Helga Hansen scite author profile

A high-performance liquid chromatographic (HPLC) method based on solid phase extraction was developed for determination of metronidazole (MNZ) and its metabolite hydroxymetronidazole (MNZ-OH) in muscle and skin tissues of rainbow trout. Tinidazole (TNZ) was used as internal standard. The compounds were extracted with acetonitrile and the extract was evaporated and redissolved in a mixture of ethyl acetate and hexane (1:2). The extract was cleaned up by solid phase extraction on a silica cartridge. The extract was analysed by reverse phase gradient HPLC on a C18 column followed by ultraviolet detection at 325 nm. The limit of detection was 2.8 micrograms/kg for both compounds in muscle. The estimated limits of detection in skin tissue were 3 micrograms/kg for MNZ and 5 micrograms/kg for MNZ-OH. The mean recoveries of MNZ in muscle calculated without use of internal standard were 93% and 81% at levels of 10 micrograms/kg and 25-100 micrograms/kg respectively. The mean recovery of MNZ-OH in muscle was 79% at a level of 10-100 micrograms/kg. The mean relative repeatability standard deviations on spiked muscle tissue were 3.3% for MNZ and 3.2% for MNZ-OH at a level of 10-100 micrograms/kg. The method was applied to trout given feed containing MNZ in an aquaculture pilot plant. Residues of MNZ and MNZ-OH were detected in muscle and skin tissues shortly after the administration period but not 3 weeks later.

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Determination of Chloramphenicol in Bovine Milk by Liquid Chromatography/Tandem Mass Spectrometry

Sørensen¹,

Elbaek²,

Hansen³

2003

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A rapid confirmatory liquid chromatographic/tandem mass spectrometic method was developed for determination of chloramphenicol in bovine milk. Chloramphenicol was extracted directly from milk by solid-phase extraction on a C18 cartridge. The extract was further cleaned up on neutral aluminium oxide. Three transition products were monitored in negative ion mode after atmospheric pressure chemical ionization. The detection capability related to the transition product of lowest abundance was 0.03 μg/kg. The mean recovery was 90% at levels of 0.1–0.2 μg/kg. The relative repeatability standard deviations were 4.3, 3.8, and 2.8% at levels of 0.1, 0.2, and 1.0 μg/kg, respectively.

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Determination of fenbendazole and its metabolites in trout by a high-performance liquid chromatographic method†

Sørensen¹,

Hansen²

1998

Analyst

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A high-performance liquid chromatographic (HPLC) method based on solid phase extraction was developed for the simultaneous determination of fenbendazole (FBZ), fenbendazole sulfoxide (FBZ-SO) and fenbendazole sulfone (FBZ-SO2) in trout muscle and skin tissues. The compounds were extracted with acetonitrile and the extract was concentrated and cleaned up by solid phase extraction on C18 and CN cartridges. The extract was analysed by reversed-phase gradient HPLC on a C18 column followed by ultraviolet detection at 290 nm. The method's detection limits were 4.0 micrograms kg-1 for FBZ, 4.5 micrograms kg-1 for FBZ-SO and 3.8 micrograms kg-1 for FBZ-SO2. The mean recovery in muscle was 88% for FBZ, 94% for FBZ-SO and 92% for FBZ-SO2 at a level of 5-150 micrograms kg-1. The corresponding mean recoveries in skin tissue were 88, 81 and 86% at a level of 10-100 micrograms kg-1. The mean relative repeatability standard deviation was 9.2% at a level of 5 micrograms kg-1, 5.9% at a level of 10-100 micrograms kg-1 and 2.3% at a level of 150 micrograms kg-1. The method was applied to trout given feed containing FBZ in an aquaculture pilot plant. The three compounds FBZ, FBZ-SO and FBZ-SO2 were all detected in muscle and skin tissues shortly after administration. The concentrations were generally highest in skin tissue.

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A sensitive manual enzyme immunoassay for thyroxine.

Schall¹,

Fraser²,

Hansen³

et al. 1978

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We describe an immunoassay for thyroxine in serum. In the assay specific antibody covalently bonded to latex particles is used, along with horseradish peroxidase as the label, and o-phenylenediamine as the chromogen. The flexible protocol is designed for manual execution. Performance is similar to that of the highest-sensitivity thyroxine radioimmunoassays. Results correlate well with radioimmunoassay (r = 0.99, slope = 0.93, y-intercept = 2.4 microgram/liter for 201 samples) and an automated enzyme immunoassay (r = 0.97, slope = 0.99, y-intercept = 4.7 coefficients of variation are less than 7.2% over the entire useful range of the assay (20--240 microgram/liter). The limit of detection is less than 94 pg/tube at 20 microgram/liter. Only D-thyroxine is known to interfere with serum assays. This assay has no discernible protein effect from 40 to 80 g of protein per liter, unlike many thyroxine radioimmunoassays. Serum preservatives known to be peroxidase inhibitors do not adversely affect assay performance because of the 56-fold dilution in the final assay mixture. Hemolyzed serum and EDTA-treated plasmas are unsuitable for this assay.

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Helga Hansen

Simultaneous determination of seven penicillins in muscle, liver and kidney tissues from cattle and pigs by a multiresidue high-performance liquid chromatographic method

Determination of metronidazole and hydroxymetronidazole in trout by a high-performance liquid chromatographic method

Determination of Chloramphenicol in Bovine Milk by Liquid Chromatography/Tandem Mass Spectrometry

Determination of fenbendazole and its metabolites in trout by a high-performance liquid chromatographic method†

A sensitive manual enzyme immunoassay for thyroxine.

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