ABSTRACT
This thesis is prepared according to “Publishable manuscript” format of the Sokoine
University of Agriculture. It is divided into four sections; the first section presents
introduction, problem statement, objectives, rationale of the study and hypothesis while
the second section is a review of literature in relation to the work performed. The third
section contains four manuscripts which cover the research work done, whereas the last
section details overall conclusions of the study. The first manuscript is about the findings
on the awareness of risks associated with antimicrobials use and practices that contribute
to selection for antimicrobial resistance in livestock. The second and the third
Manuscripts present the prevalence of antimicrobial resistance in indicator bacteria
namely S. aureus from nostrils, E. coli and Enterococci spp from faecal samples obtained
from livestock, dogs and contact human beings, and the last manuscript presents findings
on antimicrobial resistance in faecal indicator organisms from buffalo, wildebeest, zebra
and cattle grazing with wild ungulates. The studies involved testing resistance using
antibiotic discs, inclusion of antibiotics in the media and evaluating bacterial DNA for
resistance genes against commonly used antibiotics in livestock. In response to the first
objective presented in manuscript 1, awareness of human health risks due to use of
antibiotics among livestock keepers and factors that contribute to selection of antibiotic
resistance bacteria within livestock in Tanzania were determined. Looking at awareness
on health risks among the livestock keepers surveyed, one hundred and sixty randomly
selected Tanzanian small-scale livestock keepers were involved in the questionnaire-based
survey. The results showed that 30% of the respondents were not aware of the concept of
antibiotic resistance whereas 52% were not aware of the types of diseases that can be
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treated with antibiotics, 22% did not know the essence of withdrawal period after
treatment of animals with antibiotics and 40% did not know if antibiotics used in livestock
pose risk to human health. Side effects of antibiotics to human beings known by the
respondents include drug resistance, allergy, poisoning, skin rashes and cancer. Further, it
was found that the most commonly used antibiotics were oxytetracyline (TE) (62.9 %)
followed by sulphadimidine/ trimethoprim / (STX) (23.2 %), penicillin-streptomycin (13.4
%) and gentamycin (CN) (0.5 %).Only 54% of the respondents obtained their antibiotics
through prescription by veterinarians. Potential risk factors were identified to be the
sources of development of antimicrobials resistance. These included livestock
management systems, antibiotics handling and types of antibiotics used in the study areas.
Points of selling antibiotics and their prescriptions were found to be handled by agriculture
and veterinary input shops, veterinarians, livestock markets and exhibition areas. The
study concludes that there is a gross lack of awareness on health threats associated with
antibiotics resistance among the farming communities thus posing serious public health
threats in Tanzania.
On the other hand, prevalence of nasal carriers, population structure and antimicrobial
resistance of Staphylococcus aureus and S. pseudintermedius in healthy humans, pigs and
dogs in Tanzania were investigated in the same study area as the second objective and
manuscript 2 of the study. Nasal swabs were taken from healthy humans, pigs and dogs
(n=100 per species) in Tanzania and examined for growth of S. aureus on the Oxacillin
(OX) Resistance Screening Agar Base (ORSAB) media. Presumptive S. aureus isolates
were confirmed by nuc PCR tested for the presence of mecA, mecC and were spa-typed
while antimicrobial susceptibility patterns were determined by disc diffusion, S. aureus
was isolated from 22% of humans, 11% of dogs nasal bacteria isolates and 4% of pigs. S.
pseudintermedius was isolated from 4% of dogs. A total of 21 spa types were identified:
13 from human isolates, 7 between dogs and one among pig isolates. Three spa types
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(t314, t223 and t084) were isolated from both humans and dogs. Disc diffusion test
revealed resistance to sulphamethoxazole/trimethoprim (STX) (3/37; 8.1%), rifampicin
(RD) (2/37; 5.4%), amoxycillin-clavulanic (AMC) acid (1/37; 2.8%), oxacillin (OX)
(4/37; 10.8%), chloramphenicol ( C) (3/37; 8.1%), gentamicin (CN) (3/37; 8.1%) and
penicillin (P) (37/37; 100 %). All the four isolates resistant to oxacillin were negative by
PCR for mecA but positive for mecC. mecC encoded Methicillin Resistant Staphylococcus
haemolyticus (MRSH) was detected in pigs, dogs and humans. The study presented the
first report on strains with this gene in Tanzania. Moderate levels of antimicrobial
resistance were observed irrespective of the host species from which the strains were
isolated.
In addition, the Prevalence of antimicrobial resistance in indicator bacteria isolated from
faecal samples of livestock, poultry and humans in Tanzania was studied as the third
objective and presented in manuscript 3. In order to quantify the public health risks posed
by handling animals, their waste and animal products, a total of 587 faecal samples were
collected from humans, pigs, beef, dairy cattle and exotic and indigenous chickens to
investigate the relatedness of antibiotic resistant bacteria from humans and animals in
Tanzania. A sum of 485 E. coli isolates were obtained from faecal samples grown on
MacConkey agar plates. Also, tetracycline (TE), s sulphadimidine/ trimethoprim (STX),
ampicillin (AMP) and cefataxime (CTX) were included in the media to test the resistance
of E. coli isolates, the results showed higher resistance to TE (385, 79.4%), STX (374,
77.1 %) and AMP (362, 74.6%) and less resistance was observed in CTX (194, 40%).
Further, antibiotic discs were used to determine the resistance of 350 E. coli isolates,
whereas higher resistance was also observed to TE (241, 68.8%), STX (214, 61.1%), S
(195, 55.7%) and AMP (192, 54.8%). Moreover, resistance to CTX was observed in 143
isolates (40.9%) and ciproflaxin (CIP) 30.9 % (108) while less resistance was observed in
AMC (48, 13.7%) and CN (37, 10.6%). Besides E. coli, a total of 550 Enterococci spp
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isolates were also speciated and tested for resistance. Out of the 164 enterococci isolates
tested, 151 (92.1%) were E. faecium, 5 (3.1%) E. faecalis and 8 (4.9%) E. hirae. Growth
of resistant indicator bacteria colonies was carried out in AMP and VA in which higher
resistance was observed in AMP (85, 15.5%) as compared to vancomycin (VA) (30,
5.5%). For 240 Enterococci spp tested with antibiotic discs, higher resistance was
observed to rifampicin (RD) (174, 75.2%), TE (33, 13.8%) and e rythromycin (E) (36,
15%) whereas; there was no resistance to CN (120μg) and C (5, 2.1 %). Other antibiotics
tested for this group included CIP (9, 3.8%), AMP (12, 5%) and VA (12, 5%). Also, sulII
and tetW resistance genes were found in all livestock and humans samples (n=22 per
species) with degree of variations in when calculating the proportion of resistance genes in
relation to number of bacteria estimated from “total” 16s RNA. For all the sample
percentages of tetW to the total of 16s genes were 0.06 % Humans, 11.88% Cattle, 2.4%
Pigs, 2.15% local chickens and 0.98% exotic chickens; whereas, sulII represented; 0.22%
Humans, 0.34 % Cattle, 0.2%Pigs, 0.3% local chickens and 0.02% exotic chickens. All
isolates (n=194) which showed resistance to CTX on MacConkey agar (59 of which were
non-lactose fermenters) revealed a band of the same size to that of a positive CTX-M
control strain in all isolates analyzed, indicating that they all contained an ESBL gene of
this class. Antibiotics that are commonly used in Tanzania had higher resistance as
estimated from both colony forming unit (CFU) of resistant bacteria and resistance
profiles determined by the use of antibiotic discs. Resistance genes were also
demonstrated to commonly used antibiotics (TE, STX) in the country. The findings of this
study indicate that prolonged use of TE and STX has caused indicator bacteria to develop
resistance against these antimicrobials and the resistance genes observed for the same
antibiotics suggest that the genes circulate between animals and humans sharing the same
environment.
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Furthermore, the forth objective presented in manuscript 4 was to determine the
prevalence of antimicrobial resistance in faecal indicator organisms from buffalo,
wildebeest, zebra and cattle grazing with wild ungulates in the study area. The study
investigated the antibiotic resistance in E. coli and Enterococci spp isolated from faecal
samples of wild ungulates and cattle grazing with them. Faecal samples were collected
from 35 buffalos, 40 wildebeest and 40 zebra from two study sites namely Mikumi
National Park (MNP) and Ngorongoro Conservation Area (NCA).Also, additional 20
faecal samples were obtained from cattle grazing together with the wild ungulates in NCA
in order to determine whether co-grazing with cattle constitutes a risk factor for carriage of
antibiotic resistant bacteria. AMP, STX, TE and CTX resistant E. coli were observed in
52.6%, 39.2 %, 31.9% and 17.8% of wildlife samples respectively. The mean of log10CFU
antibiotic resistant bacteria did not differ significantly between the three wildlife species.
Log10 CFU of ampicillin resistant E. coli was significantly higher among wildlife grazing
together with cattle, whereas, cefotaxime resistance was more common in samples from
MNP. In antibiotic discs test of antimicrobials in the samples, one hundred and twenty E.
coli colonies were purified and antibiotic resistance profiled. Wildlife isolates from MNP
(without cattle) were more frequently resistant to TE, CN and ENR than isolates from
NCA (with cattle). Notably, E. coli resistant to CTX and ENR were observed among the
randomly obtained isolates from all wildlife but not from cattle. Out of 120 enterococci
isolates speciated, 95 (79.2%) were E. faecium, 9 (7.5%) E. faecalis, 7 (5.85) E.
gallinarum and 9 (7.5%) E. hirae. On the other hand, AMP and VA resistant Enterococci
were detected in 7.41% of wildlife samples but not in cattle and one hundred and twenty
eight purified colonies of Enterococci spp were antibiotic resistance tested. Isolates for
wild animal grazing together with cattle showed higher levels of resistance to STX than
cattle without. While,the average ratio of sulII gene-copies to 16s rRNA copies in faecal
samples from wildlife did not differ between the two sampling sites, the ratio of tetW to
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16s rRNA was significantly higher in samples from MPN than from NCA. In conclusion,
grazing together with cattle was not found to be a risk factor for the presence of antibiotic
resistant bacteria in faecal samples of wild ungulates.
Overall findings document for the first time in Tanzania that livestock keepers are
unaware of antimicrobial resistance, uncontrolled antibiotic dispensing for animals
presents high risk for spread of antimicrobial resistance among domestic animals with
potential to contribute antimicrobial resistance to human beings and moderate levels of
antimicrobial resistance observed in S. aureus isolates irrespective of the host species
whose strains were isolated. Also different spa types of S. aureus circulating in Tanzania
and for the first time detection of mecC encoded MRSH from S. haemolyticus in pigs,
dogs and humans is reported in Tanzania. However, the use of antimicrobial resistant
bacteria from farm animals and human beings and similarities in the resistance by
phenotyping and genotyping were shown to tetracycline and sulphamethazole which are
commonly used antimicrobials in Tanzania, the genotyping showed the similarity in genes
coding for TE and STX in both human and farm animals isolates. Also the study in
wildlife species showed that wild ungulates are reservoir of antibiotic resistance bacteria
and resistance genes thus carrying risk of transfer of resistant genes to humans and
livestock in the livestock-wildlife interfaces of MNP and NCA and humans are at public
health risks by sharing the same environment with pets and farm animals. Further studies
in molecular typing of the isolates obtained from humans, dogs and domestic animals
sharing the same environment also cattle and wild ungulates grazing together in MNP
NCA are indicated.
With regard to the general objective of the study; “to isolate, characterize and investigate
the extent of antibiotic resistance among selected bacteria (Escherichia coli, Enterococci
spp and Staphylococcus aureus) in humans, livestock, dogs and selected wild animals”,
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the findings sufficiently and positively addressed the objective in terms of isolation,
characterization and extent of antibacterial resistance in targeted species.
SELEMANI, A (2021). Prevalence Of Antimicrobial Resistance And Characterization Of Fecal Indicator Bacteria And Staphylococcus Aureus From Farm Animals, Wildlife, Pets And Humans In Tanzania. Afribary. Retrieved from https://tracking.afribary.com/works/prevalence-of-antimicrobial-resistance-and-characterization-of-fecal-indicator-bacteria-and-staphylococcus-aureus-from-farm-animals-wildlife-pets-and-humans-in-tanzania
SELEMANI, ABDUL "Prevalence Of Antimicrobial Resistance And Characterization Of Fecal Indicator Bacteria And Staphylococcus Aureus From Farm Animals, Wildlife, Pets And Humans In Tanzania" Afribary. Afribary, 09 May. 2021, https://tracking.afribary.com/works/prevalence-of-antimicrobial-resistance-and-characterization-of-fecal-indicator-bacteria-and-staphylococcus-aureus-from-farm-animals-wildlife-pets-and-humans-in-tanzania. Accessed 18 Dec. 2024.
SELEMANI, ABDUL . "Prevalence Of Antimicrobial Resistance And Characterization Of Fecal Indicator Bacteria And Staphylococcus Aureus From Farm Animals, Wildlife, Pets And Humans In Tanzania". Afribary, Afribary, 09 May. 2021. Web. 18 Dec. 2024. < https://tracking.afribary.com/works/prevalence-of-antimicrobial-resistance-and-characterization-of-fecal-indicator-bacteria-and-staphylococcus-aureus-from-farm-animals-wildlife-pets-and-humans-in-tanzania >.
SELEMANI, ABDUL . "Prevalence Of Antimicrobial Resistance And Characterization Of Fecal Indicator Bacteria And Staphylococcus Aureus From Farm Animals, Wildlife, Pets And Humans In Tanzania" Afribary (2021). Accessed December 18, 2024. https://tracking.afribary.com/works/prevalence-of-antimicrobial-resistance-and-characterization-of-fecal-indicator-bacteria-and-staphylococcus-aureus-from-farm-animals-wildlife-pets-and-humans-in-tanzania