John P. G. Wilkins scite author profile

Nitric oxide (NO) is released into nasal air, but its function is unknown. We hypothesized that nasal vascular tone and/or flow influences temperature conditioning of nasal air and that NO participates in this process. We measured nasal air temperature (via a thermocouple) and exhaled nasal NO release (by chemiluminescence) in five humans and examined the effects of an aerosolized vasoconstrictor (oxymetazoline), a vasodilator (papaverine), N(G)-nitro-L-arginine methyl ester, an inhibitor of NO synthase, or saline (control). Compared with saline (which caused no changes in nasal air temperature or exhaled NO release), oxymetazoline (0.05%) reduced nasal air temperature and NO release (130.8 +/- 15.1 to 81.3 +/- 12.8 nl. min(-1). m(-2); P < 0.01). Papaverine (0.01 M) increased nasal air temperature and NO release (131.8 +/- 13.1 to 157.2 +/- 17.4 nl. min(-1). m(-2); P < 0.03). N(G)-nitro-L-arginine methyl ester reduced nasal air temperature and NO release (123.7 +/- 14.2 to 44.2 +/- 23.7 nl. min(-1). m(-2); P < 0.01). The results suggest that vascular tone and/or flow modulates temperature conditioning and that NO may participate in that function.

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The characterisation of polyether ionophore veterinary drugs by HPLC-electrospray MS†

Harris

Russell²,

Wilkins³

1998

Analyst

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We undertake the determination of a wide range of veterinary drug residues in a range of animal products. Various screening analyses are employed, followed by HPLC-API (atmospheric pressure ionisation)-MS for the unequivocal confirmation of significant positives. EU legislation for the use of GC-MS as a confirmatory technique requires the successful monitoring of at least four diagnostic ions and although no such requirement exists for HPLC-MS confirmation, a similar requirement would seem appropriate. Until recently, reports describing the electrospray MS confirmation of residues of the polyether ionophores have been based on monitoring one or two ions. We have found that the addition of ammonium acetate to the HPLC mobile phase, in conjunction with 'cone voltage' or 'skimmer' assisted fragmentation, is a convenient way of producing additional diagnostic ions from polyether ionophore compounds, without compromising the overall sensitivity. Results for lasalocid, the most widely used compound, are presented. Electrospray MS data and acquisition parameters for lasalocid, monensin, narasin and salinomycin are described. The advantage of this analytical approach is that it may be used to generate confirmatory data using a single quadrupole MS system, without the need for advanced MS instrumentation, e.g., MS-MS.

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John P. G. Wilkins

A polyphenolic pigment from black tea

A New Type of Tea Pigment—From the Chemical Oxidation of Epicatechin Gallate and Isolated from Tea

Theaflavate B, ISOTHEAFLAVIN-3′-O-GALLATE and NEOTHEAFLAVIN-3-O-GALLATE: three polyphenolic pigments from black tea

Temperature conditioning of nasal air: effects of vasoactive agents and involvement of nitric oxide

The characterisation of polyether ionophore veterinary drugs by HPLC-electrospray MS†

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