Knowledge, attitudes and practices of antibiotic use among students in a Ghanaian tertiary institution

The findings in Table 2 indicate that the majority of university students demonstrated sufficient knowledge (59.1%), positive attitude (60.0%), and appropriate practice (60.6%) regarding antibiotic resistance. This study aimed to assess the level of knowledge, attitude, and practice (KAP) toward AR among non-medical university students in Riyadh, Saudi Arabia and identify factors that influence antibiotic use. Association between sociodemographic characteristics and sufficient knowledge, attitude, and practice of antibiotics among university students.
Data were collected using a self-administered questionnaire covering sociodemographic characteristics and KAP regarding antibiotics. Copyrights and related rights for article metadata waived via CC0 1.0 Universal (CC0) Public Domain Dedication. Amoxicillin was the most commonly reported antibiotic (65.7%). Results Out of the 233 participants, 58.8% were female and 95.7% aged 18–24 years.

Knowledge, attitudes and practices of antibiotic use among students in a Ghanaian tertiary institution

As an integral and educated segment of society, students influence public health behaviors and community practices. A literature review identified only three studies on antibiotic KAP among healthcare students 9,10,11, with no published research on non-medical university students in Saudi Arabia 28,29,30. Public health campaigns should prioritize the 17–24 age group, as university students represent a pivotal demographic shaping health behaviors, yet are often excluded from antibiotic stewardship initiatives. Risky behaviors—such as self-medication and sharing antibiotics without prescriptions—were widespread, revealing a mismatch between partial awareness and actual practices 13,45,46,47,48,49.

3.4. Data Presentation and Analysis

• By evaluating these factors, the findings can inform targeted educational interventions to promote responsible antibiotic practices, align with national antimicrobial stewardship goals, and mitigate AR spread.
• Including non-medical university students in this study is critical due to their heightened risk of antibiotic misuse, lack of formal medical training to guide appropriate use, and potential influence on public health behaviors.
• This section collects any data citations, data availability statements, or supplementary materials included in this article.
• Knowledge-related questions were scored with a binary system, where incorrect or uncertain (“don’t know”) responses received a score of 0, while correct answers were awarded 1 point.
• Data on knowledge, attitudes, and practices (KAP) regarding antibiotic use were collected via a structured, pretested questionnaire.
• Studies exploring self-medication, antibiotic sharing, and misconceptions among students are scarce, all of which contribute to antimicrobial resistance .

Additionally, many individuals discontinue antibiotics as soon as they feel better rather than completing the full course, further exacerbating AR risks. Al-Shibani et al. (2017) found that self-medication with antibiotics, even for minor illnesses like sore throats, is common in Riyadh . In 2018, the Saudi Ministry of Health (MOH) implemented a national policy requiring a prescription for all antibiotic sales in pharmacies, aiming to curb the misuse of antimicrobials. Antimicrobial resistance (AMR) poses an urgent global health crisis, contributing to approximately 700,000 deaths worldwide annually.
Al Nasser et al. (2021) reported that while people may possess some knowledge about antibiotics, they often exhibit negative attitudes toward their use . Antibiotic resistance has emerged as a critical global health challenge, driven by the widespread misuse and overuse of antibiotics, leading to the emergence of multidrug-resistant organisms (MDROs), which significantly complicate treatment options 1,2. Additionally, the absence of clinical validation—such as prescription audits or medical records—may lead to overestimations of appropriate antibiotic practices Such initiatives would bridge technical expertise with public health priorities, positioning engineers as advocates for antibiotic stewardship. Collaborations with medical or public health faculties could foster interdisciplinary solutions, empowering engineers to design innovations (e.g., wastewater treatment systems) that mitigate AMR risks. For engineering students, who demonstrated higher baseline knowledge, introducing an elective course on antibiotic awareness could leverage their scientific literacy and problem-solving skills.

Data Availability Statement

This disparity aligns with the observation that science and engineering students, benefiting from biology/microbiology-rich curricula and practical lab work, demonstrate enhanced antibiotic understanding and practices, thus contributing to improved public health literacy. This study used Pearson’s Chi-Square test to explore the relationship between antibiotic knowledge, attitudes, and practices and demographic factors, after confirming the test’s assumptions, notably that expected cell frequencies were above five. Logistic regression model was computed to identify predictors of inadequate knowledge, negative attitude, and poor practices towards antibiotics use. Data on knowledge, attitudes, and practices (KAP) regarding antibiotic use were collected via a structured, pretested questionnaire.

2. Study Design and Settings

• Additionally, many individuals discontinue antibiotics as soon as they feel better rather than completing the full course, further exacerbating AR risks.
• Recent studies indicate that many individuals lack adequate knowledge about proper antibiotic use, contributing to the spread of resistance.
• Students from literary fields were the most likely to have insufficient knowledge, attitudes, and practices, while those in science and engineering showed better outcomes.
• This scoring framework ensured consistency in evaluating participants’ antibiotic-related attitudes and practices, aligning with established methodologies to enhance reliability and comparability of results.
• (Abdulmohsen Alhussain) analyzed the data and concluded.
• While these trends align with regional studies, they contrast with European data 15,16,40,50,51, likely reflecting cultural or institutional differences in health education.

When it came to the field of study, the majority were enrolled in business programs (34.1%). Notably, the majority of participants were in the age group 19–20 years old (36.8%), unmarried (96.0%), female (60.0%), and of Saudi nationality (94.5%). All the questionnaires were reviewed before entering the data into the analysis program.

However, 40.9% of students demonstrated insufficient knowledge, and factors such as age, gender, and field of study significantly impacted KAP outcomes. Addressing these issues should be prioritized as an antimicrobial stewardship strategy as these students are crucial, tentative frontliners in healthcare administration in the country. Misconceptions persisted, with 13.3% believing antibiotics treat viral infections and 44.2% considering all antibiotics safe. Using simple random sampling, 233 students were enrolled across five health programs. Methods A cross-sectional study was conducted among undergraduate students of the Faculty of Allied Health Sciences, Kwame Nkrumah University of Science and Technology, from May–August 2024. University students in the Allied Health Sciences are uniquely positioned to influence patterns of antibiotic use, both as practitioners and educators.

Knowledge, attitudes and practices of antibiotic use among students in a Ghanaian tertiary institution

The datasets generated and/or analyzed during the current study are available from the corresponding author upon reasonable request. Targeted education is crucial to improve antibiotic awareness, especially among specific demographics. First, the reliance on self-reported https://www.betsomnia-nl.nl/ data introduces risks of recall bias (e.g., inaccuracies in recalling past antibiotic use) and social desirability bias (over reporting adherence to guidelines), potentially compromising the validity of responses. These elements collectively strengthen insights into antibiotic awareness in an understudied demographic. Key strengths include a robust, gender-balanced sample of non-medical Riyadh students, enhancing statistical power and representativeness. The results advocate for tailored educational programs to enhance antibiotic awareness, particularly in demographics where age, gender, and academic discipline significantly influence outcomes.
Further investigation into this demographic is essential for promoting responsible antibiotic stewardship and mitigating resistance on university campuses and beyond. Studies exploring self-medication, antibiotic sharing, and misconceptions among students are scarce, all of which contribute to antimicrobial resistance . Studies from England, Italy, and Cyprus highlight this trend, demonstrating that younger individuals report poorer antibiotic knowledge and higher misuse rates 15,16,17. Younger demographics, particularly university students, are globally recognized as high-risk groups for AR. Recent studies indicate that many individuals lack adequate knowledge about proper antibiotic use, contributing to the spread of resistance.
The effective sample size calculated was 334; however, a larger sample size of 501 students was eventually included in the study, yielding approximately 1.5 times the initial sample size projection (1.5 design effect). Verbal informed consent was obtained from all participants, detailing the study’s purpose, procedures, risks, and benefits. These deficiencies in health literacy and antibiotic education underscore the urgent need for targeted educational interventions .