Abstract: A method for detecting inflammation in the urinary tract or urethra of a patient, especially urethritis, comprises a) contacting leucocytes obtained from a urine sample provided by the patient with a luminescence reagent which emits light on reaction with an oxidant; b) adding an activator to the mixture of leucocytes and luminescence reagent; c) continuously monitoring and/or measuring light emitted by the luminescence reagent over a predetermined time period commencing before and ending after the addition of the activator. The light emission is indicative of the presence or absence of inflammation in the urinary tract or urethra of the patient. The urine sample is preferably a sample of first pass urine. The method makes possible a diagnosis especially of urethritis and, in particular, urethral infections selected from Chlamydia trachomatis and Neisseria gonorrhoeae, which can be carried out quickly without invasive procedures.
Abstract: A method for detecting inflammation in the urinary tract or urethra of a patient, especially urethritis, comprises a) contacting leucocytes obtained from a urine sample provided by the patient with a luminescence reagent which emits light on reaction with an oxidant; b) adding an activator to the mixture of leucocytes and luminescence reagent; c) continuously monitoring and/or measuring light emitted by the luminescence reagent over a predetermined time period commencing before and ending after the addition of the activator. The light emission is indicative of the presence or absence of inflammation in the urinary tract or urethra of the patient. The urine sample is preferably a sample of first pass urine. The method makes possible a diagnosis especially of urethritis and, in particular, urethral infections selected from Chlamydia trachomatis and Neisseria gonorrhoeae, which can be carried out quickly without invasive procedures.
Abstract: Particles that move at low Reynolds numbers are separated from a filter material on which they are adsorbed by subjecting the filter material, in a liquid medium, to agitation of sufficient magnitude to create turbulence and shear forces acting on the filter material such that the particles become desorbed from the filter material and become suspended in the liquid medium. The method may be used to recover biological particles, such as leucocytes and blood platelets, from filter materials on which they are retained by adsorption. The recovered particles may then be used in diagnostic testing and analytical techniques.
Abstract: A method and apparatus is provided for analyzing the leucocytes in a biological fluid. The biological fluid is passed through a filter material having a critical wetting surface tension greater than 53 dynes/cm so that the leucocytes are held in the filter by adsorption. The filter material is subsequently treated with luminogenic material so that the treated filter may be analyzed by luminescence detection.