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.
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.
Data safety
This study provides vital data for public health initiatives and informs effective strategies to promote responsible antibiotic use. This study reveals a significant lack of knowledge and understanding about AR among non-medical university students. The Center for Disease Control and Prevention (CDC) and other global health agencies advocate for integrated public health strategies to fight MDROs, particularly among university students.
3. Sample Size
- It was piloted among 5% of the sample (35 students).
- Domains with less than 0.07 were reviewed carefully, and targeted questions were modified or deleted accordingly.
- All the questionnaires were reviewed before entering the data into the analysis program.
- 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 .
- A 60% proficiency threshold—determined through pilot study analyses (mean and median of knowledge scores)—was adopted to assess adequacy across domains.
- When it came to the field of study, the majority were enrolled in business programs (34.1%).
Combining prevention and response interventions is essential for effective control in healthcare settings . Family/siblings or friends provided information for 7.0% (47 participants), while social media was a source for 6.8% (46 participants). Pharmacists were the second-most common source, consulted by 9.4% (63 participants). The mean knowledge score related to AR was 63.97 ≈ 64 (±8 SD, range ≈ 49). Sociodemographic characteristics of the participants.
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.
Associated Data
Students may lack awareness of pharmacists’ expertise, highlighting an opportunity to diversify accessible, trusted healthcare sources for public education. However, expanding awareness to include pharmacists—equally qualified to educate on antibiotic use and resistance—is critical. Such contradiction is probably due to the inclusion in their sample with all age groups rather than a young population of university students . As depicted in Table 1, among the 672 participants involved in this study, the mean age of the students was 20.2 years ±standard deviation (SD) 1.8.
3.2. Data Collection Instrument
- This study aims to assess the level of awareness about AR.
- Since 2018, Saudi Arabia’s Ministry of Health has enforced regulations under the Health Practice Law, prohibiting pharmacists from dispensing antibiotics without a valid prescription from a licensed physician.
- The results advocate for tailored educational programs to enhance antibiotic awareness, particularly in demographics where age, gender, and academic discipline significantly influence outcomes.
- 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.
- Notably, students aged 19–20 demonstrated the highest rates of insufficient knowledge and unsafe behaviors compared to other age groups.
- 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.
Participants scoring above 60% were deemed to have adequate KAP, whereas those at or below this threshold were categorized as having insufficient understanding or behaviors in antibiotic use. 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. Domains with less than 0.07 were reviewed carefully, and targeted questions were modified or deleted accordingly. It was piloted among 5% of the sample (35 students). Data collection was conducted from 4 September to 19 October 2023 by a team of trained students from the College of Medicine at AlMaarefa University, who followed standardized protocols for accuracy and consistency. This in-person approach ensured direct participant engagement, comprehensive responses, and efficient data collection.
Associated Data
Among Staphylococcus aureus isolates, 32% were methicillin-resistant (MRSA), while Streptococcus pneumoniae demonstrated penicillin G resistance (33%) and erythromycin resistance (26%) .
Associated Data
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 https://www.betsomnia-nl.nl/ 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.
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.