From: Antimicrobial resistance from a One Health perspective in Zambia: a systematic review
Type of study | Author | Year published | Location | Human | `Animal | Environmental | ||||
---|---|---|---|---|---|---|---|---|---|---|
Sample SOURCE | Microorganism | Species | Sample type | Microorganism | Sample Source | Microorganism | ||||
One Health | Mainda et al. [20] | 2019 | Lusaka, LP | Stool | E. coli | Cattle | Â | E. coli | Â | Â |
 | Ziwa et al. [29] | 2018 | Lusaka, LP | Wound swabs | S. aureus K. pneumoniae |  |  |  | Hydrotherapy Bathtub | S. aureus K. pneumoniae |
 | Youn et al. [37] | 2014 | Lusaka, LP |  |  | Dogs Cats | Wound swabs | S. aureus S. pseudintermedius | Door handles, Desk Examination table, Medical Devices, Scale, Floor, Tray surface, Operation table | S. aureus S. pseudintermedius |
Environ | Songe et al. [38] | 2016 | Mongu, WP | Â | Â | Â | Â | Â | Mongu Fish Markets: Flies | E. coli |
Mwamungule et al. [39] | 2015 | Lusaka, LP | Â | Â | Â | Â | Â | Doctors White Coats | S. aureus K. pneumoniae | |
Animal | Mainda et al. [19] | 2015 | Zambia | Â | Â | Cattle | Â | E. coli | Â | Â |
 | Schaumburg et al. [40] | 2012 | Chingola, CoP |  |  | Chimpanzees | Oral swabs Nasal swabs | S. aureus |  |  |
Human | Kapatamoyo et al. [16] | 2010 | Lusaka, LP | Pus Aspirates | S. aureus | Â | ||||
Matundwelo and Mwansasu [18] | 2016 | Ndola, CoP | Pus Swab | S. aureus P. vulgaris | ||||||
Miti et al. [25] | 2020 | Ndola, CoP | Blood | HIV | ||||||
Nagelkerke et al. [30] | 2017 | Eastern EP | Nasal Swab | S. aureus | ||||||
Rectal Swab | Enterobacteriaceae | |||||||||
Inzaule et al. [24] | 2020 | Zambia | Blood | HIV | ||||||
Bennett et al. [23] | 2020 | Lusaka, LP | Dried Blood Spots | HIV | ||||||
Mwape et al. [17] | 2020 | Lusaka, LP | Stool | V. cholerae | ||||||
Kapata et al. [34] | 2015 | Lusaka, LP | Sputum | M. tuberculosis | ||||||
Hendriksen et al. [36] | 2014 | Lusaka, LP | Stool | S. typhi | ||||||
Blood | ||||||||||
Masenga et al. [35] | 2017 | Livingstone, SP | Sputum | M. tuberculosis | ||||||
Kapata et al. [33] | 2013 | Lusaka, LP | Â | M. tuberculosis | ||||||
Mulenga et al. [31] | 2010 | Ndola, CoP | Sputum | M. tuberculosis | ||||||
Bijl et al. [27] | 2000 | Kaoma, WP | Blood | P. falciparum | ||||||
Chiyangi et al. [21] | 2017 | Lusaka, LP | Stool | V. cholerae NTS E. coli, S.Typhi S.paratyphi B, Shigella flexinari, Shigella dysenteriae, Shigella boydii, Campylobacter jejuni | ||||||
Habeenzu et al. [32] | 2007 | Zambia | Sputum | M. tuberculosis | ||||||
Kabwe et al. [28] | 2016 | Lusaka, LP | Blood | Klebsiella sp, S. aureus, E.coli | ||||||
Chanda et al. [26] | 2019 | Ndola, CoP | Blood, Urine, Wound swabs | E. coli, Citrobacter species, Coliform, Streptococcus Enterobacteriaceae, S. aureus, coan Staphylococci, Pseudomonas sp. | ||||||
Proteus species | ||||||||||
Klebsiella sp. | ||||||||||
Gill et al. [22] | 2008 | Ndola, CoP | Nasal Swabs | S. pneumoniae |