Promotional poster for a UK citizen science project exploring damp homes, mould exposure and respiratory health including aspergillosis

Join our UK Citizen Science Project on Damp Homes and Health

Promotional poster for a UK citizen science project exploring damp homes, mould exposure and respiratory health including aspergillosis
Citizen science project exploring how damp homes, mould exposure and housing conditions may affect respiratory health, including aspergillosis, asthma and COPD.

Many people living with aspergillosis, asthma and chronic lung disease tell us they are worried about damp, mould and housing conditions — but often struggle to know:

  • whether their home really has a problem
  • who to trust for advice
  • whether mould testing is reliable
  • and what effective remediation should involve.

There is currently considerable uncertainty around indoor mould assessment, air sampling and interpretation of results. Many patients report difficulty obtaining clear, independent advice or meaningful remediation.

At the same time, we still know surprisingly little about the real-life health impact of living in damp homes across the UK.

A UK Citizen Science Project

We are supporting a UK citizen science project exploring how damp homes may affect health, including respiratory health and conditions such as aspergillosis.

Citizen science projects involve members of the public helping researchers and healthcare communities better understand real-world problems by sharing experiences and observations.

You do not need to have diagnosed aspergillosis to take part.

We are interested in hearing from people:

  • living in damp or mouldy homes
  • living in homes without damp
  • with respiratory conditions
  • and without respiratory conditions.

The initial registration takes about 1 minute and simply records your interest in the project.

Why this matters

By taking part, you may help improve understanding of:

  • damp homes and respiratory disease
  • mould exposure
  • indoor air quality
  • housing conditions
  • challenges with mould assessment and remediation
  • and the wider health impact of dampness in UK homes.

We hope the project will help patients, clinicians, housing professionals and researchers better understand:

  • how people experience damp homes in real life
  • the difficulties many people face obtaining reliable advice
  • the limitations of current mould assessment approaches
  • and what practical interventions may genuinely improve health and quality of life.

Related information

You can also read our practical guide discussing damp homes, mould testing, remediation and tenant support:


Read our guide to damp, mould and aspergillosis

Find out more or register your interest


Damp Homes and Health Study UK

Please share this project with:

  • patients and carers
  • healthcare professionals
  • housing professionals
  • damp and mould specialists
  • environmental health professionals
  • researchers
  • and anyone interested in improving understanding of damp homes and health.

by GAtherton

Infographic showing how to reduce Aspergillus mould exposure at home including ventilation, humidity control, cleaning, and common sources like damp, compost, and houseplants

Reducing Exposure to Mould (Aspergillus) at Home

Infographic showing how to reduce Aspergillus mould exposure at home including ventilation, humidity control, cleaning, and common sources like damp, compost, and houseplants
Practical steps to reduce exposure to Aspergillus at home, focusing on ventilation, moisture control, and avoiding high-risk sources such as damp areas, compost, and dust.
Last reviewed: May 2026
Audience: Patients with aspergillosis (including Allergic Bronchopulmonary Aspergillosis and Chronic Pulmonary Aspergillosis), carers, and non-specialist cliniciansIf you have aspergillosis, reducing exposure to environmental moulds such as Aspergillus can help minimise symptoms and reduce the risk of flare-ups.This guide brings together practical, evidence-informed advice based on environmental studies and clinical experience at specialist centres such as the National Aspergillosis Centre (Manchester, UK).

🔑 Key Points

  • Aspergillus spores are present in the air almost everywhere.
  • Complete avoidance is not possible—focus on reducing higher-level exposures.
  • The most important drivers are moisture, organic decay, and disturbance.
  • Indoor exposure is often more important than outdoor exposure.
  • Simple environmental and behavioural changes can significantly reduce risk.

🌍 Where does mould exposure come from?

Aspergillus is a common environmental mould. It grows on organic material and releases microscopic spores into the air.

Common sources include:

  • Damp walls, ceilings, and condensation
  • Soil, compost, and plant material
  • Dust and poorly ventilated spaces
  • Food waste and decaying organic matter

Spores are always present at low levels. Problems arise when concentrations increase, particularly in enclosed or damp environments.

⚖️ Who is most affected?

Reducing exposure is particularly relevant for people with:

  • Allergic Bronchopulmonary Aspergillosis (ABPA)
  • Chronic Pulmonary Aspergillosis (CPA)
  • Asthma or bronchiectasis
  • Reduced immune function

Individual sensitivity varies. Some people notice clear environmental triggers, while others are less affected by day-to-day variation.

⚠️ What symptoms can mould exposure trigger?

Exposure may trigger or worsen symptoms by increasing airway inflammation or allergic responses.

Respiratory symptoms

  • Increased breathlessness
  • Wheezing or chest tightness
  • Persistent or worsening cough
  • Increased or thicker mucus
  • Reduced peak flow (if monitored)

Allergic-type symptoms

  • Nasal congestion or runny nose
  • Itchy throat
  • Sneezing

General symptoms

  • Fatigue
  • Reduced exercise tolerance

In ABPA, exposure may contribute to flare-ups. In CPA, changes may be more gradual.

👀 What should you watch out for?

Patterns are often more informative than single exposures.

  • Symptoms worsening after specific activities (e.g. gardening, cleaning)
  • Symptoms linked to particular rooms or buildings
  • Improvement when away from home
  • Worsening in damp or musty environments

Keeping a simple symptom diary can sometimes help identify triggers.

Important: Not all symptoms are due to mould exposure—other factors such as infection or asthma control may also play a role.

🏠 Reducing mould in your home

1. Control moisture (most important factor)

  • Fix leaks promptly (pipes, roofs, windows)
  • Dry condensation from windows and walls
  • Avoid prolonged indoor drying of clothes where possible

Moisture is the key driver of mould growth—reducing it addresses the root cause.

2. Improve ventilation

  • Open windows regularly (even short periods can help)
  • Use extractor fans in kitchens and bathrooms
  • Avoid blocking vents or airflow pathways

Ventilation removes spores and reduces humidity at the same time.

3. Manage condensation

  • Maintain a relatively stable indoor temperature
  • Use lids when cooking
  • Consider dehumidifiers in problem areas

🌬️ Ventilation, filtration and humidity

Ventilation (first priority)

Ventilation is usually the most effective intervention because it removes airborne spores and reduces moisture.

Dehumidifiers

Dehumidifiers reduce indoor humidity (target around 40–60%), making conditions less favourable for mould growth.

HEPA air purifiers

HEPA filters can remove airborne particles, including fungal spores. However, they do not address the source of mould and are best used alongside other measures.

Practical approach: address moisture and ventilation first, then consider additional filtration if needed.

🌦️ Does weather affect mould exposure?

  • Rain can reduce airborne spores by washing them out of the air
  • Cold conditions reduce fungal growth
  • Dry, windy weather can increase exposure by disturbing dust and soil

However, indoor conditions usually have a greater impact than outdoor weather.

🌍 Do some environments reduce exposure?

Some environments may be associated with lower exposure:

  • Dry climates (lower humidity)
  • Coastal areas (good airflow and dilution)
  • Cooler conditions (reduced fungal growth)

There is no completely “safe” location, and indoor conditions often matter more than geography.

🌿 Activities and exposure

Some activities can temporarily increase exposure:

  • Gardening or handling compost
  • Cleaning dusty areas
  • Handling stored materials

Precautions:

  • Wear a well-fitted mask (FFP2 or FFP3)
  • Carry out dusty tasks outdoors where possible
  • Avoid enclosed, poorly ventilated spaces

🗑️ Indoor compost bins and food waste

Food waste provides an ideal environment for mould growth.

Risk increases when waste is stored indoors for prolonged periods, particularly in warm conditions.

  • Empty bins frequently (ideally daily)
  • Use sealed containers
  • Keep in well-ventilated areas
  • Clean bins regularly

🌱 Houseplants

The main risk comes from soil and moisture rather than the plant itself.

👉 Read full guide on houseplants and aspergillosis

⚖️ Balancing risk and quality of life

It is important to balance exposure reduction with maintaining normal daily activities.

  • Gardening can often continue with precautions
  • Houseplants can often be kept safely
  • Focus on reducing higher-risk exposures rather than avoiding everything

⚠️ When to seek medical advice

  • Increasing breathlessness
  • Worsening cough or mucus
  • Reduced peak flow
  • Symptoms clearly linked to environment

Seek urgent advice for:

  • Rapid breathlessness
  • Chest pain
  • Coughing blood

📚 Further reading

👩‍⚕️ Author & Review

Developed using patient questions and reviewed in line with National Aspergillosis Centre practice (Manchester, UK).
This information is general and does not replace individual medical advice.

by GAtherton

Houseplants and aspergillosis risk showing how soil and moisture can expose people with ABPA to Aspergillus spores and how to reduce risk

Houseplants and Aspergillosis: Do You Need to Get Rid of Them?

Houseplants and aspergillosis risk showing how soil and moisture can expose people with ABPA to Aspergillus spores and how to reduce risk
Houseplants can be kept safely with ABPA in many cases—focus on soil management, hygiene, and ventilation to reduce Aspergillus exposure.
Last reviewed: May 2026
Audience: Patients with aspergillosis (including Allergic Bronchopulmonary Aspergillosis), carers, and non-specialist cliniciansHouseplants are a common concern for people with
aspergillosis, particularly those with
Allergic Bronchopulmonary Aspergillosis (ABPA).If you’ve asked this question, you’re not alone—many patients raise it in our
patient questions and discussions.

🔑 Key Points

  • Houseplants can be a source of Aspergillus spores, mainly from soil.
  • Most people with ABPA do not need to remove all plants.
  • The main risk comes from damp soil and disturbance.
  • Simple precautions can significantly reduce exposure.
  • How plants are cared for matters more than the type of plant.

Contents

🌱 Why can houseplants be a problem?

Aspergillus is a common environmental mould found in:

  • Soil and compost
  • Decaying plant material
  • Damp indoor environments

For people with Allergic Bronchopulmonary Aspergillosis (ABPA), inhaling spores can trigger airway inflammation, wheeze, cough, and breathlessness.

The main risk comes from soil rather than the plant itself.

⚖️ How big is the risk?

The risk varies depending on:

  • How stable your condition is
  • The number of plants
  • Ventilation in your home
  • How plants are maintained

Specialist centres such as the National Aspergillosis Centre (NAC) recommend a
risk reduction approach rather than complete avoidance.
You can read more in our guide to
reducing mould exposure.

Important: There is limited direct research linking houseplants to worsening ABPA. Advice is based on environmental studies and clinical experience.

🌿 Do houseplants clean the air?

You may have heard that houseplants “clean the air.” This idea comes from laboratory studies, including research by
:contentReference[oaicite:0]{index=0}, conducted in sealed environments.

In real homes, the effect is minimal.

  • Very large numbers of plants would be needed
  • Ventilation has a much greater impact
  • Soil may introduce Aspergillus spores

For a broader explanation, see our
aspergillosis overview.

Bottom line: Plants may improve wellbeing, but they are not an effective air-cleaning strategy.

🌿 Can I safely keep my houseplants?

In many cases, yes.

Many people with ABPA keep houseplants without problems when their condition is stable and plants are well maintained.

However, some individuals are more sensitive, so a personalised approach is important.

✅ How to reduce your risk

1. Manage the soil carefully

  • Avoid constantly damp compost
  • Allow the top layer to dry between watering
  • Consider lower-organic substrates (e.g. clay pebbles)

Tip from patients: Adding a layer of stones or gravel on top of the soil can reduce disturbance during watering and may help limit release of fungal spores.

2. Avoid disturbing soil indoors

  • Repot plants outside if possible
  • Wear a well-fitted mask (FFP2 or FFP3)

3. Maintain good plant hygiene

  • Remove dead leaves promptly
  • Avoid visible mould growth
  • Do not allow stagnant water

4. Choose locations carefully

  • Keep plants out of bedrooms
  • Ensure good ventilation

5. Personal hygiene after handling plants

  • Wash hands after handling soil or compost
  • Avoid touching your face before cleaning hands
  • Consider changing clothes after heavy gardening
  • Ventilate the area after indoor plant work

These steps form part of a wider approach to
reducing environmental exposure.

🌿 Are some plants lower risk for ABPA?

There is no strong evidence that specific plants are “safe” or “unsafe.” The main risk comes from soil and moisture.

Some setups may be lower risk in practice:

  • Hydroponic or semi-hydroponic plants
  • Plants that prefer drier conditions (e.g. succulents)
  • Well-maintained plants with minimal decaying material

Important: Any plant can become higher risk if soil becomes damp or mouldy.

If unsure, you may wish to review
clinical guidance or discuss with your care team.

🚩 When should I consider removing plants?

  • Symptoms worsen after watering or handling plants
  • Visible mould in soil
  • Frequent flare-ups
  • Clinical advice recommends stricter avoidance

Some people remove plants temporarily during unstable periods and reintroduce them later.

❓ Common questions

Are leaves dangerous?

No—the main risk comes from soil and decaying material.

Is outdoor gardening riskier?

Yes, due to higher exposure. Wearing a mask is recommended.

Do air purifiers help?

HEPA filters may reduce airborne particles, but evidence specific to ABPA is limited.

⚠️ When to seek medical advice

  • Increasing breathlessness or wheeze
  • Worsening cough or mucus
  • Reduced peak flow
  • Symptoms linked to specific environments

Do not change treatment without medical advice.

📚 References & Further Reading

👩‍⚕️ Author & Review

Developed for patient education in line with UK specialist practice (National Aspergillosis Centre, Manchester).
This information is general and does not replace individual medical advice.

Looking for more answers? Visit our
patient questions hub.

by GAtherton

Infographic showing how damp homes and poor ventilation lead to mould, microbes and respiratory health problems

Damp Homes, Indoor Air and Health: What a Recent Evidence Review Tells Us

Infographic showing how damp homes and poor ventilation lead to mould, microbes and respiratory health problems
How dampness and poor ventilation can increase mould and affect the air we breathe indoors.

Summary: A recent rapid review by researchers from the Health and Safety Executive examined evidence on microbiological hazards in buildings, including moulds, bacteria and viruses. The review highlights that dampness, poor ventilation and building design can all affect indoor air quality and respiratory health.

Key points

  • People spend much of their time indoors, so indoor air quality can strongly affect health.
  • Damp indoor conditions increase the risk of mould growth and musty odours.
  • Common indoor moulds include Aspergillus, Penicillium and Cladosporium.
  • Dampness and visible or hidden mould are linked with asthma, rhinitis, wheeze and other respiratory symptoms.
  • Ventilation is one of the most important ways to reduce moisture and dilute airborne contaminants.
  • Improving energy efficiency is important, but very airtight homes still need adequate ventilation.

Contents

Why indoor air matters

Most of us spend a large amount of time indoors — at home, at work, or in public buildings. The air inside buildings can contain particles from many sources, including dust, mould spores, bacteria, viruses, cooking, cleaning products, pets and outdoor air entering the home.

The recent review, Exposure Risks from Microbiological Hazards in Buildings and Their Control — A Rapid Review of the Evidence, looked at evidence for harmful microorganisms in indoor air and on surfaces, and how building design, ventilation and moisture affect exposure.

What the review found

The review found strong evidence that microorganisms can be present in indoor air and on surfaces. These include fungi, bacteria and viruses. The evidence was strongest for the role of dampness and poor ventilation in increasing the risk of indoor mould growth and respiratory health effects.

The review’s main conclusions included:

  • Airborne allergenic fungi are well documented in indoor air.
  • Damp conditions increase mould growth and mouldy odours indoors.
  • Dampness and mould are associated with respiratory ill health, including asthma, rhinitis and wheezing.
  • Penicillium, Aspergillus and Cladosporium are commonly detected in damp buildings.
  • Infectious viruses and bacteria can also be detected in indoor air and on surfaces.
  • Ventilation is a key control measure for reducing moisture and diluting airborne contaminants.

Damp, mould and lung health

Dampness is one of the most important drivers of indoor mould growth. Moisture can come from leaks, condensation, flooding, poor insulation, inadequate heating, drying clothes indoors, cooking, showering, or poor ventilation.

When dampness persists, mould can colonise indoor materials such as plasterboard, wallpaper, wood, carpets, soft furnishings and settled dust. Mould may be visible, but it can also grow in hidden areas such as behind furniture, inside wall cavities, behind wallpaper, under flooring, or around poorly ventilated cold surfaces.

Exposure to damp and mould has been linked with:

  • Wheezing
  • Asthma symptoms or asthma worsening
  • Rhinitis and nasal symptoms
  • Cough
  • Respiratory infections
  • Worsening symptoms in people with existing lung disease

Importantly, the review notes that the relationship between indoor microorganisms and health is complex. Risk depends on the type of organism, the level of exposure, the building conditions and the susceptibility of the person exposed.

Aspergillus and aspergillosis

Aspergillus is a common mould found in the environment. Most people inhale Aspergillus spores every day without becoming ill. However, some people are more vulnerable, including those with asthma, bronchiectasis, chronic lung disease, weakened immune systems, or previous lung damage.

In susceptible people, exposure to Aspergillus may contribute to conditions such as allergic bronchopulmonary aspergillosis (ABPA), severe asthma with fungal sensitisation (SAFS), aspergillus bronchitis, or chronic pulmonary aspergillosis (CPA). The home environment is not the only source of exposure, but damp indoor spaces may increase the amount of fungal material a person breathes in.

This does not mean that every damp home causes aspergillosis, or that every person exposed to mould will become ill. It does mean that reducing dampness, improving ventilation and addressing visible or hidden mould are sensible steps for respiratory health.

Ventilation and building design

One of the strongest messages from the review is that ventilation is central to controlling indoor microbiological risk. Ventilation helps by:

  • Removing moisture from indoor air
  • Reducing condensation
  • Diluting airborne mould spores and other particles
  • Reducing the build-up of infectious aerosols
  • Improving overall indoor air quality

The review also highlights an important modern problem. Homes are increasingly designed or retrofitted to be more airtight and energy efficient. This can improve warmth and reduce energy use, but if ventilation is inadequate, moisture and airborne contaminants may accumulate indoors.

In other words, insulation and energy efficiency are important, but they need to be balanced with effective ventilation and moisture control.

What can help reduce risk?

The review does not suggest that one single action solves all indoor air problems. Instead, it supports a combined approach.

1. Reduce moisture

  • Repair leaks promptly.
  • Check roofs, gutters, pipes and window seals.
  • Use extractor fans in kitchens and bathrooms where available.
  • Avoid drying clothes indoors where possible, or ventilate well if you do.
  • Reduce condensation on windows and cold walls.

2. Improve ventilation

  • Use trickle vents if fitted.
  • Open windows when safe and practical.
  • Use mechanical ventilation systems correctly.
  • Keep air bricks and vents clear.
  • Make sure extractor fans are working effectively.

3. Deal with mould safely

  • Small areas of surface mould may be cleaned carefully using appropriate household methods.
  • Large, persistent or recurring mould usually needs the underlying damp problem fixed.
  • People with significant lung disease, immune suppression or severe symptoms should avoid heavy mould disturbance and seek advice.

4. Reduce dust reservoirs

  • Regular cleaning can reduce settled dust and spores.
  • HEPA-filter vacuum cleaners may be helpful for some households.
  • Hard flooring may be easier to keep dust-free than carpets in high-risk situations.

5. Consider air filtration where appropriate

Portable high-efficiency particulate air (HEPA) filters may help reduce airborne particles in some settings. They are not a substitute for fixing damp or improving ventilation, but they may be a useful additional measure for some people.

Help us understand damp homes and health

The evidence linking damp homes, mould and respiratory health is strong, but there are still important unanswered questions. We need to better understand how different homes, building types, ventilation patterns and damp conditions affect people’s health in real life.

The National Aspergillosis Centre is running a UK citizen science study looking at damp homes and health.

We are inviting people to register their interest in taking part.

The study is open to people with and without lung conditions, and to people living in homes with or without damp or mould. This comparison is important because it helps researchers understand which factors are most strongly linked with health outcomes.

Register your interest in the damp homes and health study

Taking part may involve completing a questionnaire and, at a later stage, providing a dust sample from your home. The information gathered will help improve understanding of indoor environments and respiratory health.

When to seek medical advice

Please seek medical advice if you have:

  • New or worsening breathlessness
  • Chest pain
  • Coughing up blood
  • Persistent fever
  • Repeated chest infections
  • Rapidly worsening asthma symptoms
  • Unexplained weight loss or severe fatigue

If you already have aspergillosis, asthma, bronchiectasis, chronic obstructive pulmonary disease (COPD), immune suppression, or another lung condition, it is worth discussing any significant damp or mould exposure with your healthcare team.

Common questions

Can mould affect health even if I cannot see it?

Yes. Hidden mould or dampness may still affect indoor air quality. A musty smell, persistent condensation or symptoms that worsen in a particular room may suggest a problem.

Does all mould cause aspergillosis?

No. Mould exposure is common, and most people do not develop aspergillosis. Aspergillosis usually occurs when exposure combines with individual susceptibility, such as asthma, bronchiectasis, immune suppression or existing lung damage.

Is ventilation always good?

Ventilation is usually important for reducing moisture and improving indoor air quality. However, the best approach depends on the building, outdoor conditions and the person’s health. Ventilation should not replace fixing leaks or removing sources of damp.

Can air purifiers solve damp and mould problems?

No. Air purifiers may reduce airborne particles, but they do not remove the source of moisture or mould growth. Damp problems need to be addressed at source.

Summary

This recent evidence review reinforces a practical message: indoor air quality matters. Dampness, poor ventilation and mould growth are not simply cosmetic housing problems — they can affect respiratory health, especially in people with asthma, aspergillosis or other lung conditions.

The most effective approach is to reduce moisture, improve ventilation, remove mould sources where possible and understand how buildings influence exposure. Research such as the UK damp homes and health study will help build better evidence for patients, clinicians, housing providers and policymakers.

References and further reading

Article type: Patient and public information

Last reviewed: April 2026

Based on: Recent evidence review of microbiological hazards in buildings and their control.

by GAtherton

Mould, “Toxins” and Aspergillus: Understanding What’s True and What Isn’t

Last reviewed: April 2026

Key points

  • Exposure to mould is not the same as having aspergillosis.
  • Aspergillus is a common environmental fungus that most people inhale daily.
  • “Mycotoxin” and “detox” explanations are common online but are not part of standard diagnosis.
  • Symptoms usually arise from a combination of lung disease, infection, inflammation, and environment.
  • Diagnosis relies on clinical tests (scans, blood tests, microbiology), not environmental testing alone.
  • Specialist home testing is sometimes used—but only in specific clinical situations.

A guide for patients and carers

Many people with lung conditions come across information linking mould exposure, toxins, and Aspergillus infections. Some of this information can be helpful—but much of it can also be confusing.

This article explains the most common misunderstandings and what current medical practice actually relies on.

Important: Some tests measure exposure—but medical diagnosis requires evidence of disease.

Contents

Why this topic is confusing

  • Mould is visible and easy to focus on
  • Symptoms (fatigue, cough, breathlessness) are non-specific
  • Online information often mixes different conditions together

This can lead to the idea that one single cause—such as “mould toxicity”—explains everything. In practice, respiratory conditions are usually more complex.

Mould exposure vs Aspergillus disease

Mould exposure

  • Common in homes and outdoor air
  • Can irritate airways
  • May worsen symptoms

Aspergillus disease

  • Occurs in specific medical contexts
  • Related to lung structure and immune response
  • Requires clinical diagnosis
Being exposed to mould does not mean you will develop aspergillosis.

Important context: Aspergillus spores are present in the air we breathe every day. Most people inhale them without developing disease.

Mycotoxins and “detox” claims

You may see references to:

  • “Mycotoxin illness”
  • “Die-off reactions”
  • “Binders” to remove toxins

These ideas are widely discussed online, but they are not part of standard medical diagnosis or treatment for Aspergillus lung conditions.

This does not mean symptoms are not real. It means they are usually explained through:

  • Inflammation
  • Infection
  • Underlying lung disease

Why “mould toxin tests” are not used diagnostically

Exposure is common

Many people have detectable environmental exposure, so results are not specific.

Results do not match symptoms reliably

Levels do not consistently correlate with disease or severity.

Lack of standardisation

Different labs use different methods, making interpretation difficult.

Not part of clinical guidelines

Major respiratory guidelines do not include these tests in diagnosing Aspergillus conditions.

Risk of confusion

  • May cause unnecessary concern
  • May lead to unproven treatments
These tests may detect exposure—but they do not diagnose Aspergillus disease.

Why symptoms don’t have one single cause

Symptoms often arise from a combination of:

  • Underlying lung disease
  • Inflammation
  • Infection (fungal or bacterial)
  • Environmental triggers (pollution, damp)

This is why symptoms can fluctuate and may not respond to a single explanation or treatment.

How Aspergillus conditions are actually diagnosed

Diagnosis is based on a combination of:

  • CT imaging
  • Blood tests (e.g. IgE, IgG)
  • Microbiology (sputum or bronchoscopy)

Environmental testing alone is not sufficient to diagnose disease.

When home testing may be used

In some cases, specialist teams (for example via the Mycology Reference Centre Manchester) may arrange targeted environmental sampling.

This is different from commercial testing and focuses on:

  • Specific clinically relevant fungi (e.g. Aspergillus species)
  • Known allergens or pathogens

Why it is done

  • Established Aspergillus-related disease
  • Unexplained or persistent symptoms
  • Concern about ongoing exposure

This testing is used to answer specific clinical questions and is interpreted alongside medical findings.

Specialist home testing is selective and clinically guided—not a routine diagnostic tool.

What matters most for patients

  • Work with your clinical team for diagnosis and treatment
  • Address damp and mould in your home
  • Focus on practical steps that improve symptoms
  • Avoid relying on a single explanation for complex symptoms

Final takeaway

Mould, environment, and Aspergillus are connected—but not in a simple cause-and-effect way.

Understanding this helps you focus on what is most likely to improve your health: appropriate treatment, good living conditions, and ongoing monitoring.

Author: aspergillosis.org

Note: Educational content only – not medical advice.

by GAtherton

Indoor Air Quality, Damp, Mould and Aspergillus

Last reviewed: April 2026

Key points

  • Indoor air problems usually relate to pollution, damp, or mould—these are different but can overlap.
  • Aspergillus is a normal part of the environment and not automatically a sign of a problem indoors.
  • Damp and mould can worsen breathing symptoms and should be taken seriously.
  • Fixing the underlying moisture problem is more important than cleaning visible mould.
  • Knowing who to contact (GP, landlord, council) is key to resolving problems.

Indoor Air Quality, Damp, Mould and Aspergillus

A practical guide for patients

Many people with aspergillosis or other lung conditions are concerned about the air inside their home. This article explains how indoor air quality works, how to recognise problems, and what steps you can take to improve your environment.

Contents

What affects indoor air?

Indoor air quality is influenced by both indoor and outdoor factors. People spend most of their time indoors, so even small issues can have a noticeable effect on health. :contentReference[oaicite:0]{index=0}

Indoor air can be affected by:

  • Outdoor pollution entering the building
  • Damp and moisture
  • Mould growth
  • Cooking, heating, and cleaning products
  • Dust and particles

Three common indoor air problems

1. Indoor air pollution

  • Particles from cooking, heating, and candles
  • Outdoor pollution enters indoors

2. Damp (moisture)

  • Condensation, leaks, poor ventilation
  • Creates conditions for mould growth

3. Mould

  • Visible fungal growth on surfaces
  • Releases spores into the air
These problems often occur together—but they are not the same thing.

Aspergillus in the home

Aspergillus is a common environmental fungus found in air, dust, and soil.

This means:

  • Everyone breathes in Aspergillus spores regularly
  • Indoor exposure is not unusual

Important: Exposure does not equal disease. Aspergillosis depends on lung health and immune response—not just environment.

Damp and mould

Damp and mould are important because they can affect respiratory health. Damp homes are linked with increased respiratory symptoms and illness. :contentReference[oaicite:1]{index=1}

UK guidance highlights that damp and mould can produce irritants and spores that affect the lungs and should be addressed promptly. :contentReference[oaicite:2]{index=2}

Symptoms and health effects

Indoor air problems may contribute to:

  • Cough
  • Breathlessness
  • Wheeze
  • Chest tightness
  • Fatigue

These symptoms often overlap with infection or underlying disease, making them difficult to interpret.

Identifying problems

Signs of damp

  • Condensation on windows
  • Cold or damp walls
  • Peeling paint or wallpaper
  • Musty smell

Signs of mould

  • Black or green patches
  • Mould returning after cleaning
  • Growth behind furniture or in corners

Hidden issues

  • Persistent damp smell
  • Symptoms are worse in certain rooms
If mould keeps returning, there is usually an underlying moisture problem.

Getting the right help

1. Your healthcare team

  • If symptoms worsen
  • If you suspect your environment is affecting your health

2. Landlord or housing provider

  • Report problems early
  • Keep records (photos, dates)

UK guidance makes clear that damp and mould should be addressed promptly and not ignored.

3. Local council

  • If landlord does not act
  • If health is affected

Further reading

See more detailed guidance and support resources here:
Housing, damp and mould articles (aspergillosis.org)

Practical steps

  • Improve ventilation (especially kitchens and bathrooms)
  • Reduce moisture
  • Address leaks quickly
  • Clean small mould areas safely

Air purifiers

Air purifiers can reduce airborne particles, but:

  • They do not fix damp
  • They do not remove mould from surfaces
  • They do not treat aspergillosis

Final takeaway

Indoor air problems are common and often manageable. The key is to:

  • Recognise the signs early
  • Address moisture and mould properly
  • Seek help when needed

Author: aspergillosis.org

Note: This article is for general education and does not replace medical advice.

by GAtherton

Outdoor Air Pollution and Aspergillosis

Last reviewed: April 2026

Key points

  • Harmful air pollution can be visible or invisible.
  • The Air Quality Index (AQI) is more reliable than how the air looks.
  • Air pollution comes from natural, industrial, and everyday urban sources.
  • Staying indoors can reduce exposure, but it does not remove it completely.
  • People with aspergillosis, asthma, or bronchiectasis may be more sensitive to polluted air.
  • Simple steps such as checking AQI, closing windows, and using filtration can help reduce exposure.

A practical guide for patients with lung conditions

Air pollution can make breathing symptoms worse for many people, especially those with existing lung disease. If you live with aspergillosis, asthma, bronchiectasis, chronic obstructive pulmonary disease (COPD), or other long-term lung problems, outdoor air quality can make a noticeable difference to how you feel day to day.

This guide explains what outdoor air pollution is, where it comes from, how to judge risk, what practical steps may help reduce exposure, and how to think sensibly about buying an air purifier.

Contents

What is outdoor air pollution?

Outdoor air pollution is a mixture of particles and gases in the air that can irritate the lungs and worsen breathing symptoms.

The main pollutants discussed in health guidance include:

  • PM2.5 – very fine particles small enough to travel deep into the lungs
  • PM10 – slightly larger particles that can still irritate the airways
  • Nitrogen dioxide (NO2) – often linked to traffic and combustion
  • Ozone (O3) – a gas that can irritate the lungs, especially in hot weather
  • Smoke, dust and soot – depending on local conditions

Some of these pollutants are easy to see, but some are not. This is one reason why it is important not to rely only on appearance when judging air quality.

Where does it come from?

Outdoor air pollution usually comes from a combination of sources, not just one.

Natural sources

  • Desert dust or sandstorms
  • Wildfire smoke
  • Wind-blown soil and dust
  • Pollen (not usually included in AQI in the same way, but still relevant for symptoms)

Commercial and industrial sources

  • Factories
  • Power stations
  • Shipping emissions
  • Aviation emissions
  • Construction and demolition dust

Domestic and urban sources

  • Road traffic
  • Heating systems
  • Wood burners and solid fuel burning
  • Cooking emissions in densely populated areas

In some situations, one source clearly dominates. For example, a severe dust event in North Africa or the Middle East may be mainly caused by natural desert dust. In a busy city, day-to-day pollution may be more strongly linked to traffic, heating, and industry. In many real-life situations, however, several sources are contributing at the same time.

Visible or invisible pollution

One of the most important things for patients to know is that harmful air pollution can be visible or invisible.

Visible pollution

  • Dust or sand in the air
  • Smoke
  • Grey or brown smog
  • Heavy haze

Invisible pollution

  • Fine particles such as PM2.5
  • Gases such as ozone or nitrogen dioxide

Clear sky does not always mean clean air. Equally, hazy air is not always the only dangerous situation. Some invisible pollutants can be especially harmful because they are easy to miss and can still reach deep into the lungs.

Key message: If you can see it, it may be harmful. If you cannot see it, it still may be harmful.

Understanding AQI (Air Quality Index)

The Air Quality Index (AQI) is often the most useful practical tool for patients. It gives a simple way of describing how healthy or unhealthy the air is likely to be.

AQI Meaning
0–50 Good
51–100 Moderate
101–150 Unhealthy for sensitive groups
151–200 Unhealthy
201–300 Very unhealthy
300+ Hazardous

Very high readings can occur in severe dust events, smoke events, or heavily polluted urban conditions. For patients with lung disease, even levels well below the highest categories may still trigger symptoms.

Why AQI matters more than appearance

AQI can help you judge risk more reliably than what you can see or smell. Dust may have no obvious smell. Fine particles may be invisible. Air that looks like fog may actually be carrying a heavy particle load. Because of this, it is usually safer to trust the AQI reading rather than appearance alone.

Where to check AQI

Reliable sources for checking air quality include:

For most people, it is best to use one app consistently, and occasionally cross-check with a second source if readings seem unusual.

Why air pollution matters in aspergillosis

People living with aspergillosis may already have lungs that are inflamed, structurally damaged, or more easily irritated. This may include people with:

  • Allergic bronchopulmonary aspergillosis (ABPA)
  • Chronic pulmonary aspergillosis (CPA)
  • Bronchiectasis
  • Asthma
  • Chronic obstructive pulmonary disease (COPD)

Air pollution can potentially worsen:

  • Cough
  • Breathlessness
  • Chest tightness
  • Wheeze
  • Mucus production
  • General irritation of the airways

It can also make it harder to work out what is causing symptoms. A flare in symptoms is not always due to infection. Sometimes symptoms may be made worse by air pollution, airway irritation, or inflammation, even when there is no new infection.

Dust storms, haze and extreme events

In some parts of the world, especially in North Africa and the Middle East, very high AQI readings are often caused by dust and sand in the air. This can sometimes be mistaken for fog.

Clues that this may be dust rather than fog include:

  • Very high AQI readings
  • Dry-looking haze rather than damp mist
  • Dust collecting on surfaces
  • Weather reports mentioning dust, sand, or reduced visibility

Dust does not always have a noticeable smell, so the absence of smell does not mean the air is safe.

How much protection does staying indoors give?

Staying indoors usually does help, but the amount of protection varies.

Typical home with windows closed

In general terms, staying indoors with windows closed may reduce exposure by around 30% to 70%, depending on:

  • How well sealed the building is
  • Whether windows or doors are being opened
  • The age and condition of the property
  • How long the pollution event lasts

Indoors with HEPA filtration

Using a correctly sized High Efficiency Particulate Air (HEPA) purifier can improve indoor air further. In some situations, this may reduce indoor particle exposure by around 50% to 90% or more.

Important limits

  • Fine particles can still get indoors
  • Older or drafty buildings may offer less protection
  • Opening windows can quickly increase indoor particle levels again

The realistic goal is usually to reduce exposure as much as possible, not to expect complete protection.

Practical ways to reduce exposure

When outdoor AQI is high, the following steps may help:

  • Stay indoors as much as possible
  • Keep windows and doors closed
  • Avoid strenuous outdoor activity
  • Use air filtration if you have it
  • Delay non-essential trips outdoors if practical
  • Check AQI more than once per day during unstable conditions

For some people, symptoms may still occur even indoors. If so, it may help to reduce physical activity, keep rescue medication available if prescribed, and monitor symptoms closely.

Masks and air filtration

Masks

Well-fitted particle-filtering masks such as FFP2 or FFP3 may reduce exposure to fine particles when you need to go outdoors. Their usefulness depends heavily on fit, comfort, and wearing them correctly.

Not everyone can tolerate masks easily, especially if they are already short of breath, so they are not always a complete solution.

Air purifiers

A HEPA purifier may be especially useful in the room where you spend the most time, such as a bedroom or living room. Performance depends on:

  • Correct room size
  • Good maintenance of filters
  • Keeping windows closed during high pollution periods

Buying an air purifier: what matters and what does not

Air purifiers can help reduce indoor particle levels, but it is important to be realistic about what they can and cannot do.

Important: An air purifier does not treat aspergillosis, does not cure asthma or bronchiectasis, and does not remove all particles. It is best thought of as one way to reduce exposure.

What matters most

  • True HEPA filtration (or a clearly specified high-efficiency particle filter)
  • Room-size coverage that matches the room where it will be used
  • Clean Air Delivery Rate (CADR), where provided
  • Noise level, especially if used in a bedroom
  • Replacement filter cost and availability

What these terms mean

True HEPA: This usually means the purifier is designed to remove very small airborne particles efficiently. For patients concerned about dust and polluted air, this is generally more important than extra “smart” features.

Room size: A purifier that is too small for the room may not make much difference. It is usually better to buy the correct size for the room where you spend the most time than to buy a very cheap device that cannot handle the space.

CADR: This is a measure of how quickly a purifier can clean the air. Higher CADR usually means faster particle removal, though room size and real-life use still matter.

What to be cautious about

  • Very cheap devices with vague claims but no clear filter specification
  • Small USB-powered “desk purifiers” claiming to clean large rooms
  • Ioniser-only devices with no proper particulate filter
  • Products that make sweeping medical claims

Practical buying advice

  • Start with the room you use most, often the bedroom or living room
  • Choose a purifier that is rated for that room size
  • Check how often filters need replacing and how much replacements cost
  • Read the real specifications, not just the marketing headline
  • If you are noise-sensitive, look at the sleep-mode or low-speed sound level

Reasonable expectations

Used properly, a good air purifier may make a meaningful difference during high pollution periods, especially when combined with keeping windows closed. However, it is only one part of managing exposure.

Travel and changing environments

Air quality can change dramatically between regions and countries. Some places have persistent urban pollution, while others may experience sudden dust events, wildfire smoke, or seasonal changes.

If you are travelling, it may help to:

  • Check local AQI before travel and during your stay
  • Be aware of seasonal dust or wildfire risks
  • Know where you can spend time indoors if air quality worsens
  • Keep regular medications with you

This can be particularly important if you already know that poor air quality tends to worsen your symptoms.

Common misconceptions

Myth: “If I cannot see pollution, it is safe.”

Fact: Invisible pollution such as PM2.5 and gases can still be harmful.

Myth: “If the air looks foggy, it must just be water vapour.”

Fact: Hazy air can sometimes be caused by dust or pollution rather than fog.

Myth: “Staying indoors completely solves the problem.”

Fact: Staying indoors usually reduces exposure, but does not remove it completely.

Myth: “If my symptoms worsen, it must be an infection.”

Fact: Pollution and airway irritation can also worsen symptoms.

Myth: “Air pollution is always caused by traffic.”

Fact: Pollution may come from natural, industrial, and domestic sources, often in combination.

Managing your condition during high air pollution

For people with aspergillosis, asthma, bronchiectasis or other lung conditions, air pollution can trigger symptoms even when there is no infection. Having a simple plan can help you feel more in control.

Continue your regular medication

  • Take your prescribed medications as usual, including inhalers or antifungal treatments
  • Do not stop or reduce medication without medical advice

Have your reliever medication available

  • Carry your reliever inhaler (if prescribed) when leaving the house
  • Make sure it is within easy reach, not packed away
  • Check that it is in date and not empty

Plan ahead before going outdoors

  • Check the AQI before leaving home
  • Avoid going out during peak pollution times if possible
  • Consider shorter trips or lower-exertion activities

Adjust activity levels

  • Reduce strenuous activity when AQI is high
  • Walk more slowly and allow extra time
  • Take breaks if you feel breathless

Know your early warning signs

Be aware of symptoms that may indicate your lungs are being affected:

  • Increased breathlessness
  • More coughing or wheezing
  • Chest tightness
  • Unusual fatigue

Have a simple action plan

  • Know what you usually do if symptoms worsen
  • Follow any personalised plan provided by your clinical team
  • Seek advice if symptoms are different from your usual pattern

Practical tip: On high pollution days, think ahead before leaving home—take medication with you, plan shorter trips, and allow extra time so you do not have to rush.

When to seek medical help

Seek medical advice promptly if you notice:

  • Worsening breathlessness
  • New or worsening wheeze
  • Chest tightness that is not settling
  • A major increase in cough
  • Coughing blood (haemoptysis)
  • Symptoms that are more severe than your usual pattern

If you have a severe flare, marked breathing difficulty, or significant haemoptysis, seek urgent medical help.

Final takeaway

Outdoor air pollution is an important and often under-recognised trigger for people with lung disease. For patients with aspergillosis and related lung conditions, it can worsen symptoms even when there is no new infection.

The most helpful practical points are:

  • Use AQI rather than appearance alone
  • Remember that pollution may be visible or invisible
  • Stay indoors when AQI is high
  • Use air filtration where possible
  • Keep an eye on changing symptoms and seek help if needed

References

Author: Prepared for aspergillosis.org

Review note: This article is intended for general education and should not replace advice from your own clinical team.

by GAtherton

Indoor Damp, Ventilation & Aspergillosis

What a Major UK Evidence Review Means for Patients and Professionals

Why this paper matters

This large UK Health and Safety Executive (HSE) review examined whether microorganisms inside buildings (homes, offices, workplaces) can harm health — and what actually helps reduce risk.

Although it does not focus on a single disease, its findings are highly relevant to people living with aspergillosis, asthma, bronchiectasis, and other chronic lung conditions, as well as the professionals who support them.

Link to paper

The short answer (for everyone)

Yes — indoor environments can significantly affect lung health.
And ventilation and moisture control are central to reducing risk, especially for people vulnerable to fungal exposure.

What the review confirms (in plain language)

1. Indoor fungi are common — and not harmless

High confidence evidence

Many buildings contain airborne and surface fungi, especially when dampness is present.
The fungi most often found indoors include:

  • Aspergillus

  • Penicillium

  • Cladosporium

  • Alternaria

For aspergillosis patients, this matters because:

  • Aspergillus is not just an “outdoor mould”

  • Ongoing exposure can worsen symptoms, trigger inflammation, or complicate recovery

  • Even low levels may be problematic for sensitised or immunocompromised people

2. Dampness is a major driver of fungal exposure

High confidence

Damp buildings — whether due to leaks, condensation, or poor airflow — consistently show:

  • Higher mould growth

  • More fungal spores in the air

  • Stronger links to respiratory symptoms

Important point for patients:

You do not need to see black mould for damp to be affecting your lungs.
Mould smell (“musty odour”) is one of the strongest warning signs.

3. Ventilation is the most important protective factor

High confidence

Ventilation:

  • Dilutes fungal spores, bacteria, and viruses

  • Reduces moisture build-up

  • Lowers exposure for occupants

This applies to:

  • Homes

  • Flats

  • Offices

  • Other non-industrial indoor spaces

⚠️ The review highlights a key modern problem:
Energy-efficient, airtight buildings can unintentionally trap damp and fungi if ventilation is inadequate.

For aspergillosis patients, this means:

  • A “warm” home is not always a “healthy” home

  • Reduced airflow can increase fungal exposure even without visible mould

4. Indoor air also spreads infections

High confidence

Respiratory viruses (e.g. influenza, COVID-19) spread mainly through indoor air, especially when ventilation is poor.

This is relevant for aspergillosis patients because:

  • Viral infections can destabilise lung disease

  • Recovery may be slower

  • Secondary infections are more likely

Ventilation therefore protects against both fungal and viral risks.

5. Surfaces matter too — but air matters more

Medium–high confidence

  • Fungal material and microbes accumulate in dust, carpets, soft furnishings, and damp surfaces

  • Toilets and bathrooms can generate contaminated aerosols

  • Good hygiene helps, but cannot compensate for poor ventilation

For patients:

Cleaning alone will not solve a damp or ventilation problem.

What actually helps (evidence-based)

Strongest evidence

✔️ Adequate ventilation (natural or mechanical)
✔️ Fixing leaks and moisture sources
✔️ Removing mould-damaged materials
✔️ Preventing condensation on cold surfaces

Moderate evidence

✔️ HEPA air filtration (helpful but not a substitute for ventilation)
✔️ UV air disinfection (context-specific)
✔️ Touch-free fittings in shared buildings

⚠️ No single measure works on its own — combined approaches are needed.

Why this matters specifically for aspergillosis patients

This review strongly supports what many patients already experience:

  • Symptoms may persist despite treatment if exposure continues

  • Indoor environments can drive inflammation and relapse

  • “Just take your medication” is not enough if housing conditions are harmful

Importantly, the review recognises that:

  • Health effects vary by individual vulnerability

  • Those with asthma, bronchiectasis, aspergillosis, or immune suppression are more sensitive

  • There are no universally safe mould levels for everyone

What non-specialists should take from this

For GPs and clinicians

  • Damp and poor ventilation are legitimate medical risk factors

  • Persistent respiratory symptoms may be environment-driven

  • Asking about housing conditions is clinically relevant

For housing, environmental health & social care

  • Mould and damp are health hazards, not cosmetic defects

  • Ventilation failures can directly affect chronic disease

  • Energy efficiency must be balanced with respiratory health

For patients and carers

  • You are not “overreacting” if your home affects your breathing

  • Ventilation and moisture control are part of disease management

  • Evidence supports advocating for safer living conditions

Bottom line

This major UK review confirms that indoor dampness and poor ventilation increase exposure to fungi — including Aspergillus — and worsen respiratory health.
For people living with aspergillosis, building conditions are not secondary issues: they are part of the disease environment.

by GAtherton

🌍 Does where you live affect aspergillosis or ABPA?

UK-focused guidance, with additional advice on overseas locations

People with ABPA, CPA, fungal allergy, SAFS or bronchiectasis often wonder whether certain regions — in the UK or abroad — are better or worse for their lungs. The truth is:

Aspergillus is everywhere worldwide

No country, region or climate is fungus-free.
What matters most is:
the quality of the home + humidity + air quality + healthcare access.

Below is a clear guide.

🇬🇧 UK Locations (summary)

The property matters more than the postcode.
But here is the quick UK overview:

👍 Often easier for lung conditions:

  • South West England (cleaner air, milder climate)

  • Rural East Anglia

  • Parts of Northumberland

  • Coastal areas with modern, well-insulated homes

👀 More challenging for some patients:

  • Older stone houses in wet regions (Scotland west coast, Wales)

  • Inner-city pollution corridors (London, Birmingham, Manchester)

  • Homes near major roads (M25, M6, M1)

✈️ Overseas Locations Potentially Better for Aspergillosis or ABPA

The goal is lower humidity, good air quality, dry housing, and strong healthcare access.

🌞 1. Dry Mediterranean climates (often helpful)

Examples:

  • Southern Spain (Andalusia, Murcia)

  • Portugal (Algarve, Alentejo inland)

  • Southern Italy (Puglia, Sicily in the drier months)

  • Greece (many islands have low humidity outside peak summer)

  • Cyprus (very dry outside Jan–Feb)

Why beneficial:

  • Lower humidity → less indoor mould growth

  • Plenty of ventilation and sunlight

  • Good modern building standards (if choosing newer homes)

Watch out for:

  • Very high summer temperatures

  • Saharan dust events (e.g., in Spain, Cyprus, Greece)

  • Avoid older damp stone buildings

🏜️ 2. Dry, warm desert or semi-desert climates (excellent for humidity control)

Examples:

  • Arizona (USA)

  • New Mexico (USA)

  • Utah (USA)

  • Certain parts of Australia (inland areas with low humidity)

Why beneficial:

  • Very low humidity (mould struggles to grow indoors)

  • Strong sunlight

  • Good ventilation

Watch out for:

  • Wildfire smoke in some regions

  • Dust storms (mainly in the US Southwest)

  • Healthcare insurance considerations (especially in the US)

🌊 3. Mild coastal regions with good air quality

Examples:

  • New Zealand (South Island especially)

  • Canada’s west coast (Vancouver Island outside wildfire season)

  • Northern Spain / Basque Coast (clean air, moderate climate)

Benefits:

  • Clean air

  • Access to high-quality healthcare

  • Good housing standards

Watch out:

  • Wildfire season in Canada

  • Damp winters in some coastal climates

  • Avoid older wooden properties with poor ventilation

🔥 Overseas Locations That May Be More Challenging

🌧️ 1. Extremely humid tropical climates

Examples:

  • Singapore

  • Malaysia

  • Indonesia

  • Thailand

  • Caribbean islands

  • Florida (USA)

  • Queensland (Australia’s tropical belt)

Why problematic:

  • High humidity all year → indoor mould grows very easily

  • Air conditioning constantly needed

  • Outdoor fungal levels very high

  • More airborne allergens overall

🌲 2. Areas with frequent wildfires or smoke seasons

Examples:

  • California

  • British Columbia

  • Eastern Australia

  • Mediterranean wildfire zones (Greece, Spain, Italy in summer)

Smoke exposure is a major trigger for asthma, ABPA and bronchiectasis.

🍃 3. Locations with heavy pollution

Examples:

  • India (Delhi, Kolkata)

  • China (some industrial regions)

  • Eastern Europe (coal-heavy areas)

  • Middle East cities with dust + pollution

Pollution is often a bigger trigger than Aspergillus.

❤️ What matters most: Your home + your lifestyle, not the country

A “safe” home for aspergillosis or ABPA is:

✔️ dry
✔️ modern or well-renovated
✔️ free from mould
✔️ with mechanical ventilation or good airflow
✔️ away from busy roads
✔️ in a low-pollution area
✔️ without damp basements, cellars, old timber, or overgrown foliage touching the house

Regardless of UK or overseas, these matter 10× more than the region.

📌 Summary for Aspergillosis Patients

  • Aspergillus exists everywhere — no location is completely safe or dangerous.

  • Low humidity, good air quality and dry modern housing are the key factors.

  • Mediterranean climates, dry inland regions, and moderate coastal areas can be good choices.

  • Very humid tropical climates are the most challenging.

  • Pollution and wildfires are often bigger risks than fungal spores.

by GAtherton

🎄 Why Christmas Decorations Can Trigger Symptoms

An explainer for people living with aspergillosis, asthma, ABPA, CPA and bronchiectasis

Many people with aspergillosis notice a sudden increase in sneezing, coughing, wheezing or chest tightness when unpacking Christmas decorations. This is extremely common and usually caused by environmental triggers, not new infection.

✅ What’s on decorations after a year in storage?

When decorations, artificial trees, or boxes have been stored for months, they often collect:

  • Dust

  • Fungal spores, including Aspergillus

  • Dampness or musty smells

  • Particles from cardboard

  • Fibres from artificial branches

For people with allergic aspergillosis (ABPA), severe asthma or sensitive airways, this sudden exposure can cause an allergic flare or airway irritation.

🎄 Why this affects aspergillosis patients more

  • Airways may already be inflamed or mucus-filled, so irritants cause quicker reactions.

  • People with ABPA or SAFS react strongly to environmental allergens.

  • People with chronic pulmonary aspergillosis (CPA) or bronchiectasis may have reduced clearance, so spores or dust linger longer in the lungs.

This does not usually indicate infection — it’s most often an irritation flare.

🛡️ How to protect yourself next time

A few simple steps make a big difference:

  • Wear a mask (FFP2) when opening boxes or shaking dust off.

  • Take boxes outside, or open near an open window.

  • Wipe decorations with a damp cloth rather than brushing them.

  • Rinse or wipe artificial trees, especially branches.

  • Use sealed plastic containers rather than cardboard for storage.

  • Avoid shaking items indoors, as this scatters spores.

🌬️ If you’ve already had a flare

Most people settle within hours to a few days. You can try:

  • Your usual inhalers (especially preventers).

  • Airway clearance if you normally use it.

  • Saline nebulisers/inhalers, which can soothe irritated airways.

  • Rest, fluids, and avoiding further triggers for a short while.

Seek medical advice if symptoms are unusual for you, don’t settle, or you are already unwell.

💬 The key message

Decorations don’t cause new aspergillus infection — but they can release a burst of irritants and spores that your lungs react to. Taking a few precautions can help you enjoy the season without a flare.

by GAtherton