Medication Adherence and Its Determinants among Women of Cardiovascular Disease of Tertiary Care Hospital, Hyderabad

Haritha Arnipalli; Sudha Bala; Harshal Pandve

doi:10.1055/s-0040-1708573

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Original Article

5 (

); 315-321

doi:

10.1055/s-0040-1708573

Medication Adherence and Its Determinants among Women of Cardiovascular Disease of Tertiary Care Hospital, Hyderabad

Haritha Arnipalli¹, Sudha Bala¹, Harshal Pandve¹

1Department of Community Medicine, Employee’s State Insurance Corporation Medical College, Hyderabad, Telangana, India

Sudha Bala, MBBS, MD (Community Medicine) Flat No. 301, 2-2-1075/A, Shubodaya enclave, Baghamberpet, Hyderabad-500013, Telangana India dr.sudhabala78@gmail.com

Published: 2020-12-31

Indian Journal of Cardiovascular Disease in Women

Licence

This is an open access article published by Thieme under the terms of the Creative Commons Attribution-NonDerivative-NonCommercial License, permitting copying and reproduction so long as the original work is given appropriate credit. Contents may not be used for commercial purposes, or adapted, remixed, transformed or built upon. (https://creativecommons.org/licenses/by-nc-nd/4.0/)

Disclaimer:
This article was originally published by Thieme Medical and Scientific Publishers Pvt. Ltd. and was migrated to Scientific Scholar after the change of Publisher.

Abstract

Background and Aim Adherence to long-term therapy for chronic illnesses in developed countries averages to 50%. In developing countries, the rates are even lower. Poor adherence to long-term therapies severely compromises the effectiveness of treatment making this a critical issue in population health both from the perspective of quality of life and of health economics. Cardiovascular diseases (CVDs) are the most common disorders affecting most of the productive age group. Therefore, an attempt has been made to determine medication adherence using the Morisky medication adherence scale-4 (MMAS-4) and its determinants in women patients with CVD.

Material and Methods A Hospital based cross-sectional study was conducted at outpatient block of General Medicine and Cardiology departments which included 175 women patients who were already diagnosed with CVD (with at least 3 months of medication) and those who were willing to give informed consent for participation. Semi structured questionnaire was used which consisted of sociodemographic variables, MMAS-4 to measure the level of adherence and various determinants such as socioeconomic, patient related, condition related, therapy related, and health system related.

Results Prevalence of medication adherence among women of CVDs using MMAS-4 was high, medium, and low among 39, 51, and 10%, respectively. Significant determinants found were socioeconomic, patient related, health system, and therapy related.

Conclusion Low-to-medium medication adherence was found to be high which needs to be addressed to reduce the morbidity and mortality associated with CVDs.

Keywords

medication adherence

the Morisky scale

women

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Introduction

Medication adherence is defined by the World Health Organization (WHO) as “the degree to which the person’s behavior corresponds with the agreed recommendations from a health care provider.1 This is influenced by multiple factors which is clearly depicted in multidimensional adherence model by WHO with five dimensions including social and economic, patient, condition related, therapy related, and health care system factors.2 Effects of poor medication adherence results in disease progression with its complications such as myocardial infarction and stroke, increased out-of-pocket expenditure for emergency hospitalization, reduced quality of life, and increased mortality.3 Out of the 17 million premature deaths (under the age of 70 years) due to noncommunicable diseases, 82% occurred in low- and middle-income countries, of which 37% were contributed by cardiovascular diseases (CVDs).4 In addition, the average age of CVD patients in India is about a decade lower than in the Western world, with a greater proportion experiencing myocardial infarction and poor outcomes.5 Recommended guidelines to reduce the morbidity and mortality associated with CVDs were lifestyle modifications such as maintenance of body weight, increased physical activity, dietary modifications and cessation of smoking along with prescribed intake of antihypertensive, antiplatelets, and statins. Among these the most critical determinant is adherence to medication at the secondary level of prevention.6

Nonadherence to cardiovascular medications has become increasingly documented across patient populations and cardiovascular drug classes throughout the world. A meta-analysis of 20 studies involving 376,162 patients illustrates a nonadherence prevalence of 43% throughout multiple drug classes, as measured by pharmacy refill data.7 This is well supported by WHO, where medication adherence accounts to 50% in developed countries and the situation seems to be much worse in developing countries, like India, due to poor access to health care services, poor affordability, and poor knowledge of the disease outcome.8 One of the most common method used to measure this medication adherence was self-reported medication taking behavior using validated the Morisky medication adherence scale-4 (MMAS-4).9

Indian studies have also found varied prevalence with low adherence among women.10 11 12 Gender specific could be attributed more to patient-related determinants wherein the chances of forgetfulness to take medicine could be high due to her increased roles and responsibilities along with other factors. There is also paucity of studies, specifically among women in our set up to understand the interplay of various determinants influencing the medication adherence. This early identification of the determinants which are amenable for modification can be addressed in clinical practice to reduce the poorer outcome. Therefore, this study has been taken up especially among women with an objective to ascertain the magnitude of level of medication adherence and also assess various determinants influencing its level.

Material and Methods

A hospital-based cross-sectional study was conducted at a tertiary care hospital located at Hyderabad. The study includes women patients who were already diagnosed with CVD, such as coronary artery diseases, hypertension, and stroke (with at least 3 months of medication), above the age of 18 years, and those who gave written consent for participation and attending as outpatients (OPD). Those who were not willing to be a part of this study, below the age of 18 years, pregnant, and lactating women were excluded. The sample size was calculated using the formulae 4PQ/L 2 with prevalence assumed as 50% from previous studies conducted in India10 and was rounded to 175. Simple random sampling method was adopted to select the women cases attending general medicine and cardiology OPD during 3 months of study period. Institutional ethical committee permission was obtained prior to the study. The Purpose of the study was explained and written informed consent was obtained from all the participants before administrating the questionnaire. Pilot study was conducted prior to the study and modifications were done in the questionnaire accordingly. Semistructured questionnaire was used consisting of sociodemographic variables, family history of hypertension/diabetes/coronary artery disease, reasons of good adherence and adherences, and personal habits. Clinical variables, such as type and duration of CVD, type and duration of medications, used by the patient were also detailed. The MMAS-4 was used to estimate the level of medication adherence which consisted of four questions. For each question with answer as “Yes” was allotted one point and with answer “No” was allotted zero points. Based on the score from these four questions, they were classified as high adherence with score of 0, medium adherence with score of 1 or 2, and low adherence with score of 3 or 4. Comprehensive WHO multidimensional adherence model classified the factors/determinants, such as socioeconomic determinants, which included poverty, unemployment, illiteracy, limited drug supply, and cost of medicines which were evaluated by probing questions like out of pocket expenditure. Patient-related determinants were assessed through their personal unwillingness, forgetfulness, taken alternative medicine, such as native medicine, ayurvedic, unani, or homeopathy medicines, and then felt better and stopped the medicines on their own. Health system–related determinants included irregular supply of drugs from the government, irregular follow-up and were not informed by the physician to continue as a life-long medication. Therapy-related determinants are long duration of treatment, too many drugs to be taken, fear of dependency on drugs, side-effects of drugs, unknown about the disease, and its complications. Condition-related determinants included usage of tobacco, alcohol, and other comorbidities associated obtained from previous reports and medications being taken were evaluated in the questionnaire.

Statistical Analysis

Data were entered in Microsoft excel 2018 and analyzed using Open Epi calculator to determine the association between various determinants and medication adherence using row by column table. Descriptive statistics are analyzed as frequency and mean ± standard deviation. Chi-square test was used to predict the association between various determinants and medication adherence.

Results

Our study included 175 women above the age of 18 years diagnosed with any of the CVDs such as hypertension, coronary artery disease, and stroke. Women diagnosed with hypertension, coronary artery disease, and stroke were 145 (83%), 18 (10%), and 12 (7%), respectively (Fig. 1).

Sociodemographic Characteristics

Our study consisted Hindus 133 (76%), Muslims 30 (17%) and Christians 12 (7%). As per their educational status, they were illiterates 110 (63%), primary school attainment 30 (17%), middle school 12 (7%), high school 18 (10.4%), graduate/postgraduate 4 (2%), and professional 1 (0.6%).

Their occupational status is as follows: unemployed 136 (77%), unskilled 23 (14%), semiskilled 8 (5%), skilled 7 (3%), and professional 1 (1%). Among them, unmarried, married, and widow were 3(1.7%), 136 (78%), and 36 (20.3%). Again, 138 (79%) belonged to nuclear family, 30 (17%) belonged to joint family, and 7(4%) belonged to extended family. Mean age was found to be 54.13 ± 10.53 years. As per modified B.G.13 Prasad’s classification, 34 (19%) belonged to upper class, 67 (38%) belonged to upper middle class, 51 ( 31%) belonged to middle class, 23 (13%) belonged to lower middle class, and 0 (0%) belonged to lower class.

Family history of hypertension was found among 80 (44%) and coronary artery disease among 7 (4%) of our study participants. Alcohol usage was found among 9 (5%) and tobacco usage was found among 14 (8%) women. Mean duration of taking medication for any of the CVD was 5.33 ± 4.85 years.

Prevalence of Medication Adherence among Women of Cardiovascular Diseases Using the Morisky Scale

Prevalence of medication adherence among women of CVDs using MMAS-4 was found high, medium, and low among 68 (39%), 89 (51%), and 18 (10%), respectively (Fig. 2).

Common Reasons for Good Adherence

Most common reasons for good adherence to medicines were the multiple responses that included the good doctor–patient relationship 118 (68%), followed by good knowledge of disease and complications 113 (65%), and regular follow-up 114 (65%).

Common Reasons for Poor Adherence

The Most common reasons for poor adherence to medicines were multiple responses and included forgetfulness 20 (11%), poverty 16 (9.1%), irregular supply of drugs 14 (8%), and limited supply among 13 (7.4%).

Various Determinants of Medication Adherence among Study Patients

Various determinants of medication adherence were classified into four main categories such as socioeconomic, patient related, health system related, and therapy related.

Socioeconomic Determinants

Poverty, unemployment, illiteracy, limited supply of drugs, and high cost of medicines were the major determinants and statistically significant with low-medication adherence in our study (Table 1). Out-of-pocket expenditure was found to be Rupees. 415/- as a mean and maximum amount was up to Rupees. 4,000/- among our participants.

Table 1

Association of socioeconomic determinants with medication adherence

Socioeconomic determinants		Good adherence n = 68 (%)	Medium adherence n = 89 (%)	Low adherence n = 18 (%)	Total n = 175 (%)
Poverty	Yes	0 (0)	5 (45)	11 (55)	16 (100)
	No	68 (43)	84 (53)	7 (4%)	159 (100)
	X ² = 66.69; p = 0.0001
Unemployment	Yes	0 (0)	0 (0)	4 (100)	4 (100)
	No	68 (40)	89 (52)	14 (8)	171 (100)
	X ² = 35.70; p = 0.0004
Illiteracy	Yes	0 (0)	0 (0)	6 (100)	6 (100)
	No	68 (40)	89 (53)	12 (7)	169 (100)
	X ² = 54.19; p = 0.0003
Limited drug supply	Yes	0 (0) 3 (23)		10 (77)	13 (100)
	No	68 (42)	8 (5)
	X ² = 68.27; p = 0.0001
High cost	Yes	0 (0)	3 (37)	5 (63)	8 (100)
	No	68 (41)	86 (51)	13 (8)	167 (100)
	X ² = 25.72; p = 0.001

Patient-Related Determinants

Statistically significant association was found with unwillingness of patients to take medicines and forgetfulness of patients on analysis with low-medication adherence (Table 2). Other reasons, such as symptoms subsided/felt better so stopped medicines and taking alternative medicine, were not associated with medication adherence.

Table 2

Association of patient-related determinants with medication adherence

Patient-related determinants		Good adherence n = 68 (%)	Medium adherence n = 89 (%)	Low adherence n = 18 (%)	Total n = 175 (%)
Unwillingness	Yes	0 (0)	0 (0)	5 (100)	5 (100)
	No	68 (40)	86 (52)	13 (8)	170 (100)
	X ² = 44.89; p = 0.0001
Forgetfulness	Yes	0 (0)	6 (30)	14 (70)	20 (100)
	No	68 (44)	83 (53)	4 (3)	155 (100)
	X ² = 88.25; p = 0.000001

Health System–Related Determinants

Irregular supply of drugs from government center, not informed by doctor about continuing medicines, and life-long and irregular follow-up were statistically significant with low-medication adherence in our study patients (Table 3).

Table 3

Association of health system–related determinants with medication adherence

Health system determinants		Good adherence n = 68 (%)	Medium adherence n = 89 (%)	Low adherence n = 18 (%)	Total n = 175 (%)
Irregular supply of drugs from government center	Yes	0 (0)	2 (14)	12 (86)	14 (100)
	No	68 (42)	87 (54)	6 (4)	161 (100)
	X ² = 94.08; p = 0.0001
Not informed by doctor about continuing medicines life-long	Yes	0 (0)	1 (33)	2 (67)	3 (100)
	No	68 (41)	88 (51)	16 (10)	172 (100)
	X ² = 10.81; p = 0.005
Irregular follow-up	Yes	0 (0)	2 (20)	8 (80)	10 (100)
	No	68 (41)	87 (52)	10 (7)	165 (100)
	X ² = 55.86; p = 0.0001

Therapy-Related Determinants

Long duration of treatment, adverse effects of drugs, and no knowledge of complications were statistically significant with low-medication adherence (Table 4). Other factors, such as complex treatment regimen/multiple drugs, fear of dependence, and understanding/perceptions of disease as life-threatening or dangerous, were neither significant nor associated in our study.

Table 4

Association of therapy-related determinants with medication adherence

Therapy-related determinants		Good adherence n = 68 (%)	Medium adherence n = 89 (%)	Low adherence n = 18 (%)	Total n = 175 (%)
Long duration of treatment	Yes	0 (0)	2 (22)	7 (78)	9 (100)
	No	68 (41)	87 (52)	11 (7)	166 (100)
	X ² = 47.23; p = 0.0001
Adverse effects of drugs	Yes	0 (0)	0 (0)	3 (100)	3 (100)
	No	68 (39)	89 (52)	15 (9)	172 (100)
	X ² = 26.62; p = 0.001
No knowledge of complications	Yes	0 (0)	2 (33)	4 (67)	6 (100)
	No	68 (40)	87 (52)	14 (8)	169 (100)
	X ² = 21.99; p = 0.0001

Condition-Related Determinants

Comorbidities associated were diabetes mellitus among 41 (23%) and thyroid disorders among 15 (8%), but statistical significance cannot be established with these condition-related factors along with their personal habits, such as alcohol and tobacco usage, due to their small number.

Discussion

In our study, approximately 61% of the women were found to have low-to-medium level of medication adherence for the secondary prevention of CVDs at a tertiary care hospital of Hyderabad. Thakur et al, in their study at Chandigarh, found 48.1% of women to have low-to-medium level of medication adherence for the coronary artery disease using MMAS-8.10 In their study at Puducherry, to assess adherence among hypertensive patients, Shankar et al also found 63% of women to have reported nonadherence using MMAS having seven question with four-point response format.4 Ramli et al, in their study at primary health care clinics of Malaysia, found 43.7% of women with hypertension to have nonadherence to medication using MMAS-8.5 All these variations can be explained by varying sociodemographic regions and also varying scales used to measure the adherence.

Complex interplay of multiple factors determine adherence to medication. In the present study, it was found that the most common reasons for poor adherence were forgetfulness (11%), poverty (9.1%), irregular supply (8%), and limited supply of drugs (7.4%). Statistically significant association was found with socioeconomic determinants which included poverty, unemployment, illiteracy, limited drugs supply, and high cost of medicines. Among the patient-related determinants, unwillingness and forgetfulness were found to be statistically significant. Health system–related determinants were irregular supply, not informed by the physician about life-long intake of medicines, and irregular follow-up. Therapy-related determinants, such as long duration, adverse events of drugs, and no knowledge about complications, were also found statistically significant among our study patients.

Similar findings were found by Awad et al, in their study among Sudanese, where the most common reasons for low-medication adherence were high cost of drugs, polypharmacy, lack of pharmacist’s communication with them regarding the instructions and importance of taking the drug, lack of physician’s communication with them regarding their illness, side-effects associated with their medications, and irregular availability of the drugs in their areas.6 Van der Laan et al among the Netherland patients also found older age, forgetfulness, too many pills, and insufficient knowledge on what to do when a dose is forgotten as the common factors for determining medication adherence.7 In Indian set up, similar findings were also reported by Gupta et al with main factors as forgetfulness and absence of symptoms of hypertension, drugs side-effects, and out of supply as reasons for their medication adherence which accounted to 20% medium and 21.4% low-medication adherence.8 Socioeconomic determinants seem to play a predominant role in low- and middle-income countries compared with high-income countries. And also the self-reported behavior of noncompliance needs to be changed to reduce the morbidity and mortality.

Conclusion

Low-to-medium medication adherence was found to be more than half among our study patients which needs to be addressed by targeting the common determinants, such as forgetfulness, which can be reduced by putting reminders in mobile phones, creating health education about the importance of intake of drugs, and thereby preventing complications with regular follow–up, and also the physician’s utmost need to explain the life-long intake along with lifestyle modifications.

Acknowledgments

We would extend our sincere thanks to Dr. Rajiv, Assistant Professor, Department of General Medicine and Dr. Sai, Cardiologist for their kind cooperation in the outpatient block. Also to all our study patients who gave their consent to participate in our project.

We thank our guide Dr. Sudha Bala and all the participants for extending the support.

Conflicts of Interest

None declared.

Funding Students Prajwalika Scholarship program 2019, Women in Cardiology and related sciences association.

References

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World Health Organization. Cardiovascular diseases (CVDs). Fact sheets. Available at: https://www.who.int/news-room/fact-sheets/detail/cardiovascular-diseases-(cvds) Accessed October 4, 2019
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Naderi S. H., Bestwick J. P., Wald D. S., . Adherence to drugs that prevent cardiovascular disease: meta-analysis on 376,162 patients. Am J Med. 2012;125(09):882-7.e1.
[Google Scholar]
Akeroyd J. M., Chan W. J., Kamal A. K., Palaniappan L, Virani S. S., . Adherence to cardiovascular medications in the South Asian population: a systematic review of current evidence and future directions. World J Cardiol. 2015;7(12):938-947.
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Thakur J. S., Vijayvergiya R, Jaswal N, Ginsburg A, . Assessment and barriers to medication adherence for secondary prevention of cardiovascular disease among patients with coronary artery disease in Chandigarh, India. Int J Non-Commun Dis. 2016;1:37-41.
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Rao C. R., Kamath V. G., Shetty A, Kamath A, . Treatment compliance among patients with hypertension and type 2 diabetes mellitus in a coastal population of southern India. Int J Prev Med. 2014;5(08):992-998.
[Google Scholar]
Venkatachalam J, Abrahm S. B., Singh Z, Stalin P, Sathya G. R., . Determinants of patient’s adherence to hypertension medications in a rural population of Kancheepuram district in Tamil Nadu, South India. Indian J Community Med. 2015;40(01):33-37.
[Google Scholar]
Pandey VK, Aggarwal P, Kakkar R, . Modified BG Prasad’s Socio-economic Classification-2018: The need of an update in the present scenario. Indian J Comm Health. 2018;30(01):82-84.
[Google Scholar]
Shankar S. P., Suman Babu I SS, Ramya N, . A study on usefulness of modified medication adherence scale in assessing adherence among hypertensive patients. Perspect Clin Res. 2019;10(04):163-167.
[Google Scholar]
Ramli A, Ahmad N. S., Paraidathathu T, . Medication adherence among hypertensive patients of primary health clinics in Malaysia. Patient Prefer Adherence. 2012;6:613-622.
[Google Scholar]
Awad A, Osman N, Altayib S, . Medication adherence among cardiac patients in Khartoum State, Sudan: a cross-sectional study. Cardiovasc J Afr. 2017;28(06):350-355.
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van der Laan D. M., Elders P JM, Boons C CLM, Nijpels G, Hugtenburg J. G., . Factors associated with nonadherence to cardiovascular medications: a cross-sectional study. J Cardiovasc Nurs. 2019;34(04):344-352.
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Gupta M. C., Bhattacharjee A, Singh H, . Evaluation of medication adherence patterns amongst anti-hypertensive drug users in a tertiary care hospital in north India. Int J Basic Clin Pharmacol. 2016;5:2261-2266.
[Google Scholar]

Show Sections

[1] Rand C. S., . Measuring adherence with therapy for chronic diseases: implications for the treatment of heterozygous familial hypercholesterolemia. Am J Cardiol. 1993;72(10):68D-74D.
[Google Scholar]

[2] Sabate E, World Health Organization , . 2003. Adherence to Long Term Therapies. Evidence for Action. Geneva, Switzerland: World Health Organization

[3] Osterberg L, Blaschke T, . Adherence to medication. N Engl J Med. 2005;353(05):487-497.
[Google Scholar]

[4] World Health Organization. Cardiovascular diseases (CVDs). Fact sheets. Available at: https://www.who.int/news-room/fact-sheets/detail/cardiovascular-diseases-(cvds) Accessed October 4, 2019

[5] Xavier D, Pais P, Devereaux P. J., et al . CREATE registry investigators. Treatment and outcomes of acute coronary syndromes in India (CREATE): a prospective analysis of registry data. Lancet. 2008;371:1435-1442. (9622)
[Google Scholar]

[6] Smith SC J r, Allen J, Blair S. N., et al . AHA; ACC; National Heart, Lung, and Blood Institute. AHA/ACC guidelines for secondary prevention for patients with coronary and other atherosclerotic vascular disease: 2006 update endorsed by the National Heart, Lung, and Blood Institute. J Am Coll Cardiol. 2006;47(10):2130-2139.
[Google Scholar]

[7] Naderi S. H., Bestwick J. P., Wald D. S., . Adherence to drugs that prevent cardiovascular disease: meta-analysis on 376,162 patients. Am J Med. 2012;125(09):882-7.e1.
[Google Scholar]

[8] Akeroyd J. M., Chan W. J., Kamal A. K., Palaniappan L, Virani S. S., . Adherence to cardiovascular medications in the South Asian population: a systematic review of current evidence and future directions. World J Cardiol. 2015;7(12):938-947.
[Google Scholar]

[9] Morisky D. E., Green L. W., Levine D. M., . Concurrent and predictive validity of a self-reported measure of medication adherence. Med Care. 1986;24(01):67-74.
[Google Scholar]

[10] Thakur J. S., Vijayvergiya R, Jaswal N, Ginsburg A, . Assessment and barriers to medication adherence for secondary prevention of cardiovascular disease among patients with coronary artery disease in Chandigarh, India. Int J Non-Commun Dis. 2016;1:37-41.
[Google Scholar]

[11] Rao C. R., Kamath V. G., Shetty A, Kamath A, . Treatment compliance among patients with hypertension and type 2 diabetes mellitus in a coastal population of southern India. Int J Prev Med. 2014;5(08):992-998.
[Google Scholar]

[12] Venkatachalam J, Abrahm S. B., Singh Z, Stalin P, Sathya G. R., . Determinants of patient’s adherence to hypertension medications in a rural population of Kancheepuram district in Tamil Nadu, South India. Indian J Community Med. 2015;40(01):33-37.
[Google Scholar]

[13] Pandey VK, Aggarwal P, Kakkar R, . Modified BG Prasad’s Socio-economic Classification-2018: The need of an update in the present scenario. Indian J Comm Health. 2018;30(01):82-84.
[Google Scholar]

[14] Shankar S. P., Suman Babu I SS, Ramya N, . A study on usefulness of modified medication adherence scale in assessing adherence among hypertensive patients. Perspect Clin Res. 2019;10(04):163-167.
[Google Scholar]

[15] Ramli A, Ahmad N. S., Paraidathathu T, . Medication adherence among hypertensive patients of primary health clinics in Malaysia. Patient Prefer Adherence. 2012;6:613-622.
[Google Scholar]

[16] Awad A, Osman N, Altayib S, . Medication adherence among cardiac patients in Khartoum State, Sudan: a cross-sectional study. Cardiovasc J Afr. 2017;28(06):350-355.
[Google Scholar]

[17] van der Laan D. M., Elders P JM, Boons C CLM, Nijpels G, Hugtenburg J. G., . Factors associated with nonadherence to cardiovascular medications: a cross-sectional study. J Cardiovasc Nurs. 2019;34(04):344-352.
[Google Scholar]

[18] Gupta M. C., Bhattacharjee A, Singh H, . Evaluation of medication adherence patterns amongst anti-hypertensive drug users in a tertiary care hospital in north India. Int J Basic Clin Pharmacol. 2016;5:2261-2266.
[Google Scholar]

Medication Adherence and Its Determinants among Women of Cardiovascular Disease of Tertiary Care Hospital, Hyderabad

Abstract

Abstract

Keywords

medication adherence

the Morisky scale

women

Introduction

Material and Methods

Statistical Analysis

Results

Sociodemographic Characteristics

Prevalence of Medication Adherence among Women of Cardiovascular Diseases Using the Morisky Scale

Common Reasons for Good Adherence

Common Reasons for Poor Adherence

Various Determinants of Medication Adherence among Study Patients

Socioeconomic Determinants

Patient-Related Determinants

Health System–Related Determinants

Therapy-Related Determinants

Condition-Related Determinants

Discussion

Conclusion

Acknowledgments

Conflicts of Interest

References

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