Most studies on sick building syndrome (SBS) are cross-sectional and have dealt with symptoms among office workers. There are very few longitudinal cohort studies and few studies on SBS in relation to domestic exposures. The aim of this study was to investigate changes in SBS symptoms during the follow-up period and also to investigate changes in different types of indoor exposures at home and relate them to SBS symptoms in a population sample of adults from Sweden. We also wanted to investigate if there was any seasonal or regional variation in associations between exposure and SBS.

 A random sample of 1,000 people of the general population in Sweden (1991) was sent a self administered questionnaire. A follow-up questionnaire was sent in 2001.

An increased risk for onset of any skin symptoms (risk ratio (RR) 2.32, 1.37-3.93), mucosal symptoms (RR 3.17, 1.69-5.95) or general symptoms (RR 2.18, 1.29-3.70) was found for those who had dampness or moulds in the dwelling during follow-up. In addition people living in damp dwellings had a lower remission of general symptoms and skin symptoms.

Dampness in the dwelling is a risk factor for new onset of SBS symptoms. Focus on indoor environment improvements in dwellings can be beneficial both for the inhabitants and the general population. Reducing dampness in buildings is an important factor for reducing SBS symptoms in the general population.

Reference:
Sahlberg B, Wieslander G, Norbäck D., Sick building syndrome (SBS) in relation to domestic exposure in Sweden – A cohort study from 1991 to 2001, Department of Occupational and Environmental Medicine, Uppsala University Hospital and Uppsala University, Uppsala, Sweden, Scand J Public Health. 2009 Oct 22.

Breakthrough study on Multiple Chemical Sensitivity shows MCS is an epidemic caused by toxic chemicals; peer-reviewed paper is published in prestigious toxicology reference work.

A major paper on multiple chemical sensitivity by Professor Martin L. Pall is to be published October 23, 2009 as chapter XX in a prestigious reference work for professional toxicologists, “General and Applied Toxicology, 3rd Edition” (John Wiley & Sons).  Multiple chemical sensitivity (MCS) is also known as chemical sensitivity, chemical intolerance and toxicant-induced loss of tolerance, with this last name emphasizing the role of chemicals in initiating cases of this disease.  Pall’s  paper, entitled Multiple Chemical Sensitivity: Toxicological Questions and Mechanisms, establishes five important facts about  MCS:

1. MCS is a stunningly common disease, even more common than diabetes.  This has been shown in a series of nine epidemiological studies from the U.S. and one study each from Canada, Germany, Sweden and Denmark.  In the U.S., approximately 3.5% of the population is affected by severe MCS, with much larger numbers, at least 12% of the population, being moderately affected.  MCS is, therefore, a very large international disease epidemic with major implications in terms of public health.

2. MCS is caused by toxic chemical exposure.  Cases of MCS are initiated by exposure to seven classes of chemicals.  These include three classes of pesticides and the very large class of organic solvents and related compounds.  In addition, published studies implicate mercury, hydrogen sulfide and carbon monoxide as initiators.  All seven of these classes of chemicals have been shown in animal studies to produce a common response in the body, excessive activity of a receptor in the body known as the NMDA receptor.  Furthermore animal studies have demonstrated that chemicals belonging to each of these seven classes can have their toxic responses greatly lowered by using drugs that lower this NMDA response.  Because excessive NMDA activity is implicated in MCS from other studies, we now have a compelling common response that explains how such diverse chemicals can produce the disease that we call MCS.

3. The role of chemicals acting as toxicants in MCS has been confirmed by genetic studies.  Four such studies have shown that genes that determine the rate of metabolism of chemicals otherwise implicated in MCS, influence susceptibility to becoming ill with MCS.  These four studies have been published by three research groups in three countries, the U.S., Canada and Germany, have collectively implicated six genes in determining susceptibility to MCS.  Each of these six genes has a role in determining the rate of metabolism of MCS-related chemicals.  The German studies by Schnakenberg and colleagues are particularly convincing on this because of the extremely high level of statistical significance of their studies implicating four of these six genes. There is only one interpretation for the role of these six genes in determining susceptibility to MCS.  It is that chemicals act as toxicants in initiating cases of MCS and that metabolizing these chemicals into forms that are either less or more active in such initiation, influences therefore, the probability that a person will become ill with MCS.  It is clear, therefore, that MCS is a toxicological phenomenon, with cases being caused by the toxic response to chemical exposure.

4. We have, a detailed and generally well supported mechanism for MCS.   This mechanism explains both the high level chemical sensitivity that is the most characteristic symptom of MCS, as well as many other symptoms and signs of this disease, can be generated.   This mechanism is centered on a biochemical vicious cycle, known as the NO/ONOO- cycle, which interacts with other mechanisms previously implicated in MCS, notably neural sensitization and neurogenic inflammation.  These act locally, in various tissues of the body, to generate local sensitivity in regions of the brain and in peripheral tissues including lungs, upper respiratory tract and regions of the skin and the GI tract.  Because of this local nature, different MCS patients differ from one another in their sensitivity symptoms, because the tissues impacted differ from one patient to another.  In addition to the evidence discussed above, this general mechanism is supported by various physiological changes found in MCS and in related illnesses, by studies of MCS animal models, by objectively measurable responses of MCS patients to low level chemical exposure and by therapeutic responses reported for MCS and related illnesses.

5. For over 20 years, some have falsely argued that MCS is a psychogenic disease, being generated in their view by some ill defined psychological mechanism.  However this view is completely incompatible with all of the evidence discussed earlier in this release. While such incompatibility is more than sufficient reason to reject these psychogenic claims, the MCS toxicology paper lists eight additional serious flaws in the psychogenic arguments.  There is a long history of false psychogenic claims in medicine, where such diseases as asthma, autism, Parkinson’s disease, ulcers, multiple sclerosis, lupus, interstitial cystitis, migraine and ulcerative colitis have been claimed to be generated by a psychological mechanism.  The 2005 Nobel Prize in physiology and medicine was give to Drs. Robin Warren and Barry Marshall for showing that ulcers are caused by a bacterial infection, and are not of psychogenic origin.  It is clear, now, that MCS is physiological disease initiated by toxic chemical exposure that has been falsely claimed to be psychogenic.

—

Martin L. Pall is Professor Emeritus of Biochemistry and Basic Medical Science, at Washington State University.

He is located on Pacific time in the U.S. and can be contacted at:  503-232-3883 and at martin_pall@wsu.edu.

His Website is: www.thetenthparadigm.org

Related Articles:

• Environmental Medicine: Dr. Martin Pall about Chemical Sensitivity
• Martin Pall about genetic evidence and Multiple Chemical Sensitivity
• Chemical Sensitivity and a number of medical conditions respond positively to sauna therapy
• Multiple Chemical Sensitivity at General and Applied Toxicology 3rd Edition

Eva Caballé “Eva’s No Fun Blogspot“ from Spain reports:

Few days ago I discovered that my blog had some visitors from this Japanese website, a blog done by Prof. Masumi Yamamuro of Tokyo University. When I read this post, I discovered that it was my article “The Naked Truth about MCS” in Japanese and they mentioned that it had been translated by Citizens Against Chemicals Pollution (CACP) and I decided to write them. Takeshi Yasuma, from Citizens Against Chemicals Pollution (CACP), explained me that he found my article at The Canary Report and he immediately translated it into Japanese with the subtitle “Cry of Spanish MCS Patient’s Heart”, because he was very impressed by it. He published the Japanese version of my article in Citizens Against Chemicals Pollution website last August and also in the September issue of their monthly newsletter.

I also asked him about MCS situation in Japan, and now, with his permission, I post the part of his email where he explained it and I also reprint CACP’s mission.

Takeshi Yasuma wrote:

There is good news.

On October 1, 2009, the Medical Information System Development Center (MEDIS-DC), a subsidiary organization of Ministry of Health, Labor and Welfare (MHLW) published the revised list of ICD-10 Japanese Standard Disease Code Master in which MCS is categorized in T65.9: Toxic effect of other and unspecified substances / Toxic effect of unspecified substance.

It has been now clearly recognized in Japan that MCS is NOT a mental disease but a physical disease.

This decision is welcomed by MCS patients and their supporters and they expect the possible coverage of MCS by health insurance, but so far it remains uncertain whether or how it will change.

Patients and their supporters will take actions for calling on Japanese government to give urgent supports for MCS patients including coverage of MCS by health insurance, strengthening medical services, financial support for livelihood and provision of safer houses.

On October 31 at Tokyo, we will hold a MCS symposium celebrating the recognition and calling on Japanese government to take further measures for MCS.

CACP’s Mission:

To provide information to the public and take action necessary for protecting human health and environment from harmful chemicals based on Precautionary Principle and Environmental Justice.

Main Activities:

• To issue monthly newsletter [PICO].
• To issue weekly mail service.
• To provide information at our website.
• To publish books and booklets related to environmental health.
• To propose our policies to the Japanese Government and local governments.
• To hold seminars for citizens on protecting human health and environment.

I want to thank to Takeshi Yasuma for translating my article, for letting me publish all this information about MCS in Japan and also for asking me to write a message to MCS patients and their supporters to be presented at the MCS symposium. It will be an honour to me!

Author: Eva Caballé, Eva’s No Fun Blogspot

Thank you very much Eva! Big Hug, Silvia

NOTES:

• Original post in Spanish and English by Eva Caballé at No Fun Blogspot
• Post translated into German by Silvia K. Müller and published at CSN Blog
• Post translated into Japanese by Takeshi Yasuma and published at Citizens Against Chemicals Pollution website (October 7, 2009).
• Post linked at The Canary Report (October 8, 2009).

Toxic Sofas, toxic Furniture – Searching for a cause  

Sitting in new chairs or sofas has elicited dermatitis in numerous patients in Finland and in the U.K. since autumn 2006. The cause of the dermatitis seemed to be an allergen in the furniture materials.

The aim of the following study was to determine the cause of the dermatitis in patients with furniture-related dermatitis. 

Altogether 42 patients with furniture-related dermatitis were studied. First, 14 Finnish patients were patch tested with the standardized series and with the chair textile material. A thin-layer chromatogram (TLC) strip and an extract made from the same textile material were tested in seven Finnish patients. The test positive spot of the TLC and the content of a sachet found inside a sofa in the U.K. were analysed by using gas chromatography-mass spectrometry. All chemicals analysed were patch tested in 37 patients. 

A positive patch test reaction to the chair textile and to its extract was seen in all patients tested, one-third of whom had concurrent reactions to acrylates. Positive reactions to the same spot of the TLC strip were seen in five of seven patients and dimethyl fumarate was analysed from the spot as well as from the sachet contents. Dimethyl fumarate (0.01%) elicited positive reactions in all the patients. The other chemicals analysed did not elicit positive reactions, but one patient in the U.K. had a positive reaction to tributyl phosphate. 

Sensitization to dimethyl fumarate was seen in all the patients with furniture-related dermatitis. Concurrent sensitization or cross-reactions were common among the sensitized patients. 

Reference:   Lammintausta K, Zimerson E, Hasan T, Susitaival P, Winhoven S, Gruvberger B, Beck M, Williams JD, Bruze M.,  An epidemic of furniture-related dermatitis: searching for a cause., Department of Dermatology, Turku University Hospital, PO Box 52, 20521 Turku, Finland, Br J Dermatol. 2009 Jul 20.

Neurobehavioral and pulmonary impairment in 105 adults with indoor exposure to molds compared to 100 exposed to chemicals 

Patients exposed at home to molds and mycotoxins and those exposed to chemicals (CE) have many similar symptoms of eye, nose, and throat irritation and poor memory, concentration, and other neurobehavioral dysfunctions. Aim of a study was to compare the neurobehavioral and pulmonary impairments associated with indoor exposures to mold and to chemicals. 

105 consecutive adults exposed to molds (ME) indoors at home and 100 patients exposed to other chemicals were compared to 202 community referents without mold or chemical exposure. To assess brain functions, the scientists measured 26 neurobehavioral functions. Medical and exposure histories, mood states score, and symptoms frequencies were obtained. Vital capacity and flows were measured by spirometry. Groups were compared by analysis of variance (ANOVA) after adjusting for age, educational attainment, and sex, by calculating predicted values (observed/predicted x 100 = % predicted). And p < .05 indicated statistical significance for total abnormalities, and test scores that were outside the confidence limits of the mean of the percentage predicted. 

People exposed to mold had a total of 6.1 abnormalities and those exposed to chemicals had 7.1 compared to 1.2 abnormalities in referents. Compared to referents, the exposed groups had balance decreased, longer reaction times, and blink reflex latentcies lengthened. Also, colour discrimination errors were increased and visual field performances and grip strengths were reduced. The cognitive and memory performance measures were abnormal in both exposed groups. Culture Fair scores, digit symbol substitution, immediate and delayed verbal recall, picture completion, and information were reduced. Times for peg-placement and trail making A and B were increased. 

One difference was that chemically exposed patients had excess fingertip number writing errors, but the mold-exposed did not. Mood State scores and symptom frequencies were greater in both exposed groups than in referents. Vital capacities were reduced in both groups. Neurobehavioral and pulmonary impairments associated with exposures to indoor molds and mycotoxins were not different from those with various chemical exposures. 

Reference: Kilburn KH, Neurobehavioral and pulmonary impairment in 105 adults with indoor exposure to molds compared to 100 exposed to chemicals, University of Southern California, Keck School of Medicine (ret.), Pasadena, CA, USA., Toxicol Ind Health. 2009 Sep 30.