Knowledge, attitude, and practices toward infection prevention and control among undergraduate pharmacy students in Zambia: findings and implications

Steward Mudenda*: Affiliation:
Department of Pharmacy, School of Health Sciences, University of Zambia, Lusaka, Zambia Antimicrobial Resistance Coordinating Committee (AMRCC), Zambia National Public Health Institute, Lusaka, Zambia
Joseph Chizimu: Affiliation:
Antimicrobial Resistance Coordinating Committee (AMRCC), Zambia National Public Health Institute, Lusaka, Zambia
Billy Chabalenge: Affiliation:
Department of Medicines Control, Zambia Medicines Regulatory Authority, Lusaka, Zambia
Maisa Kasanga: Affiliation:
Zhengzhou University, College of Public Health, Zhengzhou, Henan, China
Scott Kaba Matafwali: Affiliation:
Clinical Research Department, Faculty of Infectious and Tropical Diseases, London School of Hygiene & Tropical Medicine, London, UK
Victor Daka: Affiliation:
Department of Public Health, Michael Chilufya Sata School of Medicine, Copperbelt University, Ndola, Zambia
Kaunda Yamba: Affiliation:
Antimicrobial Resistance Coordinating Committee (AMRCC), Zambia National Public Health Institute, Lusaka, Zambia
Margret Mulomba: Affiliation:
Department of Pharmacy, School of Health Sciences, University of Zambia, Lusaka, Zambia
Webrod Mufwambi: Affiliation:
Department of Pharmacy, School of Health Sciences, University of Zambia, Lusaka, Zambia
Patricia Katowa-Mukwato: Affiliation:
Department of Basic and Clinical Nursing, School of Nursing Sciences, University of Zambia, Lusaka, Zambia
Brian Godman: Affiliation:
Department of Public Health Pharmacy and Management, School of Pharmacy, Sefako Makgatho Health Sciences University, Pretoria, South Africa Centre of Medical and Bio-allied Health Sciences Research, Ajman University, Ajman, United Arab Emirates Department of Pharmacoepidemiology, Strathclyde Institute of Pharmacy and Biomedical Science (SIPBS), University of Strathclyde, Glasgow, UK
*: Corresponding author: Steward Mudenda; Email: steward.mudenda@unza.zm

Article contents

Abstract
Background:
Materials and methods:
Results:
Conclusion:
Background
Materials and methods
Results
Discussion
Conclusion
Data availability statement
Author contribution
Financial support
Competing interests
References

Abstract

Background:

Infection prevention and control (IPC) measures are critical in preventing the risk of acquiring and transmitting nosocomial infections. In Zambia, there is little information concerning IPC practices among pharmacy students who are exposed to potentially infectious areas both in public and private healthcare settings. Therefore, this study assessed the knowledge, attitude, and practices of undergraduate pharmacy students toward infection prevention and control at the University of Zambia.

Materials and methods:

This cross-sectional study was conducted among 290 undergraduate pharmacy students at the University of Zambia using a structured questionnaire from August 2022 to October 2022. Data analysis was performed using SPSS version 25.0, and statistical significance was set at a 95% confidence level.

Results:

Of the 290 participants, 166(57.2%) were female and the majority were aged between 18 and 23 years. Overall, 252(86.9%) had good knowledge, 167(57.6%) had positive attitudes, and 248(85.5%) had good practices toward IPC measures. These results indicate lower attitude scores compared to knowledge and practices. Having good knowledge of IPC was associated with being a Christian by religion compared to other religions (OR = 5.314, 95% CI: 1.141–24.745). There was no association between sociodemographics and attitude and practice concerning IPC.

Conclusion:

This study found that pharmacy students had good knowledge, positive attitudes, and good practices toward IPC measures. Consequently, more emphasis is needed to improve the student’s knowledge, attitudes, and practices toward IPC, especially in areas where gaps were identified. Additionally, there is a need to improve curricula on IPC measures in the training of pharmacy programs.

Keywords

Infection prevention practices nosocomial infections antimicrobial resistance pharmacy students Zambia

Type: Original Article
Information: Antimicrobial Stewardship & Healthcare Epidemiology , Volume 3 , Issue 1 , 2023 , e154

DOI: https://doi.org/10.1017/ash.2023.428 [Opens in a new window]
Creative Commons: This is an Open Access article, distributed under the terms of the Creative Commons Attribution licence (http://creativecommons.org/licenses/by/4.0/), which permits unrestricted re-use, distribution and reproduction, provided the original article is properly cited.
Copyright: © The Author(s), 2023. Published by Cambridge University Press on behalf of The Society for Healthcare Epidemiology of America

Background

Healthcare-associated infections (HAIs), also known as nosocomial infections, are infections that individuals acquire during their stay in or visit to healthcare facilities.^{Reference Deryabina, Lyman and Yee1} HAIs also include infections that appear after hospital discharge and occupational infections among healthcare workers (HCWs) and healthcare students.^{Reference Adegboye, Zakari, Ahmed and Olufemi2} Infection prevention and control (IPC) groups provide strategies that should be used across sectors to minimize the risk of infection transmission in healthcare settings.^{Reference Chang, Lin and Tsai3} IPC has been defined as procedures, activities, and policies aimed at preventing or minimizing the risks of infection transmission in healthcare facilities.^{Reference Zenbaba, Sahiledengle and Bogale4} Due to high rates of HAIs, particularly across Africa and Asia,^{Reference Goh, Marbawi, Goh, Bin Abdul Asis and Gansau5–Reference Saleem, Godman, Hassali, Hashmi, Azhar and Rehman8} and as a result of them being among the ten threats to global health,⁹ there is a need to instigate effective IPC practices across sectors.

The lack of IPC measures in hospitals is a contributing factor to increased HAIs and antimicrobial resistance (AMR).^{Reference Lowe, Woodd, Lange, Janjanin, Barnett and Graham10} Infections cause increased morbidity and mortality globally, especially drug-resistant infections.^{Reference Murray, Ikuta and Sharara11} Other consequences of drug-resistant infections include increased medical costs and a negative impact on the country’s economy.^{Reference Murray, Ikuta and Sharara11} As a result, the prevention of HAIs is critical and must be supported by practical and evidence-based methods, thereby decreasing their adverse socioeconomic and psychological impact.^{Reference Zenbaba, Sahiledengle and Bogale4} Comprehensive programs and policies are the cornerstones of resilient healthcare systems’ effectiveness in the prevention, detection, and response to public health emergencies including disease outbreaks and HAIs.^{Reference Deryabina, Lyman and Yee1,Reference Huh12}

IPC measures focus on how infections are transmitted and include standard contact, droplet, and airborne precautions.^{Reference Gulilat13} Standard precautions include the use of appropriate personal protective equipment (PPE) and hand hygiene, as well as employing aseptic procedures that prevent contact with microorganisms.^{Reference Deryabina, Lyman and Yee1,Reference Barikani and Afaghi14} Alongside this, the appropriate management of used needles, blood spills, linen, and waste is necessary to ensure a safe environment.¹⁵ Given this, compliance with agreed safety protocols by healthcare students as part of their training is an effective strategy to prevent and control HAIs.^{Reference Gulilat13} Consequently, there should be stipulated guidelines, teams, training, monitoring, and surveillance of IPC within healthcare facilities, alongside appropriate input in academic curricula, to enhance adherence to agreed practices.^{Reference Deryabina, Lyman and Yee1}

To date, studies undertaken in Africa have demonstrated inconsistencies in the knowledge, attitudes, and practices of HCWs toward IPC.^{Reference Adegboye, Zakari, Ahmed and Olufemi2} Alongside this, few studies in Africa have reported on the knowledge, attitude, and practices of health sciences students concerning IPC. This is important for students who are the next generation of HCWs. A study in Namibia among health science students reported that the students were required to be taught IPC measures before being introduced to clinical practice,^{Reference Ojulong, Mitonga and Iipinge16} which improves knowledge in practice.^{Reference Ojulong, Mitonga and Iipinge16–Reference Rahiman, Chikte and Hughes18} This is because training on IPC equips students with skills and knowledge on how to prevent HAIs, translating into reduced risk and frequency of infections in practice.^{Reference Saati and Alkalash19,Reference Wassif and El Din20}

IPC practices are crucial in preventing further transmission and spread of the coronavirus disease 2019 (COVID-19).^{Reference Chang, Lin and Tsai3,Reference Talic, Shah and Wild21} Studies have shown that IPC measures were among the recommended prevention measures to contain the pandemic by the World Health Organization (WHO).^{Reference Talic, Shah and Wild21–23} Some of the IPC measures that were recommended during the pandemic include wearing facemasks, hand hygiene, and wearing PPE.^{Reference Talic, Shah and Wild21,Reference Mudenda, Botha, Mukosha, Daka, Chileshe and Mwila22} Evidence has also shown that COVID-19 led to an improvement in adherence to prevention measures no doubt assisted by fears of catching COVID-19 without such measures.^{Reference Lehmann, Peytremann and Mueller24} However, other authors have found inconsistencies in the adherence and compliance to IPC measures during the pandemic.^{Reference Alhumaid, Al Mutair and Al Alawi25} Alongside this, there are concerns about gaps in knowledge, attitudes, and practices toward IPC measures during the COVID-19 pandemic.^{Reference Jemal, Aweke and Mola26} These inconsistencies could have been caused by a lack of IPC resources, inadequate hospital infrastructure, lack of training on IPC, increased workload, shortage of HCWs, increased number of visitors, and increased disease burden alongside HCW burnout.^{Reference Lowe, Woodd, Lange, Janjanin, Barnett and Graham10}

Zambia is a country in sub-Saharan Africa that is affected by a high burden of infectious diseases, including HIV, TB, malaria, and respiratory infections incorporating the current COVID-19.^{Reference Mudenda, Botha, Mukosha, Daka, Chileshe and Mwila22,Reference Mudenda, Chileshe and Mukosha27–Reference Mweemba, Hangoma, Fwemba, Mutale and Masiye29} Consequently, this calls for strengthening IPC measures in healthcare facilities.^{Reference Mukwato, Ngoma and Maimbolwa30}

Health sciences students, including pharmacy students, are at increased risk of contracting HAIs because they are introduced to hospital practice during their training.^{Reference Ojulong, Mitonga and Iipinge16} However, to the best of our knowledge, there are currently no published studies on IPC practices among pharmacy students in Zambia. This study assessed the knowledge, attitudes, and practices of undergraduate pharmacy students toward IPC at the University of Zambia.

Materials and methods

Study design, site, and population

We conducted a cross-sectional study at the University of Zambia among undergraduate pharmacy students from August 2022 to September 2022. The Bachelor of Pharmacy degree program is offered under the School of Health Sciences at Ridgeway campus in Lusaka, Zambia. To be eligible, a student had to be enrolled in the Bachelor of Pharmacy degree program and should have provided consent to be a participant.

Sample size determination and sampling criteria

The target population included all undergraduate pharmacy students at the Ridgeway campus. The enrolled students in the Bachelor of Pharmacy program were 593 in total that included 195 second years, 170 third years, 103 fourth years, and 125 fifth years. Employing a margin of error of 5%, we used Tora Yamane’s formula to estimate the required sample size, resulting in a sample size of 239. We took into consideration a non-response rate of 10%, and this translated into a minimum sample size of 263. Consequently, factoring in proportions according to population size, we required a minimum sample size of 86 second-year, 75 third-year, 46 fourth-year, and 56 fifth-year students. We subsequently distributed 300 questionnaires to the potential participants who were selected using a simple random sampling method.

Data collection

We collected the data using a structured questionnaire which was adapted from a previous study.^{Reference Nalunkuma, Nkalubo and Abila31} The data collection tool had four sections. These included Section A, which had questions on the sociodemographic characteristics of the participants; Section B, which had questions on the knowledge of participants on IPC; Section C, which had questions on the attitudes of participants toward IPC; and Section D, which had questions on the practices of participants toward IPC. We subsequently conducted a pilot study among 30 students drawn from the Biomedical Sciences department to add robustness to the questionnaire. The results from the pilot study were used to optimize the data collection tool for logic and consistency and were excluded from the final analysis for the study. Data collection was performed by two data collectors and took approximately 20–30 minutes per participant to fill in the questionnaire. A five-point Likert scale was used to assess the student’s knowledge, attitudes, and practices regarding IPC.

Data analysis

The data that were collected were entered into Microsoft Excel (Microsoft Corp., Redmond, WA) for cleaning. The data were then coded and entered into Statistical Package for the Social Sciences (SPSS) version 25.0 for analysis. In the analysis, strongly agree was assigned a score of 5, agree a score of 4, neutral a score of 3, disagree a score of 2, and strongly disagree a score of 1. Knowledge questions were four, translating into a total score of 20, while attitude questions were five, resulting in a total score of 25. There were four practice questions, which meant a total score of 20. Good KAP concerning IPC was considered to be scores of 70% and above (scores of 14 and above for knowledge and practices while scores of 17.5 and above for attitudes). Descriptive statistics were performed on the sociodemographic characteristics, and the results were presented in the form of frequencies and percentages in tables. Univariate analysis was used to determine the relationships between KAP scores and sociodemographic characteristics. All the characteristics that had p < 0.25 were taken to build the model in binary logistic regression. The goodness of fit was determined using the Hosmer and Lemeshow test. In the final model, all factors that had a p < 0.05 were considered statistically significant at a 95% confidence level and were associated with the students’ KAP on IPC. The odds ratios (OR) and 95% confidence intervals (95% CI) were reported.

Ethical approval

Ethical approval was granted by the University of Zambia Health Sciences Research Ethics Committee (UNZAHSREC) with protocol ID #: 2022112301179. All participants were informed about the purpose of the study, and they all provided informed consent before responding to the questionnaire.

Results

Sociodemographics of study participants

This study enrolled 290 pharmacy students giving a response rate of 97%, with 57.2% being female and the majority aged between 18 and 23 years (Table 1).

Table 1. Sociodemographic characteristics of participants

Most students (31.7%) thought that practicing hand hygiene using alcohol-based rubs was preferable to handwashing with soap; however, almost the same percentage (29.7%) disagreed (Table 2).

Table 2. Participants’ knowledge of infection prevention and control

Some students (45.5%) felt that were adequately prepared to attend to patients suffering from infectious diseases; however, 41% did not feel safe interacting with patients (Table 3).

Table 3. Participants’ attitudes toward infection prevention and control

Encouragingly, most students (53.4%) practiced handwashing regularly to prevent acquiring infections. Additionally, 43.1% wore facemasks and 45.9% wore closed shoes when in the hospital environment (Table 4).

Table 4. Participants practice questions regarding infection prevention and control

Overall, pharmacy students had good KAP concerning IPC practices with females recording better scores than their male counterparts (Table 5).

Table 5. Overall KAP of students on IPC

Christians were also more likely to have good knowledge of IPC than other religious groups (OR = 5.314, 95% CI: 1.141–24.745) (Table 6).

Table 6. Factors affecting KAP toward IPC among pharmacy students

Discussion

To the best of our knowledge, this was the first study to assess the pharmacy students’ KAP concerning IPC in Zambia. We found that most students had good knowledge (86.9%), positive attitudes (57.6%), and good practices (85.5%) toward the IPC measures. Having good knowledge of IPC was also associated with being a Christian by religion.

Good knowledge of IPC measures among pharmacy students in Zambia mirrors findings from India,^{Reference Aarthy, Vinoth Gnana Chellaiyan and Vishalini32} Saudi Arabia,^{Reference Khubrani, Albesher, Alkahtani, Alamri, Alshamrani and Masuadi17} Malaysia,^{Reference Sugathan, Ching, Singh, Gopalakrishnan, Zabhi and Mohamad33} South Africa,^{Reference Rahiman, Chikte and Hughes18} and Uganda,^{Reference Nalunkuma, Nkalubo and Abila31} where most students had good knowledge of IPC practices. Good knowledge could be due to the knowledge students acquire during their training, potentially enhanced by the recommendations regarding IPC measures for all populations during the COVID-19 pandemic by the WHO.²³ Additionally, a study in Switzerland found that increased knowledge and adherence to IPC measures were observed during the COVID-19 pandemic.^{Reference Lehmann, Peytremann and Mueller24} Overall, building on the lessons learnt from the COVID-19 pandemic, there is typically a need to improve students’ knowledge regarding IPC through educational training and workshops.^{Reference Livshiz-Riven, Hurvitz and Ziv-Baran34} There is also a need to promote behavioral change toward IPC among students, given its importance.^{Reference Greene and Wilson35}

Most of the students in our study thought that alcohol-based hand rubs were better than handwashing with soap to prevent infections. Conversely, this was followed by a group that felt that handwashing with water and soap was preferable to hand rubs. Overall, handwashing has been highly practiced as a disease-preventive measure by students, as reported by other studies.^{Reference Appiah, Appiah, Menlah, Baidoo, Awuah and Isaac36,Reference Ibrahim and Elshafie37} Hand hygiene remains a critical component of IPC measures in healthcare facilities across the globe.^{Reference Deryabina, Lyman and Yee1,Reference Chang, Lin and Tsai3}

Encouragingly, the majority of pharmacy students in our study had positive attitudes toward IPC. Having said this, compared to the knowledge scores, the attitude scores of the students on IPC were lower. This, though, is similar to a study that was conducted among medical students in Sri Lanka, where most had positive attitudes toward IPC measures.^{Reference Liyanage, Dewasurendra, Athapathu and Magodarathne38} However, a study in South Africa found contrasting results in which most nursing students had negative attitudes toward IPC.^{Reference Rahiman, Chikte and Hughes18} This is a concern as negative attitudes toward IPC may predispose individuals to infections, especially HAIs. Consequently, where concerns exist, there is a need to improve the college and university curriculum concerning IPC measures^{Reference Ojulong, Mitonga and Iipinge16} and the students’ attitudes.^{Reference Kim and Park39}

Encouragingly as well, most pharmacy students in our study had good self-reported practices toward IPC. This is in line with a study that was conducted among nursing students which found good self-reported practices toward IPC measures.^{Reference Bouchoucha, Philips, Lucas, Kilpatrick and Hutchinson40} The good practices concerning IPC among students could be due to their training and experiences to adhere to the COVID-19 prevention measures during the pandemic. Conversely, a study in India reported sub-optimal practices toward IPC among medical students.^{Reference Aarthy, Vinoth Gnana Chellaiyan and Vishalini32} Subsequently, a study in Ghana found that the majority of medical students had poor practices toward handwashing despite having received training and being knowledgeable about it.^{Reference Ibrahim and Elshafie37} The poor practices regarding IPC among students are a public health concern that requires urgent educational interventions and behavioral change to increase the uptake of IPC measures going forward, with subsequent monitoring of future activities.^{Reference Greene and Wilson35} This is particularly important during pandemics, especially among African countries, where there are real concerns about AMR. It is crucial to reduce HAIs in these countries due to the significant implications AMR can have when managing such infections.

We are aware of some limitations of this study. Firstly, it was conducted at only one institution of higher learning in Zambia. In addition, the questionnaire was adapted from a previous study. However, we undertook a pilot study to help address this limitation. Overall, despite these limitations, we believe our findings are robust enough to be a foundation for future research and provide educational policy direction for future designs.

Conclusion

This study demonstrated that undergraduate pharmacy students in Zambia had good knowledge, positive attitudes, and good practices toward IPC during the COVID-19 pandemic. However, there is a need to provide IPC awareness programs to students and graduates with an emphasis on areas where gaps were found. Finally, the curriculum for pharmacy training must be improved in the areas of IPC. This is critical in reducing the burden of infectious diseases in Zambia and improving the use of antimicrobials in the future. As a result, this may reduce the current burden of AMR in Zambia and its associated impact on morbidity and mortality.

Data availability statement

Data can be made available on request from the corresponding author.

Acknowledgements

We are grateful to the undergraduate pharmacy students for participating in this study.

Author contribution

Conceptualized the study: SM and MM; Methodology: SM, JC, BC, MK, SKM, VD, WM, PKM, and BG; Data collection: SM, MM, and WM; Validation: SM, JC, SKM, BC, KY, MK, VD, MM, KY, WM, PKM, and BG; Data analysis: SM and BG; Interpretation of results: SM, JC, SKM, BC, MK, PKM, and BG; Data curation: SM, MM, and BG. Writing first draft: SM, JC, BC, MK, KY, MM, SKM, WM, VD, PKM, and BG; Editing and reviewing the draft manuscript: All authors; Supervision: SM, WM, and BG; All authors reviewed and approved the final version for submission.

Financial support

This study did not receive external funding.

Competing interests

All authors declare no conflict of interest.

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