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Pharmacy Practice (Granada)

versión On-line ISSN 1886-3655versión impresa ISSN 1885-642X

Pharmacy Pract (Granada) vol.16 no.4 Redondela oct./dic. 2018  Epub 21-Oct-2019

https://dx.doi.org/10.18549/pharmpract.2018.04.1291 

Original Research

Evaluation of medication adherence among Lebanese diabetic patients

Lara Mroueh (orcid: 0000-0002-6747-4046)1  , Dana Ayoub (orcid: 0000-0001-9438-5324)2  , Maya El-Hajj (orcid: 0000-0001-9747-5675)3  , Sanaa Awada (orcid: 0000-0001-9482-2483)4  , Samar Rachidi (orcid: 0000-0003-4781-9526)5  , Salam Zein (orcid: 0000-0003-4401-7480)6  , Amal Al-Hajje (orcid: 0000-0001-7810-3390)7 

1PharmD. Clinical and Epidemiological Research Laboratory, Faculty of Pharmacy, Lebanese University. Beirut (Lebanon). laramroueh@outlook.com

2PharmD. Clinical and Epidemiological Research Laboratory, Faculty of Pharmacy, Lebanese University. Beirut (Lebanon). danaayoub@hotmail.com

3PhD. Clinical and Epidemiological Research Laboratory, Faculty of Pharmacy, Lebanese University. Beirut (Lebanon). hajj_maya@hotmail.com

4PharmD, PhD. Clinical and Epidemiological Research Laboratory, Faculty of Pharmacy, Lebanese University. Beirut (Lebanon). sanaa3a@hotmail.com

5PharmD, PhD. Clinical and Epidemiological Research Laboratory, Faculty of Pharmacy, Lebanese University. Beirut (Lebanon). samar.rachidi@outlook.com

6PharmD, PhD. Clinical and Epidemiological Research Laboratory, Faculty of Pharmacy, Lebanese University. Beirut (Lebanon). salamzein@hotmail.com

7PharmD, PhD. Clinical and Epidemiological Research Laboratory, Faculty of Pharmacy, Lebanese University. Beirut (Lebanon). amalkeh@hotmail.com

Abstract

Background:

Diabetes type 2 is considered one of the main public health concerns. Lack of adherence to treatment leads to poor therapeutic outcome, poor glycemic control, and high risk for developing diabetes complications.

Objectives:

The aim of this study is to evaluate adherence to oral antidiabetic medication in Diabetes type 2 Lebanese patients, and to evaluate factors leading to low adherence.

Methods:

A cross-sectional study was conducted in outpatients endocrinology clinics of two hospitals and four private clinics located in Beirut-Lebanon. Data was collected using a well-structured questionnaire by trained pharmacists. Adherence level was measured by the Lebanese Medication Adherence Scale (LMAS-14). Bivariate and multivariate analyses were conducted using SPSS version 20.

Results:

Overall, 245 patients were included in the study with the majority being females (54.3%) and obese (47.8%). Only 29% of the participants had controlled glycemia (HbA1c <7%) with 31.8% of subjects had high adherence to their medication compared to 68.2% with low adherence. Increased working hours/day was associated with a decrease in adherence to oral antidiabetic medication (OR=0.31; 95% CI 0.11:0.88; p=0.029). Other factors significantly associated with decreased adherence to treatment were forgetfulness, high drug costs, complex treatment regimens, experiencing side effects, and perception of treatment inefficacy. Postponing physician office visits also decreased the probability of being adherent to oral antidiabetic medication (OR=0.36; 95% CI 0.15:0.86; p=0.022). Skipping or doubling the dose in case of hypo/hyperglycemia and the sensation of treatment burden also decreased medication adherence (OR=0.09; 95% CI 0.02:0.34; p=0.001, and OR=0.04; 95% CI 0.01:0.13; p<0.001 respectively).

Conclusions:

Adherence to oral antidiabetic medication is low for Lebanese patients, which leads to a poor glycemic control and increases the diabetes complications. Intervention programs including patient education strategies are essential to improve medication adherence.

Key words: Medication Adherence; Treatment Adherence and Compliance; Diabetes Mellitus; Type 2; Risk Factors; Multivariate Analysis; Cross-Sectional Studies; Lebanon

INTRODUCTION

Diabetes type 2 (DM2) is considered one of the main public health concerns, and its prevalence is increasing at an alarming rate worldwide.1According to the International Diabetes Federation’s latest report, the global prevalence of diabetes is estimated to be 8.8%2, and predicted to increase by 54% worldwide between 2010 and 2030.3The World Health Organization (WHO) estimates that Diabetes will be the seventh leading cause of death by 2030.2

The American Diabetic Association (ADA) considers glycemic control as an important strategy for managing DM2.4Glycosylated hemoglobin (HbA1c) is the most reliable method and the main target to control glycemia and prevent complications.5The treatment target set by ADA for HbA1c is less than 7%.4A high value of HbA1c (7% or over) indicates a poor diabetes control, leading to severe complications such as cardiovascular disease, neuropathy, retinopathy, nephropathy, and lower limb amputations.6,7

A study done in the United States found that 12.9% of diabetic patients had poor glycemic control and did not achieve the control target HbA1c8compared to a larger number of diabetic patients in Saudi Arabia, Lebanon, Jordan, and Libya (32.1%, 31.8%, 30%, and 20.2% respectively).9,10,11,12

The WHO defines adherence as the extent to which a patient’s behavior in medication intake, diet follow up, and performing lifestyle changes, agrees with health care provider recommendations.13In developed countries, WHO estimates adherence to long-term therapy for chronic diseases to be around 50%.13Adherence to diabetes treatment is very variable and may range from 1.4 to 88%.14A great progress has been made in the treatment of DM2 with the development of new therapeutic classes. However, a lack of adherence to treatment leads to a poor therapeutic outcome, a poor glycemic control, a high risk for developing diabetes complications, and an increased hospitalization and death rates.15 16-17In a study conducted on diabetic patients in Malaysia, 53% of patients were found to have low adherence18and 72% of patients had poor glycemic control.19Nevertheless, several studies have shown a positive association between adherence and glycemic control.20,21

Numerous factors influence treatment adherence, including demographic characteristics, socioeconomic status, duration of disease, class of drug prescribed, presence of comorbidities, polypharmacy, patient-healthcare provider relationship, occurrence of adverse events, perception of inefficacy, drug cost, forgetfulness, and presence of psychological factors, specifically depression.22

In Lebanon, there is a shortage of studies evaluating adherence to antidiabetic medication. Therefore, the main objective of this study is to evaluate adherence to oral antidiabetic medication for DM2 Lebanese patients, and to evaluate factors leading to low adherence.

METHODS

Study design

An observational cross-sectional study was conducted in outpatient endocrinology clinics of two tertiary care hospitals and four private endocrinology clinics located in Beirut, Lebanon between April 1st, 2017 and July 30th, 2017.

The sample size in this cross-sectional study was calculated using the following formula23:

n - Z2*p(1-p)/d2

where Z is the standard normal variate (Z=1.96 when confidence interval is 95%), p is the expected proportion of outcome in the population (based on other studies), and d is the precision.23

Based on a study done on Lebanese patients with chronic diseases, 17% were highly adherent24, so a minimal sample size of 217 patients was necessary.

Lebanese adult outpatients (>18 years), diagnosed with DM2 by an endocrinologist and have been taking at least one oral antidiabetic medication (biguanides, sulfonylureas, meglitinides, thiazolidinediones, dipeptidyl peptidase 4 inhibitors, alpha-glucosidase inhibitors and sodium-glucose co-transporter 2 inhibitors) for at least 6 months were included in this study. Excluded subjects were patients less than 18 years of age, patients with diabetes type 1, patients on insulin therapy only, pregnant women, and patients with memory disorders or intellectual disability.

Data collection

Data was collected using a well-structured questionnaire which was developed based on a literature review. The questionnaire was presented in Arabic language to facilitate its comprehension and was filled by trained pharmacists. It was tested on 20 patients to evaluate their understanding of the questions and to do the necessary modifications. These patients were not included in the final sample.

The questionnaire contained data about sociodemographic characteristics, lifestyle information such as physical activity defined by at least 30 minutes of moderate-intensity exercise on most days of the week25, health status, patient disease status, medication-related characteristics, medication adherence using a Lebanese Medication Adherence Scale (LMAS-14), patient’s relationship with the healthcare providers, and information about the patient’s attitudes, behaviors, knowledge, and motivation towards his illness and treatment.

The clinics were visited by patients coming from different Lebanese regions. For each patient visiting the clinics included in the study, interviewers checked the patient’s file to confirm the diagnosis of DM2 and to check the inclusion criteria. An oral consent was obtained from each patient to participate in the study. Accurate data on the patient’s medical and medication history was recorded from the patient’s file. The value of HbA1c of each patient was taken from the recent lab test performed within less than 1 month, brought in with the patient. A controlled HbA1c in DM2 patients is defined as being below 7%.5Patients were asked about past medication history and over-the-counter (OTC) drugs containing sugar such as cough syrups and some vitamins. Certain acute hyperglycemic medications such as glucocorticoids, and some chronic drugs such as thiazide diuretics, and atypical antipsychotics were also recorded.5

The LMAS-14

Adherence to oral antidiabetic medication was evaluated using the fourteen-item LMAS-14. This instrument is a new Lebanese scale to measure medication adherence by considering socio-economic and cultural factors related to the Lebanese culture. It was validated by Lebanese hypertensive patients and can be used to assess adherence to treatment in chronic diseases.26The LMAS-14 contains 14 Likert scale questions with four answers each (coded from zero (less adherence) to three (high adherence)). Score can range from zero (lowest adherence) to 42 (highest adherence). LMAS assesses occupational factors including forgetfulness during busy periods (intensive work or travel), if the patient was invited to lunch or dinner, if some food items were prohibited during treatment period because of possible food-medication interaction, and delay in buying a new pills box when the old one is over. It also assesses psychological factors including experiencing any secondary effects or feeling clinically better or worse with a change in behavior when the laboratory exams are improved. Annoyance factors are also included in LMAS-14 such as frustration from taking a lot of pills, boredom of chronic treatment, and experience of some side effects. Finally, economical factors are assessed in LMAS-14 including health insurance coverage of medication cost, and expensive medication.

Each patient’s score was calculated to assess adherence to medication. Patients were classified into adherent or non-adherent using a cut-off point of 38 as in previous studies. Sensitivity and specificity of LMAS-14 were respectively 82.9% and 36.9%.26

Data analysis

All data were analyzed using SPSS version 20. Bivariate and multivariate analyses (logistic regression) were done. A confidence interval of 95% and a p-value <0.05 were considered to get a statistically significant result. The dependent variable for logistic regression was the dichotomized adherence score (based on a cut-off point=38). Only variables having p-value<0.2 in the bivariate analysis were included in the multivariate analysis.

RESULTS

A total of 245 patients who met the inclusion criteria were included in this study, with an average age of 59.32 years (SD=10.77). More than half of the patients (54.3%) were females. Age difference was not significant between males (60.59 years; SD 11.22) and females (58.25 years; SD 10.304) with a p-value=0.09. The majority of the patients were either overweight (37.1%) or obese (47.8%). Most of the patients were illiterate (35.5%) and unemployed (49%). Around half of the population (50.6%) was nonsmokers. Only 34.7% were physically active and 20.4% followed the diet recommended by their physician properly. One hundred sixty patients (65.3%) had a family history of diabetes. The mean duration of diabetes was 9.03 years (SD 8.01) and was accompanied with comorbidities in 86.5% of the cases. The most common comorbidity was hypertension (61.6%) followed by dyslipidemia (60%). Almost 63% of patients regularly measured their HbA1c. The mean HbA1c was 7.90% (SD 1.63). Good glycemic control (HbA1c<7) was achieved in only 29% of participants. The total number of medications taken per day by the patients was 5.21 (SD 2.76). The most common class of oral antidiabetics taken was biguanides (88.2%) followed by sulfonylureas (51.4%) (Table 1).

Table 1. Description of the study population (N=245) 

Variables n (%)
Sex
Females 133 (54.3)
Body mass index (BMI)1
Underweight (BMI<18.5 kg/m2) 1 (0.4)
Normal weight (BMI≥18.5 kg/m2) 36 (14.7)
Overweight (BMI≥25 kg/m2) 91 (37.1)
Obese (BMI≥30 kg/m2) 117 (47.8)
Education level
Illiterate 87 (35.5)
Elementary 74 (30.2)
Intermediate/ Secondary 56 (22.9)
University 28 (11.4)
Occupation
Unemployed 120 (49)
Employed/Self-employed 111 (45.3)
Retired 14 (5.7)
Working hours/ day
0 134 (54.7)
<8h 13 (5.3)
>8h 98 (40)
Medical Insurance 177 (72.2)
Smoking
Yes 96 (39.2)
No 124 (50.6)
Ex-smoker 25 (10.2)
Physical activity 85 (34.7)
Recommendation of diet by physician 237 (96.7)
Follow-up of diet
No/Sometimes 195 (79.6)
Yes 50 (20.4)
Family history of diabetes 160 (65.3)
Intake of chronic hyperglycemic medication 41 (16.7)
Intake of acute hyperglycemic medication (OTC) 80 (32.7)
HbA1c (%)
Uncontrolled (≥7%) 174 (71)
Controlled (<7%) 71 (29)
Type of Comorbidities
Hypertension 151 (61.6)
Dyslipidemia 147 (60)
Respiratory diseases (Asthma or COPD2) 9 (3.7)
Congestive heart failure/Angina/ Arythmia 40 (16.3)
Kidney disease 19 (7.8)
Hepatic disease 3 (1.2)
Gastrointestinal disease 11 (4.5)
Other Comorbidities (uricemia, anemia, osteoporososis, thyroid/nervous disease...) 101 (41.2)
Pharmacological class of oral antidiabetic medication
Biguanides 216 (88.2)
Sulfonylureas 126 (51.4)
DPP-4 inhibitors 96 (39.2)
Thiazolidinediones 14 (5.7)
SGLT2 inhibitors 11 (4.5)
Meglitinides 8 (3.3)
Alpha-glucosidase inhibitors 2 (0.8)
Combination 91 (37.1)

1World Health Organization (WHO). Global Database on Body Mass Index.

2COPD: Chronic Obstructive Pulmonary Disease

After classification of LMAS-14 score into two classes, 31.8% of patients had a high adherence (score≥38) and 68.2% had low adherence (score<38) following dichotomization using a cut-off point 38.

Bivariate analysis

Among socio-demographic factors, only working hours/day had a significant influence on medication adherence (p=0.001).

Concerning lifestyle characteristics, among patients who follow up the diet recommended by their physician, most of them were adherent to their oral antidiabetic medication (30.8%) while 15.6% were non-adherent (p=0.006). Moreover, among patients who do not consume beverages containing sugar, 85.9% of them were adherent (p=0.01).

Among patients who had an uncontrolled HbA1c level, 75.4% of the patients were non-adherent to their oral antidiabetic medication (p=0.025). Concerning patient’s health status, the presence of comorbidities had no significant effect on medication adherence. However, the presence of respiratory disease (Asthma or Chronic Obstructive Pulmonary Disease) was associated with a decrease in medication adherence (p=0.041) (7.8% were non-adherent while 1.3% were adherent).

Taking sulfonylureas was also a significant factor (p=0.026) affecting adherence. From the patients who knew the names of their antidiabetic drugs, 52.6% were adherent while 37.7% were not (p=0.029), and among patients who did not understand their treatment regimen, 20.5% were adherent while 34.1% were not (p=0.03). Among patients who postponed their physician office visits, 53.9% were non-adherent while 29.5% were adherent (p<0.001), and finally among patients who visited their physicians annually or every few years, 32.9% and 14.4% were non-adherent, while 23.1% and 5.1% were adherent (p=0.026), respectively.

Experiencing side effects lead patients to be less adherent (p=0.002). Among the patients who had experienced side effects, 43.7% were non-adherent while 23.1% were adherent. On the other hand, stopping medication in case of hypo/hyperglycemia and fasting were also significant factors for non-adherence, p<0.001 and p=0.012, respectively. Moreover, forgetfulness, high drug cost, complex treatment regimens, and perception of treatment inefficacy had a significant association with poor medication adherence (p<0.001) (Table 2).

Table 2. Factors associated with adherence score using a dichotomized scale 

Variables n (%)
Non-adherent (<38)
n (%)
Adherent (≥38)
p-value
Working hours/ day 0.001
0 97 (58.1) 37 (47.4)
< 8h 3 (1.8) 10 (12.8)
> 8h 67 (40.1) 31 (39.7)
Follow up of diet 0.006
No/ Sometimes 141 (84.4) 54 (69.2)
Yes 26 (15.6) 24 (30.8)
Consumption of beverages with sugar 0.010
No 118 (70.7) 67 (85.9)
Yes 49 (29.3) 11 (14.1)
HbA1c 0.025
Uncontrolled (≥ 7%) 126 (75.4) 48 (61.5)
Controlled (< 7%) 41 (24.6) 30 (38.5)
Respiratory disease (Asthma or COPD) 0.041
No 154 (92.2) 77 (98.7)
Yes 13 (7.8) 1 (1.3)
Sulfonylureas 0.026
No 73 (43.7) 46 (59)
Yes 94 (56.3) 32 (41)
Knowledge of the drugs’ names by the patient 0.029
Some of them/ No 104 (62.3) 37 (47.4)
Yes 63 (37.7) 41 (52.6)
The patient understood his treatment regimen 0.030
No 57 (34.1) 16 (20.5)
Yes 110 (65.9) 62 (79.5)
Postponing physician office visits < 0.001
No 77 (46.1) 55 (70.5)
Yes 90 (53.9) 23 (29.5)
Frequency of physician office visits 0.026
Every month 15 (9) 8 (10.3)
Every 3 to 6 months 73 (43.7) 48 (61.5)
Every year 55 (32.9) 18 (23.1)
Every few years (> 2 years) 24 (14.4) 4 (5.1)
Experience of side effects 0.002
No 94 (56.3) 60 (76.9)
Yes 73 (43.7) 18 (23.1)
In case of hypo/hyperglycemia, patient skips/doubles the dose < 0.001
No 115 (68.9) 72 (92.3)
Yes 52 (31.1) 6 (7.7)
In fasting states, patient skips taking his medication 0.012
No 136 (81.4) 73 (93.6)
Yes/ Sometimes 31 (18.6) 5 (6.4)
Following healthcare provider instructions < 0.001
No/ Sometimes 73 (43.7) 16 (20.5)
Yes 94 (56.3) 62 (79.5)
Main reason for discontinuing treatment < 0.001
Forgetfulness 55 (32.9) 5 (6.4)
High cost 41 (24.6) 11 (14.1)
Complexity of treatment regimen 11 (6.6) 3 (3.8)
Experience of unwanted side effects 22 (13.2) 1 (1.3)
Perception of inefficacy 10 (6) 1 (1.3)
No discontinuation of treatment 28 (16.8) 57 (73.1)
The patient feels his treatment is inconvenient and a burden < 0.001
No 71 (42.5) 70 (89.7)
Yes 96 (57.5) 8 (10.3)
Number of comorbidities Mean = 2.072 Mean = 1.705 0.047
Total number of medications/ day Mean = 5.503 Mean = 4.590 0.016
Number of antidiabetic medication / day Mean = 1.898 Mean = 1.667 0.041

Multivariate analysis

Results of logistic regression showed that increased working hours/day was associated with a decrease in adherence to oral antidiabetic medication (OR=0.31; 95%CI 0.11:0.88; p=0.029). Forgetfulness, high drug cost, complex treatment regimens, experiencing side effects, and perception of inefficacy were significantly associated with a decrease in the level of adherence (p<0.001, p=0.004, p=0.002, p=0.001, and p=0.031 respectively). Postponing physician office visits significantly decreased the probability of being adherent to oral antidiabetic medication (OR=0.36; 95%CI 0.15:0.86; p=0.022). Skipping or doubling the dose in case of hypo/hyperglycemia, and sensation of treatment burden were also significantly associated with a decrease in the level of adherence (OR=0.09; 95%CI 0.02:0.034; p=0.001, and OR=0.04; 95%CI 0.01:0.13; p<0.001 respectively) (Table 3).

Table 3. Results of the binary logistic regression using the dichotomized LMAS as the dependent variable 

Variables Adjusted Odds Ratio (Exp-beta) 95% Confidence Interval p-value
Working hours/ day <8h vs 0h 1.537 0.548; 4.310 0.414
>8h vs 0h 0.307 0.106; 0.884 0.029
Main reason for discontinuing treatment (Reference group: not discontinuing) Forgetfulness 0.023 0.006; 0.084 <0.001
High cost 0.202 0.067; 0.608 0.004
Complexity of treatment regimen 0.065 0.012; 0.359 0.002
Experience of unwanted side effects 0.022 0.002; 0.214 0.001
Perception of inefficacy 0.072 0.007; 0.786 0.031
Postponing physician office visits 0.358 0.149; 0.860 0.022
Follow-up of diet 2.555 0.986; 6.618 0.053
In case of hypo/hyperglycemia, the patient skips/doubles the dose 0.087 0.022; 0.344 0.001
The patient feels his treatment is inconvenient and a burden 0.042 0.014; 0.125 <0.001

Dependent variable: dichotomized LMAS. Omnibus test p-value<0.001/Hosmer-Lemeshow test p-value=0.831. Nagelkerke R2 =0.654/Overall predicted percentage = 85.3%.Variables excluded from the model: Age, Gender, BMI, Physical activity, Consumption of beverages with sugar, Controlled/Uncontrolled HbA1C, Number of comorbidities, Presence of COPD/Asthma, Taking sulfonylureas, Intake of acute hyperglycemic medication (OTC), Knowledge of the drugs’ names by the patient, Frequency of physician office visits, The patient understood his treatment regimen, Experience of side effects, Presence of diabetes complications, Number of antidiabetic medication/day, Number of medications/day, Skipping doses in fasting states, Following healthcare provider instructions.

DISCUSSION

Adherence to oral antidiabetic medication was 31.8% among Lebanese DM2 patients. The adherence rate was similar to studies conducted in China27and Korea28, greater than that reported in Iraq (29.8%)29, and lower than reports from of other countries, such as Ethiopia (45.9%)22, United States (47.3%)30and India (60%).31Cultural diversity between countries could explain the difference in adherence levels between different populations. Yet, this difference could also be due to the variation of the methodologies and the different measurement scales used to evaluate adherence.32

Among the socio-demographic factors, the findings showed that adherence rates were similar in both genders, which was consistent with the results obtained in Malaysia and India.18,31Age also had no association with adherence to treatment. However some studies have found an association between age and non-adherence. In a Malaysian study, older age was associated with an increased medication adherence.18This study also found a significant association between working hours/day and medication adherence. When the working hours increase (>8h), the probability of being adherent to oral antidiabetic medication decrease. Being at work for a long period of time may prevent the patient from taking his treatment regularly and attending to his health care professional as recommended.33

Lack of follow up to recommended diet and consumption of beverages containing sugar were also increased among non-adherent patients. Other studies have also found that non-adherence to oral antidiabetic medication also comprised non-adherence to the non-pharmacologic guidelines.34Following non-pharmacologic recommendations is crucial in achieving the target HbA1C. This includes a proper diet (low in saturated fat, sodium and carbohydrates, and high in fiber contents), weight loss, and exercise.34

Among Lebanese DM2 patients, only 29% had achieved the target HbA1c (<7%).This is much lower than that in the United States (87.1%).8In this study, patients who had good glycemic control had better adherence to oral antidiabetic drugs compared to those who had poor glycemic control. This coincides with studies done in China27, Ethiopia35, and Libya36where an inverse association between medication adherence and glycemic control (represented by the value of HbA1C) was reported.35-37

The duration of diabetes after diagnosis was not found to be associated with adherence among Lebanese DM2 patients. Nevertheless a study conducted in China showed that newly diagnosed patients had a lower adherence to their therapy.27Newly diagnosed patients may still not be aware of the consequences of missing their treatment and the complications associated with poor glycemic control. Contrariwise, a study done in the United Arab Emirates showed that patients with a longer duration of diabetes were more likely to be non-adherent to their treatment.38It is suggested that newly diagnosed patients may be more committed to their treatment, but they soon adapt to the disease burden due to the chronic nature of disease.38

The presence of comorbidities was not associated with medication adherence. However, the presence of asthma or COPD was found to reduce adherence in diabetic patients. This can be explained by the use of corticosteroids or long-term beta agonists in the control of these diseases, which may lead to corticosteroids-induced hyperglycemia. Furthermore, it is suggested that decreased quality of life in the presence of these diseases may decrease motivation to treatment and thus adherence.

Medication related factors, including regimen complexity and multiple daily dosing, were also factors affecting medication adherence. Patients taking more than two drugs were less adherent to treatment.39This is similar to the results obtained on diabetic patients in Nigeria, Ghana, and Hungaria, where adherence rates decreased as the pill burden increased.39-41Combination therapy reduces pill burden and dosing frequency, and is a good strategy to improve drug adherence.40,42

Among the different classes of oral hypoglycemics, only sulfonylureas were associated with decreased adherence. Sulfonylureas are particularly associated with an increased risk of hypoglycemia which is perceived as life-threatening by patients.43A study conducted in Sweden showed symptomatic hypoglycemia in patients treated by sulfonylureas was associated with non-adherence.44Hypoglycemia can negatively affect the quality of life for diabetic patients, and decrease their adherence to treatment.44

In this study, it was revealed that patients who experienced side effects to their medication were less adherent to the treatment regimen. This result is in agreement with the findings in United States which reported that side effects of medication is a main factor for low adherence to antidiabetic medication.30

As for factors related to the patient-provider relationship, patients who visited their physician more frequently and did not postpone their office visits were more adherent to their medication as they were more interested in improving their health status. The physician’s communication skills and a good relationship between patients and their healthcare providers are two factors that greatly improve adherence.13,45,46Communication between physician and patient promotes the patient’s knowledge about his treatment and illness condition and thus improves medication adherence.47

Forgetfulness and high cost of drugs were two factors leading to low medication adherence when the motivation or intention exists. This is similar to the findings of several studies in Canada and Nigeria.47,48Several actions are suggested to decrease patient forgetfulness such as getting help from a family member, using pill boxes, putting medication in a place where the patient performs daily activity, and setting medication alarms. Concerning high drug costs, physicians may prescribe generic drugs at lower prices for less fortunate patients.32Also a governmental plan should be launched to provide free access to medical services and chronic medications.

No association was found between adherence and education level, similar to studies from Ethiopia, India and Nigeria.22,31,39This may be due to the fact that the majority of the population were elderly and had poor knowledge concerning their disease or treatment. Low understanding of treatment regimen among diabetic patients was significantly associated with low medication adherence. This is similar to another study which demonstrated a significant association between medication adherence and patient’s knowledge.18To that end, patient education by the health care professional on medication regimen and behavior towards the disease is essential in order to improve adherence and to achieve a controlled level of HbA1c. Health care professionals should be approachable, listen to their patients’ concerns, inform their patients about the course of the disease and how to manage side effects. A shared decision making model is reccomended.47

This study is the first study in Lebanon to assess medication adherence among diabetic patients. Numerous factors were found to negatively affect adherence, leading to poor treatment outcomes. However, this study presents several limitations. Self-reporting was used to evaluate adherence so a recall bias may have occurred and patients may have elicited only socially accepted responses. Due to these possibilities it is suggested that adherence was overestimated. Also, being a cross-sectional study, a causal relationship between medication adherence and the various behaviors of the patient is difficult to establish.

CONCLUSIONS

Several factors influence adherence levels in Lebanese DM2 patients including drug discontinuation when fasting and not respecting physician’s instructions. This reflects the fact that some patients have their own perceptions which affect their treatment decisions. This issue can be solved by improving patient education and reinforcing the continuity of care by emphasizing patient-physician relationships.

Moreover, forgetfulness, high cost of drugs, complexity of treatment regimen, side effects, and perception of inefficacy are factors that decrease adherence. Resolving these problems involves decreasing the number and the frequency of therapy. Health care providers should also give more attention to medication side effects in chronic diseases that require long-term treatment.

In the absence of any medical insurance or government program for social support, the cost of medications imposes a great burden for many patients. This highlights the need for better social security programs and governmental support to decrease the economic burden of medication and therefore to avoid diabetes complications.

A study on a larger patient size and conducted all over Lebanon is needed to provide stronger evidence about the factors affecting adherence, and to perform better intervention programs.

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FUNDINGLebanese University.

Received: June 18, 2018; Accepted: October 22, 2018; pub: December 4, 2018

CONFLICT OF INTEREST

There is no conflict of interest.

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