1/7. sick building syndrome.Dr. Hodgson summarizes what is known about human symptoms and discomfort in the built environment, and formulates several critical hypotheses that show striking parallels to the questions arising from discussions of the IEI/MCS syndrome.- - - - - - - - - - ranking = 1keywords = environment (Clic here for more details about this article) |
2/7. Bioaerosol lung damage in a worker with repeated exposure to fungi in a water-damaged building.There has been increased concern over health effects related to potential exposure of building occupants to bioaerosols. We report the case of a worker with a respiratory illness related to bioaerosol exposure in a water-damaged building with extensive fungal contamination. We performed environmental tests to evaluate potential exposure to fungi, and we used mycotoxin-specific IgG antibody in serologic studies in the attempt to evaluate exposure to mycotoxins. Extensive fungal contamination was documented in many areas of the building. penicillium, aspergillus, and stachybotrys species were the most predominant fungi found in air sampling. Our serologic test was not useful in differentiating workers who were probably occupationally exposed to mycotoxins from those who were not; however, it did yield evidence that individuals may make specific IgG antibodies to macrocyclic tricothecene mycotoxins. Further research is needed concerning health effects related to bioaerosol exposures, particularly regarding markers of exposure to specific fungi that may produce mycotoxins. In the absence of clinical tools specific for evaluation of mycotoxin-related illness, a systematic clinical approach for evaluating persons with suspected building-related respiratory illness is warranted.- - - - - - - - - - ranking = 1keywords = environment (Clic here for more details about this article) |
3/7. Identifying and managing adverse environmental health effects: 1. Taking an exposure history.Public concern and awareness are growing about adverse health effects of exposure to environmental contaminants. Frequently patients present to their physicians with questions or concerns about exposures to such substances as lead, air pollutants and pesticides. Most primary care physicians lack training in and knowledge of the clinical recognition, management and avoidance of such exposures. We have found that it can be helpful to use the CH2OPD2 mnemonic (Community, Home, hobbies, Occupation, Personal habits, diet and Drugs) as a tool to identify a patient's history of exposures to potentially toxic environmental contaminants. In this article we discuss why it is important to take a patient's environmental exposure history, when and how to take the history, and how to interpret the findings. Possible routes of exposure and common sources of potentially toxic biological, physical and chemical substances are identified. A case of sick-building syndrome is used to illustrate the use of the mnemonic.- - - - - - - - - - ranking = 7keywords = environment (Clic here for more details about this article) |
4/7. Brainstem auditory evoked response in adolescents with acoustic mycotic neuroma due to environmental exposure to toxic molds.Indoor air contamination with toxic opportunistic molds is an emerging health risk worldwide. Some of the opportunistic molds include: stachybotrys chartarum, aspergillus species (A. fumigatus, A. flavus, A. niger, A. versicolor etc.), Cadosporium, alternaria, penicillium, trichoderma, fusarium graminearum etc. These molds flourish in homes that are moist and damp. Reports of floods are now evident in many parts of the world. With these global changes in climatic conditions that favor the opportunistic mode of living among these molds, some health authorities are beginning to feel concerned about the diversity and the extent to which opportunistic molds can cause adverse health effects in humans. mycotoxicosis is the collective name for all the diseases caused by toxic molds. Frequently, we have cases of acoustic neuroma due to mycotoxicity in our Center. Mycotic neuroma probably has not been reported before and the application of brainstem auditory evoked response (BAER) techniques in acoustic mycotic neuroma have not been reported either. The aim of this study, therefore, was to report cases and measurements of acoustic mycotic neuroma in adolescents using the brainstem auditory evoked response. The patients' case history, clinical neurological and neurobehavioral questionnaires were assessed. Then, the BAERs were recorded between Cz and Ai, with a second channel, Cz-Ac. The case histories and the questionnaires were analyzed in conjunction with the outcome of the objective brainstem auditory evoked response measurements. The prevalent subjective findings in the patients were headaches, memory loss, hearing loss, lack of concentration, fatigue, sleep disturbance, facial swelling, rashes, nosebleeds, diarrhea, abdominal pains and respiratory difficulties. Objective BAER showed overall abnormalities in all the patients. Although the waveform abnormalities varied, 1-3 interpeak latencies were abnormal in all the patients. overall results showed the presence of acoustic mycotic neuroma and confirmed the sensitivity and usefulness of BAER in screening acoustic mycotic neuroma and sensorineural auditory dysfunction.- - - - - - - - - - ranking = 4keywords = environment (Clic here for more details about this article) |
5/7. The sensitive individual and the indoor environment: case study.This case study describes an indoor environment investigation initiated in response to numerous health and comfort complaints suspected of being associated with a two-story office building. Conventional indoor environment investigation techniques were applied in an attempt to identify one or several contributing factors, such as inadequate outdoor air ventilation and the presence of a respiratory irritant. The air quality satisfaction percentage in the building was well above 80%; however, at least one individual was experiencing a fairly severe reaction only upon entering the subject building. Evaluating the building indoor conditions as acceptable without attempting to address all possible building-related causes and communicating findings to interested occupants would likely have resulted in more occupant complaints and increased the potential for hysteria conditions. This investigation necessarily addressed a sensitive individual and involved an occupational physician as a constructive participant in the investigation.- - - - - - - - - - ranking = 6keywords = environment (Clic here for more details about this article) |
6/7. Allergic alveolitis in a school environment.BACKGROUND: A considerable fraction of newly constructed buildings have indoor air problems associated with health effects, usually of the nonspecific sick building syndrome variety. Specific health effects such as asthma, rhinitis, and allergic alveolitis can also occur. CASE: On 1 September 1988 a school teacher showed symptoms of an acute respiratory illness, which was first interpreted as pulmonary embolism and then later as atypical sarcoidosis. The illness slowly progressed over six years, at which time the diagnosis was revised to chronic allergic alveolitis, related to her school environment. The school had had indoor-air quality problems off and on for several years. CONCLUSIONS: The case illustrates the difficulties of diagnosing cases of chronic allergic alveolitis, especially when it appears in environments where it is not generally encountered. It also raises questions regarding a possible relation between environments associated with the sick building syndrome and the occurrence of building-associated illnesses.- - - - - - - - - - ranking = 7keywords = environment (Clic here for more details about this article) |
7/7. hypersensitivity pneumonitis: a sentinel event investigation in a wet building.hypersensitivity pneumonitis (HP) as a sentinel event implies a remediable exposure and an exposed cohort that require evaluation. A patient with HP convincingly related to her building led to a questionnaire survey in follow-up. Building coworkers demonstrated substantially higher symptom rates than did controls in five other buildings, although no further cases of disease were identified. It is likely that moisture sources in the building included an oversized cooling system and below-grade moisture, but the building met all applicable regulations and standards. Screening investigations for disease are not mandated by law and are often not conducted, in part because cost coverage is unclear. The absence of regulatory or professional standards that adequately address moisture in the built environment forces occupational health professionals to rely on disease documentation strategies to justify intervention.- - - - - - - - - - ranking = 1keywords = environment (Clic here for more details about this article) |