Browsing by Author "Mahoney, A."

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    Pouched rats’ detection of tuberculosis in human sputum: Comparison to culturing and polymerase chain reaction
    (Tuberculosis Research and Treatment, 2012) Mahoney, A.; Weetjens, B. J.; Cox, C.; Beyene, N.; Reither, K.; Makingi, G.; Jubitana, M.; Kazwala, R. R.; Mfinanga, G. S.; Kahwa, A.; Durgin, A.; Poling, A.
    Setting. Tanzania. Objective. To compare microscopy as conducted in direct observation of treatment, short course centers to pouched rats as detectors of Mycobacterium tuberculosis. Design. Ten pouched rats were trained to detect tuberculosis in sputum using operant conditioning techniques. The rats evaluated 910 samples previously evaluated by smear microscopy. All samples were also evaluated through culturing and multiplex polymerase chain reaction was performed on culture growths to classify the bacteria. Results. The patientwise sensitivity of microscopy was 58.0%, and the patient-wise specificity was 97.3%. Used as a group of 10 with a cutoff (defined as the number of rat indications to classify a sample as positive for Mycobacterium tuberculosis) of 1, the rats increased new case detection by 46.8% relative to microscopy alone. The average samplewise sensitivity of the individual rats was 68.4% (range 61.1–73.8%), and the mean specificity was 87.3% (range 84.7–90.3%). Conclusion. These results suggest that pouched rats are a valuable adjunct to, and may be a viable substitute for, sputum smear microscopy as a tuberculosis diagnostic in resource-poor countries.
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    Using giant african pouched rats to detect human tuberculosis: A review
    (Pan African Medical Journal, 2015-08-31) Poling, A.; Mahoney, A.; Beyene, N.; Mgode, G.; Weetjens, B.; Cox, C.; Durgin, A.
    Despite its characteristically low sensitivity, sputum smear microscopy remains the standard for diagnosing tuberculosis (TB) in resource-poor countries. In an attempt to develop an alternative or adjunct to microscopy, researchers have recently examined the ability of pouched rats to detect TB-positive human sputum samples and the microbiological variables that affect their detection. Ten published studies, reviewed herein, suggest that the rats are able to detect the specific odor of Mycobacterium tuberculosis , which causes TB, and can substantially increase new-case detections when used for second-line TB screening following microscopy. Further research is needed to ascertain the rats' ability to detect TB in children and in HIV-positive patients, to detect TB when used for first-line screening, and to be useful in broad-scale applications where cost- effectiveness is a major consideration.