|1.||Kauppinen, Timo: 5 articles (06/2009 - 08/2002)|
|2.||McDonald, Jacob D: 4 articles (02/2010 - 11/2004)|
|3.||Kyyrönen, Pentti: 4 articles (06/2009 - 06/2004)|
|4.||Pukkala, Eero: 4 articles (06/2009 - 06/2004)|
|5.||Parent, Marie-Elise: 3 articles (01/2013 - 01/2007)|
|6.||Siemiatycki, Jack: 3 articles (01/2013 - 01/2007)|
|7.||Ballesteros, Salomé: 3 articles (02/2012 - 10/2005)|
|8.||Boffetta, Paolo: 3 articles (01/2011 - 01/2007)|
|9.||Campen, Matthew J: 3 articles (02/2010 - 01/2006)|
|10.||Lindbohm, Marja-Liisa: 3 articles (06/2009 - 06/2004)|
07/01/1994 - "The high cost of reducing lead exposure of critical populations is the reason that progress in reducing lead-paint exposure has been minimal in the 18 years since the passage of the Lead-Based Paint Poisoning Prevention Act and that it took from the time of the initial proposal in 1973 until 1986 before lead was substantially eliminated from gasoline. "
03/01/2013 - "Fatal acute poisoning from massive inhalation of gasoline vapors: case report and comparison with similar cases."
02/10/2012 - "Based upon the toxicological data along with the autopsy findings, the cause of death was determined to be gasoline poisoning and the manner of death was accidental. "
05/01/2010 - "Lead (Pb) poisoning causes permanent neurologic and developmental disorders and remains an important environmental health problem for US children, despite removal of Pb from gasoline and household paints. "
11/01/2009 - "Data are scarce on complications and outcomes after gasoline poisoning by oral ingestion. "
|2.||Sudden Infant Death (SID)
02/01/2011 - "Nitrogen compounds in gasoline were extracted by liquid-liquid extraction and analyzed by gas chromatography-surface ionization detector (GC-SID). "
02/01/2011 - "The SID is superior to the commercial NPD in detecting the nitrogen compounds in gasoline samples. "
02/01/2011 - "Compared with the chromatograms obtained from GC-flame ionization detector (FID), GC-thermal ionization detector (NPD) and GC-mass spectrometry (MS), the peaks in the chromatogram obtained by GC-SID were assigned to the nitrogen compounds in gasoline. "
|3.||Snake Bites (Snake Bite)
10/01/2013 - "The current study utilizes an evidence-based approach to examine whether or not the available epidemiologic studies demonstrate a strong and consistent association between occupational exposure to gasoline and lymphatic/hematopoietic cancers. "
07/01/1995 - "In previous studies, unleaded gasoline (UG) vapor was found to be a liver tumor promoter and hepatocarcinogen in female mice, but UG was not a hepatocarcinogen in male mice. "
12/01/1993 - "Mechanistic studies suggest that gasoline is not mutagenic and that the probable mechanism for the male rat renal tumors involves a rat-specific protein, alpha 2u-globulin, whose binding with highly branched aliphatic compounds results in renal tubule cell death and, in turn, a proliferative sequence that increases renal tubule tumors. "
10/01/1989 - "The results of epidemiology studies fail to link an increase in cancer to exposure to gasoline vapors."
08/01/1986 - "In a recent chronic inhalation exposure study, unleaded gasoline (UG) produced kidney tumors in male rats and liver tumors in female mice, but did not increase the incidence of liver tumors in male mice or rats of either sex. "
12/17/2013 - "Two-strokes emitted the largest fractional (and absolute) amount of SOA precursors compared to diesel and 4-stroke gasoline SOREs; however, 35-80% of the NMOG emissions from the engines could not be speciated using traditional gas chromatography or high-performance liquid chromatography. "
09/01/2013 - "They are two stroke engines, gasoline emissions, soil dust, diesel emissions, biomass burning, and resuspended soil dust. "
07/01/2013 - "New guidelines on tPA in stroke: putting out fires with gasoline?"
03/15/2011 - "Thirteen test vehicles had two-stroke CNG engines (CNG-2S) and 17 had four-stroke CNG engines (CNG-4S), of which 11 were dual-fuel and operable on a back-up gasoline (petrol) system (PET-4S). "
01/01/2009 - "Industrial emissions and use of leaded gasoline by two-stroke engine vehicles were identified as possible sources of lead in that area. "
|2.||neodymium pyrocatechin disulfonate (NPD)
|3.||Ethyl Ether (Ether)
|5.||Ethanol (Ethyl Alcohol)
|7.||Gasoline (Diesel Fuel)
|8.||Fossil Fuels (Natural Gas)
|9.||methyl tert-butyl ether (MTBE)