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Quality of prescription writing in Brazilian primary health care

Published online by Cambridge University Press:  31 July 2023

Almária Mariz Batista Open the ORCID record for Almária Mariz Batista [Opens in a new window] ,
Zenewton André da Silva Gama Open the ORCID record for Zenewton André da Silva Gama [Opens in a new window] ,
Pedro Jesús Saturno Hernández Open the ORCID record for Pedro Jesús Saturno Hernández [Opens in a new window]  and
Dyego Souza
Almária Mariz Batista*
Affiliation:
Multicampi School of Medical Sciences, Federal University of Rio Grande do Norte, Caicó, Brazil Instituto Nacional de Salud Pública, Cuernavaca, México
Zenewton André da Silva Gama
Affiliation:
Department of Collective Health, Federal University of Rio Grande do Norte, Natal, Brazil
Pedro Jesús Saturno Hernández
Affiliation:
Instituto Nacional de Salud Pública, Cuernavaca, México
Dyego Souza
Affiliation:
Department of Collective Health, Federal University of Rio Grande do Norte, Natal, Brazil Graduate Programme in Health Sciences, Federal University of Rio Grande do Norte, Natal, Brazil
*
Corresponding author: Almária Mariz Batista; Email: almariamariz@yahoo.com.br
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Abstract

Objective:

To evaluate the quality of prescription writing in the context of public primary health care.

Background:

Prescription errors are one of the leading patient safety problems in primary care and can be caused by errors in therapeutic decisions or in the quality of prescription writing.

Methods:

Cross-sectional observational study conducted in a municipality in Northeastern Brazil. The assessment instrument (including 13 indicators and one composite indicator) was applied to a representative sample of drug prescriptions from the 24 Family Health Teams providing Primary Health Care in the municipality, dispensed in January 2021. Estimates of compliance and their 95% confidence intervals and graphical analysis of frequencies are assessed globally and stratified by dispensing units and prescribers.

Findings:

The average composite prescription writing quality on a 0-100 scale was 60.2 (95% CI 57.8–62.6). No quality criteria had 100% compliance. The highest compliance rates were found for ‘frequency of administration’ (98.9%) and ‘identification of the prescriber’ (98.9%). On the other hand, ‘recorded information on allergy’ (0.0%), ‘patient’s date of birth’ (1.7%), ‘nonpharmacological recommendations’ (1.7%), and ‘guidance on the use of the drug’ (25%) were the indicators with lower compliance, contributing to 69% of the noncompliances found. The type and frequency of the errors in the quality of prescription writing uncovered in this study confirm the continuing need to tackle this problem to improve patient safety. The results identify priority aspects for interventions and further studies on the quality of prescription writing in the context of Primary Health Care in Brazil.

Keywords

drug prescriptionsmedical writingpatient safetyprimary health carequality of health care
Type
Research
Information
Primary Health Care Research & Development , Volume 24 , 2023 , e49
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Creative Commons
Creative Common License - CCCreative Common License - BY
This is an Open Access article, distributed under the terms of the Creative Commons Attribution licence (http://creativecommons.org/licenses/by/4.0/), which permits unrestricted re-use, distribution and reproduction, provided the original article is properly cited.
Copyright
© The Author(s), 2023. Published by Cambridge University Press

Introduction

Medication errors are a significant cause of morbidity and mortality worldwide, a serious public health problem (Jha et al., Reference Jha, Larizgoitia, Audera-Lopez, Prasopa-Plaizier, Waters and Bates2013; Organization for Economic Cooperation and Development (OECD), 2017). Medication errors are considered the leading patient safety incident in primary care in which 30%–50% of unnecessary healthcare-related harm occurs (Organization for Economic Cooperation and Development (OECD), 2018). In the early nineties, the World Health Organization (WHO) published the Guide to Good Prescribing (World Health Organization, 1994) and more recently called for complete attention to this problem with the Global Patient Safety Challenge on Medication Safety (World Health Organization, 2017).

The medication process is complex because it involves different professionals and multiple steps, which include selection, prescription, dispensing, administration, and monitoring of the use of drugs (Nadzan, Reference Nadzan and Cousins1998). Additionally, medication practices are not always guided by technical issues, as they involve beliefs and social and cultural pressures that can lead to medication errors.

Studies show that prescription is most susceptible to primary care medication errors (Bates et al., Reference Bates, Cullen, Laird, Petersen, Pequeno, Servi, Laffel, Sweitzer, Shea, Hallisey and Vander Vliet1995; Montserrat-Capella et al., Reference Montserrat-Capella, Suárez, Ortiz, Mira, Duarte and Reveiz2015; Olaniyan et al., Reference Olaniyan, Ghaleb, Dhillon and Robinson2015). These errors may be due to weaknesses in the processes of therapeutic decision and prescription writing (Brasil, 2013; Dean et al., Reference Dean, Barber and Schachter2000). Prescription writing encompasses structuring this document following the prescriber information, the patient information, and the technical specifications of prescribed drugs, aligned with internationally standardized abbreviations/acronyms/symbols (World Health Organization, 1994).

Despite the existence of national and international recommendations on the quality of prescription writing (World Health Organization, 1993, 1994, 2018; Barber, Reference Barber1995; Cohen, Reference Cohen and Cohen1999; Andersen, Reference Andersen2006; Brazil, 2013), as well as studies based on these recommendations (Meyer, Reference Meyer2000; Imran et al., Reference Imran, Doshi and Kharadi2020; Dyasanoor & Urooge, Reference Dyasanoor and Urooge2016; Joshi et al., Reference Joshi, Buch, Kothari and Shah2016; Mohammed Al-Worafi et al., Reference Mohammed Al-Worafi, Patel, Zaidi, Mohammed Alseragi, Saeed Almutairi, Saleh Alkhoshaiban and Ming2018; Varghese et al., Reference Varghese, Ramanarayanan, Janakiram and Joseph2018; Silva Júnior & Batista, Reference Silva Júnior and Batista2019; Weldemariam et al., Reference Weldemariam, Amaha, Abdu and Tesfamariam2020; Silva et al., Reference Silva, Rocha and Batista2021; Jota & Batista, Reference Jota and Batista2022), there is still a lack of knowledge about studies on the quality of prescription writing based on validated indicators in the context of primary care.

This scarcity of studies is more important in the context of primary care, particularly in Brazil, where funding is often insufficient to provide, for example, electronic prescriptions. This information technology contributes to improving the quality of prescription writing (Joshi et al., Reference Joshi, Buch, Kothari and Shah2016). However, it is necessary to consider that this resource is not free from prescription errors (Odukoya et al., Reference Odukoya, Stone and Chui2014; Joshi et al., Reference Joshi, Buch, Kothari and Shah2016; Yousuf et al., Reference Yousuf, Elkomy, Soliman, Noof, Salem, Al-Ali, Mahmoud and Elmahdi2016; Brown et al., Reference Brown, Mulcaster, Triffitt, Sittig, Ash, Reygate, Husband, Bates and Slight2017; Schiff et al., Reference Schiff, Mirica, Dhavle, Galanter, Lambert and Wright2018; Nurfitria et al., Reference Nurfitria, Effendi and Iskandar2019; Abramson, Reference Abramson2015).

One possibility to evaluate the quality of prescription writing in primary care is the application of criteria that cover prescriber, patient, and drug information (World Health Organization, 1993, 1994, 2018; Barber, Reference Barber1995; Cohen, Reference Cohen and Cohen1999; Andersen, Reference Andersen2006; Brasil, 2013). This is intended to identify strengths and weaknesses of drug prescription in primary care, compare services, and evaluate the performance of drug prescribers and dispensers concerning their responsibilities regarding prescription quality.

In this context, the objective of this study was to evaluate the quality of prescription writing in the context of primary care. The results can contribute to understanding this problem and identify targets and studies to improve this relevant issue for patient safety.

Method

Design

Observational and cross-sectional study with prescriptions conducted in a municipality in Northeastern Brazil in January 2021, using an instrument developed and validated to evaluate the quality of prescription writing.

Context

This study is part of a research and extension project to improve drug prescription quality in primary health care, based on the cooperation between a Brazilian federal university and the health department of a municipality in Northeastern Brazil, Caicó-RN, whose population is estimated at 68 726 inhabitants and the human development index (HDI) is 0.710 (Instituto Brasileiro de Geografia e Estatística, 2021).

It takes place within the scope of primary health care, which is offered with public services from the Brazilian Sistema Único de Saúde (SUS). The SUS is made up of a set of health actions and services provided by federal, state, and municipal agencies and public institutions, belonging to the direct and indirect administration and foundations maintained by the public power, based on the principles of universality, equity, and integrality (Brasil, 1990).

From this perspective, primary care has family health as its priority strategy for expanding and consolidating following the SUS precepts. Family Health Teams (FHT) comprise at least a physician, preferably from the family and community medicine specialty; a nurse; a nursing assistant; a technician; and a community health worker (Brasil, 2017).

The Caicó-RN municipality has 24 FHT distributed in 18 primary health care units (PHCU). Concerning drug dispensing, it has six pharmacies, which will henceforth be called drug dispensing/distribution units (DUs). The patient is free to pick up the medication in any DU, regardless of the FHT/PHCU where he received healthcare, except for drugs that act on the central nervous system level, whose dispensation/distribution is centralized in DU 1, 4, and 6.

Participants

The study units were drug prescriptions prepared by 24 physicians working in the 24 FHTs of the municipality under study in January/2021. The unit of analysis is prescription. Thus, for example, for the ‘pharmaceutical form’ indicator, regardless of the number of prescribed drugs in each prescription, if the specification of one single drug is not in compliance with the ‘pharmaceutical form’ indicator, the prescription will be considered noncompliant for that indicator.

Prescriptions prepared by physicians not located in these PHCU and nonmedical professionals and prescriptions whose evaluation was not feasible due to readability issues were excluded. For this study, readability was not considered an indicator because, in the case of readability problems, it is unfeasible to apply the other indicators due to the impossibility of reading the prescription content. In addition, the readability test requires face-to-face administration of a questionnaire to at least 20 users, preferably from the target population of the drug, and excludes health professionals, in order to avoid results biased by their specialized knowledge (European Medicine Agency, 2009; The Heads of Medicines Agencies, 2011). On the other hand, considering legibility as an exclusion criterion also adds the possibility of applying it as a prerequisite for assessing the quality of prescription writing.

The sampling to select the prescriptions was random, stratified by DUs, and nonproportional. Regardless of the prescription volume, in order to ensure comparability among these DUs, the target sample was 30 prescriptions randomly selected in each of the six DUs, a minimum standard for frequency calculation and comparison among groups (Saturno-Hernández, Reference Saturno-Hernández2015), totaling 180.

Variables

We assess 13 indicators (with their respective specific scores) and one composite indicator (total score). These indicators were considered adequate by an expert committee. They were previously piloted to assess their validity, reliability, and usefulness in evaluating the quality of prescription writing in the context of primary care (Batista et al., Reference Batista, Souza and Gama2022).

For each of these indicators, there is an operational definition. For the application of the ‘active principle’, ‘concentration’, ‘dose’, and ‘route of administration’ indicators, international recommendations on abbreviations/acronyms/symbols were considered (Brasil, 2013; The Joint Commission, 2021) (Table 1).

Table 1. Definitions and clarifications about validated indicators

In addition to the quality of prescription writing indicators, prescribing physicians, DUs, pharmacological classes of prescribed drugs, and the number of drugs/prescriptions were noted for the analysis.

Data collection

Drug prescriptions stored in all six DUs in that city constituted units of analysis.

A previously trained pharmacist evaluated these documents using the QualiPresc validated instrument (Batista et al., Reference Batista, Souza and Gama2022) from February to March 2021. The process of selection/verification of compliance of the selected prescriptions with the 13 QualiPresc indicators covered an average time of 3h17min per DU.

The evaluation of the compliance of the prescriptions with the indicator ‘medicine included in the institutional list officially approved’ was based on the most current version of the National List of Essential Medicines (Brasil, 2020).

The pharmacological classification of prescribed drugs was based on the Anatomical Therapeutic Classification (ATC) system (World Health Organization, 2013).

Data analysis

For the 13 indicators, the relative frequencies of compliance and their 95% confidence intervals (95% CI) were estimated for the entire municipality and the six DUs. In the case of the general estimate, the estimate and variance calculations were adjusted following the appropriate formulas for nonproportional sampling (Saturno-Hernández, Reference Saturno-Hernández2015). In addition, there was an analysis of priorities for intervention using a Pareto chart of noncompliances, identifying the indicators that contributed most to noncompliances, and the cumulative frequency concerning the total noncompliances of evaluated indicators in the sample. For the composite indicator, the average of the total scores of each evaluated prescription was calculated, considering a 95% CI.

Prescription writing quality level and average prescription writing quality level (concerning the total prescriptions evaluated, by DU and by prescriber, along with identifying priority quality defects for intervention) constitute the outcomes of this study.

The six DUs were compared through bivariate analysis with the chi-square test or the likelihood ratio. The significance level adopted was 5%. Additionally, a graphical analysis of the frequency distribution of prescription quality scores was performed using histograms and box plots.

For the quality composite indicator, after verifying that the data from each DU did not present a normal distribution based on the Kolgomorov–Smirnov test, the nonparametric Kruskal–Wallis test was applied to compare medians.

For the statistical analysis, we used the SPSS software, version 25.0.

Patient and public involvement

No patient was involved.

Ethical aspects

This project was approved by the Research Ethics Committee of the Onofre Lopes University Hospital (CEP/HUOL) under number 64367517.3.0000.5292.

Results

General analysis of drug prescriptions

We selected 329 prescriptions, of which 149 did not meet the inclusion criteria. The reasons for exclusion were prescriptions by nonmedical or nonprimary care medical professionals (130 prescriptions) and legibility problems that made it impossible to assess the indicators (19 prescriptions). Our final sample to assess was 180 prescriptions.

The average number of drugs by prescription was 1.8. There was a predominance of pharmacological classes of antimicrobials for systemic use (20.2%), antihypertensive (18.5%), and analgesic/anti-inflammatory (13.1%).

The average level of prescription quality on a 0–100 scale was 60.2 (95% CI 57.8–62.6). The analysis of the frequency distribution of the quality levels of the evaluated prescriptions reveals an asymmetric distribution to the right, where there is a predominance of more adequate prescriptions. This demonstrates that most of these prescriptions have a quality level above the average. On the other hand, all analyses indicate a substantial variability within a situation of quality that can be improved (Figure 1).

Figure 1. Matrix-plot of comparative analysis of the distribution of the quality level of the evaluated prescriptions, January/2021 (n = 180).

As for prescription compliance, a higher prevalence of compliance was found for the indicators ‘frequency of administration’ (98.7%) and ‘prescriber’s identification’ (98.3%) (Table 2).

Table 2. General and stratified analysis of compliance in the dispensing/distribution units of Caicó, January/2021

CI: confidence interval; DU: drug dispensing/distribution unit; N: universe size; n: sample size.

On the other hand, ‘allergy report record’ (0.0%), ‘nonpharmacological recommendations’ (1.3%), ‘patient’s date of birth’ (2.9%), and ‘directions on the use of the drug’ (26.7%), the latter the highest score (9.9) among the QualiPresc constituents, were the indicators with the lowest prevalence of compliance. This contributes to 69% of the nonconformities found in the evaluated prescriptions, from 30.8% of the indicators that make up QualiPresc (Figure 23, Table 2).

Figure 2. Frequencies of noncompliance of QualiPresc indicators, January/2021 (n = 180).

Figure 3. Matrix-plot of distribution of drug prescription quality levels by dispensing/distribution units, January/2021 (n = 30).

Stratified analysis of drug prescriptions

The analysis of DU and prescribers also demonstrates variability in the quality levels of drug prescriptions, where quality levels between 10 and 85 are demonstrated, with the lowest levels being related to DU1 53.0 (46.7–59.3) and DU5 54.0 (46.8–61.3) and prescribers 4, 11, 14, 20, and 22 (Figure 2). In this sense, the Kruskal–Wallis test found a statistically significant difference among the average levels of drug prescription quality (P = 0.011).

Additionally, the frequency distribution of DU’s quality levels of the evaluated prescriptions demonstrates that the histograms are asymmetric to the right. However, no prescription reached the highest quality level (Figure 3).

Furthermore, considering the stratified analysis of compliance of prescriptions by indicator, it appears that this statistically significant difference is related to the ‘pharmaceutical form’ (P = 0,046) and ‘route of administration’ (P < 0·001) indicators (Table 2).

Discussion

This study evaluates the quality of prescription writing in the context of primary care using a validated instrument (Batista et al., Reference Batista, Souza and Gama2022). In this way, it contributes to benchmarking and identifying opportunities for improvement in this relevant topic of patient safety in primary care. Furthermore, the weaknesses identified in this study show that there is a long path to adherence to good prescription practices regulated for this context.

The study identified an average quality of prescription writing compliance of 60% (score 60 out of 100), mainly due to the four most prevalent noncompliant indicators: ‘allergy report record’ (0.0%), ‘nonpharmacological recommendations’ (1.3%), ‘patient’s date of birth’ (2.9%), and ‘directions on the use of the drug’ (26.7%). These were responsible for 69% of the noncompliances found in the evaluated prescriptions. Drug prescribing professionals tend to disregard prescription writing criteria to the detriment of therapeutic decision criteria (Andersen, Reference Andersen2006). However, flaws in writing prescriptions also tend to compromise the safety and effectiveness of drug therapy (World Health Organization, 1994).

The problems identified gain relevance when considering the pharmacological classes of the prescription drugs identified in this study. The most prevalent pharmacological class was antimicrobials for systemic use, a priority in the WHO Global Challenge Medication without Harm (World Health Organization, 2017). Furthermore, 12.8% of the evaluated prescriptions contained potentially dangerous drugs (Instituto para Práticas Seguras No Uso de Medicamentos, 2015), also a priority in the WHO Global Challenge (World Health Organization, 2017), with a predominance of oral drugs used in diabetes. In this case, the patient or caregiver must be informed, in print and verbal form, of the therapeutic scheme and prescribed procedures (Cohen et al., Reference Cohen, Smetzer, Tuohy, Kilo and Cohen2006; Ministerio de Sanidad y Consumo et al., 2007).

Opportunities for improvement in the quality of prescription writing

The indicators with the lowest compliance were ‘allergy report record’ (0.0%), ‘nonpharmacological recommendations’ (1.3%), ‘patient’s date of birth’ (2.9%), and ‘directions on the use of the drug’ (26.7%). They contradict recommendations such as step four of the WHO Six-Step Method for Rational Prescribing (writing a prescription correctly) (World Health Organization, 1994) and the WHO Curriculum Guide for Patient Safety (World Health Organization, 2011), which advocates adequate communication in the prescription writing process.

None of the evaluated prescriptions had a record of drug allergy. Nonetheless, antimicrobials and analgesics/anti-inflammatories, the most prevalent pharmacological classes in the evaluated prescriptions, stand out as potential causes of allergic reactions.

The prescription’s omission of ‘nonpharmacological recommendations’ can hinder achieving essential therapeutic goals (Brasil, 2013). Notably for chronic health problems such as systemic arterial hypertension, for which, in this case, antihypertensive drugs also stand out as the prevalent pharmacological class. The failure regarding this indicator can be explained by the culture of medicalization in health care, which tends to overvalue the use of medications to the detriment of nonpharmacological therapies.

The indicator ‘directions on the drug use’ also has serious repercussions for the patient. This is additional information such as the best period for drug administration (e.g., morning/evening, before/after meals, fasting, after bathing), duration of drug administration (e.g., minutes until container content is finished), thin layer application (e.g., topical use), drug dilution, and instruction for the use of an inhaled device, among others necessary for the user’s understanding of how to use the drug. These additional directions are even more critical in primary care because, unlike tertiary care, drug administration is predominantly performed by the user. Furthermore, this indicator scores higher than the other indicators. This makes it a priority to target interventions to improve drug prescription quality, even among the four with the lowest compliance.

In this context, implementing electronic prescriptions can be an opportunity for improvement. In this case, it is necessary to consider that this can reduce prescription errors as long as its implementation is adequately planned and monitored and its access is authorized through prior training by specialists in patient safety (Prgomet et al., Reference Prgomet, Li, Niazkhani, Georgiou and Westbrook2017; Rosa et al., Reference Rosa, Nascimento, Cirilio, Santos, Batista, Perini and Couto2019). Additionally, an evaluation of its effects in primary care found a reduction in prescribing errors if applied to a limited number of potentially dangerous drugs and through physician-pharmacist communication (Lainer et al., Reference Lainer, Mann and Sönnichsen2013).

Indicators with high compliance

From a positive perspective, the indicators with the highest compliance were ‘prescriber’s identification’ (98.3%) and ‘frequency of administration’ (98.7%).

On the other hand, the indicator ‘medicine included in the institutional list officially approved’, showing compliance of 72.2%, seems to be underreported. Health needs assessment and prescribing behavior were items influenced by pharmaceutical marketing (Vargas-Pelaez et al., Reference Vargas-Pelaez, Rover, Soares, Blatt, Mantel-Teeuwisse, Rossi, Restrepo, Latorre, López, Bürgin, Silva, Leite and Farias2019). Suppose the prescribed drug is unavailable in DUs due to shortages or noncompliance with the list of essential drugs. In that case, the user does not carry out the pharmacological treatment or conduct the prescription for purchase via a government program, own resources, or judicialization (Biehl et al., Reference Biehl, Amon, Socal and Petryna2012; Catanheide et al., Reference Catanheide, Lisboa and Souza2016; Vargas-Pelaez et al., Reference Vargas-Pelaez, Rover, Soares, Blatt, Mantel-Teeuwisse, Rossi, Restrepo, Latorre, López, Bürgin, Silva, Leite and Farias2019; Oliveira et al., Reference Oliveira, Braga, Farias, Vasconcelos and Ferreira2021). This way, these prescriptions remain in the patient’s possession instead of being filed in DUs. This may have resulted in underestimating the noncompliance of the ‘medicine included in the institutional list officially approved’ indicator. This suggests a compromise of the drug selection step.

Stratified analysis of drug prescriptions

The evaluation of drug prescriptions also considered their comparison between drug DUs. In this sense, a statistically significant difference among DUs regarding the level of prescription quality presupposes noncompliance with Good Pharmaceutical Practices was found. These include evaluating the prescription by the pharmacist through therapeutic aspects and contacting prescribers about individual prescriptions (Organização Pan-Americana de Saúde/Organização Mundial de Saúde/Conselho Federal de Farmácia OPAS/OMS/CFF, 1994).

Dispensing has been neglected, nationally and internationally, as simple drug delivery needed a reorientation in which the pharmaceutical clinic is a socio-technical activity of dispensing (Angonesi, Reference Angonesi2008; Leite et al., Reference Leite, Bernardo, Álvares, Guerra Junior, Costa, Acurcio, Guibu, Costa, Karnikowski, Soeiro and Soares2017), which will best qualify this practice for evaluating aspects of the therapeutic decision and prescription writing. As for DUs, one, four, and six filed a higher number of prescriptions, as they also centralize the drugs dispensing/distribution that act on the central nervous system. This increase in demand can overwhelm the pharmacist, compromising the assessment of prescription quality via dispensing.

The internal and external validity of the results

This study has internal validity because the methodological precautions of a random sample selection and adjustment of prescription quality estimates provide generalizability for the entire studied municipality. However, caution should be exercised when extrapolating these results to other Brazilian municipalities or other countries because contextual variations in primary care can influence the study’s external validity, and they need to be considered (Wong, Reference Wong2018). In any case, the municipality in question has many similarities with most Brazilian municipalities.

The main contribution of this study is twofold. On the one hand, we were able to describe in detail the problems concerning the quality of prescription writing that can jeopardize the safety of medication in primary health care. The quality of prescription writing is rarely considered in its different aspects when assessing medication safety. On the other hand, the set of indicators we use in our study can be viewed as a standard managerial tool to monitor the quality of prescription writing, at least in the context of Brazilian municipalities, to identify the local priorities for interventions to improve.

Study limitations

A limitation of this study was the access to prescriptions in the DUs rather than directly from the patient. This collection alternative may have underestimated the prevalence of noncompliance with the indicator ‘medicine included in the institutional list officially approved’, as well as concerning the prescribed pharmacological classes.

Conclusions

The quality of the evaluated prescriptions was very variable, both by prescribers and pharmacies. The situation shows, therefore, that there are many opportunities to improve the wording of the prescription.

This requires investigation, mainly about the most problematic indicators concerning noncompliance, so that more effective strategies are adopted to improve the quality of these prescriptions. That said, the trend is that this indicator also fits as a priority for planning strategies to improve the quality of drug prescriptions in primary care.

Low-quality prescriptions can compromise patient safety and the efficacy of drug therapy, and this impact needs to be evaluated in further studies.

Author contribution

A.M.B. contributed with conceptualization, data curation, formal analysis, investigation, methodology, project administration, visualization, original draft preparation, and writing review and editing. Z.A.S.G. contributed with conceptualization, formal analysis, methodology, project administration, supervision, validation, visualization, and writing – review and editing. P.J.S.H. and D.S. contributed with validation, visualization, and writing – review and editing.

Funding

Coordenação de Aperfeiçoamento de Pessoal de Nível Superior (CAPES).

Competing interests

There are no competing interests for any author.

Ethical standard

The authors assert that all procedures contributing to this work comply with the ethical standards of the relevant national and institutional guidelines on human experimentation (Resolução nº 466/12) and with the Helsinki Declaration of 1975, as revised in 2008.

References

Abramson, EL (2015) Causes and consequences of e-prescribing errors in community pharmacies. Integrated Pharmacy Research & Practice 5, 3138. https://doi.org/10.2147/IPRP.S64927 CrossRefGoogle ScholarPubMed
Andersen, M (2006) Is it possible to measure prescribing quality using only prescription data?. Basic & Clinical Pharmacology & Toxicology 98, 314319. https://doi.org/10.1111/j.1742-7843.2006.pto_411.x CrossRefGoogle ScholarPubMed
Angonesi, D (2008) Dispensação farmacêutica: uma análise de diferentes conceitos e modelos. Ciência & Saúde Coletiva 13, 629640.CrossRefGoogle Scholar
Barber, N (1995) What constitutes good prescribing? British Medical Journal Clinical Research 310, 923925. https://doi.org/10.1136/bmj.310.6984.923 CrossRefGoogle ScholarPubMed
Bates, DW, Cullen, DJ, Laird, N, Petersen, LA, Pequeno, SD, Servi, D, Laffel, G, Sweitzer, BJ, Shea, BF, Hallisey, R and Vander Vliet, M (1995) Incidence of adverse drug events and potential adverse drug events. JAMA 274, 2934. https://doi.org/10.1001/jama.1995.03530010043033 CrossRefGoogle ScholarPubMed
Batista, AM, Souza, D and Gama, ZAS (2022) Validation of the QualiPresc instrument for assessing the quality of drug prescription writing in primary health care. PLoS One 11, e0267707. https://doi.org/10.1371/journal.pone.0267707 CrossRefGoogle Scholar
Biehl, J, Amon, JJ, Socal, MP and Petryna, A (2012) Between the court and the clinic: lawsuits for medicines and the right to health in Brazil. Health and Human Rights Journal 14, 3652.Google ScholarPubMed
BRASIL (1990) Lei nº 8.080, de 19 de setembro de 1990. Dispõe sobre as condições para a promoção, proteção e recuperação da saúde, a organização e o funcionamento dos serviços correspondentes e dá outras providências. Diário Oficial da União, 20 de setembro de 1990. Seção 1, p. 18055. Retrieved 20 September 1990 from http://www.planalto.gov.br/ccivil_03/leis/l8080.htm Google Scholar
BRASIL (2013) Ministério da Saúde. Protocolo de segurança na prescrição, uso e administração de medicamentos. Retrieved 24 July 2023 from https://proqualis.net/sites/proqualis.net/files/000002490IQmwD8.pdf Google Scholar
BRASIL (2020) Ministério da Saúde. Relação Nacional de Medicamentos Essenciais: RENAME 2020. Brasília: Ministério da Saúde. Retrieved 24 July 2023 from https://bvsms.saude.gov.br/bvs/publicacoes/relacao_medicamentos_rename_2020.pdf Google Scholar
BRASIL (2017) Portaria nº 2.436, de 21 de setembro de 2017. Aprova a Política Nacional de Atenção Básica, estabelecendo a revisão de diretrizes para a organização da Atenção Básica, no âmbito do Sistema Único de Saúde (SUS). Diário Oficial da União, 22 de setembro de 2017. Seção 1, p. 68. Retrieved from 22 September 2017 from https://www.in.gov.br/materia//asset_publisher/Kujrw0TZC2Mb/content/id/19308123/do1-2017-09-22-portaria-n-2436-de-21-de-setembro-de-2017-19308031 Google Scholar
Brown, CL, Mulcaster, HL, Triffitt, KL, Sittig, DF, Ash, JS, Reygate, K, Husband, AK, Bates, DW and Slight, SP (2017) A systematic review of the types and causes of prescribing errors generated from using computerized provider order entry systems in primary and secondary care. Journal of the American Medical Informatics Association 24, 432440. https://doi.org/10.1093/jamia/ocw119 CrossRefGoogle ScholarPubMed
Catanheide, ID, Lisboa, ES and Souza, LEPF (2016) Características da judicialização do acesso a medicamentos no Brasil: uma revisão sistemática. Physis: Revista de Saúde Coletiva 26, 13351356. https://doi.org/10.1590/S0103-73312016000400014 CrossRefGoogle Scholar
Cohen, MR (1999) Prevention medication errors related to prescribing. In Cohen, MR, editor, Medication errors, Chapter 8. Washington, DC: American Pharmaceutical Association. 8.1–8.23.Google Scholar
Cohen, MR, Smetzer, JL, Tuohy, NR and Kilo, CM (2006) High-alert medications: safeguarding against errors. In Cohen, MR, editor, Medication Errors, 2nd edition. Washington, DC: American Pharmaceutical Association. 317–411.CrossRefGoogle Scholar
Dean, B, Barber, N and Schachter, V (2000) What is prescribing error? Quality in Health Care 9, 232237. https://doi.org/10.1136/qhc.9.4.232 CrossRefGoogle ScholarPubMed
Dyasanoor, S and Urooge, A (2016) Insight into quality of prescription writing - an institutional study. Journal of Clinical and Diagnostic Research 10, 6164. https://doi.org/10.7860/JCDR/2016/18011.7472 Google Scholar
European Medicine Agency (2009) Guideline on the Readability of the Labeling and Package Leaflet of Medicinal Products for Human Use. London. Retrieved 24 July 2023 from http://ec.europa.eu/health/files/eudralex/vol-2/c/2009_01_12_readability_guideline_final_en.pdf Google Scholar
Instituto Brasileiro de Geografia e Estatística (IBGE) (2021) Get to Know Cities and States of Brazil. Retrieved 09 September 2021 from https://cidades.ibge.gov.br Google Scholar
Imran, M, Doshi, C and Kharadi, D (2020) Time to teach basic and regulatory aspects of the art of prescription writing for better doctor-patient safety and keeping communication accessible and straight. DARU, Journal of Pharmaceutical Sciences 28, 2532. https://doi.org/10.1007/s40199-018-00236-1 CrossRefGoogle ScholarPubMed
Instituto para Práticas Seguras No Uso de Medicamentos (ISMP) (2015) Medicamentos potencialmente perigosos de uso hospitalar e ambulatorial: listas atualizadas ISMP Brazil Bulletin 4, 110. https://www.ismp-brasil.org/site/wp-content/uploads/2015/12/V4N3.pdf Google Scholar
Jha, AK, Larizgoitia, I, Audera-Lopez, C, Prasopa-Plaizier, N, Waters, H and Bates, DW (2013) The global burden of unsafe medical care: analytic modeling of observational studies. BMJ Quality & Safety 22, 809815. https://doi.org/10.1136/bmjqs-2012-001748 CrossRefGoogle ScholarPubMed
Joshi, A, Buch, J, Kothari, N and Shah, N (2016) Evaluation of hand written and computerized out-patient prescriptions in urban part of Central Gujarat. Journal of Clinical and Diagnostic Research 10, 15. https://doi.org/10.7860/JCDR/2016/17896.7911 Google ScholarPubMed
Jota, CA and Batista, AM (2022) Análise das prescrições de medicamentos na atenção primária à saúde de um município Centro-potiguar. Revista Brasileira de Medicina de Família e Comunidade 17, 2432. https://doi.org/10.5712/rbmfc17(44)2432 CrossRefGoogle Scholar
Lainer, M, Mann, E and Sönnichsen, A (2013) Information technology interventions to improve medication safety in primary care: a systematic review. International Journal for Quality in Health Care 25, 590598. https://doi.org/10.1093/intqhc/mzt043 CrossRefGoogle ScholarPubMed
Leite, SN, Bernardo, NLMC, Álvares, J, Guerra Junior, AA, Costa, EA, Acurcio, FA, Guibu, IA, Costa, KS, Karnikowski, MGO, Soeiro, OM and Soares, L (2017) Serviço de dispensação de medicamentos na atenção básica no SUS. Revista de Saúde Pública 51, 110. https://doi.org/10.11606/S1518-8787.2017051007121 Google Scholar
Meyer, TA (2000) Improving the quality of the order-writing process for inpatient orders and outpatient prescriptions. American Journal of Health-System Pharmacy 57, 1822. https://doi.org/10.1093/ajhp/57.suppl_4.S18 CrossRefGoogle ScholarPubMed
Ministerio de Sanidad y Consumo, Instituto para el Uso Seguro de Medicamentos and Universidad de Salamanca (2007) Practicas para mejorar la seguridade de los medicamentos de alto riesgo. Retrieved 24 July 2023 from   http://www.ismp-espana.org/ficheros/Practicas%20para%20mejorar%20la%20seguridad%20de%20los%20medicamentos%20de%20alto%20riesgo..pdf Google Scholar
Mohammed Al-Worafi, Y, Patel, RP, Zaidi, STR, Mohammed Alseragi, W, Saeed Almutairi, M, Saleh Alkhoshaiban, A and Ming, LC (2018) Completeness and legibility of handwritten prescriptions in Sana’a, Yemen. Medical Principles and Practice 27, 290292. https://doi.org/10.1159/000487307 CrossRefGoogle ScholarPubMed
Montserrat-Capella, D, Suárez, M, Ortiz, L, Mira, JJ, Duarte, HG and Reveiz, L (2015) Frequency of ambulatory care adverse events in Latin American countries: the AMBEAS/PAHO cohort study. International Journal for Quality in Health Care 27, 5259. https://doi.org/10.1093/intqhc/mzu100 CrossRefGoogle ScholarPubMed
Nadzan, DM (1998) A system approach to medication use. In Cousins, DM, editor, Medication use: a system approach to reducing errors. Oakbrook Terrace, IL: Joint Commission. 5–18.Google Scholar
Nurfitria, RS, Effendi, RNA and Iskandar, D (2019) Potential medication errors in electronic prescribing in a primary health care. Indonesian Journal of Pharmaceutical and Clinical Research 2, 4554. https://doi.org/10.32734/idjpcr.v2i1.1166 CrossRefGoogle Scholar
Odukoya, OK, Stone, JA and Chui, MA (2014) How do community pharmacies recover from e-prescription errors? Research in Social and Administrative Pharmacy 10, 837852. https://doi.org/10.1016/j.sapharm.2013.11.009 CrossRefGoogle ScholarPubMed
Organization for Economic Cooperation and Development (OECD) (2017) Organisation for Economic Cooperation and Development. The economics of patient safety: strengthening a value-based approach to reducing patient harm at national level. Retrieved 24 July 2023 from https://www.oecd.org/els/health-systems/The-economics-of-patient-safety-March-2017.pdf Google Scholar
Organization for Economic Cooperation and Development (OECD) (2018) Organisation for Economic Cooperation and Development. The economics of patient safety in primary and ambulatory care: flying blind. Retrieved 24 July 2023 from https://www.oecd.org/health/health-systems/The-Economics-of-Patient-Safety-in-Primary-and-Ambulatory-Care-April2018.pdf Google Scholar
Olaniyan, JO, Ghaleb, M, Dhillon, S and Robinson, P (2015) Safety of medication use in primary care. International Journal of Pharmacy Practice 23, 320. https://doi.org/10.1111/ijpp.12120 CrossRefGoogle ScholarPubMed
Oliveira, YMC, Braga, BSF, Farias, AD, Vasconcelos, CM and Ferreira, MAF (2021) Judicialização no acesso a medicamentos: análise das demandas judiciais no Estado do Rio Grande do Norte, Brasil. Cadernos de Saúde Pública 37, 114. https://doi.org/10.1590/0102-311X00174619 CrossRefGoogle Scholar
Organização Pan-Americana de Saúde/Organização Mundial de Saúde/Conselho Federal de Farmácia OPAS/OMS/CFF (1994) O papel do farmacêutico no sistema de atenção à saúde (portuguese version). Retrieved 24 July 2023 from https://iris.paho.org/bitstream/handle/10665.2/3598/PapelFarmaceutico.pdf?sequence=1&isAllowed=y Google Scholar
Prgomet, M, Li, L, Niazkhani, Z, Georgiou, A and Westbrook, JI (2017) Impact of commercial computerized provider order entry (CPOE) and clinical decision support systems (CDSSs) on medication errors, length of stay, and mortality in intensive care units: a systematic review and meta-analysis. Journal of the American Medical Informatics Association 24, 413422. https://doi.org/10.1093/jamia/ocw145 CrossRefGoogle ScholarPubMed
Rosa, MB, Nascimento, MMG, Cirilio, PB, Santos, RA, Batista, LF, Perini, E and Couto, RC (2019) Electronic prescription: frequency and severity of medication errors. Revista da Associação Médica Brasileira 65, 13491355. https://doi.org/10.1590/1806-9282.65.11.1349 CrossRefGoogle ScholarPubMed
Saturno-Hernández, PJ (2015) Métodos y herramientas para la realización de ciclos de mejora de la calidad en servicios de salud. Cuernavaca: Instituto Nacional de Salud Pública. https://www.insp.mx/resources/images/stories/Produccion/pdf/160506_Metodos_Herramientas_SS.pdf Google Scholar
Schiff, G, Mirica, MM, Dhavle, AA, Galanter, WL, Lambert, B and Wright, A (2018) A prescription for enhancing electronic prescribing safety. Health Affairs 37, 18771883. https://doi.org/10.1377/hlthaff.2018.0725 CrossRefGoogle ScholarPubMed
Silva Júnior, FC and Batista, AM (2019) Prescrições de antimicrobianos em unidades básicas de saúde de um município do Seridó Potiguar, Brasil. Infarma Ciências Farmacêuticas 31, 271276. https://doi.org/10.14450/2318-9312.v31.e4.a2019.pp271-276 CrossRefGoogle Scholar
Silva, LSN, Rocha, MVIL and Batista, AM (2021) Prescrições de medicamentos sujeitos a controle especial em um município do Seridó Potiguar, Brasil. Infarma Ciências Farmacêuticas 33, 167174. https://doi.org/10.14450/2318-9312.v33.e2.a2021.pp167-174 CrossRefGoogle Scholar
The Heads of Medicines Agencies (2011) Co-ordination Group for Mutual Recognition and Decentralised Procedures-Human. Position paper on user testing of package leaflet – consultation with target patient groups. Retrieved 24 July 2023 from https://www.paint-consult.com/fileadmin/editorial/downloads/z_textverlinkungen/lesbarkeitstest/CMDh_position_paper_on_user_testing_Feb_2011.pdf Google Scholar
The Joint Commission (2021) Facts about Official Do-Not-Use List. Retrieved 18 April 2021 from http://www.jointcommission.org/assets/1/18/Do_Not_Use_List.pdf Google Scholar
Vargas-Pelaez, CM, Rover, MRM, Soares, L, Blatt, CR, Mantel-Teeuwisse, AK, Rossi, FA, Restrepo, LG, Latorre, MC, López, JJ, Bürgin, MT, Silva, C, Leite, SN and Farias, MR (2019) Judicialization of access to medicines in four Latin American countries: a comparative qualitative analysis. International Journal for Equity in Health 18, 114. https://doi.org/10.1186/S12939-019-0960-Z CrossRefGoogle ScholarPubMed
Varghese, NJ, Ramanarayanan, V, Janakiram, C and Joseph, J (2018) Assessment of quality of prescription writing among dental and medical students and practitioners in Kerala. Journal of Natural Science, Biology and Medicine 9, 2733. https://doi.org/10.4103/jnsbm.JNSBM_108_17 CrossRefGoogle ScholarPubMed
Weldemariam, DG, Amaha, ND, Abdu, N and Tesfamariam, EH (2020) Assessment of completeness and legibility of handwritten prescriptions in six community chain pharmacies of Asmara, Eritrea: a cross-sectional study. BMC Health Services Research 20, 17. https://doi.org/10.1186/s12913-020-05418-9 CrossRefGoogle ScholarPubMed
WHO World Health Organization (2013) Anatomical Therapeutic Chemical (ATC): Structure and principles. Geneva: WHO. Retrieved 14 February 2021 from http://www.whocc.no/atc/structure_and_principles/ Google Scholar
WHO World Health Organization (2018) Delivering quality health services: a global imperative for universal health coverage. Geneva: WHO, Organisation for Economic Cooperation and Development, The World Bank. https://apps.who.int/iris/handle/10665/272465 CrossRefGoogle Scholar
WHO World Health Organization (1994) Guide to good prescribing: a practical manual. Geneva: WHO. Reprinted 1998, 2000. https://apps.who.int/iris/handle/10665/59001 Google Scholar
WHO World Health Organization (1993) How to investigate drug use in health facilities: selected drug use indicators. Geneva: WHO. https://apps.who.int/iris/handle/10665/60519 Google Scholar
WHO World Health Organization (2017) Medication without harm: global patient safety challenge on medication safety. Geneva: WHO. https://www.who.int/patientsafety/medication-safety/medication-without-harm-brochure/en/ Google Scholar
WHO World Health Organization (2011) Patient safety curriculum guide: multi-professional edition. Geneva: WHO. http://apps.who.int/iris/bitstream/handle/10665/44641/9789241501958_eng.pdf;jsessionid=4D678ED42006DFE18915FFD5EB868EA6?sequence=1 Google Scholar
Wong, G (2018) Getting to grips with context and complexity−the case for realist approaches. Gaceta Sanitaria 32, 109110. https://doi.org/10.1016/j.gaceta.2017.05.010 CrossRefGoogle Scholar
Yousuf, W, Elkomy, S, Soliman, M, Noof, AM, Salem, M, Al-Ali, A, Mahmoud, MH and Elmahdi, H (2016) Improving the accuracy of electronic prescribing in West Bay Health Center in Qatar. BMJ Open Quality 5, u210962.w4393. https://doi.org/10.1136/bmjquality.u210962.w4393 CrossRefGoogle Scholar
Figure 0

Table 1. Definitions and clarifications about validated indicators

Figure 1

Figure 1. Matrix-plot of comparative analysis of the distribution of the quality level of the evaluated prescriptions, January/2021 (n = 180).

Figure 2

Table 2. General and stratified analysis of compliance in the dispensing/distribution units of Caicó, January/2021

Figure 3

Figure 2. Frequencies of noncompliance of QualiPresc indicators, January/2021 (n = 180).

Figure 4

Figure 3. Matrix-plot of distribution of drug prescription quality levels by dispensing/distribution units, January/2021 (n = 30).