Annals of Occupational Hygiene Advance Access originally published online on December 12, 2005
Annals of Occupational Hygiene 2006 50(2):205; doi:10.1093/annhyg/mei070
| ||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||
© 2005 British Occupational Hygiene Society Published by Oxford University Press
Letter to the Editor |
The Assessment of Titanium Dioxide Exposure
Received and in final form 8 September 2005; published online 12 December 2005
We have read the paper submitted by Hext et al. (2005)
with great interest.
The aim of their study was to make a comprehensive overview of the results obtained from extensive study programmes commissioned by TiO2 manufacturers to investigate the toxicological and epidemiological aspects of TiO2. In the ‘Epidemiology studies’ section the authors report the results of two relevant European and US multicentre studies (Fryzek et al., 2003; Boffetta et al., 2004) that examined exposure to TiO2 and its effects on the health of workers. These studies included a relevant number of subjects: 27 522 workers from 11 factories and 5713 workers from 4 factories for the European and US study, respectively. Hext et al. claimed that a comprehensive assessment of exposure was performed by experienced occupational hygienists in both these multicentre studies. Exposure to TiO2 was determined by gravimetric measurements of airborne dust (Boffetta et al., 2003; Fryzek et al., 2003).
In industrial hygiene, it is common practice to measure occupational exposure to TiO2 by total dust sampling, and this is confirmed by the fact that ‘the data available in the literature are reported as total or nuisance dust and not as TiO2’ (Boffetta et al., 2003). However, more specific analytical methods such as ICP-MS, ICP-OS, spectrophotometry, X-ray diffractrometry or fluorescence would provide a more accurate evaluation of TiO2 exposure.
Furthermore, the US and European studies refer to data that do not specifically include exposure to titanyl sulphate, a substance present in some occupational areas such as Moore filtration in the sulphate process. It is not clear if any dust measurements have been used in the TiO2 exposure reconstruction in these areas.
In their study, Hext et al. state that ‘only the long-term area samples for total TiO2 dust were used in the US multicentre study’. In contrast, the study by Fryzek et al. clearly indicates that out of 
2400 samples collected for a wide variety of substances, ‘914 personal full-shift or near full-shift air samples for total TiO2 were used for the exposure estimates’. Therefore, personal sampling was used for the reconstruction of cumulative exposure in both the European and the US study. Overall there is a lack of error estimation in the exposure reconstruction.
Finally, Hext et al. point out that the US and European multicentre study researchers collaborated in order to make evaluations comparable in both studies. But Hext et al. claim that ‘it is not possible to directly compare the average cumulative exposure to TiO2 of workers in the two multicentre studies’ and conclude, without quoting data, that ‘it is unlikely that there is a significant difference’.
For the above mentioned considerations, the exposure data used to reconstruct TiO2 exposure fail to provide a real estimate of occupational exposure to TiO2.
Institute of Occupational Medicine, Catholic University of Sacred Heart, Rome, Italy
E-MAIL: iavicoli.ivo{at}rm.unicatt.it
REFERENCES
Boffetta P, Soutar A, Weiderpass E et al. (2003) Historical cohort study of workers employed in the titanium dioxide production industry in Europe. Results of mortality follow-up. Final Report. Stockholm: Department of Medical Epidemiology, Karolinska Institutet.
Boffetta P, Soutar A, Cherrie JW et al. (2004) Mortality among workers employed in the titanium dioxide production industry in Europe. Cancer Causes Control; 15: 697–706.[Medline]
Fryzek JP, Chadda B, Marano D et al. (2003) A cohort mortality study among titanium dioxide manufacturing workers in the United States. J Occup Environ Med; 45: 400–9.[Medline]
Hext PM, Tomenson JA, Thompson P. (2005) Titanium dioxide: inhalation toxicology and epidemiology. Ann Occup Hyg; 49: 461–72.
CiteULike 
Connotea 
Del.icio.us What's this?
| ||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||