Other statements examined self-medication behaviors, such as taking antibiotics based on past similar symptoms (e.g., toothache, gastrointestinal issues), using expired antibiotics, or discontinuing antibiotic courses prematurely upon feeling better. Additional statements addressed misconceptions, including the use of antibiotics for viral conditions (e.g., colds, flu), pain relief, fever reduction, and availability as over-the-counter drugs. The attitude section had a possible score range of 12–60, while the practice section ranged from 18–90. The attitude and practice sections utilized a five-point Likert scale (strongly disagree to strongly agree), with responses scored from 1 (least appropriate) to 5 (most appropriate). Three questions related to knowledge from the previous literature were found not appropriate to the local context and then not included in the final version of the questionnaire. A structured, paper-based, self-administered questionnaire—designed based on validated instruments from prior studies 16,31,34,35,36,37,38—was distributed as printed copies to target participants across multiple university campuses.
2. Study Design and Settings
- Amoxicillin was the most commonly reported antibiotic (65.7%).
- Antimicrobial resistance (AMR) poses an urgent global health crisis, contributing to approximately 700,000 deaths worldwide annually.
- Abstract Introduction Antibiotic misuse is a growing global concern as it exacerbates antimicrobial resistance (AMR) and in Ghana, antibiotic misuse persists.
- This study reveals a significant lack of knowledge and understanding about AR among non-medical university students.
- 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.
- Further investigation into this demographic is essential for promoting responsible antibiotic stewardship and mitigating resistance on university campuses and beyond.
Proposed strategies include integrating AR education into university curricula, launching campus-wide campaigns (e.g., digital outreach, mandatory health literacy modules), and partnering with pharmacies to reinforce responsible practices. This suggests that the majority of participants had a moderate level of practice towards antibiotic use, similar to the reported findings from university student in Nepal and in line with the almost around the global average of 56%, according to the 2020 WHO survey . Overall, the study highlights the need for interventions to improve students’ understanding of AR and promote appropriate practices. However, nationality and university affiliation showed no significant associations across knowledge, attitude, or practice, with all p-values greater than 0.05. Specifically, 43% (289 out of 672) of the participants demonstrated an adequate understanding of antibiotic resistance, while the remaining 57% (383 out of 672) exhibited an inadequate knowledge of this topic. These behaviors increase the prevalence of resistant infections, leading to harder-to-treat diseases, higher healthcare costs, and increased outbreak risks on university campuses and within the broader community, posing a significant public health threat .
3.4. Data Presentation and Analysis
Developed the overall framework and methodology for this study. Policymakers must implement multifaceted interventions addressing healthcare and patient factors. Second, the cross-sectional design precludes establishing causal relationships or analyzing temporal trends between awareness and behavioral factors. This course could cover resistance mechanisms, global antimicrobial resistance (AMR) trends, and ethical considerations in engineering contexts (e.g., pharmaceutical waste management). Younger students (19–20 years) emerged as a critical subgroup requiring early intervention during their formative academic years. Collectively, the findings emphasize the need for targeted educational campaigns to improve antibiotic stewardship, addressing misconceptions and promoting responsible use within this population.
3. Sample Size
- The results advocate for tailored educational programs to enhance antibiotic awareness, particularly in demographics where age, gender, and academic discipline significantly influence outcomes.
- All non-medical students in any public or private university in Riyadh, regardless of their nationalities, genders, or fields of study, were included, whereas visiting students or medical students were excluded from the study.
- 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.
- Notably, students aged 19–20 demonstrated the highest rates of insufficient knowledge and unsafe behaviors compared to other age groups.
- This study aims to assess the level of awareness about AR.
- Table 3 illustrates the analysis of the association between sociodemographic characteristics and sufficient knowledge, positive attitude, and appropriate practice of antibiotics among university students and reveals several significant patterns.
Some questions reflected tendencies toward misuse, such as believing antibiotics should be accessible without a prescription, sharing them with family members without medical consultation, or using them to prevent the worsening of illness. All non-medical students in any public or private university in Riyadh, regardless of their nationalities, genders, or fields of study, were included, whereas visiting students or medical students were excluded from the study. A cross-sectional design was used to measure the level of awareness of antibiotic misuse that leads to AR among students in public and private universities of Riyadh, Saudi Arabia. However, due to limited antibiotic education, non-medical students frequently misuse antibiotics—taking them without prescriptions, using leftover medication, sharing antibiotics, or discontinuing treatment early. For example, while many refrain from sharing leftover antibiotics—considered a positive behavior—negative attitudes toward antibiotic use persist.
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.
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.
Among Staphylococcus aureus isolates, 32% were methicillin-resistant (MRSA), while Streptococcus pneumoniae demonstrated penicillin G resistance (33%) and erythromycin resistance (26%) .
The present study showed that university non-medical students’ practice toward antibiotic use was approximately 60.6%. This is in contrast to other studies from Jordan, Thailand, Zambia, Brunei, Sudan, and Cyprus, where non-medical students exhibited lower levels of knowledge regarding antibiotics and antimicrobial resistance 20,21,23,24,25,26,28,29. Age significantly impacted antibiotic-related attitudes and practices among students. Level of knowledge, attitude, and practice toward AR among the university students. This scoring framework ensured consistency in evaluating participants’ antibiotic-related attitudes and practices, aligning with established methodologies to enhance reliability and comparability of results.
Associated Data
On the other hand, literary students had 52.2% lower odds of sufficient knowledge compared to sciences students. Notably, students aged 19–20 demonstrated the highest rates of insufficient knowledge and unsafe behaviors compared to other age groups. In terms of university affiliation, IMSU had the highest representation, with 54.0% of participants. Although the dataset contained minimal missing values, specifically about ten instances within the attitude assessment, mean imputation was employed to address these gaps. A 60% proficiency threshold—determined through pilot study analyses (mean and median of knowledge scores)—was adopted to assess adequacy across domains. Additional questions assessed understanding of antibiotic side effects and the perceived efficacy of alternative medicine as a substitute.
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 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.
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, https://www.betsomnia-nl.nl/ procedures, risks, and benefits. These deficiencies in health literacy and antibiotic education underscore the urgent need for targeted educational interventions .