Indoor air pollution has become a serious problem. Discussions about indoor air quality emerged in the 1970s as a result of the energy crisis leading to home construction that was more efficient by way of being sealed up tight… and subsequently lacking ventilation. It’s common knowledge that the lack of ventilation is a detriment to air quality in indoor environments. How? Stagnant air inundates the occupants with a concentration of pollution. It may seem innocuous but poor indoor air quality is associated with cough, allergies, and a collective problem called sick building syndrome.
What is Sick Building Syndrome?
Sick building syndrome describes what happens when a combination of indoor air toxins and lack of ventilation meet the human respiratory system. Because the list of pollutants is so many, and their effects so varied, sick building syndrome has a multitude of symptoms and can rear its head in many ways. In general, however, the most prevalent symptoms include eye irritation and nonspecific upper respiratory symptom.  Pollutants such as dust, mold, harmful organisms, bacteria, VOCs, toxic gases, harmful compounds, and chemical vapors can all produce adverse effects. The combination of one or more of these pollutants can multiply the problem and any compound that can pollute the air can be a factor of sick building syndrome, they need not be inorganic “factory” chemicals. Fungi are “natural” but also an especially major biological pollutant in the indoor environment. As long as moisture and oxygen are available, mold is able to grow. This leads to it being found on nearly any surface in a building, including carpets, ceiling tiles, insulations, any surfaces, wallpapers, or air conditioning systems. Indoor environments that provide exposure to fungus can cause health problems such as allergy, asthma, pneumonia, airway irritation, and many other different toxic effects. 
What Factors Contribute to Sick Building Syndrome?
When air pollutants emanate from building materials and furnishings, they are trapped by the lack of ventilation and are left lingering for you to breath in. Notable pollutants include VOCs and chemicals from simple and common household cleaners or even furniture. A Japanese study evaluated VOCs emitted from nine pieces of home furniture as potential sources of indoor air pollution. Researchers detected formaldehyde and results revealed that VOC emissions from furniture may significantly impact indoor air quality.  Formaldehyde? On a couch?
How Common is Sick Building Syndrome?
Although it’s mainly limited to developed nations, sick building syndrome has become a global problem and received global attention. An examination of 37 buildings throughout California found that all of the buildings had very ineffective filtering systems. Furthermore, many buildings failed to meet ventilation standards. Is it for lack of codes or lack of enforcement? Well, researchers called for regulators to implement more complete building inspections. 
Effects on the Workplace
Part of the reason for sick building syndrome receiving so much attention is because it can have horrible and disastrous consequences for workplace productivity. It makes sense, symptoms of SBS are often direct causes for increased absenteeism and can also progress to situations of a class-action magnitude. Recently, the National Institute for Occupational Safety and Health was asked to evaluate a water-damaged office building where 1300 employees worked and reported respiratory problems, specifically airway inflammation. Of course, symptoms were thought to be building related.  Other research has also found that dampness and mold in workplace buildings leads to increased incidence of SBS and reports of bronchial inflammation. 
The Office of Workforce and Career Development at the Centers for Disease Control and Prevention in Atlanta examined data collected from employees who were working in a water-damaged building during ongoing repairs and observed no improvement in their respiratory health. They concluded that when a work environment is polluted, it’s not enough to fix the problem as you go along. Relocating everyone to better conditions, while repairs are made, is necessary to create a situation where respiratory health may improve. 
Some might expect hospitals to be exempt from indoor air quality problems, right? Well, surprisingly, a survey by the Finnish Institute of Occupational Health found that hospital staff experience indoor air-related symptoms more even often than office workers! Because of the unique environmental needs of hospitals, they recommended the development of a model for resolving indoor air problems.  I agree, the effects of inhaling air contamination are absolutely indisputable, especially those with compromised immune systems. Every hospital should have a task force specifically created to address air quality problems.
How to Confront Sick Building Syndrome
Sick building syndrome is a compound problem. When a building lacks ventilation, harmful air pollutants build up to horrible levels and lead to respiratory (and other) problems. Alleviating the problem has to be, at minimum, a one-two attack. First, ventilation must be increased! Open the window, turn on a fan, consider an air exchange system! Second, reduce the sources of air pollution! As some pollutants are natural byproducts of nature (skin dander), complete removal is difficult… but you can make a world of difference by switching to organic cleaning products, only purchasing organic home furnishings and using non-toxic building materials. Using an efficient air purification system may also help purify your air and remove toxic invaders. Natural versions of Lysol may also be underway. Cedar leaf oil, from the Western red cedar, was evaluated in a Canadian Study as a safe antimicrobial agent for applications in buildings. Specifically, the alleviation of sick building syndrome.  Your lungs are constantly working and if you’re like most people, you spend a lot of time in your home and workplace – be proactive in making sure the air you breath is clean, health, and satisfying.
-Dr. Edward F. Group III, DC, ND, DACBN, DABFM
- Tsai DH, Lin JS, Chan CC. Office workers’ sick building syndrome and indoor carbon dioxide concentrations. http://www.ncbi.nlm.nih.gov/pubmed/22530709
- Mihinova D, Pieckova E. Moldy buildings, health of their occupants and fungal prevention. http://www.ncbi.nlm.nih.gov/pubmed/22616593
- Tanaka-Kagawa T, Furuta M, Shibatsuji M, Jinno H, Nishimura T. Volatile organic compounds (VOCs) emitted from large furniture. http://www.ncbi.nlm.nih.gov/pubmed/22259846
- Bennett DH, Fisk W, Apte MG, Wu X, Trout A, Faulkner D, Sullivan D. Ventilation, temperature, and HVAC characteristics in small and medium commercial buildings in California. http://www.ncbi.nlm.nih.gov/pubmed/22257121
- Akpinar-Elci M, Siegel PD, Cox-Ganser JM, Stemple KJ, White SK, Hilsbos K, Weissman DN. Respiratory inflammatory responses among occupants of a water-damaged office building. http://www.ncbi.nlm.nih.gov/pubmed/18333992
- Zhang X, Sahlberg B, Wieslander G, Janson C, Gislason T, Norback D. Dampness and moulds in workplace buildings: associations with incidence and remission of sick building syndrome (SBS) and biomarkers of inflammation in a 10 year follow-up study. http://www.ncbi.nlm.nih.gov/pubmed/22634552
- Iossifova YY, Cox-Ganser JM, Park JH, White SK, Kreiss K. Lack of respiratory improvement following remediation of a water-damaged office building. http://www.ncbi.nlm.nih.gov/pubmed/21413053
- Hellgren UM, Reijula K. Indoor air problems in hospitals: a challenge for occupational health. http://www.ncbi.nlm.nih.gov/pubmed/21366201
- Hudson J, Kuo M, Vimalanathan S. The antimicrobial properties of cedar leaf (Thuja plicata) oil; a safe and efficient decontamination agent for buildings. http://www.ncbi.nlm.nih.gov/pubmed/22408584