Medication regimen complexity of coronary artery disease patients

Tinoco, Marlon Silva; Groia-Veloso, Ronara Camila de Souza; Santos, Jéssica Nathália Domingos dos; Cruzeiro, Maria Gabriela Martins; Dias, Bianca Menezes; Reis, Adriano Max Moreira

doi:10.31744/einstein_journal/2021AO5565

ABSTRACT

Objective:

To determine the factors associated with the high complexity of medication regimen in patients with coronary artery disease.

Methods:

A cross-sectional study was carried out in a multiprofessional cardiology outpatient clinic, in the Secondary Care of the Unified Health System, where sociodemographic (age, sex, and education), clinical (number of health conditions, cardiovascular diagnoses, and comorbidities) and pharmacotherapeutic (adherence, polypharmacy, and cardiovascular polypharmacy) characteristics were collected. These were related to complexity of medication regimen, measured through the medication regimen complexity index. The classification of high complexity of medication regimen was carried out using standardization for the older adults and stratification for adult patients, as suggested in the literature.

Results:

The total complexity medication regimen of 148 patients had a median of 17.0 (interquartile range of 10.5). In the univariate analysis, the factors associated with high complexity were heart failure, diabetes mellitus, hypertension, five or more diseases, and non-adherence to treatment. In the final model, after logistic regression, there was a statistically significant association (p<0.05) with the variables diabetes mellitus, hypertension, and non-adherence.

Conclusion:

The high complexity of medication regimen in patients with coronary artery disease was associated with the presence of diabetes mellitus, hypertension, and reports of non-adherence to treatment.

Keywords:
Polypharmacy; Drug utilization; Coronary artery disease; Medication adherence; Cardiovascular diseases

RESUMO

Objetivo:

Determinar os fatores associados à complexidade alta da farmacoterapia em pacientes com doença arterial coronariana.

Métodos:

Realizou-se um estudo transversal em um ambulatório multiprofissional de cardiologia na Atenção Secundária do Sistema Único de Saúde, de onde foram coletadas características sociodemográficas (idade, sexo e escolaridade), clínicas (número de condições de saúde, diagnósticos cardiovasculares e comorbidades) e farmacoterápicas (adesão, polifarmácia e polifarmácia cardiovascular). Essas características foram relacionadas com a complexidade da farmacoterapia, mensurada por meio do Índice de Complexidade da Farmacoterapia. A classificação em complexidade alta da farmacoterapia foi realizada empregando a normatização para idosos e a estratificação para pacientes adultos, sugeridas na literatura.

Resultados:

A complexidade da farmacoterapia total dos 148 pacientes apresentou mediana igual a 17,0 (amplitude interquartílica de 10,5). Na análise univariada, os fatores associados à complexidade alta foram insuficiência cardíaca, diabetes mellitus, hipertensão arterial, cinco ou mais doenças e não adesão. No modelo final, após regressão logística, houve associação estatisticamente significante (p<0,05) com as variáveis diabetes mellitus, hipertensão arterial e não adesão.

Conclusão:

A complexidade alta da farmacoterapia em pacientes com doença arterial coronariana foi associada à presença de diabetes mellitus, hipertensão arterial e relato de não adesão a medicamentos

Descritores:
Polimedicação; Uso de medicamentos; Doença da artéria coronariana; Adesão à medicação; Doenças cardiovasculares

INTRODUCTION

Among the chronic non-communicable diseases, cardiovascular diseases, such as coronary artery disease (CAD), are important causes of morbidity and mortality, and account for 31% of causes of death in Brazil, being the leading cause of death in the world.⁽¹1. Ribeiro AL, Duncan BB, Brant LC, Lotufo PA, Mill JG, Barreto SM. Cardiovascular health in Brazil: trends and perspectives. Circulation. 2016;133(4):422-33. Review.^,²2. Silveira EL, Cunha LM, Pantoja MS, Lima AV, Cunha AN. Prevalência e distribuição de fatores de risco cardiovascular em portadores de doença arterial coronariana no Norte do Brasil. Rev Fac Ciênc Méd Sorocaba. 2018;20(3):167-73.⁾ The pharmacological treatment of CAD involves the use of several drugs, such as antiplatelet agents, statins, beta-blockers, and angiotensin-converting enzyme inhibitors (ACEi).⁽³3. Sociedade Brasileira de Cardiologia (SBC). Diretrizes de doenças coronárias estável. Arq Bras Cardiol. 2014;103(Supl 2):45.⁾ The use of multiple drugs may cause inadequate administration and a higher incidence of adverse events.⁽⁴4. Payne RA, Abel GA, Avery AJ, Mercer SW, Roland MO. Is polypharmacy always hazardous? A retrospective cohort analysis using linked electronic health records from primary and secondary care. Br J Clin Pharmacol. 2014;77(6):1073-82.^,⁵5. Rozenfeld S. Prevalência, fatores associados e mau uso de medicamentos entre os idosos: uma revisão. Cad Saude Publica. 2003;19(3):717-24. Review.⁾

Polypharmacy (use of five or more drugs), the development and availability of several drugs on the market, and epidemiological transition are factors that have contributed to the emergence of complex drug therapies.⁽⁶6. Muir AJ, Sanders LL, Wilkinson WE, Schmader K. Reducing medication regimen complexity: a controlled trial. J Gen Intern Med. 2001;16(2):77-82.⁾ The medication regimen complexity is not only associated with the quantity of drugs used, but also with the dosing form, the number of doses per day, and the relation between drug use and food, among other factors.⁽⁷7. George J, Phun YT, Bailey MJ, Kong DC, Stewart K. Development and validation of the medication regimen complexity index. Ann Pharmacother. 2004;38(9):1369-76.

8. Wimmer BC, Cross AJ, Jokanovic N, Wiese MD, George J, Johnell K, et al. Clinical outcomes associated with medication regimen complexity in older people: a systematic review. J Am Geriatr Soc. 2017;65(4):747-53. Review.^-⁹9. Bryant BM, Libby AM, Metz KR, Page RL 2nd, Ambardekar AV, Lindenfeld J, et al. Evaluating Patient-Level Medication Regimen Complexity Over Time in Heart Transplant Recipients. Ann Pharmacother. 2016;50(11):926-34.⁾

The medication regimen complexity has been associated with negative health outcomes, such as non-adherence to treatment,⁽¹⁰10. Abada S, Clark LE, Sinha AK, Xia R, Pace-Murphy K, Flores RJ, et al. Medication regimen complexity and low adherence in older community-dwelling adults with substantiated self-neglect. J Appl Gerontol. 2019;38(6):866-83.⁾ hospital readmission,⁽¹¹11. Abou-Karam N, Bradford C, Lor KB, Barnett M, Ha M, Rizos A. Medication regimen complexity and readmissions after hospitalization for heart failure, acute myocardial infarction, pneumonia, and chronic obstructive pulmonary disease. SAGE Open Med. 2016;4:2050312116632426.⁾ higher risk of hospitalization,⁽¹²12. Elliott RA, O’Callaghan C, Paul E, George J. Impact of an intervention to reduce medication regimen complexity for older hospital inpatients. Int J Clin Pharm. 2013;35(2):217-24.⁾ and mortality.⁽¹³13. Wimmer BC, Bell JS, Fastbom J, Wiese MD, Johnell K. Medication regimen complexity and polypharmacy as factors associated with all-cause mortality in older people: a population-based cohort study. Ann Pharmacother. 2016;50(2):89-95.⁾

OBJECTIVE

To determine the factors associated with the high medication regimen complexity for patients with coronary artery disease.

METHODS

Sample

The convenience sample consisted of patients seen from April 2018 to February 2019 who met the selection criteria; that is, individuals diagnosed with CAD and who were using at least one drug. Patients with verbal communication difficulties were not included in the study. The patients signed an Informed Consent Form, and the study was approved by the Research Ethics Committee of the Universidade Federal de Minas Gerais (UFMG) (CAAE: 85804818.7.0000.5149, opinion 2585098).

Study design and setting

This is a cross-sectional study, carried out in a multiprofessional cardiology outpatient clinic (secondary care) at the Hospital das Clínicas da Universidade Federal de Minas Gerais (UFMG), in Belo Horizonte (MG). It is a general hospital for medium- and high complexity cases, a reference in the care of patients of the Unified Health System (SUS - Sistema Único de Saúde) of the state. Patients discharged by the cardiology team are referred to this outpatient clinic and seen by a multidisciplinary team, composed of a physical therapist, clinical pharmacist, and cardiologist.

Data collection

Data collection was performed by interviewing the patient and filling out an instrument developed for research purposes; the clinical results collected were confirmed in the medical records.

The dependent variable of the study was medication regimen complexity; the independent variables were sex, age, cardiovascular diagnosis (arrhythmias, heart failure (HF), ST-segment elevation myocardial infarction (STEMI), non-ST-segment elevation myocardial infarction (NSTEMI), unstable angina, and stable angina), comorbidities (hypertension, diabetes mellitus, dyslipidemia, and hypothyroidism), number of diseases, and medication regimen (polypharmacy if ≥5 drugs, excessive polypharmacy if ≥10 drugs, and cardiovascular polypharmacy if ≥5 drugs, and adhesion).

Adherence to treatment was measured by self-reporting using the 7-day Recall, which consists in measuring adherence by asking the question “In the last 7 days, on how many days have you used the drugs?” This question was asked separately for each of the medications the patient used. In measuring adherence, all medications used by patients were considered. Patients who used drugs for 6 or 7 days were classified as adherent (approximately 80% adherence), and those who used drugs for 5 days or less were classified as non-adherent.⁽¹⁴14. Sevilla-Cazes J, Finkleman BS, Chen J, Brensinger CM, Epstein AE, Streiff MB, et al. Association between patient-reported medication adherence and anticoagulation control. Am J Med. 2017;130(9):1092-8.e2.⁾

The medication regimen complexity was measured through the Medication Regimen Complexity Index (MRCI) validated in Brazil.⁽¹⁵15. Melchiors AC, Correr CJ, Fernández-Llimos F. Translation and validation into Portuguese language of the medication regimen complexity index. Arq Bras Cardiol. 2007;89(4):210-8.⁾ The MRCI consists of three sections: section A, with information on dosing forms; section B, with information on dosing frequencies; and section C, with additional information. The application of MRCI was carried out by two different researchers. Disagreements between the assigned values were resolved by consensus. The MRCI score is the result of the sum of the values assigned in the three sections.

The authors responsible for validating the MRCI in Brazil authorized the use of the instrument in this research. The classification of medication regimen complexity was made using the standardization of MRCI for the elderly, in which values were considered high when above 16.5.⁽¹⁶16. Pantuzza LL, Ceccato MD, Silveira MR, Pinto IV, Reis AM. Validation and standardization of the Brazilian version of the Medication Regimen Complexity Index for older adults in primary care. Geriatr Gerontol Int. 2018;18(6):853-9.⁾ The stratification suggested in the literature for adult patients considered high values as those above 13.0.⁽¹⁷17. Ferreira JM, Galato D, Melo AC. Medication regimen complexity in adults and the elderly in a primary healthcare setting: determination of high and low complexities. Pharm Pract (Granada). 2015;13(4):659.⁾

The database was built in EpiData software, version 3.1, and the feeding was done by double data entry by different researchers.

Data analysis

The data analysis was carried out by means of frequency results and percentage of categorical variables, and measures of central tendency and dispersion for numerical variables, with normality evaluated by the Kolmogorov-Smirnov test, considering the probability of significance with p<0.05 and 95% confidence interval.

The association between the occurrence of high medication regimen complexity and the independent variables was performed through univariate analysis, using the Pearson´s χ² test. In the presence of at least one expected frequency lower than five, Fisher's exact test was used.

The independent variables that obtained a value of p≤0.20 in the univariate analysis were included in the multiple logistic regression model. In the final model, the variables that maintained a value of p<0.05 remained. In the multivariate analysis, the magnitude of the association was expressed by odds ratio (OR) with 95%CI.

To compare the models, the likelihood ratio test was used. The adequacy of the final models was evaluated by Hosmer-Lemeshow test. The statistical significance was considered when p<0.05.

The statistical analysis was performed using the SPSS software, version 25.0.

RESULTS

A total of 148 patients participated in the study, 104 (70.3%) of whom were male. The median age was 62 years (interquartile range - IQR = 17.0).

The median number of health conditions was 5 (IQR=3.0). Among the cardiovascular diagnoses, 58.8% (n=87) of individuals had STEMI, followed by 26.4% (n=39) with NSTEMI.

Adherence to drugs was identified in 70.9% (n=105) of patients. The sociodemographic, clinical, and medication regimen characteristics are described in more detail in table 1.

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Table 1
Sociodemographic, clinical, and medication regimen characteristics of 148 patients with coronary artery disease

The frequency of high medication regimen complexity was 101 patients (68.2%). The total medication regimen complexity of 148 patients presented with a median equal to 17.0 (IQR=10.5; minimum of 7.0, and maximum of 45.0), with a median of 1.0 (IQR=0.0; minimum of 1.0, and maximum of 5.0) in section A; 9.5 (IQR=19.5; minimum of 3.0, and maximum of 22.5) in section B; and 6.0 (IQR=3.0; minimum of 0.0, and maximum of 20.0) in section C of the MRCI.

In the univariate analysis, presented on table 2, the factors associated with the high medication regimen complexity with a statistically significant difference were HF, hypertension, diabetes mellitus, five or more diseases, and non-adherence. In a multiple logistic regression, there was a statistically significant association (p<0.05) with the variables diabetes mellitus, hypertension, and non-adherence.

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Tabela 2
Uni- and multivariate analysis of factors associated with adherence to cardiovascular drugss

DISCUSSION

The study showed that the high medication regimen complexity among patients with CAD presented a positive association with the presence of diabetes mellitus, hypertension, and a report of non-adherence to drugs. To the best of our knowledge, the investigation is a pioneer in analyzing medication regimen complexity of outpatients with CAD.

A systematic review of the literature of 35 studies identified the association between high medication regimen complexity and non-adherence to treatment. In most studies, it was identified that patients with more complex medication regimens were more likely not to adhere, and a direct association with non-adherence was also demonstrated.⁽¹⁸18. Pantuzza LL, Ceccato MD, Silveira MR, Junqueira LM, Reis AM. Association between medication regimen complexity and pharmacotherapy adherence: a systematic review. Eur J Clin Pharmacol. 2017;73(11):1475-89. Review.⁾ The use of several drugs, with distinct dosages, in several dosing forms, and with the need of additional information for a correct administration, may compromise treatment adherence.⁽¹⁹19. Advinha AM, de Oliveira-Martins S, Mateus V, Pajote SG, Lopes MJ. Medication regimen complexity in institutionalized elderly people in an aging society. Int J Clin Pharm. 2014;36(4):750-6.⁾

The MRCI is able to evaluate different aspects related to medication regimen complexity, such as the dosing form (section A), the dosing frequency (section B), and the additional information prescribed by the physician, to ensure the correct use of the drug, such as the need to fast, use with food, and specific times (section C), since the mere number of isolated drugs is not sufficient for evaluation.⁽¹⁵15. Melchiors AC, Correr CJ, Fernández-Llimos F. Translation and validation into Portuguese language of the medication regimen complexity index. Arq Bras Cardiol. 2007;89(4):210-8.^,²⁰20. Hirsch JD, Metz KR, Hosokawa PW, Libby AM. Validation of a patient-level medication regimen complexity index as a possible tool to identify patients for medication therapy management intervention. Pharmacotherapy. 2014; 34(8):826-35.⁾ Among the three observation domains, section B is of great relevance, since dosing frequency is the factor that most contributes to high complexity, with the potential to be a possible point of change in favor of lower complexity.⁽⁹9. Bryant BM, Libby AM, Metz KR, Page RL 2nd, Ambardekar AV, Lindenfeld J, et al. Evaluating Patient-Level Medication Regimen Complexity Over Time in Heart Transplant Recipients. Ann Pharmacother. 2016;50(11):926-34.^,²¹21. Elliott RA. Reducing medication regimen complexity for older patients prior to discharge from hospital: feasibility and barriers. J Clin Pharm Ther. 2012;37(6):637-42.⁾ In the present study, this section presented the highest median. Section C items may have less impact on adherence, because they may suffer interferences inherent to the evaluation by different researchers.⁽¹⁸18. Pantuzza LL, Ceccato MD, Silveira MR, Junqueira LM, Reis AM. Association between medication regimen complexity and pharmacotherapy adherence: a systematic review. Eur J Clin Pharmacol. 2017;73(11):1475-89. Review.⁾ However, this bias may have been minimized, since, in the present study, the MRCI was applied by two different researchers.

Results showed that the presence of diabetes mellitus was significantly associated with the high medication regimen complexity. This important finding is in agreement with the literature, which shows non-adherence related to high medication regimen complexity in diabetic patients,⁽²²22. Ayele AA, Tegegn HG, Ayele TA, Ayalew MB. Medication regimen complexity and its impact on medication adherence and glycemic control among patients with type 2 diabetes mellitus in an Ethiopian general hospital. BMJ Open Diabetes Res Care. 2019;7(1):e000685.^,²³23. Cramer JA. A systematic review of adherence with medications for diabetes. Diabetes Care. 2004;27(5):1218-24. Review.⁾ and a higher chance of inadequate glycemic control.⁽¹⁹19. Advinha AM, de Oliveira-Martins S, Mateus V, Pajote SG, Lopes MJ. Medication regimen complexity in institutionalized elderly people in an aging society. Int J Clin Pharm. 2014;36(4):750-6.⁾ It is noteworthy that, when investigating medication regimen of CAD patients, it is important to consider the multimorbidity presented by patients with cardiovascular diseases. Multimorbidity is important because, a study that analyzed four retrospective cohorts of patients with different specific diseases, identified that most of the MRCI score was influenced by comorbidities.⁽²⁴24. Libby AM, Fish DN, Hosokawa PW, Linnebur SA, Metz KR, Nair KV, et al. Patient-level medication regimen complexity across populations with chronic disease. Clin Ther. 2013;35(4):385-98.e1.⁾ Multimorbidity may occur in CAD patients, and may explain the association between diabetes mellitus and high medication regimen complexity in the patients studied.

Similarly, hypertension, which was associated in this study to high medication regimen complexity, is in line with previous studies, which have demonstrated not only the prevalence of this association, but also the strong relation between high medication regimen complexity and non-adherence.⁽²⁵25. Obreli-Neto PR, Prado MF, Vieira JC, Fachini FC, Pelloso SM, Marcon SS, et al. Fatores interferentes na taxa de adesão à farmacoterapia em idosos atendidos na rede pública de saúde do Município de Salto Grande – SP, Brasil. Rev Ciênc Farm Basica Apl. 2010;31(3):229-33.⁾ Chronic non-communicable diseases, such as hypertension, are a great challenge to improving adherence. Patients with these diseases do not always have symptoms that help to remind of the need to use the drugs appropriately.⁽²⁶26. Nichols-English G, Poirier S. Optimizing adherence to pharmaceutical care plans. J Am Pharm Assoc (Wash). 2000;40(4):475-85. Review.⁾

Pharmacists, when performing their interventions relative to the use of medication, play an important role in increasing adherence of patients with cardiovascular diseases, since care given by this professional takes into account the singularity of the patient in terms of symptoms and beliefs about their disease and its treatment, which are important causes of non-adherence.⁽²⁷27. Hovland R, Bremer S, Frigaard C, Henjum S, Faksvåg PK, Saether EM, et al. Effect of a pharmacist-led intervention on adherence among patients with a first-time prescription for a cardiovascular medicine: a randomized controlled trial in Norwegian pharmacies. Int J Pharm Pract. 2020;28(4):337-45.⁾

The use of polypills (a term that covers solid dosing forms with a combined fixed dose of several drugs) was also a strategy detected in meta-analysis with 3,140 patients, in six countries, with a significant impact on adherence, systolic blood pressure, low-density lipoprotein cholesterol (LDL-cholesterol) in patients with cardiovascular diseases.⁽²⁸28. Webster R, Patel A, Selak V, Billot L, Bots ML, Brown A, Bullen C, Cass A, Crengle S, Raina Elley C, Grobbee DE, Neal B, Peiris D, Poulter N, Prabhakaran D, Rafter N, Stanton A, Stepien S, Thom S, Usherwood T, Wadham A, Rodgers A; SPACE Collaboration. Effectiveness of fixed dose combination medication (‘polypills’) compared with usual care in patients with cardiovascular disease or at high risk: a prospective, individual patient data meta-analysis of 3140 patients in six countries. Int J Cardiol. 2016;205:147-56.⁾ The main barriers to the use of polypills are their high costs, both to the health system and to patients. Added to the fact that they are not on the list of essential drugs, the unavailability of several different doses of the same drug that compose the polypills makes it difficult to adjust the dose, which is often necessary in the management of cardiovascular diseases. However, the use of polypills in elderly patients is a strategy that can be safer,⁽²⁹29. Salam A, Praveen D, Patel A, Tewari A, Webster R. Barriers and facilitators to the use of cardiovascular fixed-dose combination medication (Polypills) in Andhra Pradesh, India: a mixed-methods study. Glob Heart. 2019;14(3):303-10.⁾ since they are susceptible to greater difficulty in adherence, caused by biological (such as cognitive changes and dementia, among others), psychic (depression and anxiety, for instance), and social (greater risk of socio-familial fragility) factors.⁽³⁰30. Moraes EN. A arte da (Des) prescrição no idoso: a dualidade terapêutica. Livro 4. Belo Horizonte: Folium Editorial; 2018. p. 34. [Coleção Guia de Bolso em Geriatria e Gerontologia].⁾

In this study, MRCI was used to quantify the complexity of drug therapy for CAD patients. It is a tool validated in Brazil with the purpose of identifying possible justifications for non-adherence to the proposed therapy, and, consequently, for negative health outcomes. Furthermore, it is a pioneer study in evaluating medication regimen complexity in CAD outpatients.

As limitations of this study, we can mention the fact that the study was restricted to CAD patients, from a single outpatient clinic at a teaching hospital, which hinders generalizing to other patients with cardiovascular disease or other conditions, who are seen at health services of different care levels.

The results found in the study are important in determining and discussing the factors associated with high medication regimen complexity of CAD patients in the context of SUS Secondary Care. The determination of these factors assists healthcare professionals in identifying points to be addressed to minimize the negative health outcomes caused by high medication regimen complexity.

CONCLUSION

High medication regimen complexity rates were identified. The high medication regimen complexity in patients with coronary artery disease was positively associated with the presence of diabetes mellitus, hypertension, and report of non-adherence to drugs.

REFERENCES

¹
Ribeiro AL, Duncan BB, Brant LC, Lotufo PA, Mill JG, Barreto SM. Cardiovascular health in Brazil: trends and perspectives. Circulation. 2016;133(4):422-33. Review.
²
Silveira EL, Cunha LM, Pantoja MS, Lima AV, Cunha AN. Prevalência e distribuição de fatores de risco cardiovascular em portadores de doença arterial coronariana no Norte do Brasil. Rev Fac Ciênc Méd Sorocaba. 2018;20(3):167-73.
³
Sociedade Brasileira de Cardiologia (SBC). Diretrizes de doenças coronárias estável. Arq Bras Cardiol. 2014;103(Supl 2):45.
⁴
Payne RA, Abel GA, Avery AJ, Mercer SW, Roland MO. Is polypharmacy always hazardous? A retrospective cohort analysis using linked electronic health records from primary and secondary care. Br J Clin Pharmacol. 2014;77(6):1073-82.
⁵
Rozenfeld S. Prevalência, fatores associados e mau uso de medicamentos entre os idosos: uma revisão. Cad Saude Publica. 2003;19(3):717-24. Review.
⁶
Muir AJ, Sanders LL, Wilkinson WE, Schmader K. Reducing medication regimen complexity: a controlled trial. J Gen Intern Med. 2001;16(2):77-82.
⁷
George J, Phun YT, Bailey MJ, Kong DC, Stewart K. Development and validation of the medication regimen complexity index. Ann Pharmacother. 2004;38(9):1369-76.
⁸
Wimmer BC, Cross AJ, Jokanovic N, Wiese MD, George J, Johnell K, et al. Clinical outcomes associated with medication regimen complexity in older people: a systematic review. J Am Geriatr Soc. 2017;65(4):747-53. Review.
⁹
Bryant BM, Libby AM, Metz KR, Page RL 2nd, Ambardekar AV, Lindenfeld J, et al. Evaluating Patient-Level Medication Regimen Complexity Over Time in Heart Transplant Recipients. Ann Pharmacother. 2016;50(11):926-34.
¹⁰
Abada S, Clark LE, Sinha AK, Xia R, Pace-Murphy K, Flores RJ, et al. Medication regimen complexity and low adherence in older community-dwelling adults with substantiated self-neglect. J Appl Gerontol. 2019;38(6):866-83.
¹¹
Abou-Karam N, Bradford C, Lor KB, Barnett M, Ha M, Rizos A. Medication regimen complexity and readmissions after hospitalization for heart failure, acute myocardial infarction, pneumonia, and chronic obstructive pulmonary disease. SAGE Open Med. 2016;4:2050312116632426.
¹²
Elliott RA, O’Callaghan C, Paul E, George J. Impact of an intervention to reduce medication regimen complexity for older hospital inpatients. Int J Clin Pharm. 2013;35(2):217-24.
¹³
Wimmer BC, Bell JS, Fastbom J, Wiese MD, Johnell K. Medication regimen complexity and polypharmacy as factors associated with all-cause mortality in older people: a population-based cohort study. Ann Pharmacother. 2016;50(2):89-95.
¹⁴
Sevilla-Cazes J, Finkleman BS, Chen J, Brensinger CM, Epstein AE, Streiff MB, et al. Association between patient-reported medication adherence and anticoagulation control. Am J Med. 2017;130(9):1092-8.e2.
¹⁵
Melchiors AC, Correr CJ, Fernández-Llimos F. Translation and validation into Portuguese language of the medication regimen complexity index. Arq Bras Cardiol. 2007;89(4):210-8.
¹⁶
Pantuzza LL, Ceccato MD, Silveira MR, Pinto IV, Reis AM. Validation and standardization of the Brazilian version of the Medication Regimen Complexity Index for older adults in primary care. Geriatr Gerontol Int. 2018;18(6):853-9.
¹⁷
Ferreira JM, Galato D, Melo AC. Medication regimen complexity in adults and the elderly in a primary healthcare setting: determination of high and low complexities. Pharm Pract (Granada). 2015;13(4):659.
¹⁸
Pantuzza LL, Ceccato MD, Silveira MR, Junqueira LM, Reis AM. Association between medication regimen complexity and pharmacotherapy adherence: a systematic review. Eur J Clin Pharmacol. 2017;73(11):1475-89. Review.
¹⁹
Advinha AM, de Oliveira-Martins S, Mateus V, Pajote SG, Lopes MJ. Medication regimen complexity in institutionalized elderly people in an aging society. Int J Clin Pharm. 2014;36(4):750-6.
²⁰
Hirsch JD, Metz KR, Hosokawa PW, Libby AM. Validation of a patient-level medication regimen complexity index as a possible tool to identify patients for medication therapy management intervention. Pharmacotherapy. 2014; 34(8):826-35.
²¹
Elliott RA. Reducing medication regimen complexity for older patients prior to discharge from hospital: feasibility and barriers. J Clin Pharm Ther. 2012;37(6):637-42.
²²
Ayele AA, Tegegn HG, Ayele TA, Ayalew MB. Medication regimen complexity and its impact on medication adherence and glycemic control among patients with type 2 diabetes mellitus in an Ethiopian general hospital. BMJ Open Diabetes Res Care. 2019;7(1):e000685.
²³
Cramer JA. A systematic review of adherence with medications for diabetes. Diabetes Care. 2004;27(5):1218-24. Review.
²⁴
Libby AM, Fish DN, Hosokawa PW, Linnebur SA, Metz KR, Nair KV, et al. Patient-level medication regimen complexity across populations with chronic disease. Clin Ther. 2013;35(4):385-98.e1.
²⁵
Obreli-Neto PR, Prado MF, Vieira JC, Fachini FC, Pelloso SM, Marcon SS, et al. Fatores interferentes na taxa de adesão à farmacoterapia em idosos atendidos na rede pública de saúde do Município de Salto Grande – SP, Brasil. Rev Ciênc Farm Basica Apl. 2010;31(3):229-33.
²⁶
Nichols-English G, Poirier S. Optimizing adherence to pharmaceutical care plans. J Am Pharm Assoc (Wash). 2000;40(4):475-85. Review.
²⁷
Hovland R, Bremer S, Frigaard C, Henjum S, Faksvåg PK, Saether EM, et al. Effect of a pharmacist-led intervention on adherence among patients with a first-time prescription for a cardiovascular medicine: a randomized controlled trial in Norwegian pharmacies. Int J Pharm Pract. 2020;28(4):337-45.
²⁸
Webster R, Patel A, Selak V, Billot L, Bots ML, Brown A, Bullen C, Cass A, Crengle S, Raina Elley C, Grobbee DE, Neal B, Peiris D, Poulter N, Prabhakaran D, Rafter N, Stanton A, Stepien S, Thom S, Usherwood T, Wadham A, Rodgers A; SPACE Collaboration. Effectiveness of fixed dose combination medication (‘polypills’) compared with usual care in patients with cardiovascular disease or at high risk: a prospective, individual patient data meta-analysis of 3140 patients in six countries. Int J Cardiol. 2016;205:147-56.
²⁹
Salam A, Praveen D, Patel A, Tewari A, Webster R. Barriers and facilitators to the use of cardiovascular fixed-dose combination medication (Polypills) in Andhra Pradesh, India: a mixed-methods study. Glob Heart. 2019;14(3):303-10.
³⁰
Moraes EN. A arte da (Des) prescrição no idoso: a dualidade terapêutica. Livro 4. Belo Horizonte: Folium Editorial; 2018. p. 34. [Coleção Guia de Bolso em Geriatria e Gerontologia].

Publication Dates

Publication in this collection
15 Mar 2021
Date of issue
2021

History

Received
08 Jan 2020
Accepted
29 Sept 2020

This content is licensed under a Creative Commons Attribution 4.0 International License.

[1] ¹
Ribeiro AL, Duncan BB, Brant LC, Lotufo PA, Mill JG, Barreto SM. Cardiovascular health in Brazil: trends and perspectives. Circulation. 2016;133(4):422-33. Review.

[2] ²
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Characteristics
Age, years		62 (17.0)
Sex, male		104 (70.3)
Number of health conditions		5 (3.0)
Cardiovascular diagnoses
	STEMI	87 (58.8)
	NSTEMI	39 (26.4)
	Arrhythmia	35 (23.7)
	Heart failure	29 (19.6)
	Unstable angina	16 (10.8)
	Stable angina	11 (7.4)
Comorbidities
	Hypertension	107 (72.3)
	Dyslipidemia	66 (44.6)
	Diabetes mellitus	49 (33.1)
Adherence, as per the 7-day Recall		105 (70.9)
Polypharmacy (≥5 drugs)		135 (91.2)
Cardiovascular polypharmacy (≥5 drugs)		110 (74.3)

Description			High medication regimen complexity
Variable			Frequency		Univariate analysis		Multivariate analysis
Variable			Yes n (%)	No n (%)	Odds ratio (95%CI)	p value	Odds ratio (95%CI)	p value
Sociodemographic
Sex
	Male		69 (68.3)	35 (74.5)	0.739 (0.340-1.610)	0.446
	Female		32 (31.7)	12 (25.5)	1
Elderly
	Yes		57 (56.4)	29 (61.7)	0.804 (0.396-1.631)	0.545
	No		44 (43.6)	18 (38.3)	1
Cardiovascular diagnoses
	Arrhythmia
		Yes	15 (14.9)	6 (12.8)	1.192 (0.431-3.296)	0.735
		No	86 (85.1)	41 (87.2)	1
Heart failure
	Yes		23 (22.8)	6 (12.8)	2.015 (0.760-5.341)	0.153
	No		78 (77.2)	41 (87.2)	1
STEMI
	Yes		61 (60.4)	26 (55.3)	1.232 (0.612-2.480)	0.559
	No		40 (39.6)	21 (44.7)	1
NSTEMI
	Yes		29 (28.7)	10 (21.3)	1.490 (0.656-3.387)	0.339
	No		72 (71.3)	37 (78.7)	1
Unstable angina
	Yes		12 (11.9)	4 (8.5)	1.449 (0.442-4.758)	0.539
	No		89 (88.1)	43 (91.5)	1
Stable angina
	Yes		9 (8.9)	2 (4.3)	2.201 (0.457-10.613)	0.503
	No		92 (91.1)	45 (95.7)	1
Comorbidities
	Hypertension
		Yes	81 (80.2)	26 (55.3)	3.271 (1.537-6.960)	0.002	2.339 (1.045-5.238)	0.039
		No	20 (19.8)	21 (44.7)	1
High cholesterol
	Yes		45 (44.6)	21 (44.7)	0.995 (0.496-1.996)	0.989
	No		56 (55.4)	26 (55.3)	1
Diabetes mellitus
	Yes		44 (43.6)	5 (10.6)	6.484 (2.368-17.753)	0.000	6.128 (2.163-17.359)	0.001
	No		57 (56.4)	42 (89.4)	1
Hypothyroidism
	Yes		9 (8.9)	3 (6.4)	1.435 (0.370-5.563)	0.753
	No		92 (91.1)	44 (93.6)	1
Medication regimen
	Number of diseases
		<5 diseases	51 (50.5)	33 (70.2)	0.433 (0.207-0.904)	0.024
		≥5 diseases	50 (49.5)	14 (29.8)	1
Non-adherence
	Yes		35 (34.7)	8 (17.0)	2.585 (1.090-6.134)	0.028	2.929 (1.166-7.358)	0.022
	No		66 (65.3)	39 (83.0)	1