Skip to main content
Hauptrubriken
CME Facharzt-Training Webinare Zeitschriften Bücher e.Medpedia Podcast
Service
Jobbörse Info & Hilfe
Fachgebiete
Anästhesiologie Allgemeinmedizin Arbeitsmedizin Augenheilkunde Chirurgie Dermatologie Gynäkologie und Geburtshilfe HNO Innere Medizin Kardiologie Neurologie Onkologie und Hämatologie Orthopädie und Unfallchirurgie Pädiatrie Pathologie Psychiatrie Radiologie Rechtsmedizin Urologie Zahnmedizin
Themen
Typ-2-Diabetes und Adipositas Klimawandel und Gesundheit Neues aus dem Markt COVID-19 Praxis und Beruf Seltene Erkrankungen GOÄ & EBM Panorama
Sammlungen
Kasuistiken Algorithmen & Infografiken Blickdiagnosen Arthropedia FlapFinder (für Dermatochirurgen) Videos Kongressberichterstattung Medizin für Apothekerinnen und Apotheker Für Ärztinnen und Ärzte in Weiterbildung Für Medizinstudierende

Live-Webinar "Urologie und Sexualmedizin in der Praxis"

Häufige urologisch-sexualmedizinische Themen in der Praxis sind das Thema des MMW-Webinars am 5. Juni von 17.30 bis 19 Uhr. Konkret geht es um die Frage, wann bei Harnwegsinfektionen auf Antibiotika verzichtet werden kann, und um ein Update zur Therapie von Libido- und Potenzstörungen des Mannes. Der dritte Vortrag behandelt sexuell übertragbare Krankheiten. Stellen Sie Ihre Fragen an die Experten und sammeln Sie 2 CME-Punkte. Jetzt gleich anmelden!
Erweiterte Suche
Anmelden
nach oben
International Archives of Occupational and Environmental Health
Erschienen in: International Archives of Occupational and Environmental Health 7/2007

01.07.2007 | Original Article

Elimination kinetics of metals after an accidental exposure to welding fumes

verfasst von: Karl H. Schaller, György Csanady, Johannes Filser, Barbara Jüngert, Hans Drexler

Erschienen in: International Archives of Occupational and Environmental Health | Ausgabe 7/2007

Einloggen, um Zugang zu erhalten

Abstract

Objective

We had the opportunity to study the kinetics of metals in blood and urine samples of a flame-sprayer exposed to high accident-prone workplace exposure. We measured over 1 year, the nickel, aluminium, and chromium concentrations in blood and urine specimens after exposure. On this basis, we evaluated the corresponding half-lives.

Methods

Blood and urine sampling were carried out five times after accidental exposure over a period of 1 year. The metals were analysed by graphite furnace atomic absorption spectrometry and Zeeman compensation with reliable methods. Either a mono-exponential or a bi-exponential function was fitted to the concentration-time courses of selected metals using weighted least squares non-linear regression analysis. The amount excreted in urine was calculated integrating the urinary decay curve and multiplying with the daily creatinine excretion.

Results

The first examination was carried out 15 days after exposure. The mean aluminium concentration in plasma was 8.2 μg/l and in urine, 58.4 μg/g creatinine. The mean nickel concentration in blood was 59.6 μg/l and the excretion in urine 700 μg/g creatinine. The mean chromium level in blood was 1.4 μg/l in urine, 7.4 μg/g creatinine. For the three elements, the metal concentrations in blood and urine exceeded the reference values at least in the initial phase. For nickel, the German biological threshold limit values (EKA) were exceeded.

Conclusions

Aluminium showed a mono-exponential decay, whereas the elimination of chromium and nickel was biphasic in biological fluids of the accidentally exposed welder. The half-lives were as follows: for aluminium 140 days (urine) and 160 days (plasma); for chromium 40 and 730 days (urine); for nickel 25 and 610 days (urine) as well as 30 and 240 days (blood). The renal clearance of aluminium and nickel was about 2 l/h estimated for the last monitoring day.
Literatur
Angerer J, Schaller KH (eds) (1982) Analytical methods fort he investigation of hazardous compounds in the work area, vol 2. Analytical methods in biological materials, Issue 6 (in German). Wiley-VCH, Weinheim
Angerer J, Schaller KH (eds) (1985) Analyses of hazardous substances in biological materials, vol 1. Wiley-VCH, Weinheim
Angerer J, Schaller KH (eds) (1988) Analyses of hazardous substances in biological materials. vol 2. Wiley-VCH, Weinheim
Angerer J, Schaller KH (eds) (1991) Analyses of hazardous substances in biological materials, vol 3. Wiley-VCH, Weinheim
Angerer J, Schaller KH (eds) (1999) Analyses of hazardous substances in biological materials, vol 6. Wiley-VCH, Weinheim
Colli G, Terzi R, Terzi M, Catenacci G (2005) Application of mathematical modelling for assessing the urinary half-times of nickel in stainless steel welders. G Ital Med Lav Ergon 27(4):427–430PubMed
Greim H (ed) (2006) Deutsche Forschungsgemeinschaft. List of MAK and BAT values. Commission for the investigation of health hazards of chemical compounds in the work area, report no. 42. Wiley-VCH, Weinheim
Lehnert G, Schaller KH, Angerer J (1999) Report on the status of the external quality-control programs for occupational-medical and environmental-medical toxicological analyses in biological materials in Germany. Int Arch Occup Environ Health 72:60–64PubMedCrossRef
Lindberg E, Vesterberg O (1989) Urinary excretion of chromium in chromium platers after discontinued exposure. Am J Ind Med 16(5):485–492PubMed
Ljunggren KG, Lidums V, Sjögren B (1991) Blood and urine concentrations of aluminium among workers exposed to aluminium flake powders. Br J Ind Med 48(2):106–109PubMed
Nielsen GD, Soderberg U, Jorgensen PJ, Templeton DM, Rasmussen SN, Andersen KE, Grandjean P (1999) Absorption and retention of nickel from drinking water in relation to food intake and nickel sensitivity. Toxicol Appl Pharmacol 154:67–75PubMedCrossRef
Petersen R, Thomsen JF, Jorgensen NK, Mikkelsen S (2000) Half life of chromium in serum and urine in a former plasma cutter of stainless steel. Occup Environ Med 57(2):140–142PubMedCrossRef
Pierre F, Baruthio F, Diebold F, Biette P (1995) Effect of different exposure compounds on urinary kinetics of aluminium and fluoride in industrially exposed workers. Occup Environ Med 52(6):396–403PubMedCrossRef
Raithel HJ, Zschiesche W (1991) Arbeitsmedizinische aspekte beim schweißern unter berücksichtigung der pulverflammspritzer (occupational medical aspects of welding under special consideration of thermal powder spraying). Arbeitsmed Sozialmed Präventivmed 26:261–269
Rossbach B, Buchta M, Csanady GA, Filser JG, Hilla W, Windorfer K, Stork J, Zschiesche W, Gefeller O, Pfahlberg A, Schaller KH, Egerer E, Pinzon LCE, Letzel St (2006) Biological monitoring of welders exposed to aluminium. Toxicol Lett 162:239–245PubMedCrossRef
Schaller KH, Angerer J, Drexler H (2002) Quality assurance of biological monitoring in occupational and environmental medicine. J Chromatogr B 778:403–417CrossRef
Shirley DG, Lote CJ (2005) Renal handling of aluminium. Nephron Physiol 101:99–103CrossRef
Sjögren B, Elinder CG, Lidums V, Chang G (1988) Uptake and urinary excretion of aluminum among welders. Int Arch Occup Environ Health 60(2):77–79PubMedCrossRef
Steinhausen C, Kislinger G, Winklhofer C, Beck E, Hohl C, Nolte E, Ittel TH, Alvarez-Bruckmann MJ (2004) Investigation of the aluminium biokinetics in humans: a 26Al tracer study. Food Chem Toxicol 42:363–371PubMedCrossRef
Stridsklev IC, Schaller KH, Langard S (2006) Monitoring of chromium and nickel in biological fluids of stainless steel welders using the flux-cored-wire (FCW) welding method. Int Arch Occup Environ Helath 77:587–591CrossRef
Sunderman FW Jr, Crisostomo MC, Reid MC, Hopfer SM, Nomoto S (1984) Rapid analysis of nickel in serum and whole blood by electrothermal atomic absorption spectrophotometry. Ann Clin Lab Sci 14:232–241PubMed
Sunderman FW Jr, Hopfer SM, Sweeney KR, Marcus AH, Most BM, Creason J (1989) Nickel absorption and kinetics in human volunteers. Proc Soc Exp Biol Med 191:5–11PubMed
Tossavaine Am, Nurminen M, Mutanen P, Tola S (1980) Application of mathematical modelling for assessing the biological halftimes of chromium and nickel in field studies. Br J Ind Med 37(3):285–291
van Haarst EP, Heldeweg EA, Newling. DW, Schlatmann TJ (2004) The 24-h frequency-volume chart in adults reporting no voiding complaints: defining reference values and analysing variables. BJU Int 93:1257–1261PubMedCrossRef
WHO (1996) Biological monitoring of chemical exposure in the workplace. World Health Organization, Geneva
Metadaten
Titel
Elimination kinetics of metals after an accidental exposure to welding fumes
verfasst von
Karl H. Schaller
György Csanady
Johannes Filser
Barbara Jüngert
Hans Drexler
Publikationsdatum
01.07.2007
Verlag
Springer-Verlag
Erschienen in
International Archives of Occupational and Environmental Health / Ausgabe 7/2007
Print ISSN: 0340-0131
Elektronische ISSN: 1432-1246
DOI
https://doi.org/10.1007/s00420-007-0176-1

Weitere Artikel der Ausgabe 7/2007

International Archives of Occupational and Environmental Health 7/2007 Zur Ausgabe

Original Article

The impact of major heat waves on all-cause and cause-specific mortality in France from 1971 to 2003

Short Communication

Transplacental exposure of neonates to perfluorooctanesulfonate and perfluorooctanoate: a pilot study

Original Article

Occupational exposure to ethylene oxide during pregnancy and association with adverse reproductive outcomes

Original Article

Fatigue, emotional exhaustion and perceived health complaints associated with work-related characteristics in employees with and without chronic diseases

Original Article

Workdays, in-between workdays and the weekend: a diary study on effort and recovery

Original Article

Respiratory and ocular symptoms in workers exposed to potassium aluminium-tetrafluoride soldering flux