Abstract

Background — Pollution by particulates has been consistently associated with increased cardiovascular morbidity and mortality. However, the mechanisms responsible for these effects are not well-elucidated. Methods and Results — To assess to what extent and how rapidly inhaled pollutant particles pass into the systemic circulation, we measured, in 5 healthy volunteers, the distribution of radioactivity after the inhalation of “Technegas,” an aerosol consisting mainly of ultrafine 99m Technetium-labeled carbon particles (<100 nm). Radioactivity was detected in blood already at 1 minute, reached a maximum between 10 and 20 minutes, and remained at this level up to 60 minutes. Thin layer chromatography of blood showed that in addition to a species corresponding to oxidized 99m Tc, ie, pertechnetate, there was also a species corresponding to particle-bound 99m Tc. Gamma camera images showed substantial radioactivity over the liver and other areas of the body. Conclusions — We conclude that inhaled 99m Tc-labeled ultrafine carbon particles pass rapidly into the systemic circulation, and this process could account for the well-established, but poorly understood, extrapulmonary effects of air pollution.

Keywords

MedicineInhalationSystemic circulationPertechnetateAerosolRadiochemistryEnvironmental chemistryBlood circulationParticulatesPollutionPollutantPhysiologyTechnetiumNuclear medicineAnimal scienceInternal medicineAnesthesiaChemistry

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Year
2002
Type
article
Volume
105
Issue
4
Pages
411-414
Citations
1667
Access
Closed

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Abderrahim Nemmar, Peter Hoet, B. Vanquickenborne et al. (2002). Passage of Inhaled Particles Into the Blood Circulation in Humans. Circulation , 105 (4) , 411-414. https://doi.org/10.1161/hc0402.104118

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DOI
10.1161/hc0402.104118