Browsing by Author "Makingi, G"

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    African pouched rats for the detection of pulmonary tuberculosis in sputum samples
    (2009) Weetjens, B.J; Mgode, G.F.; Machang’u, R.S; Kazwala, R; Mfi nanga, G; Lwilla, F; Cox, C; Jubitana, M; Kanyagha, H; Mtandu, R; Kahwa, A; Mwessongo, J; Makingi, G; Mfaume, S; Steenberge, J.V; Beyene, N.W; Billet, M; Verhagen, R
    SETTING: Resource-limited settings in sub-Saharan African countries. OBJECTIVE: To utilise African giant pouched rats (Cricetomys gambianus) for the diagnosis of tuberculosis (TB) in human sputum. DESIGN: A specially designed cage with 10 sniffi ng holes and cassette-carrier was used. The sputum samples were put in the sample cassette, containing 10 samples in line, placed under matching sniffi ng holes. Rats were trained to sniff each consecutive sample, and indicate TB positives by fi xing their nose for 5 seconds at the sniffi ng hole. This behaviour was maintained by food reinforcement upon correct indications. A total of 3416 samples were used. RESULTS: Of the 20 trained rats, 18 were able to discriminate positive from negative sputum samples, with average daily sensitivities ranging from 72% to 100%, and average daily false-positives ranging from 0.7% to 8.1%. The use of multiple rats signifi cantly increased sensitivity and negative predictive value. CONCLUSION: Utilising trained sniffer rats for TB detection is a potentially faster screening method and is at least as sensitive as smear microscopy. This method could therefore be suitable for active case fi nding, especially where large numbers of samples are to be analysed in resource-limited settings, to complement existing diagnostic techniques.
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    Antifungal effect of a local bacillus subtilis, isolate TM07, on Fusarium oxysporum f.sp. Lycopersici in Morogoro, Tanzania
    (Tanzania Journal of Agricultural Sciences, 2021) Machang’u, R; Maerere, A.; Mwinuka, B; Nashon, J; Makingi, G
    Fusarium oxyporum f.sp. lycopersici causes tomato wilt, a severe disease that leads to extensive yield and quality loss of tomatoes in Tanzania. Management of Fusarium infection is particularly challenging given the health and environmental concerns over continued use of chemical pesticides on horticultural food crops. However, there is an increasing focus towards the use of biocontrol agents to combat phytopathogens worldwide. In this study, bacterial isolates from tomato rhizosphere were screened for their antagonistic activity in vitro on F. oxysporum. Based on its superior effectiveness, one isolate, designated TM07, was selected and characterized as Bacillus subtilis by morphological, biochemical and molecular procedures. On potato dextrose agar (PDA) the isolate showed an appreciable degree of radial growth inhibition (RGI) of 40.5% of the Fusarium, compared to control (55.9%). Further investigations are recommended to elucidate on the mechanism behind the inhibitory effect of isolate TM07. In vivo studies are also recommended to assess the possibility of applying the B. subtilis, isolate TM07, as a local biocontrol agent of Fusarium wilt of tomato and other susceptible crops.