| Record ID | harvard_bibliographic_metadata/ab.bib.13.20150123.full.mrc:214942504:1750 |
| Source | harvard_bibliographic_metadata |
| Download Link | /show-records/harvard_bibliographic_metadata/ab.bib.13.20150123.full.mrc:214942504:1750?format=raw |
LEADER: 01750nam a2200409Ma 4500
001 013180862-1
005 20120608190615.0
008 090130s2008 mauad b 000 0 eng d
035 0 $aocn308164952
040 $aUMM$cUMM
050 14 $aRA427.3$b.H33 no. 135
060 00 $aW1$bRE234AWCD no.135 2008
060 10 $aWA 754
100 1 $aPinkerton, Kent E.
245 00 $aMechanisms of particulate matter toxicity in neonatal and young adult rat lungs /$cKent E. Pinkerton ... [et al.].
260 $aBoston, MA :$bHealth Effects Institute,$cc2008.
300 $avii, 56 p. :$bill. ;$c28 cm.
490 1 $aResearch report ;$vno. 135
500 $a"October 2008."
504 $aIncludes bibliographical references.
520 $aResearch Report 135 describes a study to determine whether the biologic response to inhaled ultrafine particles depends on particle composition. Neonatal and young adult rats were exposed to laboratory-generated ultrafine metal particles, either alone or in combination with soot, and their lungs examined for oxidative stress, inflammation, and injury.
651 2 $aUnited States.
650 2 $aRats$ximmunology.
650 12 $aParticulate Matter$xtoxicity.
650 12 $aAir Pollution$xtoxicity.
650 0 $aAir$xPollution$xHealth aspects$zUnited States.
650 0 $aAir$xPollution$xToxicology$zUnited States.
650 0 $aAir$xPollution$xResearch$zUnited States.
650 0 $aParticles$xHealth aspects$zUnited States.
650 0 $aParticles$xToxicology$zUnited States.
650 0 $aRats$xDiseases.
650 22 $aAir Pollutants.
650 22 $aRats.
710 2 $aHealth Effects Institute.
830 0 $aResearch report (Health Effects Institute) ;$vno. 135.
988 $a20120510
906 $0OCLC