Dwaine Machacek scite author profile

Background: Urinary free cortisol and cortisone measurements are useful in evaluation of Cushing syndrome, apparent mineralocorticoid excess, congenital adrenal hyperplasia, and adrenal insufficiency. To reduce analytical interference, improve accuracy, and shorten the analysis time, we developed a liquid chromatography–tandem mass spectrometry (LC-MS/MS) method for urinary cortisol and cortisone. Methods: We added 190 pmol (70 ng) of stable isotope cortisol-9,11,12,12-d4 to 0.5 mL of urine as an internal standard before extraction. The urine was extracted with 4.5 mL of methylene chloride, washed, and dried, and 10 μL of the reconstituted extract was injected onto a reversed-phase C18 column and analyzed using a tandem mass spectrometer operating in the positive mode. Results: Multiple calibration curves for urinary cortisol and cortisone exhibited consistent linearity and reproducibility in the range 7–828 nmol/L (0.25–30 μg/dL). Interassay CVs were 7.3–16% for mean concentrations of 6–726 nmol/L (0.2–26.3 μg/dL) for cortisol and cortisone. The detection limit was 6 nmol/L (0.2 μg/dL). Recovery of cortisol and cortisone added to urine was 97–123%. The regression equation for the LC-MS/MS (y) and HPLC (x) method for cortisol was: y = 1.11x + 0.03 μg cortisol/24 h (r2 = 0.992; n = 99). The regression equation for the LC-MS/MS (y) and immunoassay (x) methods for cortisol was: y = 0.66x − 12.1 μg cortisol/24 h (r2 = 0.67; n = 99). Conclusion: The sensitivity and specificity of the LC-MS/MS method for urinary free cortisol and cortisone offer advantages over routine immunoassays or chromatographic methods because of elimination of drug interferences, high throughput, and short chromatographic run time.

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Separation of urinary estrogens by micellar electrokinetic chromatography

Nunez

Machacek

et al. 1995

Journal of Chromatography B: Biomedical Sciences and Applicatio

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Quantification of cotinine in plasma and saliva by liquid chromatography.

Machacek¹,

Jiang²

1986

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Measurement of cotinine, a nicotine metabolite, has been studied as a method for monitoring smoking behavior and determining smoking status. We describe a specific, sensitive method for quantifying it in plasma and saliva by reversed-phase paired-ion liquid chromatography and detection by absorbance at 257 nm. The cotinine is extracted with methylene chloride, and 2-phenylimidazole is the internal standard. Cotinine peak heights are linearly related to the amount on the column from 0 to 500 ng. The mean (+/- SD) concentration of cotinine in plasma of 31 passively exposed nonsmokers was 2.1 +/- 1.6 micrograms/L (range, 0-7.9 micrograms/L). The regression of saliva cotinine concentration (y) on plasma cotinine concentration (x) at 0, 24, and 48 h in 10 smokers who refrained from smoking for 48 h was y (micrograms/L) = 1.155x (micrograms/L) + 0.245 (r = 0.986). The efficiency of cotinine as a biological marker was determined at 0, 24, and 48 h of smoking abstinence. Within-run CVs were 3.5% (n = 5) and day-to-day CVs 4.4% (n = 6) at 150 micrograms/L.

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Urinary Free Cortisol and Cortisone Determined by High Performance Liquid Chromatography in the Diagnosis of Cushing’s Syndrome¹

Lin¹,

Wu²,

Machacek³

et al. 1997

The Journal of Clinical Endocrinology & Metabolism

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To determine the efficacy of cortisol and its metabolite, cortisone, measured simultaneously by high performance liquid chromatography (HPLC) in the diagnosis of Cushing's syndrome, we retrospectively reviewed the histories of 29 surgically proven Cushing's syndrome patients (20 Cushing's disease, 5 ectopic ACTH syndrome, and 4 adrenal Cushing's syndrome) and 6 patients with exogenous Cushing's syndrome. These 35 patients had urinary free cortisol determined by both HPLC and competitive binding methods. The efficacy of the HPLC assay using cortisol alone was equivalent to that of the competitive binding assay; 22 of 29 (76%) patients had increased cortisol. Cortisone also aided in the diagnosis; 25 of 29 (86%) had increased cortisone. Twenty-seven of the 29 (93%) patients had either both cortisone and cortisol (n = 19) or at least 1 of the 2 (n = 8) increased. All 6 patients with exogenous Cushing's syndrome had suppressed urinary free cortisol, cortisone, and the presence of prednisone and prednisolone. In the competitive binding assay, all exogenous Cushing's patients had falsely increased cortisol results. In conclusion, urinary free cortisol plus cortisone determined simultaneously by HPLC added a new dimension to the diagnosis of Cushing's syndrome. It should be considered when exogenous Cushing's syndrome is suspected or when only one urinary cortisol test is allowed to be ordered.

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Concentration and separation of hypoglycemic drugs using solid-phase extraction-capillary electrophoresis

Strausbauch

Ferguson

et al. 1995

Journal of Chromatography A

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Dwaine Machacek

Validation of a High-Throughput Liquid Chromatography–Tandem Mass Spectrometry Method for Urinary Cortisol and Cortisone

Separation of urinary estrogens by micellar electrokinetic chromatography

Quantification of cotinine in plasma and saliva by liquid chromatography.

Urinary Free Cortisol and Cortisone Determined by High Performance Liquid Chromatography in the Diagnosis of Cushing’s Syndrome¹

Concentration and separation of hypoglycemic drugs using solid-phase extraction-capillary electrophoresis

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Dwaine Machacek

Validation of a High-Throughput Liquid Chromatography–Tandem Mass Spectrometry Method for Urinary Cortisol and Cortisone

Separation of urinary estrogens by micellar electrokinetic chromatography

Quantification of cotinine in plasma and saliva by liquid chromatography.

Urinary Free Cortisol and Cortisone Determined by High Performance Liquid Chromatography in the Diagnosis of Cushing’s Syndrome1

Concentration and separation of hypoglycemic drugs using solid-phase extraction-capillary electrophoresis

Contact Info

Product

Resources

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Urinary Free Cortisol and Cortisone Determined by High Performance Liquid Chromatography in the Diagnosis of Cushing’s Syndrome¹