Microscopic analysis of chromium accumulation in the bronchi and lung of chromate workers

Kondo, Kazuya; Takahashi, Yûji; Ishikawa, Sumiyo; Uchihara, Hiroshi; Hirose, Yukiko; Yoshizawa, Kiyoshi; Tsuyuguchi, Masaru; Takizawa, Hiromitsu; Miyoshi, Takanori; Shoji, Shuichi; Monden, Yasumasa

doi:10.1002/cncr.11818

Cited by 32 publications

(22 citation statements)

References 22 publications

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“…First of all, total Cr in EBC decreased 15 h after the last exposure, a finding that is in line with previous results observed before and after a weekend, and confirms that Cr can pass through airway lining fluid [11]: the kinetics of pulmonary lung desorption is relatively slow [35], and Cr accumulation has recently been observed in the bronchi and lungs of chromate workers [36]. Most importantly, the EBC Cr(VI) data confirmed that Cr(VI) was reduced to Cr(III) by airway lining fluid, but not completely so (Fig.…”

Section: Discussionsupporting

confidence: 90%

Determination of hexavalent chromium in exhaled breath condensate and environmental air among chrome plating workers

Goldoni

Caglieri

Poli

et al. 2006

Analytica Chimica Acta

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Chromium speciation has attracted attention because of the different toxicity of Cr(III), which is considered relatively non-toxic, and Cr(VI), which can cross cell membranes mainly as a chromate anion and has been classified as a class I human carcinogen. The aims of the present study were to measure soluble Cr(VI) levels in environmental samples, to develop a simple method of quantifying Cr(VI) in exhaled breath condensate (EBC), and to follow the kinetics of EBC Cr(VI) in chrome plating workers.Personal air samples were collected from 10 chrome platers; EBC was collected from the same workers immediately after the work shift on Tuesday and before the work shift on the following Wednesday. Environmental and EBC Cr(VI) levels were determined by means of colorimetry and electrothermal absorption atomic spectrometry, respectively.The method of detecting Cr(VI) in environmental air was based on the extraction of the Cr(VI)-diphenylcarbazide (Cr(VI)-DPC) complex in 1-butanol, whereas EBC Cr(VI) was determined using a solvent extraction of Cr(VI) as an ion pair with tetrabutylammonium ion, and subsequent direct determination of the complex (Cr(VI)-DPC) in EBC.Kinetic data showed that airborne Cr(VI) was reduced by 50% in airway lining fluid sampled at the end of exposure and that there was a further 50% reduction after about 15 h. The persistence of Cr (VI) in EBC supports the use of EBC in assessing target tissue levels of Cr(VI).

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Section: Discussionsupporting

confidence: 90%

Determination of hexavalent chromium in exhaled breath condensate and environmental air among chrome plating workers

Goldoni

Caglieri

Poli

et al. 2006

Analytica Chimica Acta

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“…The relatively low correlation coeYcients are justiWed by the narrow interval of measured values and the associated high intra-and extra-individual variability. Moreover, many authors have reported that pulmonary tissue Cr levels are not uniform in both exposed and unexposed subjects, and that Cr tends to accumulate in the upper lung areas and bronchi (Raithel et al 1987;Vanoeteren et al 1986;Ishikawa et al 1994;Kondo et al 2003). Although we measured Cr in three diVerent tissue pieces, this non-uniformity may explain the moderate r and r 2 values in our correlation with Cr-EBC (r = 0.55, r 2 = 0.30).…”

Section: Discussioncontrasting

confidence: 65%

Chromium in exhaled breath condensate and pulmonary tissue of non-small cell lung cancer patients

Goldoni

Caglieri

Corradi

et al. 2007

Int Arch Occup Environ Health

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Cr levels in EBC and urine of NSCLC patients were increased after surgical intervention. Measured Cr EBC levels were by one order of magnitude lower than those observed in moderately exposed workers. This fact, together with the correlation between Cr in EBC and in pulmonary tissue, confirms that EBC is a promising biological fluid to test pulmonary exposure to Cr, giving complementary information to that provided by urinary Cr, not correlated with EBC and tissue.

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“…Occupational exposure to CrVI occurs mainly through inhalation, where considerable quantities are retained in the lungs [Ishikawa et al, 1994;Kondo et al, 2003] leading to respiratory tract problems and lung cancer [Dayan and Paine, 2001].…”

Section: Introductionmentioning

confidence: 99%

Surfactant protein B gene variations and susceptibility to lung cancer in chromate workers

et al. 2006

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These findings indicate a very strong association of the SP-B intron-4 variants with mechanisms that may enhance lung cancer susceptibility, especially in workers who are employed in chromate industry. Moreover, confirmation of such results may help to suggest adding the SP-B intron-4 typing to be one of the screening tests of the pre-placement medical examination to confirm that the worker has no variations of the SP-B gene before being engaged in a chromium-related industry, with the intention of providing proper medical counseling.

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Microscopic analysis of chromium accumulation in the bronchi and lung of chromate workers

Cited by 32 publications

References 22 publications

Determination of hexavalent chromium in exhaled breath condensate and environmental air among chrome plating workers

Determination of hexavalent chromium in exhaled breath condensate and environmental air among chrome plating workers

Chromium in exhaled breath condensate and pulmonary tissue of non-small cell lung cancer patients

Surfactant protein B gene variations and susceptibility to lung cancer in chromate workers

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