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Non-viable Fungal Air Sampling Alone May Not Be Adequate

Non-viable Air Sampling

 

 

 

VersaTrap air sampling casette Air-O-Cell air sampling casette Allergenco air sampling casette

Indoor air sampling for airborne fungi is frequently conducted to assess the levels of fungal contamination and subsequently the potential risk to building occupants. It is also used to determine if there was hidden mould growth in the building or to determine the effectiveness of remediation procedures. One of the most cited advantages of non-viable air sampling is that detection of fungal structures (spores, hyphal fragments, etc) is not dependent on their viability or the suitability of agar media. Non-viable air samples are collected with samplers such as Air-O-Cell, Allergenco, VersaTrap, Burkard, Cyclex, Cyclex-d and Micro-5 among others. The spores (whether viable or dead) and other particulates are trapped on the sticky surface of the spore trap and can then be directly enumerated and identified under a microscope. Since both viable and nonviable spores can be enumerated, an efficient non-viable air sampler is expected to give a better estimate of the level of airborne fungal contamination than a viable air sampler.

Viable Air Sampling

Picture of Colony Forming Units: CFUViable air samples are often collected on agar media either in strips (if using Reuter Centrifugal Sampler) or in Petri-dishes for Andersen sampler. Unlike non-viable air sampling, detection and subsequent enumeration and identification of airborne fungal particulates collected on growth media depends on whether the spores and hyphal fragments are viable and whether the media used can support their growth into colonies. For this reason, colony counts are usually lower than spore counts. Even if all the fungal structures were viable, colony counts are likely to be lower than the spore/hyphal fragment counts because what is counted as a single colony could have developed from more than a single spore or hyphal fragment. In one study it was found that the ratios between the total fungal spores collected by the Burkard sampler and the viable fungi collected by the Andersen sampler ranged between 0.29 and 7.61.

Non-viable Air Sample

Picture of Chaetomium and Aspergillus/Penicillium sporesIs Non-viable Fungal Air Sampling Alone Adequate? In most cases viable air sampling is only used in situations where identification of the moulds to species level is required. However, our observation in the lab seems to suggest use of spore traps alone may not be adequate for airborne fungal sampling. On many occasions we have recovered moulds in viable samples that were not observed in non-viable samples even when viable and non-viable samples were taken side by side. For example Chaetomium and Stachybotrys spores, which are fairly easy to identify from spore traps have appeared in viable samples, yet, they were not detected from the non-viable samples. We have also observed that although non-viable sampling gives higher counts than viable sampling in most cases, this is not always the case. There are many factors that can contribute to these “unexpected” results.

Conclusion

Picture of Viable Air Samples On RCS Agar StripsSince both non-viable and viable air sampling have limitations, using either method singly is not adequate. To obtain conclusive information on the level of contamination and the diversity of airborne fungi in a building, taking both viable and non-viable air samples is preferable. We recommend the Calgary Health Region’s protocol, “Fungal Air Testing, Investigation and Reporting Requirements for Residential Marihuana Grow Operations (Revised May 2006)”. With few exceptions, the protocol requires that fungal air sampling consist of both viable samples (e.g. RCS or similar) and non-viable samples (e.g., Air-O-Cell) taken side by side.

References

Adhikari A., Sen M.M., Gupta-Bhattacharya S., Chanda S. (2004). Airborne viable, non-viable, and allergenic fungi in a rural agricultural area of India: A 2-year study at five outdoor sampling stations. Science of the Total Environment, 326 (1-3), pp. 123-141.

Calgary Health Region (2006). “Fungal Air Testing, Investigation and Reporting Requirements for Residential Marihuana Grow Operations (Revised May 2006)”.

How To Test For Mold And Bacteria In Carpets

Carpets serve as a reservoir for settled mold and bacteria spores, dust, lead, dust mite allergens and other chemical and biological contaminants. These contaminants, a major cause of respiratory problems, become airborne when the carpet is disturbed, for example during vacuum cleaning with an ordinary vacuum cleaning machine. The particle size of these contaminants is small enough to be inhaled deep into the lungs.

The best way to test for mold and bacteria in carpets is to collect dust and send it to a lab for culturing. Swabs could also be used but they may not work very well on some types of carpets.

For more information on how to test for mold and bacteria from carpets and other surfaces, please contact Mold & Bacteria Consulting Laboratories by phone at (905) 290-9101.

Indoor Air Testing For Mould

There are a number of methods that can be used to test air for airborne mould spores and fragments. The method chosen would depend on the objective of the investigation and subsequently the type of data required. The following methods can be used for testing air for airborne mould contamination.

Settle Plate Method For Detecting Viable Airborne Mould Spores And Fragments
With this method, a set of plates containing suitable growth media is exposed at table‑top level for half-hour to 4 hours. The mould spores and fragments suspended in the air settle by gravity onto the growth media. Light particles that remain suspended in the air for many hours are likely to be missed out. However, it is the cheapest way of sampling air since no other equipment is needed.

Volumetric Air Sampling For Detecting Viable Airborne Mould Spores And Fragments
The settle plate method is generally not recommended. A better method involves impacting a known amount of air on some suitable growth media. The media could be liquid or solid. With this method viable spores or vegetative material would form visible colonies (referred to colony forming units) in the media. These are counted in the lab and expressed as colony forming units (CFU) per cubic meter of air.

Volumetric Air Sampling For Detecting Total Airborne Mould Spores And Fragments
One disadvantage of impacting air on growth media is that only the viable propagules can grow on the media and hence detected. It is estimated that only about 10-15% of the mould spores may be viable. To enable us have a better estimation of how contaminated the air is, air is drawn on onto some inert sticky stuff. Depending on the efficiency of the sampling equipment used most of the spores and other airborne particulate matter including insect parts, pollen grain, and all sorts of fibres are trapped onto the sticky surface. Since these samples are directly examined under a microscope, the analyst is able to count the spores and vegetative fragments and express them as spores per cubic meter of air. It is also possible to identify some of the spores to genus level.

For more information on mould sampling visit our web page http://www.moldbacteria.com/sendingsamples.html.

Indoor Mould: What are Mould Spores?

Chaetomium and Penicillium/Aspergillus spores from indoor airMould spores are tiny structures produced by moulds for the purpose of propagation. The term spore is general. There specific terms used for spores depending on how they are produced or the group of fungi producing them. Ascospores for example are spores produced by a group of fungi called Ascomycetes while Basidiospores are spores produced by Basidiomycetes which include the mushrooms.

How would spores affect human health?
Spores are tiny (range between 2-100 micrometers) and therefore are easily inhaled into the lungs. Susceptible individuals react to the protein component of the cell wall of the spores. Some moulds such as Aspergillus fumigatus may also grow in the lungs causing what is referred to as Aspergillosis.

How would you tell if you are inhaling potentially harmful levels of spore concentration?
The way to tell if occupants of a building were inhaling potentially harmful levels of spore concentration is to take air samples. Air may be taken to be analysed by culture methods or by direct microscopic examination. Culture methods may significantly underestimate the total airborne mould concentration in the air because only the viable spores or fragments of the mould can be detected in culture. The spores/fragments may also not be detected if the media used for culturing were not suitable for the types of moulds present in the air. Samples taken for direct microscopic examination (also referred to as non-viable air samples) allow the analyst to count all the spores and fragments regardless of whether the spores were viable or dead. Since susceptible individuals can also react to dead spores, non-viable samples would be the best to give an idea of whether occupants were inhaling potentially hazardous levels of mould spores.

Ulocladium and Stachybotrys spores from indoor airThe pictures show spores trapped from highly contaminated indoor air. The first picture shows spores of Chaetomium and Aspergillus/Penicillium. The second photo shows Ulocladium spores and Stachybotrys spores. Chaetomium, Stachybotrys and Ulocladium species are indicators of serious water damage. Spores of these moulds and those of Aspergillus and Penicillium pose inhalation risk.

Do you have a mould question? Send it to us at Contact Us.

Airborne Mould Spores: Could They Be Dangerous To Health?

Mould spores are tiny structures produced by moulds for reproduction purposes. They are so small that we can hardly see some of them even when magnified 400 times. One cubic meter of outdoor air may contain as many as 1,000,000 spores. The volume of air we inhale at rest is estimated at 10 litres per minute. Therefore, in an hour we inhale close to 600,000 spores. The air in some working environments including mouldy buildings may contain up to 1,000,000,000 spores per cubic meter of air.

In indoor environments moulds grow on moist surfaces such as the drywall, wallpaper, carpet, baseboards, and heating, ventilation and air-conditioning systems (HVACs). As these moulds grow, a stage is reached when they produce spores. The spores become airborne after drying out or if disturbed.

Could airborne spores be dangerous to our health?
About 20% of the population is allergic to mould spores. Apart from being allergenic, spores of some mould species such as Stachybotrys contain toxic compounds called mycotoxins. Symptoms associated with mould spores may include allergy, headache and fatigue, running nose, sneezing, coughing, pneumonia and Asthma among other non-specific symptoms. Young children, the elderly and people undergoing medical treatment are particularly susceptible to mould spores.

How can we control indoor mould spores?
It is extremely difficult to get rid of spores completely. We can, however, reduce their numbers by controlling mould growth in our houses or offices. Mould growth is associated with moisture problem as a result of flooding, leaks in roofs or plumbing and condensation in case of poor ventilation or inadequate insulation. The key to controlling mould growth is keeping our houses or offices dry by maintaining low relative humidity (below 70%) thus eliminating or slowing the growth of most mould species. Any water leakage should be repaired immediately and the water dried out within 48 hours. Constant monitoring for mould growth in the kitchen, bathrooms, window frames, carpets and baseboards is recommended. The earlier the mould is discovered the cheaper and easier it is to get rid of the problem.

What should you do if you notice mould growing in your house or office?
Do not panic! Seek professional advice. Not all moulds are dangerous to health, but no mould should be allowed to grow in our dwellings. Also the health effects of indoor moulds depend on the amount of mould one has been exposed to, length of time of exposure, the types of moulds present and individual’s resistance. Therefore, presence of mould does not necessarily mean the occupants have been affected.

Which are the most dangerous moulds?
People have come to believe that black moulds are the most dangerous.
The truth is, colour does not determine whether a mould is of health concern or not. To know whether a mould is dangerous or not requires the mould to be identified by a qualified mycologist.

Should you have a question concerning moulds, please send your question to us at My Question.

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