Chemistry and toxicology of molds isolated from water-damaged buildings

• Published in: Advances in experimental medicine and biology Vol. 504; p. 43
• Main Author: Jarvis, Bruce B
• Format: Journal Article
• Language: English
• Published: United States 2002
• Subjects: Animals; Environment; Environmental Pollution - adverse effects; Fungi - chemistry; Fungi - physiology; Humans; Humidity; Mycotoxins - chemistry; Mycotoxins - toxicity
• ISSN: 0065-2598
• DOI: 10.1007/978-1-4615-0629-4_5

There is increasing evidence of health risks associated with damp buildings and homes in which high levels of microbes are found. Although concerns have traditionally centered on microbial pathogens and allergenic effects, recent work has suggested that fungi pose the more serious risk. Evidence is accumulating that certain toxigenic molds are particularly a risk for human health through exposure, via inhalation, of fungal spores. Many of these fungi produce toxins (mycotoxins) some of which have been shown to cause animal and human intoxications, usually in an agricultural setting. The fungus, Stachybotrys chartarum (S. atra) is considered to be one of the more serious threats to people living and working in water-damaged buildings. This mold has a long history of being responsible for animal toxicoses, and in recent years, being associated with infant pulmonary hemosiderosis (bleeding in the lungs) of infants exposed to spores of this fungus in their homes. S. atra produces a variety of potent toxins and immunosuppressant agents, including a novel class of diterpenes (atranones) of unusual structure. More research is needed to determine the impact to health resulting from inhalation of toxigenic mold spores.