affect human health, usually by causing allergy-like symptoms such as watery eyes or eye irritation, runny nose and sneezing or nasal congestion, wheezing and difficulty breathing, aggravation of asthma, coughing, itching, or rashes.

Other health problems that have been linked to mold exposure involve the odors produced by mold “volatiles” during the degradation of substrates. These have been discovered to irritate mucous membranes, and they have been associated with a number of symptoms from headaches and nausea to fatigue in individuals exposed to them. For those suffering from multiple chemical sensitivities, the simple presence of these microbial volatile organic compounds (MVOCs) can trigger a reaction just as strong and serious as exposure to chemical VOCs. Fungi or microorganisms related to them may cause other health problems similar to allergy. Some kinds of Aspergillus especially 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 and actually infect the lungs or the whole body.

In some individuals, exposure to these fungi can also lead to asthma or to an illness known as “allergic bronchopulmonary aspergillosis.” This latter condition, which occurs occasionally in people with asthma, is characterized by wheezing, low-grade fever, and coughing up of brown-flecked masses or mucous 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. The occurrence of allergic aspergillosis suggests that other fungi might cause similar respiratory conditions. Inhalation of spores from fungus-like bacteria, called “actinomycetes,” and from mold can cause a lung disease called “hypersensitivity pneumonitis.” This condition is often associated with specific occupations. For example, farmer’s lung disease results from inhaling spores growing in moldy hay and grains in silos. Occasionally, “hypersensitivity pneumonitis” develops in people who live or work where an air conditioning or a humidifying unit that is contaminated with these spores emits them.

The symptoms of “hypersensitivity pneumonitis” may resemble those of a bacterial or viral infection such as the flu. Bouts of chills, fever, weakness, muscle pains, cough, and shortness of breath develop 4 to 8 hours after exposure to the offending organism. The symptoms gradually disappear when the source of exposure is removed and the area properly ventilated. If it is not removed, workers having to be in those contaminated areas must wear a protective mask with a filter capable of removing spores or change jobs. If “hypersensitivity pneumonitis” is allowed to progress, it can lead to serious heart and lung problems. Also, air with a high concentration of fungal spores of a number of different types of molds may contain toxins that, when breathed over a long period of time, may result in a kind of poisoning. Stachybotrys atra, a mold that is commonly found on wet cellulose products (for example, drywall) and is causing growing concern among physicians, is one of these molds. In one recent study, it was linked to lung bleeding in infants. This mold has also been linked to sudden infant death syndrome and to central nervous system symptoms such as personality changes, sleep disorders, and memory loss.