This section collects any data citations, data availability statements, or supplementary materials included in this article. (Abdulmohsen Alhussain) analyzed the data and concluded. (Abdulmohsen Alhussain)) contributed to gathering and organizing the data.
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.
Data Availability Statement
Among Staphylococcus aureus isolates, https://www.betsomnia-nl.nl/ 32% were methicillin-resistant (MRSA), while Streptococcus pneumoniae demonstrated penicillin G resistance (33%) and erythromycin resistance (26%) .
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. Factors such as cultural health beliefs, access to healthcare information, and variations in national health policies could all contribute to differences in awareness. In our Riyadh-based sample, participants were predominantly Saudi nationals, reflecting the local university demographics. Age is one factor linked to less responsible antibiotic behaviors, suggesting certain groups are more prone to misuse. Inappropriate antibiotic use, which is concerning, fuels antibiotic resistance. 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.
2. Study Design and Settings
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.
Knowledge, attitudes and practices of antibiotic use among students in a Ghanaian tertiary institution
A convenience sampling was employed to select participants based on accessibility and willingness to participate on campus, continuing until the required sample size was met. The sample was then proportionally allocated to each university. A multistage sampling method was used, first stratifying Riyadh universities as public or private (three universities for each). This study adhered to strict ethical guidelines. These findings highlight the pressing need for sustained antimicrobial stewardship efforts and strict enforcement of antibiotic regulations to mitigate the growing threat of AMR in the region.
- Among Staphylococcus aureus isolates, 32% were methicillin-resistant (MRSA), while Streptococcus pneumoniae demonstrated penicillin G resistance (33%) and erythromycin resistance (26%) .
- Additionally, the absence of clinical validation—such as prescription audits or medical records—may lead to overestimations of appropriate antibiotic practices
- Data were collected using a self-administered questionnaire covering sociodemographic characteristics and KAP regarding antibiotics.
- 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.
- This study reveals a significant lack of knowledge and understanding about AR among non-medical university students.
- As an integral and educated segment of society, students influence public health behaviors and community practices.
Links to NCBI Databases
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.
2. Study Design and Settings
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.
- Misconceptions persisted, with 13.3% believing antibiotics treat viral infections and 44.2% considering all antibiotics safe.
- The results advocate for tailored educational programs to enhance antibiotic awareness, particularly in demographics where age, gender, and academic discipline significantly influence outcomes.
- Notably, students aged 19–20 demonstrated the highest rates of insufficient knowledge and unsafe behaviors compared to other age groups.
- 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.
- 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.
- 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.
2. Study Design and Settings
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 .
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.