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Items: 1 to 20 of 91

1.

[Study of the influence of gold nanoparticles on activation of human blood neutrophils].

Chekanov AV, Baranova OA, Levin AD, Solov'eva ÉIu, Fedin AI, Kazarinov KD.

Biofizika. 2013 May-Jun;58(3):495-500. Russian.

PMID:
24159819
3.

Chemiluminescence from the decomposition of peroxymonocarbonate catalyzed by gold nanoparticles.

Lin JM, Liu M.

J Phys Chem B. 2008 Jul 3;112(26):7850-5. doi: 10.1021/jp8008805. Epub 2008 Jun 10.

PMID:
18543872
4.

Free-radical generation by monocytes and neutrophils: a possible cause of plasma lipoprotein modification.

Panasenko OM, Vol'nova TV, Osipov AN, Azizova OA, Vladimirov YuA.

Biomed Sci. 1991;2(6):581-9.

PMID:
1841626
5.
6.

Decreased activity of neutrophils in the presence of diferuloylmethane (curcumin) involves protein kinase C inhibition.

Jancinová V, Perecko T, Nosál R, Kostálová D, Bauerová K, Drábiková K.

Eur J Pharmacol. 2009 Jun 10;612(1-3):161-6. doi: 10.1016/j.ejphar.2009.03.080. Epub 2009 Apr 14.

PMID:
19371737
7.

Auranofin affects early events in human polymorphonuclear neutrophil activation by receptor-mediated stimuli.

Hafström I, Seligmann BE, Friedman MM, Gallin JI.

J Immunol. 1984 Apr;132(4):2007-14.

PMID:
6321596
8.

Vanadium promotes hydroxyl radical formation by activated human neutrophils.

Fickl H, Theron AJ, Grimmer H, Oommen J, Ramafi GJ, Steel HC, Visser SS, Anderson R.

Free Radic Biol Med. 2006 Jan 1;40(1):146-55. Epub 2005 Oct 19.

PMID:
16337888
9.

Effect of Perilla frutescens aqueous extract on free radical production by human neutrophil leukocytes.

Zekonis G, Zekonis J, Sadzeviciene R, Simoniene G, Kevelaitis E.

Medicina (Kaunas). 2008;44(9):699-705.

10.

Biosynthesis of antibacterial gold nanoparticles using brown alga, Stoechospermum marginatum (kützing).

Arockiya Aarthi Rajathi F, Parthiban C, Ganesh Kumar V, Anantharaman P.

Spectrochim Acta A Mol Biomol Spectrosc. 2012 Dec;99:166-73. doi: 10.1016/j.saa.2012.08.081. Epub 2012 Sep 18.

PMID:
23063860
11.

Stoichiometric functionalization of gold nanoparticles in solution through a free radical polymerization approach.

Krüger C, Agarwal S, Greiner A.

J Am Chem Soc. 2008 Mar 5;130(9):2710-1. doi: 10.1021/ja0763495. Epub 2008 Feb 7.

PMID:
18254626
12.

The mitochondrial network of human neutrophils: role in chemotaxis, phagocytosis, respiratory burst activation, and commitment to apoptosis.

Fossati G, Moulding DA, Spiller DG, Moots RJ, White MR, Edwards SW.

J Immunol. 2003 Feb 15;170(4):1964-72.

13.
14.

Photoinduced electron transfer between chlorophyll a and gold nanoparticles.

Barazzouk S, Kamat PV, Hotchandani S.

J Phys Chem B. 2005 Jan 20;109(2):716-23.

PMID:
16866432
15.

Ion channel modulators mediated alterations in NO-induced free radical generation and neutrophil membrane potential.

Patel S, Vemula J, Konikkat S, Barthwal MK, Dikshit M.

Free Radic Res. 2009 May;43(5):514-21. doi: 10.1080/10715760902887276.

PMID:
19391055
16.

Inhibition of NADPH oxidase-mediated superoxide radical formation in PMA-stimulated human neutrophils by 4-hydroxynonenal--binding to -SH and -NH2 groups.

Siems WG, Capuozzo E, Verginelli D, Salerno C, Crifò C, Grune T.

Free Radic Res. 1997 Oct;27(4):353-8.

PMID:
9416463
17.

Differential effect of soluble fibrinogen as a neutrophil activator.

de Almeida VV, Calado A, Rosário HS, Saldanha C.

Microvasc Res. 2012 May;83(3):332-6. doi: 10.1016/j.mvr.2012.02.001. Epub 2012 Feb 9.

PMID:
22342352
18.

Dose-dependent suppression of the neutrophil respiratory burst by lidocaine.

Hyvönen PM, Kowolik MJ.

Acta Anaesthesiol Scand. 1998 May;42(5):565-9.

PMID:
9605373
19.
20.
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