Environmental Engineering Reference
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Baker , C. , A. Pradhan , L. Pakstis ,
et al.
(2005) Synthesis and antibacterial properties of silver
nanoparticles .
J. Nanosci. Nanotechnol.
,
5
, 244 - 9 .
Ballou , B. , B. C. Lagerholm , L. A. Ernst ,
et al.
(2004) Noninvasive imaging of quantum dots
in mice.
Bioconjug. Chem.
,
15
, 79 - 86 .
Barnes , K. A. , S. E. Samson and A. K. Grover ( 2000 ) Sarco/endoplasmic reticulum Ca
2+
- pump
isoform SERCA3a is more resistant to superoxide damage than SERCA2b.
Mol. Cell
Biochem.
,
203
, 17 - 21 .
Berridge , M. J. ( 2004 ) Calcium signal transduction and cellular control mechanisms .
Biochim.
Biophys. Acta
,
1742
, 3 - 7 .
Borm , P. J. , D. Robbins , S. Haubold ,
et al.
(2006) The potential risks of nanomaterials: a review
carried out for ECETOC.
Part Fibre. Toxicol
,
3
, 11 .
Brandt , D. , B. Park , M. Hoang and H. T. Jacobe ( 2005 ) Argyria secondary to ingestion of
homemade silver solution.
J. Am. Acad. Dermatol.
,
53
, S105 - 7 .
Brant , J. , H. Lecoanet , M. Hotze and M. Wiesner ( 2005 ) Comparison of electrokinetic prop-
erties of colloidal fullerenes (n- C
60
) formed using two procedures.
Environ. Sci. Technol.
,
39
, 6343 - 51 .
BSI (2007) Terminology for nanomaterials. PAS 136. British Standards Institution. http://
www.standardsuk.com/contact.php
Brown , D. M. , V. Stone , P. Findlay ,
et al.
( 2000 ) Increased infl ammation and intracellular
calcium caused by ultrafi ne carbon black is independent of transition metals or other
soluble components.
Occup. Environ. Med.
,
57
, 685 - 91 .
Brown , D. M. , M. R. Wilson , W. MacNee ,
et al.
( 2001 ) Size - dependent proinfl ammatory effects
of ultrafi ne polystyrene particles: a role for surface area and oxidative stress in the
enhanced activity of ultrafi nes.
Toxicol. Appl. Pharmacol.
,
175
, 191 - 9 .
Brown , D. M. , K. Donaldson , P. J. Borm , R. P. Schins , M. Denhart , P. Gilmour , L. A. Jimenez
and V. Stone ( 2004 ). Calcium and reactive oxygen species - mediated activation of transcrip-
tion factors and TNFa cytokine gene expression in macrophages exposed to ultrafi ne
particles .
Am. J. Physiol Lung cell Mol. Physiol
,
286
, L 344 - L 353 .
Brown , D. M. , L. Hutchison , K. Donaldson ,
et al.
(2007a). The effect of oxidative stress on
macrophages and lung epithelial cells: the role of phosphodiesterases 1 and 4.
Toxicol.
Lett.
,
168
, 1 - 6 .
Brown , D. M. , I. A. Kinloch , U. Bangert ,
et al.
(2007b). An in vitro study of the potential of
carbon nanotubes and nanofi bres to induce infl ammation mediators and frustrated phago-
cytosis .
Carbon
,
45
, 1743 - 56 .
Chen , X. and H. J. Schluesener ( 2008 ) Nanosilver: A nanoproduct in medical application .
Toxicol. Lett.
,
176
, 1 - 12 .
Choi , H. , S. R. Choi , R. Zhou ,
et al.
(2004) Iron oxide nanoparticles as magnetic resonance
contrast agent for tumor imaging via folate receptor-targeted delivery.
Acad. Radiol.
,
11
,
996 - 1004 .
Christman , J. W. , T. S. Blackwell and B. H. Juurlink ( 2000 ) Redox regulation of nuclear factor
kappa B: therapeutic potential for attenuating infl ammatory responses.
Brain Pathol.
,
10
,
153 - 62 .
Conner , S. D. and S. L. Schmid ( 2003 ) Regulated portals of entry into the cell .
Nature
,
422
,
37 - 44 .
Da Ros , T. and M. Prato ( 1999 ) Medicinal chemistry with fullerenes and fullerene derivatives .
Chemical Communications
, 663 - 9 .
Derfus , A. M. , W. C. W. Chan and S. N. Bhatia ( 2004 ) Probing the cytotoxicity of semiconduc-
tor quantum dots.
Nano Letters
,
1
, 11 - 8 .
Dick , C. A. , D. M. Brown , K. Donaldson and V. Stone ( 2003 ) The role of free radicals in the
toxic and infl ammatory effects of four different ultrafi ne particle types.
Inhal. Toxicol.
,
15
,
39 - 52 .
Dockery , D. W. , C. A. III, Pope , X. Xu ,
et al.
(1993) An association between air pollution and
mortality in six U. S. cities.
N. Engl. J. Med.
,
329
, 1753 - 9 .
Donaldson , K. , V. Stone , A. Clouter ,
et al.
( 2001a ). Ultrafi ne particles.
Occup. Environ. Med.
,
58
, 211 - 6 , 199.
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