Why is it that some buildings (like schools) can be tested for mold and come out “healthy” when many people in the building have moderate to severe SBS symptoms?-Susan , California

 

            There are several reasons why this may be the case.  These include (1) the nature of mold testing and interpretation of results and (2) SBS symptoms may be associated with exposures other than mold (to be discussed in a future posting). 

            In my experience few school buildings have system-wide mold infestation/exposure problems.  In most instances infestation/exposure problems in school buildings tend to be localized.  There may be one or more problem rooms where water leakage through roofing has caused damage to ceiling tile with subsequent infestation, or water seepage into a below ground level part of the building may result in mold infestation.  Water damaged/mold infested ceiling tiles are quite common and pose a mold exposure risk to students and teachers in those rooms that have been affected.  They do not in most cases cause a building-wide exposure problem. 

            Airborne mold levels in school buildings are typically much lower than those in residential buildings.  This is likely due to the fact that school buildings are mechanically-ventilated with conditioned air being constantly re-circulated through HVAC system filters.  Though these filters initially have low collection efficiencies, they become increasingly effective as they become soiled. 

            Mold levels determined by the culture plate method are rarely above 300 CFU/m³ in school building spaces.  When they are, mold infestation of building materials is likely to be present nearby.  As a consequence, I tend to use this number as a guideline between acceptable/non-acceptable school building airborne mold levels.  It is not a magic number in distinguishing between a “healthy” or unhealthy school spaces.  It is a reference point for determining whether a mold infestation is resulting in elevated airborne mold levels and exposures of concern. 

            The culture plate method has its limitations, however, in that it only quantifies mold spores that are alive and can grow on the culture medium being used.  A large percentage of airborne spores are no longer alive and thus cannot be quantified by this method.  This is significant since their ability to cause allergy-type symptoms is independent of their viability (whether they are alive or not). 

            Because of this fact I also collect samples with a total mold spore sampling device.  Such devices collect airborne mold spores on a microscope slide or coverslip.  Most users of such devices send their samples to commercial laboratories where they are counted at 400 or 600 magnifications.  My counts are typically conducted at 1000X.  Because of the higher resolution of the latter, count results are usually several times higher than similar samples collected in the same buildings as compared to those counted by commercial laboratories.  When one samples is also quite important.  I have tested classrooms with students present and after classroom hours.  Counts are typically several times higher when samples are collected under occupied classroom conditions.  The primary reason for this difference is likely the fact that when students are present, their activities re-suspend surface dust which contains mold spores.  A second possible reason is that students may be bringing mold spores/particles into classroom spaces on their clothing from home and on their shoes as well. It is not uncommon to smell mold odors on student coats hunk in lockers/closets.

            Low mold values can not be interpreted that as a confirmation that a building is “Healthy”. I have seen low mold values in air tests in classrooms spaces that smelled musty. Obviously an infestation problem existed that was not being manifested in elevated airborne mold levels in samples that were collected.

August 12, 2004

     

Indoor Environmental Quality (2000), Thad Godish Ph.D., C.I.H