List of Cited Documents

  1. IOM, Damp indoor spaces and health, Institute of Medicine, National Academy of Sciences. 2004, Washington, D.C.: National Academy Press.
  2. Brennan, T., J.B. Cummings, and J.W. Lstiburek, Unplanned airflows and moisture problems. ASHRAE Journal, 2002. 44(11): p. 44-49.
  3. Shirey, D.B., H.I. Hendersen, and R.A. Raustad, Understanding the dehumidification performance of air-conditioning equipment at part-load conditions: Final report.  FSEC-CR-1537-05. 2006, Florida Solar Energy Center: Cocoa, Florida.
  4. World Health Organization, WHO Guidelines for indoor air quality: dampness and mold, ISBN 798 92 890 4168 3. 2009, World Health Organization regional office for Europe: Copenhagen, Denmark.
  5. Brunekreef, B., et al., Home dampness and respiratory morbidity in children. Am Rev Respir Dis, 1989. 140(5): p. 1363-7.
  6. Chiaverini, L.C., J.E. Hesser, and J.P. Fulton, Damp housing conditions and asthma in Rhode Island. Med Health R I, 2003. 86(5): p. 151-3.
  7. Freeman, N.C., D. Schneider, and P. McGarvey, Household exposure factors, asthma, and school absenteeism in a predominantly Hispanic community. J Expo Anal Environ Epidemiol, 2003. 13(3): p. 169-76.
  8. Hu, F.B., et al., An epidemiological study of asthma prevalence and related factors among young adults. J Asthma, 1997. 34(1): p. 67-76.
  9. Maier, W.C., et al., Indoor risk factors for asthma and wheezing among Seattle school children. Environ Health Perspect, 1997. 105(2): p. 208-14.
  10. Slezak, J.A., et al., Asthma prevalence and risk factors in selected Head Start sites in Chicago. J Asthma, 1998. 35(2): p. 203-12.
  11. Spengler, J.D., et al., Respiratory symptoms and housing characteristics. Indoor Air, 1994. 4(2): p. 72-82.
  12. Stark, P.C., et al., Fungal levels in the home and lower respiratory tract illnesses in the first year of life. Am J Respir Crit Care Med, 2003. 168(2): p. 232-7.
  13. Girman, J.R., B.J. Baker, and L.E. Burton, Prevalence of potential sources of indoor air pollution in U.S. office buildings, in Proceedings of Indoor Air 2002. 2002, Indoor Air 2002, Inc.: Monterey, California. p. 438-443.
  14. GAO, School facilities: condition of America's schools. 1995, General Accounting Office: Washington, D.C.
  15. Mudarri, D. and W.J. Fisk, Public health and economic impact of dampness and mold. Indoor Air, 2007. 17(3): p. 226-235.
  16. Gorny, R.L., et al., Fungal fragments as indoor air biocontaminants. Appl Environ Microbiol, 2002. 68(7): p. 3522-31.
  17. IOM, Clearing the air: asthma and indoor air exposures. 2000, Washington, D.C.: Institute of Medicine, National Academy of Sciences, National Academy Press.
  18. Hart, B.J., Life cycle and reproduction of house-dust mites: environmental factors influencing mite populations. Allergy, 1998. 53(48 Suppl): p. 13-7.
  19. Arlian, L.G., J.S. Neal, and D.L. Vyszenski-Moher, Reducing relative humidity to control the house dust mite Dermatophagoides farinae. J Allergy Clin Immunol, 1999. 104(4 Pt 1): p. 852-6.
  20. Gross, I., et al., Indoor determinants of Der p 1 and Der f 1 concentrations in house dust are different. Clin Exp Allergy, 2000. 30(3): p. 376-82.
  21. Harving, H., J. Korsgaard, and R. Dahl, House-dust mites and associated environmental conditions in Danish homes. Allergy, 1993. 48(2): p. 106-9.
  22. Ellingson, A.R., et al., The prevalence of Dermatophagoides mite allergen in Colorado homes utilizing central evaporative coolers. J Allergy Clin Immunol, 1995. 96(4): p. 473-9.
  23. Bemt, L., et al., Influence of mattress characteristics on house dust mite allergen concentration. Clin Exp Allergy, 2006. 36(2): p. 233-7.
  24. Platts-Mills, T.A., Chapter 43. Allergens derived from arthropods and domestic animals., in Indoor air quality handbook, J.D. Spengler, J.M. Samet, and J.F. McCarthy, Editors. 2000, McGraw-Hill: New York.
  25. Arlian, L.G. and T.A. Platts-Mills, The biology of dust mites and the remediation of mite allergens in allergic disease. J Allergy Clin Immunol, 2001. 107(3 Suppl): p. S406-13.
  26. Cabrera, P., et al., Reduction of house dust mite allergens after dehumidifier use. J Allergy Clin Immunol, 1995. 95(2): p. 635-6.
  27. Harving, H., J. Korsgaard, and R. Dahl, House-dust mite exposure reduction in specially designed, mechanically ventilated "healthy" homes. Allergy, 1994a. 49(9): p. 713-8.
  28. Warner, J.A., et al., Mechanical ventilation and high-efficiency vacuum cleaning: A combined strategy of mite and mite allergen reduction in the control of mite-sensitive asthma. J Allergy Clin Immunol, 2000. 105(1 Pt 1): p. 75-82.
  29. Niven, R., et al., Attempting to control mite allergens with mechanical ventilation and dehumidification in British houses. J Allergy Clin Immunol, 1999. 103(5 Pt 1): p. 756-62.
  30. Vanlaar, C.H., et al., Predictors of house-dust-mite allergen concentrations in dry regions in Australia. Allergy, 2001. 56(12): p. 1211-5.
  31. Crane, J., et al., A pilot study of the effect of mechanical ventilation and heat exchange on house-dust mites and Der p 1 in New Zealand homes. Allergy, 1998. 53(8): p. 755-62.
  32. Fletcher, A.M., et al., Reduction in humidity as a method of controlling mites and mite allergens: the use of mechanical ventilation in British domestic dwellings. Clin Exp Allergy, 1996. 26(9): p. 1051-6.
  33. Wickman, M., et al., Reduced mite allergen levels in dwellings with mechanical exhaust and supply ventilation. Clin Exp Allergy, 1994. 24(2): p. 109-14.
  34. Custovic, A., et al., Portable dehumidifiers in the control of house dust mites and mite allergens. Clin Exp Allergy, 1995. 25(4): p. 312-6.
  35. Arlian, L.G., et al., Reducing relative humidity is a practical way to control dust mites and their allergens in homes in temperate climates. J Allergy Clin Immunol, 2001. 107(1): p. 99-104.
  36. Harving, H., J. Korsgaard, and R. Dahl, Clinical efficacy of reduction in house-dust mite exposure in specially designed, mechanically ventilated "healthy" homes. Allergy, 1994b. 49(10): p. 866-70.
  37. Korsgaard, J., Preventive measures in mite asthma. A controlled trial. Allergy, 1983. 38(2): p. 93-102.
  38. Prasad, C., et al., Effect of evaporative coolers on skin test reactivity to dust mites and molds in a desert environment. Allergy Asthma Proc, 2009. 30(6): p. 624-7.
  39. Wickman, M., et al., Mite allergens during 18 months of intervention. Allergy, 1994. 49(2): p. 114-9.
  40. Mendell, M.J., et al., Respiratory and allergic health effects of dampness, mold, and dampness-related agents: a review of the epidemiologic evidence. Environ Health Perspect, 2011. 119(6): p. 748-756.
  41. Park, J.H. and J.M. Cox-Ganser, Mold exposure and respiratory health in damp indoor environments. Front Biosci (Elite Ed), 2011. 3: p. 757-71.
  42. Tischer, C., C.M. Chen, and J. Heinrich, Association between domestic mould and mould components, and asthma and allergy in children: a systematic review. Eur Respir J, 2011. 38(4): p. 812-24.
  43. Kanchongkittiphon, W., et al., Indoor environmental exposures and exacerbation of asthma: an update to the 2000 review by the Institute of Medicine. Environmental health perspectives, 2015. 123(1): p. 6.
  44. Pettigrew, H.D., et al., Mold and human health: separating the wheat from the chaff. Clin Rev Allergy Immunol, 2010. 38(2-3): p. 148-55.
  45. Borchers, A.T., C. Chang, and M. Eric Gershwin, Mold and Human Health: a Reality Check. Clin Rev Allergy Immunol, 2017. 52(3): p. 305-322.
  46. Fisk, W.J., Q. Lei-Gomez, and M.J. Mendell, Meta-analyses of the associations of respiratory health effects with dampness and mold in homes. Indoor Air., 2007. 17(4): p. 284-295.
  47. Tischer, C.G., et al., Meta-analysis of mould and dampness exposure on asthma and allergy in eight European birth cohorts: an ENRIECO initiative. Allergy, 2011. 66(12): p. 1570-9.
  48. Quansah, R., et al., Residential dampness and molds and the risk of developing asthma: a systematic review and meta-analysis. PLoS One, 2012. 7(11): p. e47526.
  49. Fisk, W.J., E. Eliseeva, and M.J. Mendell, Association of residential dampness and mold with respiratory tract infections and bronchitis: a meta-analysis. Environmental Health, 2010. 9:72.
  50. Sauni, R., et al., Remediating buildings damaged by dampness and mould for preventing or reducing respiratory tract symptoms, infections and asthma. Cochrane Database Syst Rev, 2015(2): p. Cd007897.
  51. Antova, T., et al., Exposure to indoor mould and children's respiratory health in the PATY study. J Epidemiol Community Health, 2008. 62(8): p. 708-14.
  52. Jaakkola, M., et al., Indoor Dampness And Molds And The Risk Of Developing Asthma: A Systematic Review And Meta-Analysis. Am J Respir Crit Care Med, 2013. 187: p. A1618.
  53. Jaakkola, M.S., et al., Association of indoor dampness and molds with rhinitis risk: a systematic review and meta-analysis. J Allergy Clin Immunol, 2013. 132(5): p. 1099-1110.e18.
  54. Cox-Ganser, J.M., et al., Respiratory morbidity in office workers in a water-damaged building. Environ Health Perspect, 2005. 113(4): p. 485-90.
  55. Jaakkola, M.S., et al., Indoor dampness and molds and development of adult-onset asthma: a population-based incident case-control study. Environ Health Perspect, 2002. 110(5): p. 543-7.
  56. Karvala, K., et al., New-onset adult asthma in relation to damp and moldy workplaces. Int Arch Occup Environ Health, 2010. 83(8): p. 855-65.
  57. Karvala, K., et al., Prolonged exposure to damp and moldy workplaces and new-onset asthma. Int Arch Occup Environ Health, 2011. 84(7): p. 713-21.
  58. Kim, J.L., et al., Impact of occupational exposures on exacerbation of asthma: a population-based asthma cohort study. BMC Pulm Med, 2016. 16(1): p. 148.
  59. Norbäck, D., et al., Asthma symptoms in relation to measured building dampness in upper concrete floor construction, and 2-ethyl-1-hexanol in indoor air. Int J Tuberc Lung Dis, 2000. 4(11): p. 1016-25.
  60. Nordstrom, K., et al., The effect of building dampness and type of building on eye, nose and throat symptoms in Swedish hospitals. Journal of Environmental Medicine, 1999. 1: p. 127-135.
  61. Wieslander, G., et al., Nasal and ocular symptoms, tear film stability and biomarkers in nasal lavage, in relation to building-dampness and building design in hospitals. Int Arch Occup Environ Health, 1999. 72(7): p. 451-61.
  62. Wan, G.H. and C.S. Li, Dampness and airway inflammation and systemic symptoms in office building workers. Arch Environ Health, 1999. 54(1): p. 58-63.
  63. Wan, G.H. and C.S. Li, Indoor endotoxin and glucan in association with airway inflammation and systemic symptoms. Arch Environ Health, 1999. 54(3): p. 172-9.
  64. Mendell, M.J., et al., Environmental risk factors and work-related lower respiratory symptoms in 80 office buildings: an exploratory analysis of NIOSH data. Am J Ind Med, 2003. 43(6): p. 630-41.
  65. Menzies, D., et al., Effect of ultraviolet germicidal lights installed in office ventilation systems on workers' health and wellbeing: double-blind multiple crossover trial. Lancet, 2003. 362(9398): p. 1785-91.
  66. Chao, H.J., et al., The work environment and workers' health in four large office buildings. Environ Health Perspect, 2003. 111(9): p. 1242-8.
  67. Park, J.H., et al., Fungal and endotoxin measurements in dust associated with respiratory symptoms in a water-damaged office building. Indoor Air, 2006. 16(3): p. 192-203.
  68. Sahakian, N., J.H. Park, and J. Cox-Ganser, Respiratory morbidity and medical visits associated with dampness and air-conditioning in offices and homes. Indoor Air, 2009. 19(1): p. 58-67.
  69. Jarvis, J.Q. and P.R. Morey, Allergic respiratory disease and fungal remediation in a building in a subtropical climate. Applied Occupational and Environmental Hygiene, 2001. 16(3): p. 380-388.
  70. Menzies, D., et al., Aeroallergens and work-related respiratory symptoms among office workers. J Allergy Clin Immunol, 1998. 101(1 Pt 1): p. 38-44.
  71. Zhang, X., et al., 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. Sci Total Environ, 2012. 430: p. 75-81.
  72. Aldous, M.B., et al., Evaporative cooling and other home factors and lower respiratory tract illness during the first year of life. Group Health Medical Associates. Am J Epidemiol, 1996. 143(5): p. 423-30.
  73. Centers for Disease Control and Prevention, Update: pulmonary hemorrhage/hemosiderosis among infants -Cleveland, Ohio 1993-1996. Morbidity and Mortality Weekly Report, 1997. 46(2): p. 33-35.
  74. Etzel, R.A., et al., Acute pulmonary hemorrhage in infants associated with exposure to Stachybotrys atra and other fungi. Arch Pediatr Adolesc Med, 1998. 152(8): p. 757-62.
  75. Centers for Disease Control and Prevention, Update: pulmonary hemorrhage /hemosiderosis among infants - Cleveland, Ohio, 1993-1996. Morbidity and Mortality Weekly Report, 2000. 49(9): p. 180-185.
  76. Mudarri, D.H., Valuing the Economic Costs of Allergic Rhinitis, Acute Bronchitis, and Asthma from Exposure to Indoor Dampness and Mold in the US. J Environ Public Health, 2016. 2016: p. 2386596.
  77. Lstiburek, J.W., Understanding vapor barriers. ASHRAE Journal, 2004. 46: p. 40-50.
  78. Lstiburek, J.W., Understanding air barriers. ASHRAE Journal, 2005. 47: p. 24-30.
  79. Lstiburek, J.W., Understanding drainage planes. ASHRAE Journal, 2006. 48: p. 30-35.
  80. Lstiburek, J.W., The perfect wall. ASHRAE Journal, 2007. 49: p. 74-78.
  81. Lstiburek, J.W., The perfect storm over stucco. ASHRAE Journal, 2008. 50: p. 38-43.
  82. Lstiburek, J.W., Understanding basements. ASHRAE Journal, 2006. 48: p. 24-29.
  83. Harriman, L., G. Brundrett, and R. Kittler, Humidity control design guide for commercial and institutional buildings. 2001, Atlanta, GA: ASHRAE.
  84. Harriman, L.G., The dehumidification handbook, 2nd Edition. 1990, Amesbury, PA: Munters Cargocaire.
  85. Gatley, D.P., Dehumidification enhancements for 100-percent outside air AHUs, Part 1, Simplifying the decision-making process. HPAC Engineering, 2000. September 2000: p. 28-32.
  86. Gatley, D.P., Dehumidification enhancements for 100-percent outside air AHUs, Part 2, Recuperative heat exchange is an energy-efficient way to accomplish reheat while also reducing cooling capacity. HPAC Engineering, 2000. October 2000: p. 51-59.
  87. Gatley, D.P., Dehumidification enhancements for 100-percent outside air AHUs, Part 3, Enthalpy heat exchange, the use of desiccants, and vapor compression dehumidifiers are cost effective ways to maintain healthy and comfortable buildings. HPAC Engineering, 2000. November 2000: p. 31-35.
  88. Hendersen, H.I., D.B. Shirey, and R.A. Raustad, Understanding the dehumidification performance of air-conditioning equipment at part-load conditions, in CIBSE/ASHRAE Conference. 2003: Edinburgh, Scotland.
  89. Lstiburek, J.W. and J. Carmody, Moisture control handbook: principles and practices for residential and small commercial buildings. 1993, New York: Van Nostrand Reinhold. 214.
  90. Mendell, M.J., et al., Risk factors in heating, ventilating, and air-conditioning systems for occupant symptoms in US office buildings: the US EPA BASE study. Indoor Air, 2008. 18(4): p. 301-16.