Negligible clearance of ultrafine particles retained in healthy and affected human lungs
暂无分享,去创建一个
W G Kreyling | M Svartengren | S Larsson | R Falk | W. Kreyling | M. Svartengren | W. Möller | P. Wiebert | K. Philipson | R. Falk | A. Sanchez-Crespo | J. Seitz | P Wiebert | A Sanchez-Crespo | J Seitz | K Philipson | W Möller | K Sommerer | K. Sommerer | S. Larsson | Magnus Svartengren | Stig A. Larsson | Jürgen Seitz | Rodney H. Falk | Winfried Möller
[1] David E Newby,et al. Do inhaled carbon nanoparticles translocate directly into the circulation in humans? , 2006, American journal of respiratory and critical care medicine.
[2] W. Burch,et al. Passage of inhaled particles into the blood circulation in humans. , 2002, Circulation.
[3] S C Soderholm,et al. Role of the alveolar macrophage in lung injury: studies with ultrafine particles. , 1992, Environmental health perspectives.
[4] James S. Brown,et al. Ultrafine particle deposition and clearance in the healthy and obstructed lung. , 2002, American journal of respiratory and critical care medicine.
[5] Robert Gelein,et al. EXTRAPULMONARY TRANSLOCATION OF ULTRAFINE CARBON PARTICLES FOLLOWING WHOLE-BODY INHALATION EXPOSURE OF RATS , 2002, Journal of toxicology and environmental health. Part A.
[6] H. E. Palmer,et al. Distribution and excretion of technetium in humans. , 1966, Health physics.
[7] Luke Clancy,et al. Cause-specific mortality and the extended effects of particulate pollution and temperature exposure. , 2003, Environmental health perspectives.
[8] Charles T. Garten,et al. Technetium absorption and turnover in monogastric and polygastric animals. , 1989, Health physics.
[9] G. Pershagen,et al. Short-term exposure to air pollution in a road tunnel enhances the asthmatic response to allergen. , 1998, The European respiratory journal.
[10] W. MacNee,et al. Particulate air pollution and acute health effects , 1995, The Lancet.
[11] Jürgen Seitz,et al. A generator for the production of radiolabelled ultrafine carbonaceous particles for deposition and clearance studies in the respiratory tract , 2006 .
[12] B. Bake,et al. Dynamics of ’Technegas’ deposited in the lung , 2001, Nuclear medicine communications.
[13] W M Burch,et al. The physical and chemical nature of technegas. , 1997, Journal of nuclear medicine : official publication, Society of Nuclear Medicine.
[14] E. Scalzetti,et al. The transition from technegas to pertechnegas. , 1995, Journal of nuclear medicine : official publication, Society of Nuclear Medicine.
[15] M. Svartengren,et al. Clearance of particles from small ciliated airways. , 1997, Experimental lung research.
[16] D. Dockery,et al. An association between air pollution and mortality in six U.S. cities. , 1993, The New England journal of medicine.
[17] H. R. Anderson,et al. Daily concentrations of air pollution and plasma fibrinogen in London , 2000, Occupational and environmental medicine.
[18] D. Dockery,et al. Increased Particulate Air Pollution and the Triggering of Myocardial Infarction , 2001, Circulation.
[19] T. Isawa,et al. Inhalation of pertechnegas: Similar clearance from the lungs to that of inhaled pertechnetate aerosol , 1995, Nuclear medicine communications.
[20] M. Lemb,et al. Technegas: a study of particle structure, size and distribution , 1993, European Journal of Nuclear Medicine.
[21] D. Dockery,et al. Epidemiologic evidence of cardiovascular effects of particulate air pollution. , 2001, Environmental health perspectives.
[22] C. J. Taylor,et al. Technegas and Pertechnegas particle size distribution , 1995, European Journal of Nuclear Medicine.
[23] J. Schwartz,et al. Acute effects of particulate air pollution on respiratory admissions: results from APHEA 2 project. Air Pollution and Health: a European Approach. , 2001, American journal of respiratory and critical care medicine.
[24] W. Kreyling,et al. TRANSLOCATION OF ULTRAFINE INSOLUBLE IRIDIUM PARTICLES FROM LUNG EPITHELIUM TO EXTRAPULMONARY ORGANS IS SIZE DEPENDENT BUT VERY LOW , 2002, Journal of toxicology and environmental health. Part A.