Homoeopathy, as a medical discipline, is based on the principles of individualization, minimum dose, and the law of similia. Homoeopathic medical system has been practiced for centuries and continues to attract a significant number of patients seeking alternative and complementary healthcare options (1). In the context of modern healthcare, evidence-based decision-making has gained increasing importance to ensure effective and safe patient care. (2) The integration of evidence-based medicine principles into homoeopathic practice can enhance treatment outcomes and foster the integration of homoeopathy within the broader healthcare system. While evidence-based decision-making has been extensively studied in conventional medicine, its understanding and practice among homoeopathic medical students remain underexplored (3). Homoeopathic medical education plays a crucial role in shaping the future practitioners who will deliver homoeopathic care to patients. This study focuses on minimizing the disparity by performing a cross-sectional study to evaluate the understanding and practice of evidence-based decision-making (EBDM) amid students of homeopathic medical sector. This study assesses future homoeopathic practitioners’ knowledge, critical appraisal skills, understanding of research study designs, and self-reported practice of evidence-based decision-making. The intent is to gain valuable insights into their current level of competence in this domain (4).

Research Design: This research endorses a cross-sectional study, enabling a contemporary illustration of homoeopathic medical students’ understanding and application of evidence-based decision-making.

Population: The study population encompassed undergraduate homoeopathic medical students ranging from their first year to their final year of study, who were enrolled at Vinayaka Mission’s Homoeopathic Medical College.

Survey Tool: Data collection transpired through a meticulously constructed structured questionnaire employing the Google Forms platform. This tool ensures efficient data capture and participant engagement through its user-friendly interface.

Sample Size and Sampling Method: A voluntary participation strategy yielded 203 responses, gathered through WhatsApp groups exclusively dedicated to the student body. Convenience sampling was used to capture willing participants. Responses were collected digitally using Google Forms, accessible from 10/08/2023 to 12/08/2023, spanning three days.

Ethical Considerations: Given the non-inclusion of sensitive inquiries, the study warranted no ethical clearance. The survey was construed as a pilot study in this regard.

Questionnaire Design: The questionnaire comprised sections expounding on various dimensions. These included the assessment of participants’ comprehension of evidence-based medicine (EBM) principles, recognition of reliable evidence sources, grasp of research study designs, integration of EBDM in clinical practice, attitudinal dimensions toward EBM, challenges and enablers in EBM adoption, and demographic particulars.

Data Collection: Dissemination of the structured questionnaire transpired through electronic channels, notably email and WhatsApp. Responses were anonymized to uphold confidentiality.

Data Analysis: The amassed data underwent meticulous scrutiny through suitable analytical techniques with the help of analytical tools such as IBM SPSS Statistics and MS Excel. Descriptive statistics were harnessed to unravel patterns, complemented by chi-square tests, regression analysis, ANOVA, and Correlation Coefficient computations for discerning associations.

Interpretation of Findings: The analysis of data was harnessed to decipher cogent insights. An incisive synthesis of these insights prompted a structured interpretation of implications for homoeopathic education and praxis. Recommendations were crystallized for potential areas of intervention.

Limitations: Recognizing the constraints inherent in the study, notably the limited sample size and inherent bias in convenience sampling, a circumspect circumscription of the generalizability of findings beyond the confines of the institution was appraised in line with these limitations.

Data Evaluation: IBM SPSS Statistics and Microsoft Excel were employed for the evaluation and statistical analysis in this study. These tools were utilized to conduct comprehensive statistical evaluations and analyses of the gathered data.

Demographic Profile: The surveyed homoeopathic medical students from Vinayaka Mission’s Homeopathic Medical College, Salem, exhibited a diverse demographic distribution. Among the respondents, 23% were under 20 years of age, 77% fell within the age bracket of 20–25 (Table 1; Figure 1).

Gender Distribution: Gender distribution revealed that 72.90% of respondents identified as female, while 27.10% identified as male. No respondents preferred not to disclose their gender (Table 2; Figure 2).

Academic Year Distribution: The distribution of homoeopathic medical students across different academic years indicated a balanced representation. The largest proportion was in the fourth year, constituting 37.44% of respondents. Other academic years were represented as follows: third year (25.62%), second year (21.18%), first year (14.78%) (Table 3; Figure 3).

Perspectives on Evidence-Based Medicine (EBM): When assessing respondents’ perspectives on EBM principles, 32% strongly affirmed and 22% affirmed that EBM is integral to clinical practice. However, 34% held a neutral stance, while 7% disaffirmed and 4% strongly disaffirmed with the importance of EBM (Table 4; Figure 4).

Perception of Highest Level of Evidence -Systematic Review and Meta-Analysis: Twenty percent of respondents strongly affirmed and twenty-seven percent affirmed that systematic reviews and meta-analyses provide the greatest degree of evidence. But 42% of respondents held this opinion to be neutral, 7% disaffirmed, and 4% strongly disaffirmed (Table 4; Figure 4).

Perspectives on Gold Standard – Randomized Controlled Trials (RCTs): On the gold standard for evaluating treatment effectiveness, 23% affirmed and 23% strongly affirmed that RCTs hold primacy. However, 40% remained neutral, while 10% disaffirmed and 4% strongly disaffirmed with this perspective (Table 4; Figure 4).

P-value Significance in Research Studies: When appraising p-value significance in research, 25% affirmed and 18% strongly affirmed on their importance. Yet, 48% were neutral, while 7% disaffirmed and 1% strongly disaffirmed with their significance (Table 4; Figure 4).

Self-Assessment of Understanding of EBM Principles: Participants’ self-evaluation of their general grasp of EBM principles indicated that 13% confirmed, 6% strongly confirmed, 52% were neutral, 23% disagreed, and 6% strongly disagreed regarding their understanding (Table 4; Figure 4).

Formal Education or Training in EBM Principles: A notable fraction of respondents (32.50%) had received formal education or training in EBM principles during their homoeopathic studies. In contrast, 34% had not received such education, and 33.50% were uncertain (Table 5; Figure 5).

Familiarity with EBM Concepts: Regarding familiarity with various EBM concepts, students reported varying levels of proficiency: 21.2% claimed no familiarity, 34% basic familiarity, 40.9% intermediate familiarity, and 3.9% advanced familiarity. Concepts like systematic reviews and meta-analyses, randomized controlled trials (RCTs), bias and confounding, appraisal of scientific literature, and clinical practice guidelines were assessed (Table 6; Figure 6).

Perception of Reliable Sources for Evidence-Based Information: Participants perceived research journals specific to Homoeopathy (63%) and internet search engines (43%) as primary sources for evidence-based information. PubMed (21%), Cochrane Library (16%), and social media platforms (25%) were also considered, while 9% reported no reliable sources (Table 7; Figure 7).

Utilization of Evidence-Based Resources in Clinical Practice: Respondents’ utilization of evidence-based resources in clinical practice was reported as follows: 10.8% very frequently, 13.8% frequently, 52.2% occasionally, 15.3% rarely, and 7.9% never (Table 8; Figure 8).

Preferred Evidence-Based Resources for Clinical Decision-Making: Student’s preferences for evidence-based resources in clinical decisions were as follows: clinical practice guidelines (66%), systematic reviews (32.5%), RCTs (29.6%), and the Cochrane Database (14.8%) (Table 9; Figure 9).

Impact of Evidence-Based Medicine on Patient Outcomes: Regarding the impact of EBM on patient outcomes, 42.4% were neutral, 24.1% affirmed, 21.7% strongly affirmed, 6.9% disaffirmed, and 4.9% strongly disaffirmed (Table 10; Figure 10).

Challenges of Keeping Up with Latest Evidence due to Time Constraints: Addressing challenges related to staying updated with evidence, 26.6% affirmed, 11.3% strongly affirmed, 53.2% were neutral, 5.9% disaffirmed, and 3.0% strongly disaffirming due to time constraints (Table 10; Figure 10).

Confidence in Critically Appraising Research Evidence: Students’ self-assessment of confidence in critically appraising research evidence revealed that 24.1% affirmed, 11.3% strongly affirmed, 54.7% were neutral 5.9% disaffirmed, and 3.9% strongly disaffirmed (Table 10; Figure 10).

Self-Evaluation of Statistical Comprehension and Skills Related to EBM: Students’ self-evaluation of statistical comprehension and skills revealed 21.2% reported no knowledge, 34% basic knowledge, 40.9% intermediate knowledge, and 3.9% advanced knowledge (Table 11; Figure 11).

Interest in Receiving Further Training in Statistical Analysis for EBM: A significant proportion (71.4%) expressed interest in receiving further training in statistical analysis for evidence-based decision-making (Table 12; Figure 12).

Main Barriers in Implementing EBM in Clinical Practice: Key barriers identified in implementing EBM included limited access to reliable resources (38.9%), lack of knowledge and skills in critical appraisal (45.8%), and lack of time (37.4%) (Table 13; Figure 13).

Factors Facilitating Utilization of EBM in Clinical Practice: Factors facilitating EBM utilization included the availability of user-friendly evidence-based resources (44.8%), supportive institutional policies (36.0%), integration of EBM training in the curriculum (36.5%), and positive mentor attitudes (39.9%) (Table 14; Figure 14).

The study aimed to comprehensively explore different aspects of evidence-based medicine (EBM) understanding, practice, and barriers among homeopathic medical students. Researchers used various statistical methods to analyze the collected data. The study found a discrepancy between how students perceived their understanding of EBM concepts and their actual understanding. Chi-square tests were employed to assess the alignment between perception and understanding of concepts like clinical practice guidelines, systematic reviews, meta-analyses, randomized controlled trials, and P-values. However, the analysis showed no significant relationship between perception and actual understanding (all p > 0.05), emphasizing the need for targeted educational interventions. Academic progression did not have a significant association with EBM understanding, as indicated by a chi-square test (p = 0.2047). This suggested a consistent void in EBM knowledge across academic years, prompting us to further investigate the underlying factors.

This study employed analysis of variance (ANOVA) to establish a notable disparity in the average scores of using evidence-based resources among different educational levels (P = 0.0023). This implies that as students progress in their education, they are more likely to integrate evidence-based decision-making into clinical practice. Mean scores on tests of statistical knowledge and skills relevant to EBM varied significantly (P = 0.0001) between educational levels, as demonstrated by ANOVA. This indicates that the curriculum has a positive impact on enhancing statistical literacy in EBM, with increasing scores as students advance.

The study’s frequency analysis of the factors that encourage and hinder the use of EBM identified difficulties such as a lack of critical evaluation abilities and restricted access to trustworthy resources. On the other hand, policies that were helpful and tools that were easy to use were recognized as facilitators. These results underline how critical it is to remove obstacles in order to advance evidence-based treatment. A chi-square analysis did not provide significant evidence of an association between encountered barriers and educational levels (p > 0.05). This indicates that barriers remained consistent regardless of academic progression.

Correlation analysis demonstrated a strong positive linear relationship between familiarity with EBM concepts and the frequency of utilizing evidence-based resources (r ≈ 2.9926, p < 0.05). This underscores the crucial role of EBM knowledge in driving evidence-based practice.

In the assessments of reliability and sensitivity, the questionnaire exhibited a Cronbach’s alpha surpassing 0.70 and demonstrated a strong intra-class correlation coefficient. Furthermore, the exploratory factor analysis unveiled a cohesive factor structure, augmenting the questionnaire’s sensitivity in capturing the intended construct.

In conclusion, this pilot study has illuminated the complex landscape of integrating evidence-based medicine (EBM) within the education of Homoeopathic medical students. The extensive statistical analyses have provided insights into the nuanced understandings, practices, and challenges associated with EBM principles. However, it is crucial to acknowledge and address certain constraints that limit the current study’s comprehensiveness.

The primary constraint lies in the limited scope and sample size of the study. To truly unlock the potential impact of EBM in Homoeopathic education and practice, it is imperative to expand the research’s reach. Collaboration with multiple homoeopathic medical colleges is essential, encompassing a diverse range of students and institutions. This broader approach is necessary to overcome the limitations posed by the current study’s focus on a specific subset of students and institutions.

By recognizing and actively working to mitigate these constraints, we can enhance the reliability and generalizability of our findings. The importance of this study extends beyond its current boundaries, resonating with practitioners, educators, and policymakers alike. Undertaking a more expansive investigation is essential to overcoming the constraints of the current research design, establishing a robust foundation for the seamless integration of EBM with traditional Homoeopathic practices. This collaborative effort holds the promise of uniting tradition with innovation and elevating healthcare to unprecedented levels of excellence.

VA: Concepts, Design, Definition of intellectual content, Data acquisition, Statistical analysis, Manuscript preparation, Guarantor. GS: Data analysis, Manuscript review. MP: Literature search, Manuscript editing.

The research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest.