Although the limitations of traditional systems designed to detect adverse drug events (ADEs) are well known 1, spontaneous reporting remains the cornerstone of post-marketing drug safety surveillance 1,2.

The use of spontaneous reporting persists because new approaches that have been developed to improve risk communication (e.g., electronic health record databases) may not have enough exposure to new drugs 3. Consequently, spontaneous reporting should continue to be used in phase IV studies to provide information regarding the safety and effectiveness of drug use 3 and to detect unexpected and serious events 4.

There are a limited number of professionals with knowledge of pharmacovigilance around the world 5. However, the number of health employees with competencies related to drug surveillance in low- and middle-income countries is very low, as there are often limited financial resources available in these countries to support attendance at professional development courses in pharmacovigilance 5. Consequently, there are a limited number of professionals in developing countries capable of performing drug safety assessments 5–7 and improving risk management.

Although the contributions of Latin American countries to the field of pharmacovigilance has increased in recent years 8, a minority of Latin American nations invest in professional training 9–10. Therefore, biases in epidemiological communication 11 and impairments in signal detection result from the lack of robust information available during the post-marketing life cycle of drugs.

Several strategies have been implemented to promote adherence to appropriate pharmacovigilance practices among health professionals in pharmacovigilance services, and these have primarily involved designing educational interventions 12–14, including subjects related to drug safety assessments in both undergraduate and postgraduate programs 15, and increasing the amount of time dedicated to teaching pharmacovigilance in universities 16. The most important objective of these educational interventions is to develop functional and behavioural competencies 17 to promote changes in attitude among physicians and pharmacists towards adverse drug reaction (ADR) reporting. These educational interventions do not include other types of ADEs, such as medication errors, therapeutic failure and drug quality deviations. Consequently, drug-induced harm is underreported.

Given the constraints of healthcare assistance in low- and middle-income countries (brief contact between physicians and patients, lack of time to report drug-related problems and lack of information in patients' records about drug safety), the responsibility for ADEs must be shared among trained healthcare professionals (pharmacists, nurses) 5 to decrease underreporting 10. However, studies of multidisciplinary teams are scarce in the literature.

Based on these considerations, the current study aimed to 1) assess the impact of a multifaceted educational intervention (MEI) on the prevalence of ADE reporting (attitude) by multidisciplinary teams, 2) evaluate the effectiveness of the MEI on professionals' knowledge of and skills in pharmacovigilance and their fulfilment of ADE reporting requirements, and 3) assess the degree of relevance of the ADE reports submitted after the MEI according to the events' seriousness and likelihood of occurrence.

During the study, the staff of the hospital included 421 professionals, of whom 334 (79.3%) satisfied the inclusion criteria. Of these 334 individuals, 203 (60.8%) returned the questionnaire; however, only 173 staff members (51.7%) completed the intervention. One hundred thirty-one subjects (48.2%) attended at least one of the intervention sessions.

The MEI was effective at increasing knowledge in pharmacovigilance among the 173 professionals who participated in all the sessions (p<0.0001). Prior to the intervention, the professionals' knowledge was classified as unsatisfactory, whereas post-intervention it was classified as average. The MEI also improved the professionals' skills in filling out ADE forms (p<0.0001) (Table 2), mainly among the physicians, nurses and pharmacy auxiliaries (Table 2). The skills of the other professionals remained at the average level (Table 2).

Prior to the MEI (t0), only three ADE reports had been submitted, all of which related to therapeutic failure. After 12 months of follow up, 215 ADEs were reported. Of these ADEs, 166 corresponded to medication errors, 26 corresponded to ADRs, 18 corresponded to quality deviations and 5 corresponded to therapeutic failures. Therefore, the MEI increased the absolute number of ADE reports by 70-fold.

The prevalence of major ADEs reported prior to the MEI (t0) was 0.2%, and the prevalence increased to 3.9% after the MEI (t2) (Figure 1). According to the Mann-Whitney test, there was a significant difference between the proportion of ADE reports/inpatients following the educational intervention (p=0.003). The data suggest that the MEI promoted changes in the participants' behaviours and attitudes related to ADE reporting. According to the segmented generalized linear regression model, the MEI significantly contributed to the increase in the number of ADE reports (p=0.0005).

Figure 1.

Adverse drug event prevalence detected via voluntary reporting by professionals before (t0) and after the educational intervention (t2) in a public and general hospital. Am rico Brasiliense-SP (Brazil).

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Regarding the period of effectiveness of the MEI, a decrease of 2.5% (3.9% compared with 1.4%) was noted in the prevalence of ADEs reported four months after the MEI was implemented (Figure 1). However, the ADE reporting rate did not return to its pre-intervention level. Subsequent increases in the prevalence of ADE reporting (3.4% and 3.5%) (Figure 1) occurred due to the implementation of policies regarding risk management and patient safety at the institution.

Serious ADRs were reported by pharmacists (N=6) and physiotherapists (N=1). The nursing staff submitted the most ADE reports (150), followed by pharmacists (N=29), physicians (N=6) and auxiliary nursing staff members (N=3). The professional classification of twenty-six professionals who reported ADEs could not be determined. Medication errors (N=136) and quality deviations (N=10) were often reported by the nursing staff, whereas ADRs (N=14) were reported by pharmacists, and therapeutic failures (N=5) were reported by physicians.

A broad spectrum of medication errors were reported after the MEI, whereas no ADEs related to medication errors were reported prior to the MEI (Figure 2). Administration errors were the most frequently identified errors (Figure 2), and these related mainly to the delayed intake of a drug (N=23).

Figure 2.

Absolute number of medication error reports made by professionals after the educational intervention (t2) (no reports of this type were made prior to the research) according to aetiology and seriousness (N=166). Am rico Brasiliense-SP (Brazil).

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Two of the 26 ADR reports were of poor quality, as they lacked information regarding the suspicious drug associated with the event and the time of the onset of the event. The remaining 24 ADR reports were well documented, which enabled the detection of 29 clinical manifestations likely induced by 19 different drugs. With the exception of four events, whose likelihood of being drug-related was remote (alternative causes may explain these events), all the events were expected ADRs. Seven of these were considered serious for the following reasons: increased hospital stay (N=4), temporary disability (N=2) and induced hospitalization (N=1).

This study indicates that using MEIs with multidisciplinary teams has a positive effect on the awareness of hospital staff with respect to the importance of ADE reporting. An increase exceeding 100% in the absolute number of reports of drug-induced events was observed in the current research. The strategies applied in the intervention improved the participants' knowledge of pharmacovigilance and increased their skills in correctly filling out report forms, primarily in relation to medication errors. Therefore, including hospital professionals in pharmacovigilance services may contribute to patient safety 25 by stimulating the detection of harmful drug-induced events and the development of strategies designed to prevent such events.

In recent years, legislation regarding pharmacovigilance has been modified and updated to widen the scope of post-marketing surveillance and improve individual patient care 26. The primary goal of efforts to increase communication about drug-related problems is to facilitate medication error reporting and subsequently learn from those errors in order to contribute to the safe and effective use of medicines for the benefit of patients and public health 27.

To ensure a safe environment for drug therapy during all stages of a medicinal product's life cycle, it is necessary to increase the involvement of healthcare professionals in pharmacovigilance 5.

A systematic review suggests that interprofessional collaborations promote benefits to healthcare assistance and improve patient outcomes 28. Engaging a multidisciplinary team in an educational intervention for pharmacovigilance revealed a remarkable increase in the prevalence of medication error reporting, mainly by the nursing staff. Moreover, the study observed drug-induced events associated with harm to the patient that went unreported prior to the MEI.

Therefore, our findings highlight the importance of adopting a multidisciplinary perspective to address the importance of pharmacovigilance in contributing to patient safety and enhancing the quality of reports related to medication errors 29. Recognizing events that could potentially be prevented is fundamental to identifying weaknesses in risk management procedures 30 and designing policies to improve safety protocols.

In this study, physiotherapists reported serious ADRs, corroborating the interdisciplinary nature of pharmacovigilance activities and their relation to patient safety 31, since these professionals are also able to recognize idiosyncratic events 32,33. Therefore, physiotherapists play an important role in contributing to drug safety analysis and to the prevention, early detection and communication of ADEs 33. Furthermore, clinical pharmacists follow up on the safety of pharmacotherapy and can contribute to improving the early detection of drug-induced harm. Physicians are focused on patient diagnoses; therefore, monitoring the effectiveness of a prescribed treatment is fundamental to assessing improvements in clinical outcomes and determining the target for the best pharmacotherapy.

Although nutritionists, psychologists, occupational therapists and administrative officers did not submit any ADE reports following the MEI, these professionals described suspicious events in patient records. While these drug-related problems were not appropriately communicated through ADE reports, there was an improvement in risk communication in patient charts.

Even though a substantial fraction of the hospital's professionals did not complete the four sessions (i.e., a low rate of return for the questionnaire), we can conclude that the MEI related to pharmacovigilance instilled a culture of drug safety at our institution. Our hypothesis was consubstantiated by the higher-quality information included in patient records. Irrespective of whether professionals formally reported ADEs to the risk management team at the hospital, they were able to enhance the ADE reporting rate by 10% (data not shown).

Regarding the period of the MEI's effectiveness, the number of ADE reports decreased after the first four months, and the same behaviour was noted in the literature 2,34. The period during which the rate of ADE reporting drops after educational interventions depends on the techniques applied in the intervention, the level of healthcare and the professionals enrolled in the intervention 34–35. Therefore, the data suggest the need for periodic educational interventions to maintain motivation among professionals regarding ADE reporting.

It is important to highlight that the subsequent increases observed in ADE reporting coincided with the implementation of patient safety policies and the deployment of a hospital risk management team. Therefore, both strategies (risk-management policies and educational interventions) are inextricably linked in efforts to follow up on drug safety and treatment effectiveness in hospitals.

The tradition of pharmacovigilance is a recent arrival in Latin America, and there are few publications related to pharmacovigilance 2. Additional studies are necessary to assess the impact of ADE in low- and middle-income countries 5. Consequently, our educational initiative is relevant to efforts endeavouring to motivate volunteers to increase post-marketing surveillance, decrease underreporting, address the new trends derived from legislation and contribute to learning about ADE.

Varallo FR, Planeta CS and Mastroianni PC conceived and designed the study and were responsible for the data analysis and interpretation, and manuscript writing. All of the authors approved the final version of the manuscript.

We thank the CAPES Foundation, Ministry of Education of Brazil for the scholarship (PDSE) grant n°. 014301/2013-00. The authors would also like to thank the São Paulo Research Foundation (FAPESP) for providing the financial support for this project under grant #2013/10263-9 and Programa de Apoio ao Desenvolvimento Científico da Faculdade de Ciências Farmacêuticas da UNESP-PADC. We are also grateful to the Hospital Estadual Américo Brasiliense for allowing us to collect the study data.