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Effect of adherence to antihypertensive medication on stroke incidence in patients with hypertension: a population-based retrospective cohort study Abstract Objective High blood pressure is a modifiable risk factor for stroke, but non-adherence to antihypertensive medication is a growing concern for healthcare providers in controlling blood pressure. This study aimed to investigate the effect of adherence to antihypertensive medication on stroke incidence. Design Retrospective cohort study. Setting We analysed National Health Insurance claim data and check-up data from 2009 to 2013. Participants 38520patients with hypertension were defined as those diagnosed with hypertension and prescribed antihypertensive medication. Interventions No interventions were made. Outcome measure Poisson regression analysis using generalised estimating equations models was performed to examine the association between adherence to antihypertensive medication and stroke incidence. Results Among 38 520 patients with hypertension, 957 (2.5%) strokes occurred during the study period. Non-adherence to medication was significantly associated with a higher risk of stroke (intermediate adherence: adjusted relative risk (aRR)=1.13, 95% CI=1.06 to 1.21; poor adherence: aRR=1.27, 95% CI=1.17 to 1.38). Conclusions Non-adherence to antihypertensive medication in patients with hypertension was associated with an increased risk of stroke. Therefore, healthcare providers need to focus on interventional strategies to ensure that these patients adhere to medication therapy and to provide continuing support to achieve long-term adherence, ultimately minimising negative health outcomes. Strengths and limitations of the study This study reflects individual characteristics related to stroke, such as family history of stroke and economic status. We indirectly measured adherence to antihypertensive medication based on administrative claim data, which may not reflect the correct adherence. This study may include selection bias as check-ups in South Korea are voluntary and may be provided by private hospitals rather than by National Health Insurance. Introduction Stroke is responsible for 6.7 million (12.1% of total) deaths per annum worldwide, and is the second most common cause of death after ischaemic heart disease.1 In South Korea, 24 486 per 100 000 individuals (9.1%) die of cerebrovascular diseases, making it the third most common cause of death following cancer and heart disease.2 This public health problem is expected to persist or increase worldwide, including in South Korea, due to continuing industrialisation, unhealthy lifestyles and an ageing population3 4. The most effective way to reduce the socioeconomic burden of stroke is through preventive treatment of modifiable risk factors.5 High blood pressure is one such modifiable risk factor6 7. According to previous studies, hypertensive treatment reduces the incidence of stroke by 30%–40%8 9. Thus, hypertension control and the prevention of associated morbidity and mortality should be achievable.10 To do so, international and national guidelines have recommended screening, treatment and control of high blood pressure.11–14 However, the prevalence of uncontrolled hypertension remains greater than 50% despite South Korea having higher rates of hypertension awareness, treatment and control than the global average15 16 (figure 1). Therefore, it is important for healthcare providers to encourage patient adherence to hypertensive treatment. Adherence to hypertensive treatment is defined as the extent to which patients take medications, follow diets or carry out lifestyle changes as per the advice of their healthcare providers, based on the treatment alliance established between the patient and the healthcare provider.17 18 Most healthcare providers are unlikely to doubt that the effect of hypertensive treatment may be greater in patients taking their medication as prescribed and conversely less in those who do not. Although low adherence may result from poor blood pressure control in patients with apparent resistant or refractory hypertension,19 20 a significant factor contributing to poor blood pressure control is that patients may not adhere to medication therapy as prescribed.21 Studies regarding medication adherence and stroke incidence in patients with hypertension have been reported.3 8 9 18 22–24 However, only a few studies evaluating the relationship between medication adherence and health outcomes have been conducted in South Korea.23 25 Therefore, the objective of this study was to investigate the effect of adherence to hypertensive medication on stroke occurrence in South Korea using nationally representative data. Figure 1 Comparison of hypertension awareness, treatment and control. Materials and methods Study population The South Korea National Health Insurance (NHI) published cohort data, based on data from 2002, with 1025 340 representative individuals randomly extracted by stratifying for sex, age, employment status (employed or self-employed), income and individual total medical costs. These data include claim data with details for patient's utilisation of healthcare and check-up data from 2002 to 2013. The current study population included patients with hypertension and aged over 30 years who received a check-up between 2009 and 2013 and had no history of stroke before 2009. Patients with hypertension were defined as patients who visited healthcare organisations with I10–I15 of the International Classification of Diseases groupings (ICD-10) and received a prescription for antihypertensive medication (diuretics: ATC code C03; beta-blocker: ATC code C07; calcium antagonists: ATC code C08; ACE inhibitors and angiotensin antagonists: ATC code C09; and miscellaneous antihypertensive agents: ATC code C02). Patients who had a stroke in the same calendar year as the diagnosis of hypertension were excluded. Finally, data of a total of 38 520 participants obtained from 1 January 2009 to 31 December 2013 were included in the analysis. This study was approved by the Institutional Review Board, Yonsei University Graduate School of Public Health (2014–239). This study did not seek informed consent from patients as the datasets were completely anonymous and contained no personal information related to the participants. Measures The outcome variable of this study was the incidence of stroke between 1 January 2009 and 31 December 2013. The incidence of stroke during the follow-up period was determined by the first visit record from the time of the stroke (ICD-10: I60–I64). To minimise reverse causation, patients with a history of stroke before 2009 were excluded from the analysis. The primary variable of interest related to stroke was the adherence to antihypertensive medication, which was measured as the medication possession ratio (MPR). The MPR is based on the ratio of the number of days supplied with medication to the total number of days in the year before the study year.26 The MPR in the current study was calculated as follows: MPR=Number of days supplied by at least one during the yearNumber of days between first fill and the last day of the year The MPR was measured annually. The denominator, the number of days between the first prescription and the last day of the calendar year, ranged 1–365. Monotherapy or combination therapy was determined from the first prescription of the year. An MPR of 1 (adherence) indicates that the prescription was supplied on all days of the year. The MPR method is a common measurement of medication adherence using administrative data.27 In previous studies, high adherence to medication was defined as MPR ≥80%.28 Thus, we categorised adherence to medication as high adherence (≥80%), intermediate adherence (50%–80%) and poor adherence (<50%). To analyse the relationship between medication adherence and stroke, we adjusted for the following potential confounders: age, sex, income, region, Charlson Comorbidity Index (CCI), metabolic syndrome, family history of stroke, smoking, regular exercise, type of hypertension, duration of hypertension and year. Age was classified into four groups: 30–49, 50–59, 60–69 and ≥70 years. Region was categorised into urban and rural, and income was estimated using the health insurance premium. Medical aid was defined as not paying health insurance premiums, low income was defined as the bottom 20% of health insurance premiums, middle income was defined as 20%–80% of the premiums and high income was defined as the top 20% of premiums. The CCI was used to account for the effects of comorbid disorders or diseases and was calculated per visit based on Quan’s methods29; 19 diseases were classified into scores of 1, 2, 3 or 6 and the CCI was then calculated from the sum of all scores and given extra scores according to age. Metabolic syndrome was diagnosed according to the revised National Cholesterol Education Program (NCEP) Adult Treatment Panel III criteria30. The NCEP criteria suggest that metabolic syndrome meet at least three of the following components: (1) abdominal obesity (waist circumference ≥90 cm for South Korean men or ≥85 cm for South Korean women), (2) triglycerides≥150 mg/dL, (3) high-density lipoprotein cholesterol ≤40 mg/dL for men or 50 mg/dL for women, (4) systolic/diastolic blood pressure ≥130/85/85 mm Hg or (5) fasting plasma glucose ≥100 mg/dL. Smoking status was categorised into non-smoker, former smoker and current smoker. Duration of hypertension was classified into the following three groups: within 2, 2–5 and 5–10 years. Statistical analysis We determined the distribution of each categorical variable by examining frequencies and percentages, and that of the continuous variable by examining means and SD. In addition, Poisson regression using generalised estimating equations (GEE), including confounders and interesting variables, was used to examine the association between stroke during the study period and each variable. Poisson regression is typically used to model rare events, and repeated measures were considered.31 Subgroup analyses were also performed to assess whether the effect of medication adherence on stroke incidence depends on the duration of hypertension. Finally, sensitivity analyses were performed by varying the range of MPR. All statistical analyses were performed using SAS statistical software, V. 9.3 (SAS Institute, Cary, North Carolina, USA). All calculated p values were two sided, and a value <0.05 was considered statistically significant. Results Among the 38 520 patients with hypertension, 957 (2.5%) strokes occurred during the study period. Table 1 shows the baseline characteristics of the study population. At baseline, patients with hypertension had a mean MPR of 79%. There were 26 512 (68.8%) patients with hypertension with high adherence to hypertensive medication. Subjects who were 50–59 years comprised the highest proportion of the study population at 13 423 (34.9%). There were 20 870 (54.2%) males and 17 649 (45.8%) females; 17 191 subjects (44.6%) had a duration of hypertension of <2 years. Table 1 Baseline characteristics of study population N/mean %/±SD Medication adherence (medical possession rate, MPR)  0.79 ±0.29  High adherence (MPR≥0.8) 26 512 68.8  Intermediate adherence (0.5≤MPR<0.8) 4996 13.0  Poor adherence (MPR<0.5) 7012 18.2 Age  30–49 8670 22.5  50–59 13 423 34.9  60–69 10 468 27.2  70 5959 15.5 Sex  Men 20 870 54.2  Women 17 649 45.8 Income  Medical aid 602 1.6  Low (0%–20%) 6089 15.8  Middle (20.1%–80%) 20 390 52.9  High (80.1%–100%) 11 439 29.7 Region  Urban 26 620 69.1  Rural 11 900 30.9 Charlson Comorbidity Index  1.65 ±1.25 Metabolic syndrome  Absence 24 543 63.7  Presence 13 977 36.3 Family history of stroke  Absence 35 230 91.5  Presence 3290 8.5 Number of antihypertensive medication  One 29 199 75.8  More than 1 9321 24.2 Duration of hypertension (year)  ≤2 17 191 44.6  2–5 13 154 34.2  5–10 8175 21.2 Year  2009 11 272 29.3  2010 9650 25.1  2011 6755 17.5  2012 6070 15.8  2013 4773 12.4 Total 38 520 100.0 The results of the Poisson regression with GEE to investigate the relationship between stroke incidence and medication adherence are shown in table 2. Poorer medication adherence was significantly associated with a higher risk of stroke (intermediate adherence: adjusted relative risk (aRR)=1.13, 95% CI (CI)=1.06 to 1.21; poor adherence: aRR=1.27, 95% CI=1.17 to 1.38; reference: high adherence). Older patients had a higher risk of stroke (50–59 years of age: aRR=1.73, 95% CI=1.46 to 2.04; 60–69 years of age: aRR=2.90, 95% CI=2.39 to 3.52; ≥70 years of age: aRR=4.76, 95% CI=3.83 to 5.93; reference: 30–49 years of age). Women had a lower risk of stroke compared with men (aRR=0.77, 95% CI=0.68 to 0.87). A longer duration of hypertension was associated with a higher risk of stroke (2–5 years: aRR=1.16, 95% CI=1.09 to 1.24; 5–10 years: aRR=1.44, 95% CI=1.30 to 1.60; reference: within 2 years). Table 2 Results of Poisson regression with generalised estimating equations to investigate the relationship between stroke incidence and medication adherence Variables Stroke Adjusted RR 95% CI p Value Medication adherence (medical possession rate, MPR)  High adherence (MPR≥0.8) 1.00 –  Intermediate adherence (0.5≤MPR<0.8) 1.13 1.06 to 1.21 0.0004  Poor adherence (MPR<0.5) 1.27 1.17 to 1.38 <0.0001 Age  30–49 1.00 –  50–59 1.73 1.46 to 2.04 <0.0001  60–69 2.90 2.39 to 3.52 <0.0001  70 4.76 3.83 to 5.93 <0.0001 Sex  Men 1.00 –  Women 0.77 0.68 to 0.87 <0.0001 Income  Medical aid 1.39 0.93 to 2.06 0.1049  Low (0%–20%) 1.00 –  Middle (20.1%–80%) 0.94 0.87 to 1.03 0.1741  High (80.1%–100%) 0.98 0.88 to 1.09 0.7204 Region  Urban 1.00 –  Rural 1.22 1.10 to 1.35 0.0002 Charlson Comorbidity Index 1.05 1.01 to 1.09 0.0081 Metabolic syndrome  Absence 1.00 –  Presence 1.09 1.03 to 1.14 0.0016 Family history of stroke  Absence 1.00 –  Presence 1.13 1.03 to 1.24 0.0110 Number of antihypertensive medication  One 1.00 –  More than 1 1.03 0.97 to 1.10 0.3651 Duration of hypertension (year)  ≤2 1.00  2–5 1.16 1.09 to 1.24 <0.0001  5–10 1.44 1.30 to 1.60 <0.0001 Year  2009 1.00 –  2010 2.58 2.39 to 2.77 <0.0001  2011 1.99 1.86 to 2.12 <0.0001  2012 1.66 1.58 to 1.73 <0.0001  2013 1.25 1.17 to 1.33 <0.0001 RR, relative risk. We performed a subgroup analysis according to the duration of hypertension (figure 2). A higher MPR was associated with a lower risk of stroke in each category of the duration of hypertension; however, the risk of stroke according to the extent of medication adherence differed with the duration of hypertension. The risk of stroke associated with non-adherence to antihypertensive medication was greater in shorter duration of hypertension. Finally, we conducted an additional sensitivity analysis (see online supplementary 1) and performed an analysis including MPR of ≤1.5 or ≤2.0 and high adherence/intermediate adherence of 0.7/0.4 or 0.9/0.6. However, results of the repeat sensitivity analysis did not differ from those of the original analysis. Supplementary data 1 Figure 2 Results of Poisson regression with general estimating equations to investigate the relationship between stroke and medication adherence according to duration of hypertension. The relative risk (RR) (black diamond) was calculated by Poisson regression analysis adjusted for all covariates, and results were considered statistically significant if each bar, as marked to standard deviation SD, did not reach the cut-off line of 1.00. Discussion The potential adverse effects of uncontrolled hypertension, such as increased mortality and morbidity, have been described by many previous studies. Adherence to antihypertensive drugs has been shown to be associated with decreased healthcare utilisation, indicating associations with improved clinical outcomes and decreased medical costs.24 32 33 This study was designed to evaluate the relationship between antihypertensive medication adherence and stroke incidence in patients with hypertension. In this large-scale, population-based linkage study, patients with hypertension who experienced their first stroke during the follow-up period had a lower adherence to antihypertensive medication. Patients with hypertension with intermediate or poor adherence to antihypertensive medication had a 1.13 times and 1.27 times higher risk of stroke, respectively, than those with high adherence. Our findings are consistent with previous investigations reporting a higher adherence to antihypertensive drugs as being associated with a lower risk of adverse outcomes.22 A cohort study from Canada found that high adherence (MPR ≥80%) to antihypertensive drugs decreased the risk of cerebrovascular disease by 22% compared with those with lower adherence.9 Pittman et al also reported that patients with non-adherence to antihypertensive medication (MPR <80%) had a 33% higher risk of cerebrovascular disease-related hospitalisation and a 45% higher risk of emergency department visits than those with higher adherence.34 Furthermore, according to a study from South Korea, non-adherence to antihypertensive medication (MPR <80%) increased the risk of adverse outcomes, including all-cause mortality and hospitalisation for cerebrovascular disease, by 57%23 Unlike other studies, we considered the relationship between the duration of hypertension, medication adherence and index stroke. Non-adherence to antihypertensive medication in patients with hypertension was associated with an increased risk of stroke according to the duration of hypertension. The risk of stroke associated with non-adherence to antihypertensive medication was greater in patients with shorter duration of hypertension. A previous study reported similar findings; with patients with non-adherence to medication having 3.81 and 3.01 times higher odds of death caused by stroke compared with patients with adherence to medication at the 2 and 10-year follow-up, respectively, after patients were diagnosed with hypertension and started taking medication.3 However, our results need to be carefully interpreted and further research is needed because these results might be related to differences in intended or unintended discontinuation of antihypertensive therapy.35 Non-adherence to medication in patients with hypertension is a significant but often unrecognised risk factor for poor blood pressure control, and thus results in the development of further adverse consequences such as morbidity, unexpected hospitalisation and mortality.36 In general, non-adherence to medication results from patient or drug-related factors. Drug-related factors include the number of drug types, dosing schedules or side effects of medications, and patient-related factors include forgetting to take medications, lack of awareness of illness and drugs, false beliefs or the lack of economic power.37 Because adherence to medication is influenced by various factors, most methods to improve it involve combinations of behavioural interventions and reinforcements in addition to improving communication between physicians and patients, providing educational information about patient condition and treatment, and other forms of supervision or attention.33 Once healthcare providers identify patients with hypertension who do not or may not adhere to medication by patient interviews or applying instruments such as the Beliefs about Medicines Questionnaire, they need to assess the reasons for non-adherence to medication and seek ways to improve adherence. Furthermore, adherence to medication and stroke incidence in older and male patients need to be monitored more carefully because age and sex are risk factors for stroke, as shown in some studies including the present one.7 38 In South Korea, the incidence of stroke almost doubles for every 10 years after the age of 55, and men have a 25%–30% higher incidence of stroke than women.38 This study had several limitations related to limited data and methodological issues. First, we indirectly measured antihypertensive medication adherence based on administrative claim data. There are many different methods of measuring medication adherence both directly and indirectly. In direct methods, researchers directly assess the amount of medication taken; however, these methods are limited by the potential for patient dishonesty. In contrast, analysing body fluids for drugs and metabolites, another direct method to assess adherence to medication does not rely on patient honesty. However, direct methods are time consuming or more expensive than indirect methods. In contrast, the MPR method, an indirect method using claim data, does not depend on whether patients actually take their medication as prescribed, but depends on the prescription given by physicians. Thus, the MPR method may overestimate the amount actually consumed. Nevertheless, this method is a well-validated tool and is useful for measuring adherence to medication over a long period of time. Meanwhile, proportion of days covered (PDC) is another indirect method of measuring adherence to medication using claim data. PDC is defined as the proportion of days in the measurement period ‘covered’, not ‘supplied’, by prescription claims for the same medication or another in its therapeutic category.39 We applied the MPR method in our study instead of the PDC because we did not consider the type of prescription drug; that is, cases where patients switched medications during a calculation interval were not identified. Next, the use of claim data may have affected the validity of the results of this study. However, we do not expect this limitation to pose a meaningful threat to the validity of our results. Previous study reported that the accuracy of the stroke diagnosis code in the claim data of Korea is over 80%.40 In addition, we defined patients with hypertension as only those who were diagnosed with hypertension and who were prescribed antihypertensive drugs. Finally, this study may have selection bias, as check-ups in South Korea could be offered by NHI and private hospitals. We included only patients with hypertension who received a check-up from the NHI in this study analysis. Nevertheless, this study has advantages over similar previous studies. Our data included check-up data as well as administrative data; thus, we were able to adjust for some potential confounders, such as family history of stroke and economic status.41 Next, to our knowledge, this is the first study in South Korea to consider the duration of hypertension and changes in adherence prior to a stroke in relation to adherence to antihypertensive medication and index stroke. In conclusion, adherence to antihypertensive medication in patients with hypertension is associated with a decreased risk of stroke over the duration of hypertension. The preventive effect of adherence to antihypertensive medication on risk of stroke is greater as the duration of hypertension shortens. Medication adherence is a key factor in determining the success of antihypertensive therapy and primary prevention of stroke. Therefore, the findings of this study indicate that healthcare providers need to perform intervention strategies to ensure adherence to medication therapy after patients are diagnosed with hypertension, and continue to support patients to achieve long-term adherence, ultimately minimising negative health outcomes. Supplementary data 2 Supplementary Material Reviewer comments Author's manuscript Contributors: HJL designed the study, performed statistical analyses and wrote the manuscript. HJL, S-IJ and E-CP contributed to the Discussion section and reviewed and edited the manuscript. E-CP is the guarantor of this work and, as such, has full access to all the data in the study and takes responsibility for the integrity of the data and the accuracy of the data analysis. The English in this document has been checked by at least two professional editors, both native English speakers. Competing interests: None declared. Patient consent: We used encrypted data from which personal information could not be identified. Ethics approval: The Institutional Review Board, Yonsei University Graduate School of Public Health. Provenance and peer review: Not commissioned; externally peer reviewed. Data sharing statement: The data are available from the Korean National Health Insurance Service (NHIS), but access to confidential data is limited to researchers who meet the necessary criteria; basically, any researcher who proposes a study subject and plans with a standardised proposal form and are approved by the NHIS review committee on research support can access the raw data. Details of this process and a provision guide are now available at http://nhiss.nhis.or.kr/bd/ab/bdaba000eng.do.

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