High prevalence of neurological sequelae and multiple chemical sensitivity among occupants of a Finnish police station damaged by dampness microbiota.

Objectives: The aim of the study was to estimate the risks of different symptoms after the exposure to indoor air dampness microbiota (DM).Methods: This cross-sectional retrospective cohort-based study compared morbidity risks in DM exposed (n = 116) vs. unexposed cohort (n = 45). Gender-adjusted log-binomial regression models were used to calculate risk ratios (RR). The analysis of indoor dust toxicity was based on the inhibition of the motion of boar spermatozoa in vitro. Conventional microbiological work-up was performed in an accredited laboratory.Results: Compared to the unexposed cohort, the study cohort had statistically significant (p < 0.05) risks to develop symptoms of the central nervous system RR = 2.85 (95% CI 1.19-6.85), fatigue RR = 2.82 (1.55-5.11), Multiple Chemical Sensitivity (MCS) RR = 2.81 (1.06-7.46), cardiac arrhythmia RR = 9.58 (1.33-68.81) and respiratory symptoms RR = 2.66 (1.58-4.48).Conclusions: The results of this study corroborate our earlier findings that toxic indoor air may cause a plethora of neurological symptoms. Higher than in the control group the prevalence of MCS associated with the exposure to DM. Bad indoor air is therefore not only a risk for respiratory problems and asthma but should be viewed broader as a systemic biotoxicosis. Therefore, psychologization of this disorder without mentioning the underlying insulting mechanisms should be discouraged.

Moist and Mold Exposure is Associated With High Prevalence of Neurological Symptoms and MCS in a Finnish Hospital Workers Cohort.

BACKGROUND: Indoor air dampness microbiota (DM) is a big health hazard. Sufficient evidence exists that exposure to DM causes new asthma or exacerbation, dyspnea, infections of upper airways and allergic alveolitis. Less convincing evidence has yet been published for extrapulmonary manifestations of dampness and mold hypersensitivity syndrome ). METHODS: We investigated the prevalence of extrapulmonary in addition to respiratory symptoms with a questionnaire in a cohort of nurses and midwives (n = 90) exposed to DM in a Helsinki Obstetric Hospital. The corresponding prevalence was compared with an unexposed cohort (n = 45). Particular interest was put on neurological symptoms and multiple chemical sensitivity. RESULTS: The results show that respiratory symptoms were more common among participants of the study vs. control cohort, that is, 80 vs 29%, respectively (risk ratio [RR]: 2.56, p < 0.001). Symptoms of the central or peripheral nervous system were also more common in study vs. control cohort: 81 vs 11% (RR: 6.63, p < 0.001). Fatigue was reported in 77 vs. 24%, (RR: 3.05, p < 0.001) and multiple chemical sensitivity in 40 vs. 9%, (RR: 3.44, p = 0.01), the so-called "brain fog", was prevalent in 62 vs 11% (RR: 4.94, p < 0.001), arrhythmias were reported in 57 vs. 2.4% (RR: 19.75, p < 0.001) and musculoskeletal pain in 51 vs 22% (RR: 2.02, p = 0.02) among participants of the study vs. control cohort, respectively. CONCLUSION: The results indicate that the exposure to DM is associated with a plethora of extrapulmonary symptoms. Presented data corroborate our recent reports on the health effects of moist and mold exposure in a workplace.

Association of toxic indoor air with multi-organ symptoms in pupils attending a moisture-damaged school in Finland.

BACKGROUND: There is an on-going debate on how best to test toxic indoor air. Toxicological methods based on condensed water samples and cell culture technique are newly introduced research tools which were tested in this study. METHODS: Pupils (n=47) from a water-damaged and (n=56) healthy schools were interviewed using a questionnaire. Indoor air was collected with a novel condensed water sampling technique and human THP-1 macrophages were exposed to the condensate. The cytotoxicity of cotton wool swab samples was tested using human BJ fibroblasts. Conventional microbiological culture methods were also performed. RESULTS: Gastrointestinal problems (GI) were reported by 51% from the study cohort but only 4% of the control cohort, relative risk RR=14.30. For any neurological or neuropsychological symptoms, the RR was 63.04, muscular-skeletal pain RR=58.28, headache RR=31.00, respiratory symptoms RR=22.64, fatigue RR=21.45, sub febrility RR=15.49, ear infections RR=7.74, skin rash RR=5.96, all being statistically significant (P<0.001). All indoor air (n=7) and cotton wool samples (n=2) taken from the water-damaged classroom or in proximity of the problematic classrooms were toxic in cell culture assays. Low numbers of moisture-damage indicators were recovered from wall, passive air, and swab samples, namely Aspergillus ochraceus species group, Aspergillus, Eurotium species group, Fusarium, Tritirachium, Scopulariopsis genus group and Aspergillus versicolores species group. CONCLUSIONS: Indoor air toxicity and dampness-related microbiota recovered from the classrooms were associated with multi-organ morbidity of the school occupants. These results corroborated our previous reports from two adult cohorts i.e. evidence of causality. These new toxicological methods based on condensed water and cell culturing techniques seem to be superior to conventional microbiological methods in correlating with clinical symptoms.

Asthma Case Cluster during Renovation of a Water-Damaged and Toxic Building.

BACKGROUND: An association between fungal exposure at work and asthma onset has been shown, but a causal relationship between them has not beTanle en established. METHODS: The study describes an asthma cluster in workers in a building under renovation. Before renovation the work site had significant water damage, technical deficiencies, and ventilation problems. Worker protection was insufficient during renovation. In the building, toxicity was determined from dust as well as from cultured dust. Toxicity analysis was conducted in vitro using the boar spermatozoa motility assay. RESULTS: During the 8-month renovation period, among 290 workers, 21 (7.2%) experienced new-onset asthma (9 women, 42.9%; 12 men, 57.1%; median age, 43 years (range, 30-60 years)). At the renovation site, they had been exposed to areas where remarkable toxicity was demonstrated in vitro. One year later, 13 (61.9%) of them still had moderate disease, and three (14.8%) had severe disease. Most patients had a poor response to inhaled corticosteroids. CONCLUSIONS: This study documents a clear temporal association between occupational exposure during renovation of a water-damaged building and a cluster of 21 new occupational asthma cases. In addition, dust and cultured dust from their work spaces showed remarkable toxicity based on inhibition of boar sperm motility in vitro.