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Research Article | | Peer-Reviewed

Antimicrobials Use by Smallholder Dairy Farmers in Peri-Urban Area of Nakuru Kenya: Knowledge, Attitudes and Practices

Mariama Njie* Bockline Omedo Bebe Caleb Oburu Orenge
Published in Animal and Veterinary Sciences (Volume 12, Issue 4)
Received: 29 May 2024    Accepted: 20 June 2024    Published: 2 July 2024
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Abstract

In dairy intensification, mastitis infections become prevalent and induce frequent Antimicrobial Use (AMU), sometimes inappropriately. This poses public health risks because of growing Antimicrobial Resistance (AMR), which calls for stewardship programs informed by Knowledge, Attitude and Practices (KAPs) about AMU and AMR to halt or reverse the worrying trend. Data was obtained in cross sectional survey conducted in four peri-urban wards around Nakuru city in Kenya. Randomly selected sample farmers (n=124) with free-grazing, semi-zero-grazing or zero-grazing dairy management, representing increasing dairy intensification levels provided data on the KAPs. Chi-square test statistics was fitted to establish associations between KAPs and dairy intensification levels. Among the sample farmers, six in ten (58.8 percent) had intensified dairy production, at least six in ten were marketing milk through informal outlets and were using antimicrobial drugs. Compliance with the withdrawal period was high and increased (p<0.05) with increasing intensification from free-grazing to zero-grazing. Within antibiotic withdrawal period, at least seven in ten farmers did not sell milk, fewer than four in ten consumed their milk at home and fewer than three in ten fed the milk to calves. Though independent of dairy intensification level (p>0.05), using antimicrobials for mastitis treatment increased while sourcing information on antimicrobial use from extension and veterinary officers decreased, with increasing intensification level. Farmers with some training on prudent antimicrobial use and with positive attitudes that milk from antimicrobial treated cows is unsafe, antimicrobial resistant pathogens and residues can be passed from milk to humans, mastitis can be treated without antimicrobial drugs, and antimicrobial residues can end up accumulating in the soils increased (p>0.05) with increasing dairy intensification levels. These results show that regarding AMU and AMR, farmers become more knowledgeable, with positive attitudes and good practices as they intensify their dairy management. The implication is that intensification of dairy management motivates farmers to gain more knowledge, acquire positive attitudes and apply good practices towards responsible prudent use of antimicrobials in livestock. Therefore, strengthening stewardship with targeted training and sensitization can foster prudent and responsible antimicrobial use.

Published in Animal and Veterinary Sciences (Volume 12, Issue 4)
DOI 10.11648/j.avs.20241204.11
Page(s) 107-118
Creative Commons

This is an Open Access article, distributed under the terms of the Creative Commons Attribution 4.0 International License (http://creativecommons.org/licenses/by/4.0/), which permits unrestricted use, distribution and reproduction in any medium or format, provided the original work is properly cited.

Copyright

Copyright © The Author(s), 2024. Published by Science Publishing Group
Previous article
Keywords

Antimicrobial Resistance, Antimicrobial Use, Kenya, Knowledge Attitude and Practices, Mastitis

1. Introduction
Growing consumption demand for animal protein is driving intensification of livestock production systems in which antimicrobial use (AMU) is projected to increase by 67 percent between the year 2010 and 2030
[1]
. In intensive dairy production, mastitis disease is prevalent and induces overdosing, underdosing or inappropriate use of veterinary antimicrobial drugs for treatment
[2]
. Consequential to this is occurrence of antimicrobial residue in food of animal origin and subsequent development of antimicrobial resistance (AMR), with impacts on food safety and public health
[3]
. These present public health risks because of a high probability of future treatment failures in both animals and humans. This public health concern is growing in countries where growth in consumption demand for animal protein is more rapid, yet consumption of antimicrobial veterinary drugs (AMD) is weakly regulated. The growing public health concerns on AMU and AMR justifies antimicrobial stewardship programs. Effective antimicrobial stewardship programs are evidence-informed with the Knowledge, Attitudes and Practice (KAPs) regarding AMU of the farmers. This is a critical step in developing antimicrobial stewardship programs
[4]
. The 2021--2025 action plan of the Food and Agriculture Organization (FAO) of the United Nations has proposed antimicrobial stewardship program actions. These include boosting stakeholder engagement and awareness, enhancing research and surveillance, encouraging good practices, and strengthening governance and sustainable resource allocation
[5]
. However, instance of inappropriate AMU frequently arises, which pose public health risks. This is a likely situation among the peri-urban smallholder dairy farmers in Kenya. They are intensifying their dairy management systems and so are more likely to engage in high AMU in treating mastitis infections, a prevalent intensification disease
[6]
. However, there is a dearth of information on KAPs regarding AMU and AMR among peri-urban smallholder dairy farmers, particularly in Kenya, a country with well-developed dairy industry in Africa
[7, 8]
. This knowledge gap is a barrier to evidence informed antimicrobial stewardship program actions that can reverse the trends in antimicrobial resistance development
[9]
. The goal of responsible antimicrobial stewardship is to prevent the emergence and spread of antimicrobial resistance, maintain the effectiveness of veterinary drugs, and promote a One-Health concept
[10]
. Antimicrobial stewardship program actions are being implemented in industrial livestock systems because data is available from effective monitoring of AMU and AMR trends in livestock production
[1]
. In order to track the susceptibility of the principal mastitis pathogens to antimicrobial medications used to treat the disease in North America, the mastitis pathogen antimicrobial susceptibility surveillance program was established in 2002 and its implementation has continued
[10]
. This is yet to be achieved in peri-urban smallholder dairy systems in Kenya because data on KAPs regarding AMU and AMR remain scarce. This knowledge gap hinders good understanding of the association between dairy intensification and KAPs about AMU and AMR. Therefore, the objective of this study was to assess Knowledge, Attitudes and Practices of farmers that relate to antimicrobial use in different dairy production systems representing increasing intensification levels (free-, semi-zero and zero-grazing) among smallholder farmers in the peri-urban areas of Nakuru city in Kenya.
2. Materials and Method
2.1. Study Area
The study was conducted in peri-urban areas of Nakuru city, specifically smallholder farms in Njoro, Lare, Lanet and Kabatini Wards. The area is located within Longitudes 35.41°East or 35°24’ 36” East and 36.6°East or 36°36’ 0” East and Latitude 0.23 °North or 0°13’ 48” North and 1.16°South or 1° 9`36” South (Figure 1). in the four Wards selected for the study, dairy production is predominantly mixed crop-dairy farming, with strong historical linkage to White Settler farming heritage
[11]
. Dairy production is a major productive economic activity, with developed supportive infrastructure. The supportive infrastructure includes education, training and research institutions and facilities, milk processing, feed manufacture and veterinary investigation laboratories. These institutions are under public, farmer or private operation ownership
[12]
.
2.2. Data Collection
A structured questionnaire was developed in Kobo tool kit with four sections (Appendix C). The first section captured demographical information, the second section captured farmers’ knowledge, the third section captured farmers’ attitudes, while the last section captured practices by farmers on antimicrobial use, antimicrobial drugs and antimicrobial resistance. The interest on farmers’ knowledge was to establish the purpose of using antimicrobials, whether antimicrobials are used for mastitis treatment and the recommended withdrawal periods are observed, and how farmers source information on antimicrobial residues and antimicrobial resistance. The interest on farmers’ attitudes was assessed with nine questions for the degree of agreement or disagreement to reveal positive and negative attitudes that farmers have about antimicrobial use on animals and humans. The interest on practices that farmers deploy in using antimicrobials was to give insight into how farmers responsibly and prudently used the antimicrobials.
The questionnaire was pretested among 10 dairy farmers outside the four wards targeted for the study. Pre-testing was done to enhance the clarity and accuracy of the questions so that the intended information could be obtained. The adjusted questionnaire was administered to a random sample of 124 farmers who provided information on their KAPs regarding antimicrobial use, antimicrobial drugs and antimicrobial resistance.
Figure 1. Map of the study area.
2.3. Data Analysis
Data in the Kobo tool kit was exported to Excel version 2016 for cleaning then processed for further descriptive and inferential statistics using SAS version 9.3 software. The descriptive and inferential statistics were generated by applying cross tabulation and Chi square test statistics for association between KAPs and dairy intensification level. Rejection of the null hypothesis of independence between KAPs and dairy intensification levels was set to p< 0.05. In analysing the sampling distribution, Pearson’s Chi square was used when the expected frequencies in each cell were greater than five, otherwise Fisher’s exact test probability was used when the expected frequencies were less than five
[13]
.
3. Results
3.1. Demographic Characteristics of Sample Farmers
The demographic characteristics of the sample farmers (n=124) is presented in Table 1. The demographic statistics reveal that more than 70 percent of the sample farmers came from two neighbouring wards (Njoro and Lare). Among the farmers, male (56.5 percent; 70/124) dominated over female (43.5 percent; 54/124), and seven in ten (70.2 percent) had attained at least secondary level education. Observed frequencies show that six in ten (58.8 percent) of the farmers had intensified dairy production management by adopting semi-zero-grazing or complete zero-grazing dairy management. Though being in peri-urban area of the city is expected to present proximity advantage to formal milk market channels to these farmers, it is found that at least six in ten (63.7 percent) were marketing milk through informal market outlets.
Table 1. Demographic statistics of the sampled farmers.

Categories

Frequency

Percent (%)

Wards

Njoro

50

40.3

Lare

40

32.3

Lanet

17

13.7

Kabatini

17

13.7

Sex

Male

70

56.5

Female

54

43.5

Education Level

Adult Education

4

3.2

Primary

33

26.6

Secondary

59

47.6

Post-secondary

28

22.6

Production System

Free Grazing

51

41.1

Semi Grazing

33

26.6

Zero Grazing

40

32.2

Milk market outlets

Informal only

79

63.7

Both formal and informal

36

29.0

Formal only

9

7.3
3.2. Farmers’ Knowledge About Antimicrobial Use
The summary statistics of farmers’ knowledge about antimicrobial use is presented in Table 2. Use of milk before end of withdrawal period was associated with dairy intensification levels (p<0.05) as those selling milk decreased while those feeding milk to calves increased with increasing intensification levels. Before withdrawal period ended, farmers indicating that they were selling the milk decreased (15.7, 12.1, 0.0 percent) while those feeding milk to calves increased (9.8, 21.2 and 25.0 percent) from free, semi-zero- to zero-grazing, respectively. In overall, compliance with the recommended withdrawal period was high, with at least seven in ten farmers not selling such milk during the withdrawal period while less than four in ten consumed such milk at home.
Regardless of dairy intensification levels, up to four in ten (21.1 to 37.3 percent) farmers did not use antimicrobials. Though reasons for using antimicrobials were independent of (p>0.05) of dairy intensification levels, use of antimicrobials for treatment (33.3 to 40.0 percent) and for treating mastitis (19.6 to 40.0 percent) had a pattern of increasing with increasing intensification levels from free to zero-grazing. When frequently using antimicrobials, the reason was treatment (30 to 40 percent) or production (22 to 42 percent) and not prevention of disease (4 to 6 percent). Among the sample farmers, sourcing of information about antimicrobial use was independent (p>0.05) of their dairy intensification levels. However, those sourcing information from the extension and veterinary officers had a pattern of decreasing with increasing intensification levels from free- and semi-zero grazing (66.7 -68.6 percent) to zero-grazing (47.5 percent).
Table 2. Association between farmers’ antimicrobial use knowledge and dairy intensification levels.

Question

Free grazing (n=51)

Semi grazing (n=33)

Zero grazing (n=40)

Chi-square test

Purpose of using antimicrobial (Percent)

p=0.5110*

Do not use

37.3

21.2

32.5

Treatment

33.3

30.3

40.0

Prevention

3.9

6.1

5.0

Production

25.5

42.4

22.5

Using antimicrobials for mastitis treatment (Percent)

p=0.1939

Do not use

43.1

39.4

25.0

Use sometimes

37.3

27.3

35.0

Use frequently

19.6

33.3

40.0

Using milk from antimicrobial treated cows before end of withdrawal period (percent)

p= 0.0405*

Home consumption

3.9

0.0

2.5

do not sale out

70.6

66.7

72.5

Sell out

15.7

12.1

0.0

Give to calves

9.8

21.2

25.0

Sourcing information on antimicrobial residues in food and antimicrobial resistance (Percent)

p= 0.0655*

No

21.6

30.3

25.0

Extension/ veterinary officers

68.6

66.7

47.5

Fellow farmers, relatives

2.0

0.0

5

Field days

0.0

3.0

7.5

Media (radio, newspapers, TV)

7.8

0.0

15
*p value from Fisher’s exact test
3.3. Farmers’ Attitudes Towards Antimicrobial Use in Dairy Farming
The study identified the specific recommendations for antimicrobial use in animals and humans that farmers have positive and negative attitudes towards. Agreement with statement on a specific recommendation for antimicrobial use indicated positive attitude. The observed frequency statistics for which the association with dairy intensification levels was significant (p<0.05) are presented in Table 3. Overall, farmers with positive attitude towards AMU recommendations increased with increasing dairy intensification levels. Farmers with the attitude that milk from antimicrobial treated cows is unsafe to human health increased from those practicing free-grazing (56.9 percent) through semi-zero-grazing (78.8 percent) to zero-grazing (82.5 percent). Also, farmers with the positive attitude that antimicrobial resistant pathogens and residue from milk can be passed to humans through the food chain increased from those practicing free-grazing (60.8 percent) through semi-zero-grazing (69.7 percent) to zero-grazing (70.0 percent). Further, it was found that more of farmers practicing zero-grazing (70.0 percent) than those practicing free-grazing (62.8 percent) had the attitude that mastitis can be treated without antimicrobial drugs. Similarly, more of farmers practicing zero-grazing (70.0 percent) than those practicing free-grazing (66.7 percent) had the attitude that antimicrobial residues can end up accumulating in the soils.
Table 3. Significant associations between farmers’ attitudes towards antimicrobial use and dairy intensification levels.

Production systems

Degree of agreement or disagreement (Percent)

Chi-square test

Agree

Neutral

Disagree

Mastitis can be treated without using antimicrobial drugs

P=0.0010

Free (n=51)

62.8

23.5

13.7

Semi (n=33)

24.2

39.4

36.4

Zero (n=40)

70.0

12.5

17.5

Milk from antimicrobial treated cows is harmful to human health

P=0.0283*

Free (n=51)

56.9

35.3

7.8

Semi (n=33)

78.8

21.2

0.0

Zero (n=40)

82.5

17.5

0.0

Antimicrobial residues can end up accumulating in the soils

P=0.0004

Free (n=51)

66.7

25.5

7.8

Semi (n=33)

51.5

12.1

36.4

Zero (n=40)

70.0

36.4

2.5

Antimicrobial resistant pathogens and residue from milk can be passed to humans through the food chain

P=0.0089*

Free (n=51)

60.8

37.3

2.0

Semi (n=33)

69.7

12.1

18.2

Zero (n=40)

70.0

27.5

2.5
*p value from Fisher’s exact test
The observed frequency statistics for farmer attitudes towards antimicrobial use recommendations which showed no association with dairy intensification levels (p>0.05) are presented in Table 4. Farmer attitudes that were independent of their dairy intensification levels were whether any antimicrobial drug can be used to treat a lactating cow, withdrawal period should be observed to avoid antimicrobial drug residues in milk, relationship exists between antimicrobial use and antimicrobial resistance, and whether antimicrobial drug residues and drug resistance occurs when AMU is not prudent. Though independent of the dairy intensification levels, farmers with the positive attitude that sale and distribution of antimicrobial drugs be restricted to licensed persons had a pattern of increasing with increasing intensification levels. The proportion of farmers increased from free-grazing (58.8 percent) through semi-zero-grazing (63.6 percent) to zero-grazing (67.5 percent).
Table 4. Insignificant associations between farmers’ attitudes towards antimicrobial use and dairy intensification levels.

Production systems

Degree of agreement or disagreement (Percent)

Chi-square test

Agree

Neutral

Disagree

Any antimicrobial drug can be used to treat a lactating cow

P=0.3076*

Free (n=51)

70.6

25.5

3.9

Semi (n=33)

54.6

30.3

15.2

Zero (n=40)

72.5

20.0

7.5

Withdrawal periods should be observed to avoid antimicrobial drug residues in milk

P=0.8945*

Free (n=51)

70.6

21.6

7.8

Semi (n=33)

69.7

21.1

9.1

Zero (n=40)

62.5

30.0

7.5

Relationship exists between antimicrobial use and antimicrobial resistance

P=0.0524

Free (n=51)

66.7

27.5

5.9

Semi (n=33)

39.4

45.6

15.2

Zero (n=40)

67.5

30.0

2.5

Sale and distribution of antimicrobial drugs be restricted to licensed persons

P=0.6918*

Free (n=51)

58.8

33.3

7.8

Semi (n=33)

63.6

27.3

9.1

Zero (n=40)

67.5

20.0

12.5

Antimicrobial drug residues and drug resistance occurs when not prudently used

P=0.7747*

Free (n=51)

72.6

19.6

7.8

Semi (n=33)

60.6

24.2

15.2

Zero (n=40)

65.0

22.5

12.5
*p value from Fisher’s exact test
3.4. Farmers’ Practices in Administration and Prescription of Antimicrobial Drugs
The results in Table 5 presents the observed association between farmers’ practices (in the administration and prescription of antimicrobial drugs) and dairy intensification levels. Regardless of their dairy intensification levels, at least seven in ten farmers had professional prescription by veterinarians or pharmacy, observed withdrawal period and had been trained in antimicrobial use including residual effects and development of antimicrobial resistance. Farmers who self-prescribed and administered antimicrobial drugs declined (p<0.05) with increasing intensification of dairy management from free- to zero-grazing. Farmers who had most intensified their dairy management (zero-grazing) were the majority with some training on prudent antimicrobial use (87.5 percent) and in observing the withdrawal period (97.5 percent). There were several of farmers’ practices in administration and prescription of antimicrobial drugs that were independent (p>0.05) of the dairy intensification levels. These included where farmers were buying the antimicrobial drugs, how often they called a veterinarian whenever an animal was sick, and common disease condition(s) of lactating cows for which they administered antimicrobial drugs. Other practices were administering a follow up dose, stopping treatment when an animal recovers, checking for the expiry date before use, and using human drugs on animals. Though was independent of dairy intensification levels, use of human drugs on animals was prevalent (over 60.0 percent).
Table 5. Association between farmers’ practices (in the administration and prescription of antimicrobial drugs) and dairy intensification levels.

Question

Free grazing (n=51)

Semi grazing (n=33)

Zero grazing (n=40)

Chi-square test

From where do you usually buy the antimicrobial drugs? (Percent)

P= 0.1230*

Extension/veterinary officer

80.4

81.8

85.0

Pharmacy

5.9

18.1

12.5

Fellow farmers

13.7

0.0

2.5

Who often prescribes antimicrobial drugs for you? (Percent)

P= 0.0124*

Extension/veterinary officer

63.6

97.0

85.0

Pharmacy

5.8

0.0

5.0

Self

25.5

3.0

10.0

Who administers antimicrobial drugs to your animals? (Percent)

P = 0.0040*

Extension/veterinary officer

66.7

97.0

67.5

Fellow farmers

11.8

0.0

5.0

Self

21.6

3.0

27.5

How often do you call a veterinarian whenever an animal is sick? (Percent)

P= 0.0524*

Frequently

27.5

42.4

45.0

Sometimes

51.0

48.5

52.5

Do not

21.6

9.1

2.5

What is the common disease condition(s) of lactating cows for which you administer antimicrobial drugs? (Percent)

P= 0.4051*

Mastitis

11.8

24.2

35.0

Respiratory diseases

17.7

12.1

10.0

Diarrhoea

27.5

21.2

20.0

Udder injuries

7.8

12.1

10.0

Others

35.3

30.3

25.0

Do you observe the withdrawal period after treating the animals with antimicrobials (Percent)

P= 0.0316*

Yes

86.3

78.8

97.5

No

13.7

21.2

2.5

Do you give subsequent doses after the administration of the first dose of the treatment. (Percent)

P= 0.4861

Yes

72.6

72.7

82.5

No

27.5

27.3

17.5

Do you stop giving treatment when an animal recovers? (Percent)

P= 0.5867

Yes

72.6

66.7

77.5

No

27.5

33.3

22.5

Have you had training on antimicrobial usage, AMR, and residue. (Percent)

p= 0.0221

Yes

68.6

60.6

87.5

No

31.4

39.4

12.5

Do you check for the expiry date before AMU (Percent)

P= 0.0737

Yes

82.4

66.7

87.5

No

17.7

33.3

12.5

Do you use human drugs on animals. (Percent)

P= 0.5034

Yes

66.7

54.6

65.0

No

33.3

45.5

35.0
*p value from Fisher’s exact test
4. Discussion
The distribution of farmers with free-, semi-zero and zero-grazing dairy management observed in this study support that intensification of dairy management is increasing in the peri-urban areas of Nakuru city. Though more than half of the sample farmers (58.8 percent) had intensified their dairy management, a larger majority marketed milk in the informal market outlets. Because follow up is difficult, participation in the informal milk market outlets present a weak link in implementing antimicrobial stewardship programs, boosting stakeholder engagement and awareness, enhancing research and surveillance, encouraging good practices, and strengthening governance and sustainable resource allocation
[5]
.
Among the sample farmers in this study, seven in ten had attained at least secondary education. A higher level of education among dairy farmers and farm workers can play a significant role in promoting AMU stewardship practices. Better-educated individuals are more likely to understand the importance of prudent antimicrobial use, follow recommended guidelines, implement biosecurity measures, and adopt best management practices. Education can also enhance their ability to interpret diagnostic test results, maintain accurate treatment records, and make informed decisions about antimicrobial therapy. Consequently, increased education levels can encourage more responsible and sustainable AMU stewardship actions as dairy farming intensifies. This would be supportive to antimicrobial stewardships program as training of farmers can then enhance disease detection accuracy. However, achieving lasting progress will necessitate a comprehensive approach
[14]
.
Regardless of the level of dairy intensification management, the study revealed that at least seven out of ten farmers were utilizing antimicrobial drugs, with up to eight out of ten employing these drugs specifically for the treatment of mastitis. This finding is not surprising, as mastitis is a highly prevalent infection in intensified smallholder dairy management
[15]
. The observed therapeutic use of antimicrobials is consistent with the observations of many researchers. Gemeda et al. (2020), Farrell et al. (2021), Geta & Kibret (2021), and Hassan (2022) have all reported that antimicrobials are predominantly used for therapeutic purposes in livestock production systems. However, other researchers have reported contrasting observations, suggesting that the primary use of antimicrobials is for disease prevention rather than treatment.
[1-4, 6-16].
Nyokabi et al. (2021), Omwenga et al. (2021), Mogotu et al. (2022), and Kisoo et al. (2023) are among the researchers who have highlighted the preventive use of antimicrobials as a common practice in various livestock production management
[17-20]
. The contrasting findings may be attributed to regional differences, variations in production systems, or the specific contexts in which the studies were conducted. It is crucial to investigate the underlying factors contributing to the contrasting observations and tailor interventions accordingly to promote judicious antimicrobial use practices. The high prevalence of mastitis and the associated therapeutic use of antimicrobials observed in the present study underscore the need for effective disease management strategies and alternative approaches to minimize the reliance on antimicrobial treatments. Improved hygiene practices, vaccination programs, and the adoption of preventive measures could contribute to reducing the incidence of mastitis and, consequently, the need for antimicrobial therapy. Ongoing research, education, and collaboration among stakeholders, including farmers, veterinarians, and policymakers, are essential to address the challenges of antimicrobial resistance and promote sustainable livestock production practices.
The present study revealed a high level of compliance with the withdrawal period among farmers, which refers to the mandated time after administering antimicrobials to dairy animals before their milk can be introduced into the food chain. Notably, this compliance increased significantly (p<0.05) as the level of dairy intensification increased. Specifically, during the antimicrobial withdrawal period, at least seven out of ten farmers refrained from selling the milk, fewer than four out of ten consumed the milk at home, and fewer than three out of ten fed the milk to calves. These findings align with the recommendations of Uyama et al. (2022), who emphasized the importance of adhering to withdrawal periods to prevent antimicrobial residues from entering the food supply chain and safeguard public health
[21]
. Their study highlighted the potential risks associated with the consumption of milk containing antimicrobials residues, including the development of antimicrobial resistance and adverse health effects. Similarly, Mogotu et al. (2022) reported a positive correlation between farmer knowledge of withdrawal periods and compliance with these guidelines in their study conducted in Kenya
[19]
. They stressed the need for continuous education and awareness campaigns to promote responsible antimicrobial stewardship practices among dairy farmers. The observed trend of increased compliance with withdrawal periods as dairy operations intensified could be attributed to factors such as improved access to veterinary services, better record-keeping, and enhanced awareness of food safety and public health concerns, as suggested by Kashongwe et al. (2020) in their study of antimicrobial use practices in intensive dairy farming systems
[22]
.
However, it is of concern that a significant proportion of farmers still engaged in practices such as consuming or feeding milk to calves during the withdrawal period. These practices can contribute to the spread of antimicrobial resistance and pose potential health risks, as highlighted by
[19, 20]
. Continued efforts are needed to address these practices through targeted education and extension programs, as recommended by organizations such as the World Health Organization (WHO) and the Food and Agriculture Organization of the United Nations (FAO). These initiatives should emphasize the importance of strict adherence to withdrawal periods and promote alternative management strategies to minimize the need for antimicrobial treatment, ensuring food safety and public health throughout the dairy value chain
[5-23]
.
Though was found to be independent of the level of dairy intensification (p>0.05), the use of antimicrobials for treating mastitis showed an increasing pattern, while the practice of sourcing information on antimicrobial use from extension and veterinary officers decreased as dairy operations became more intensive. The observed trend in the present study raises concerns about the potential for increased antimicrobial use and the risk of antimicrobial resistance as dairy operations intensify, especially if farmers rely less on professional advice and guidance from veterinary and extension services. It is crucial to address this issue by strengthening the collaboration between farmers, veterinarians, and extension services, in line with the recommendations of the World Organisation for Animal Health (OIE) and the Food and Agriculture Organization of the United Nations (FAO) in their guidelines for prudent and responsible use of antimicrobials in agriculture
[5-24]
. Ongoing education and awareness campaigns, coupled with accessible and affordable veterinary services, can play a vital role in promoting sustainable antimicrobial use practices, even as dairy production systems get more and more intensive.
The present finding just observed contrasts with previous research that has emphasized the importance of veterinary guidance and extension services in promoting judicious antimicrobial use, particularly in intensive livestock production systems. For instance, Redding et al. (2014) highlighted the positive impact of veterinary-client relationships and education programs on reducing unnecessary antimicrobial use among dairy farmers in the United States
[25]
. Similarly, a study by Higham et al. (2020) found that farmers who received training and support from extension services were more likely to adopt best practices for responsible antimicrobial stewardship, such as improved record-keeping and adherence to treatment protocols
[26]
.
The present study found that farmers who received training on prudent antimicrobial use and held positive attitudes regarding the risks associated with antimicrobial overuse were more likely to adopt responsible practices as dairy production intensified. Specifically, those who believed that milk from antimicrobial-treated cows is unsafe for consumption, that antimicrobial-resistant pathogens and drug residues can transmit from milk to humans, that mastitis can be managed without antibiotics, and that antimicrobial residues accumulate in soil demonstrated a tendency to increased (p>0.05) toward judicious use as their dairy operations became more intensive. These findings align with previous research highlighting the importance of farmer education and awareness. Higham et al. (2020) emphasized that understanding antimicrobial resistance risks and residue entry into the food chain positively shapes attitudes toward antimicrobial stewardship
[26]
. Similarly, Redding et al. (2014) found U.S. dairy farmers receiving prudent use training were more likely to implement best practices like selective dry cow therapy to reduce unnecessary antimicrobial administration
[25]
. Moreover, Saini et al. (2012) observed farmers recognizing antimicrobial residue risks in milk and the environment were more receptive to alternatives such as improved hygiene and preventive measures to minimize treatment needs. These findings underscore the pivotal role of education in promoting responsible antimicrobial stewardship, especially as dairy production intensifies
[27]
.
In the present study, it was observed that the majority of farmers obtained antimicrobial drugs through veterinarians, who not only prescribed but also administered the drugs themselves. This practice is considered beneficial and should be encouraged, promoted, and strengthened to mitigate concerns related to antimicrobial resistance (AMR) and contribute to the sustainable use of antimicrobials
[2]
. This approach aligns with the Global Action Plan on AMR, which outlines strategies for combating the emergence and spread of AMR. The implementation of such strategies can check the threats posed by the emergence and spread of AMR to multiple Sustainable Development Goals, including those related to health, food security, environmental well-being, and socioeconomic goals
[5-29]
.
However, our findings deviate from those reported by Gemeda et al. (2020) in their study conducted in Ethiopia. The researchers observed that antimicrobial drugs were primarily accessed from private suppliers in the context of their study
[1]
. It is important to note that their study sample came from pastoral production system, which differs from the smallholder peri-urban dairy systems examined in the present research. The contrasting findings could be attributed to the differences in accessibility to veterinary services, which is often limited in pastoralist production settings. In the present study, a predominant reliance on veterinarians and extension worker for antimicrobial drug procurement was observed. This is expected since smallholder peri-urban dairy can more easily access veterinary services and guidance, unlike pastoral cattle systems where veterinary services would be less available. Under such pastoral conditions, public and NGO led veterinary service delivery would be expected to prevail and could influence the sources from which antimicrobial drugs are obtained.
The observed practice of farmers obtaining antimicrobial drugs through veterinarians, who also prescribed and administered the drugs, can be attributed to the education and guidance received from veterinary extension officers on prudent antimicrobial use and the relationship between antimicrobial use (AMU) and antimicrobial resistance (AMR). This educational intervention by veterinary officials likely played a crucial role in shaping the responsible antimicrobial procurement and administration practices among the farmers in this study. However, this finding stands in contrast to a study conducted in Ethiopia by Geta & Kibret (2021), where farmers reportedly administered antimicrobial drugs to sick animals on their own before seeking veterinary assistance
[6]
. Furthermore, the same authors stated that farmers claimed they would continue to use antibiotics on animals even if they were aware of the potential negative impact on public health
[6]
. This unfortunate practice can be attributed to inadequate delivery of veterinary services together with lack of education on prudent use of antimicrobials and the relationship between AMU and AMR by the veterinary officials from the private sector.
These results of this study show that farmers knowledgeable and with positive attitudes and good practices on AMU and AMR increased with increasing intensification of dairy management. The implication is that intensification of dairy management motivates farmers to gain more knowledge, have positive attitudes and good practices towards prudent use of antimicrobials in livestock. These needs strengthening with targeted training and sensitization to promote prudent and responsible antimicrobial use.
5. Conclusion
The results of this study show that farmers knowledgeable and with positive attitudes and good practices on AMU and AMR increased with increasing intensification of dairy management. The implication is that intensification of dairy management motivates farmers to gain more knowledge and have positive attitudes and good practices towards prudent use of antimicrobials in livestock. These needs strengthening of stewardship with targeted training and sensitization to promote prudent and responsible antimicrobial use.
Abbreviations

AMU

Antimicrobial Use

AMD

Antimicrobial Drug

AMR

Antimicrobial Resistance

KAPs

Knowledge Attitude and Practices
Acknowledgments
This study was made possible with funding from The Gambia Government. The materials and procedures used in this research were approved by the Egerton University Research Ethics Committee, approval number EUISERC/APP/303/2024 and the National Commission of Science and Technology of Kenya under the license number NACOSTI/P/24/33414.
Author Contributions
Mariama Njie: Conceptualization, Formal Analysis, Funding acquisition, Methodology, Project administration, Resources, Writing – original draft, Writing – review & editing
Bockline Omedo Bebe: Supervision, Validationm, Writing – review & editing
Caleb Oburu Orenge: Supervision, Validationm, Writing – review & editing
Conflicts of Interest
The authors declare no conflicts of interest.
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    Njie, M., Bebe, B. O., Orenge, C. O. (2024). Antimicrobials Use by Smallholder Dairy Farmers in Peri-Urban Area of Nakuru Kenya: Knowledge, Attitudes and Practices. Animal and Veterinary Sciences, 12(4), 107-118. https://doi.org/10.11648/j.avs.20241204.11

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    Njie, M.; Bebe, B. O.; Orenge, C. O. Antimicrobials Use by Smallholder Dairy Farmers in Peri-Urban Area of Nakuru Kenya: Knowledge, Attitudes and Practices. Anim. Vet. Sci. 2024, 12(4), 107-118. doi: 10.11648/j.avs.20241204.11

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    AMA Style

    Njie M, Bebe BO, Orenge CO. Antimicrobials Use by Smallholder Dairy Farmers in Peri-Urban Area of Nakuru Kenya: Knowledge, Attitudes and Practices. Anim Vet Sci. 2024;12(4):107-118. doi: 10.11648/j.avs.20241204.11

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  • @article{10.11648/j.avs.20241204.11,
  author = {Mariama Njie and Bockline Omedo Bebe and Caleb Oburu Orenge},
  title = {Antimicrobials Use by Smallholder Dairy Farmers in Peri-Urban Area of Nakuru Kenya: Knowledge, Attitudes and Practices
},
  journal = {Animal and Veterinary Sciences},
  volume = {12},
  number = {4},
  pages = {107-118},
  doi = {10.11648/j.avs.20241204.11},
  url = {https://doi.org/10.11648/j.avs.20241204.11},
  eprint = {https://article.sciencepublishinggroup.com/pdf/10.11648.j.avs.20241204.11},
  abstract = {In dairy intensification, mastitis infections become prevalent and induce frequent Antimicrobial Use (AMU), sometimes inappropriately. This poses public health risks because of growing Antimicrobial Resistance (AMR), which calls for stewardship programs informed by Knowledge, Attitude and Practices (KAPs) about AMU and AMR to halt or reverse the worrying trend. Data was obtained in cross sectional survey conducted in four peri-urban wards around Nakuru city in Kenya. Randomly selected sample farmers (n=124) with free-grazing, semi-zero-grazing or zero-grazing dairy management, representing increasing dairy intensification levels provided data on the KAPs. Chi-square test statistics was fitted to establish associations between KAPs and dairy intensification levels. Among the sample farmers, six in ten (58.8 percent) had intensified dairy production, at least six in ten were marketing milk through informal outlets and were using antimicrobial drugs. Compliance with the withdrawal period was high and increased (p0.05), using antimicrobials for mastitis treatment increased while sourcing information on antimicrobial use from extension and veterinary officers decreased, with increasing intensification level. Farmers with some training on prudent antimicrobial use and with positive attitudes that milk from antimicrobial treated cows is unsafe, antimicrobial resistant pathogens and residues can be passed from milk to humans, mastitis can be treated without antimicrobial drugs, and antimicrobial residues can end up accumulating in the soils increased (p>0.05) with increasing dairy intensification levels. These results show that regarding AMU and AMR, farmers become more knowledgeable, with positive attitudes and good practices as they intensify their dairy management. The implication is that intensification of dairy management motivates farmers to gain more knowledge, acquire positive attitudes and apply good practices towards responsible prudent use of antimicrobials in livestock. Therefore, strengthening stewardship with targeted training and sensitization can foster prudent and responsible antimicrobial use.},
 year = {2024}
}

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  • TY  - JOUR
T1  - Antimicrobials Use by Smallholder Dairy Farmers in Peri-Urban Area of Nakuru Kenya: Knowledge, Attitudes and Practices

AU  - Mariama Njie
AU  - Bockline Omedo Bebe
AU  - Caleb Oburu Orenge
Y1  - 2024/07/02
PY  - 2024
N1  - https://doi.org/10.11648/j.avs.20241204.11
DO  - 10.11648/j.avs.20241204.11
T2  - Animal and Veterinary Sciences
JF  - Animal and Veterinary Sciences
JO  - Animal and Veterinary Sciences
SP  - 107
EP  - 118
PB  - Science Publishing Group
SN  - 2328-5850
UR  - https://doi.org/10.11648/j.avs.20241204.11
AB  - In dairy intensification, mastitis infections become prevalent and induce frequent Antimicrobial Use (AMU), sometimes inappropriately. This poses public health risks because of growing Antimicrobial Resistance (AMR), which calls for stewardship programs informed by Knowledge, Attitude and Practices (KAPs) about AMU and AMR to halt or reverse the worrying trend. Data was obtained in cross sectional survey conducted in four peri-urban wards around Nakuru city in Kenya. Randomly selected sample farmers (n=124) with free-grazing, semi-zero-grazing or zero-grazing dairy management, representing increasing dairy intensification levels provided data on the KAPs. Chi-square test statistics was fitted to establish associations between KAPs and dairy intensification levels. Among the sample farmers, six in ten (58.8 percent) had intensified dairy production, at least six in ten were marketing milk through informal outlets and were using antimicrobial drugs. Compliance with the withdrawal period was high and increased (p0.05), using antimicrobials for mastitis treatment increased while sourcing information on antimicrobial use from extension and veterinary officers decreased, with increasing intensification level. Farmers with some training on prudent antimicrobial use and with positive attitudes that milk from antimicrobial treated cows is unsafe, antimicrobial resistant pathogens and residues can be passed from milk to humans, mastitis can be treated without antimicrobial drugs, and antimicrobial residues can end up accumulating in the soils increased (p>0.05) with increasing dairy intensification levels. These results show that regarding AMU and AMR, farmers become more knowledgeable, with positive attitudes and good practices as they intensify their dairy management. The implication is that intensification of dairy management motivates farmers to gain more knowledge, acquire positive attitudes and apply good practices towards responsible prudent use of antimicrobials in livestock. Therefore, strengthening stewardship with targeted training and sensitization can foster prudent and responsible antimicrobial use.
VL  - 12
IS  - 4
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