key: cord-0884927-unxw90b7
authors: Abuhay, Deribew Abebaw; Gela, Yibeltal Yismaw; Getu, Ayechew Adera
title: Prevalence of Erectile Dysfunction and Associated Factors among Hypertensive Patients Attending Governmental Health Institutions in Gondar City, Northwest Ethiopia: A Cross-Sectional Study
date: 2021-11-26
journal: Int J Hypertens
DOI: 10.1155/2021/1482500
sha: 503c71a4791656bef0055ae9b4e64138d9b79cf3
doc_id: 884927
cord_uid: unxw90b7

INTRODUCTION: Erectile dysfunction is a common sexual problem affecting men with hypertension. It may result in withdrawal from sexual engagement, decreased work productivity, psychosocial problems including poor self-esteem and depression, and reduction in quality of life for both the affected men and their female partners. OBJECTIVE: This study was aimed to determine the prevalence of erectile dysfunction and associated factors among hypertensive patients attending governmental health institutions in Gondar city, Northwest Ethiopia. MATERIALS AND METHODS: An institutional-based cross-sectional study was conducted on 423 hypertensive men randomly selected using a systematic random sampling technique. Erectile dysfunction was assessed using the International Index of Erectile Function-5 tool. Sociodemographic, clinical, and behavioral factors were also collected using pretested interviewer-administered questionnaires. Data were entered into EpiData version 4.6 and analyzed using Stata-14. Binary logistic regression was performed to identify factors associated with erectile dysfunction. The level of significance was computed at a p value ≤ 0.05. RESULTS: The mean age of the study participants was 58.84 ± 13.52 years. The prevalence of erectile dysfunction among hypertensive men was 46.34% (95% CI: 41.61, 51.12). About 28% of them had a mild form of erectile dysfunction while nearly 6% had severe forms. Age above 60 years (AOR = 3.8, 95% CI: 1.62, 6.55), stage II hypertension (AOR = 3.5, 95% CI: 1.63, 5.74), hypertension duration >10 years (AOR = 2.5, 95% CI:1.12, 4.19), comorbidity (AOR = 1.7, 95% CI: 1.04, 3.15), depression (AOR = 2.35, 95% CI: 1.31, 4.21), and being physically active (AOR = 0.48, 95% CI: 0.28, 0.83) were factors significantly associated with erectile dysfunction. CONCLUSION: Nearly half of the study participants had some form of erectile dysfunction, indicating the presence of a high burden of the problem. Assessment of hypertensive men for erectile dysfunction should be part of routine medical care.

Sexual dysfunctions are diminished or absent feelings of sexual interest or desire, absent sexual thoughts or fantasies, and a lack of responsive desire [1] . It is a common problem that affects the quality of life of both patients and their sexual partners [2] . Sexual dysfunction in men is categorized based on the sexual response cycle into erectile dysfunction, hypoactive sexual desire, ejaculation disorders, and orgasmic dysfunctions [3] .

Erectile dysfunction (ED) is defined as the consistent or recurrent inability (of a man) to achieve/maintain a penile erection sufficient for satisfactory sexual performance [4] . ED results in withdrawal from sexual intimacy, decreased work productivity, and reduced quality of life [5, 6] . It negatively affects employers as men with ED have higher absenteeism rates due to psychosocial reasons that lead to work productivity impairment [7] . e prevalence of ED was different across various parts of the world. ED was found in 66.2% of hypertensive men in Qatar [8] , 56.2% of hypertensive patients in ailand [9] , 67% in Israel [10] , 61.3% in Bangladesh [11] , 35 .2% in Greece [12] , and 71% in Spain [13] . Moreover, the prevalence of ED was found to be 65.8% in Nigeria [14] , 50 .6% in Cameroon [15] , 43 .2% in Egypt [16] , and 94.5% in Kenya [17] . Multiple pathogeneses have been identified that link hypertension and ED, including endothelial dysfunction, atherosclerosis, and side effects of antihypertensive medications [18] . Several factors affect erectile function among hypertensive patients, including age, stage, and duration of hypertension, use of antihypertensive medications, depression, and behavioral factors such as excessive alcohol consumption, cigarette smoking, overweight/ obesity, and physical inactivity [12, 19, 20] .

Despite the fact that this disorder has been present since ancient times, it is in the past few years that sexual medicine has played an important role in putting together a broad overview of ED [21] . ere was no study conducted on ED among hypertensive men in Ethiopia. is study was, therefore, conducted to determine the prevalence of ED and identify associated factors among hypertensive patients attending governmental health institutions in Gondar city.

Period. An Institutional-based cross-sectional study was conducted from April 10 to May 20, 2021, in Gondar city located 727 km away from Addis Ababa, the capital city of Ethiopia. e city is among the ancient and densely populated cities in Ethiopia, having 206,987 people, according to the 2007 Ethiopian Central Statistical Agency office report [22] . ere are eight governmental health institutions, namely, University of Gondar Comprehensive Specialized Hospital (UoG CSH), Gondar Health Center, Woleka Health Center, Gebriel Health Center, Maraki Health Center, Mintiwab Health Center, Azezo Health Center, and Teda Health Center that have chronic care units for the diagnosis and treatment of chronic diseases such as hypertension and diabetes mellitus.

e source population constitutes all male hypertensive patients on follow-up at chronic care outpatient units of governmental health institutions in Gondar city.

Male hypertensive patients were on follow-up at selected governmental health institutions of Gondar city during the period of data collection.

Male hypertensive patients aged 18 years or above and engaged in sexual activity over the past three months prior to the data collection.

Male hypertensive patients with a history of pelvic and spinal cord injury, past penile/urethral and prostate surgery, and hearing problems were excluded from the study.

e minimum number of samples required for this study was determined using a single population proportion formula by considering the proportion of ED as 0.5 (since no previous study has been conducted), 95% confidence interval, and 5% marginal error (d):

where Z is statistics at 95% CI � 1.96, p is population proportion, and d is margin of error:

After adding a 10% nonresponse rate, the total sample size was 423.

2.2.6. Sampling Procedure. Both simple and systematic random sampling techniques were employed to select study participants. Among the eight health institutions, four (University of Gondar Comprehensive Specialized Hospital, Gondar Health Center, Maraki Health Center, and Azezo Health Center) were selected using the lottery method. On average, the total number of male hypertensive patients attending the selected health institutions in a month was 480, 160, 120, and 120, respectively. Using the proportional allocation technique, n i � (n/N) * Ni, where n i is the number of samples for each study area, N � total number of patients, and N i � total number of patients in each study area. As a result, 231, 76, 58, and 58 study participants were selected from the University of Gondar Comprehensive Specialized Hospital, Gondar Health Center, Maraki Health Center, and Azezo Health Center, respectively.

Each sample from the study area was selected by using a systematic random sampling technique where the sampling interval (k) was obtained by dividing the total number of patients at each health institution by the total sample size. As a result, K � 880/423 � 2. erefore, every other study participant was interviewed, and the first patient to be included in the sample was chosen randomly by the lottery method: [24] . group of disorders of the heart and blood vessels including coronary heart disease, cerebrovascular disease, peripheral arterial disease, congenital heart disease, rheumatic heart disease, deep vein thrombosis and pulmonary embolism [25] . Body Mass Index (BMI): hypertensive patients were underweight for BMI<18.5 kg/m 2 and normal for those with BMI ranging from 18.5 to 24.9 kg/m 2 . Study Cardiovascular diseases: participants were considered overweight for BMI ≥25 kg/m 2 [26] . Depression: patients who scored ≥10 out of 27 points from the Patient Health Questionnaire-9 (PHQ-9) were considered as having depression while a score of 0-9 was classified as having no depression [27] . Physical activity: hypertensive man was considered physically active when engaged in moderate-intensity physical activity for at least 150 minutes per week or in vigorous-intensity physical activity for at least 75 minutes per week, or an equivalent combination of moderate and vigorous-intensity activity [28] . Ever alcohol drinker: hypertensive patient who used at least 12 drinks his lifetime [29] . Current alcohol drinkers: hypertensive patients had 3 or more standard drinks per week in the last 30 days [29] . Former cigarette smokers: a person who has smoked at least 100 cigarettes in his lifetime but who had quit smoking during the time of interview [30] . Current smoker: a person who has smoked 100 cigarettes in his lifetime and smokes cigarettes within the last 30 days [30] . Ever khat chewer: study participant who chewed khat at least once in his lifetime [31] .

Two clinical psychologists and three BSc nurses were involved in data collection with close supervision by the investigator. e presence and severity of ED were measured using an interviewer-administered International Index of Erectile Function (IIEF-5) tool; a brief, reliable, and valid questionnaire found useful in the clinical assessment of sexual activities and treatment outcomes in clinical trials. It is composed of six questions (items) answered on five Likert scales summed up to give a total score of 30. Individuals who scored 6-25 out of 30 points were reported as having ED while IIEF-5 scores of 26-30 were reported as not having ED. e severity of ED was classified as mild (17-25 points), moderate (11-16 points) , and severe (6-10 points) [32] . e weight of the study participants was measured on light cloth and bare feet and recorded in kilograms. Height was measured using a stadiometer to the nearest 0.5 centimeters. e weight measuring scale was checked and adjusted at zero level between each measurement. BMI of study participants was computed by dividing their weight in kilograms by the square of their height in meters and interpreted as underweight (<18.5 kg/m 2 ), normal (18.5-24.9 kg/m 2 ), and overweight (≥25 kg/m 2 ) [26] .

Blood pressure was measured twice in a sitting position using a standard Mercury sphygmomanometer BP cuff (Mercurial, India) with the appropriate cuff size covering two-thirds of the upper arm after the participant rested for at least five minutes and no smoking or drinking caffeinated beverages for 30 minutes before measurement. e average of two readings taken five minutes apart was recorded as the blood pressure. e staging of hypertension was categorized according to the JNC-8 guideline.

e time since hypertension was diagnosed and started taking antihypertensive medications and the presence of comorbidities were taken from the patient's medical records. Depression status was measured using the PHQ-9 tool designed to evaluate the presence and severity of depressive symptoms over the last two weeks preceding the study. According to this tool, a PHQ-9 score of 0-9 was considered as having no depression while a score of 10 and above was taken as having depression (27) .

Physical activity was assessed using the global physical activity questionnaire recommended by WHO [33] . Other self-reported behavioral data (alcohol consumption, cigarette smoking, and khat chewing habits) were collected using a standardized questionnaire adopted from World Health Organization (WHO) STEPS surveillance manual [31] . To prevent the spread of COVID-19 during the data collection period, study participants and data collectors applied COVID-19 prevention measures such as wearing face masks and using hand sanitizers.

Clinical psychologists and BSC nurses who work in the chronic care units were used as data collectors to decrease nonresponse rates and increase the reliability of results. e questionnaire was pretested on 5% [20] of male hypertensive patients attending their follow-up at Ibex primary hospital, and modifications were made on the basis of the findings. Training and practical demonstrations on interview techniques and measurement procedures were given to data collectors for one day. English version of the questionnaire was translated to Amharic version for consistency. Completeness of the information from questionnaires was checked every day after data collection. Confidentiality of the information was assured from the data collectors and principal investigator side.

e collected data were coded and entered into EpiData version 4.6 and then exported to Stata-14 for analysis. Descriptive statistics such as frequency, International Journal of Hypertension percentage, and other summary statistics were used for describing sociodemographic variables and determining the prevalence of ED. Tables, figures, and texts were used to present the findings. Bivariable logistic regression analysis was applied to identify factors associated with ED. All variables with p value ≤ 0.2 from bivariable logistic regression analysis were entered into the multivariable logistic regression model. e strength of association between dependent and associated factors was determined using the odds ratio with a 95% confidence interval. For all analyses, the statistically significant level was fixed at a p value < 0.05. Respondents were informed about the purpose and benefits of the study and gave written consent.

A total of 423 male hypertensive patients were involved in the study with a 100% response rate. e mean age of the study participants was 58.84 (±13.52) years, ranging from 26 to 90 years. e majority of the study participants (79.67%) were married (Table 1) .

Of the total respondents, 217 (51.30%) and 66 (15.60%) patients had stages I and II of hypertension, respectively. e median duration of hypertension was four years with IQR from 3 months to 16 years. About 16% of the study participants lived with hypertension for more than 10 years. Among hypertensive patients, 52.95% were on polytherapy. A significant proportion of hypertensive patients (34.28%) had coexisting chronic diseases. e most common coexisting disease was diabetes mellitus, which accounted for 41.4%, followed by cardiovascular disease (29.7%). In our study, we found 34.99% prevalence of depression as presented in Table 2 .

Patients. Based on IIEF-5 scores, the overall prevalence of ED was 46.34% (95% CI: 41.6-51.1). Mild ED was found among 120 (28.37%, 95% CI: 24.26-32.87), moderate from 52 (12.29%, 95% CI: 9.48-15.79), and severe form of ED among 24 (5.68%, 95% CI: 3.83-8.34) study participants (Figure 1 ).

Severe and moderate ED was found among 29.6% and 51.85% hypertensive men above 80 years. Similarly, 10.6% and 15.9% hypertensive men aged 61-80 had severe and moderate ED, respectively. Severe ED was not found among those below 61 years (Figure 2 ).

In the bivariable logistic regression analysis, independent variables with p value of less than 0.2 were passed to be included in the multivariable logistic regression analysis. Accordingly, age, severity of hypertension, duration of hypertension, polytherapy, presence of comorbidities, depression, and physical activity were statistically associated with ED.

Age above 80 years (AOR � 5.29, 95% CI: 3.38-8.07) and 61-80 years (AOR � 3.86, 95% CI: 1.62-6.55), stage I hypertension (AOR � 2.79, 95% CI: 1.51-5.09) and stage II hypertension (AOR � 3.54, 95% CI: 1.63-5.74), duration of hypertension for more than 10 years (AOR � 2.5 95% CI: 1.12-4.19), polytherapy (AOR � 2.06, 95% CI: 1.18-3.37), depression (AOR � 2.37, 95% CI � 1.32-4.26), presence of comorbid diseases (AOR � 1.76, 95%CI � 1.14-3.15), and being physically active (AOR � 0.48 95% CI :0.28-0.83) were factors significantly associated with ED in hypertensive patients (Table 3 ).

is study aimed to determine the prevalence of ED and associated factors among hypertensive patients who have follow-ups at governmental health institutions in Gondar city. e prevalence of ED in this study was 46.34% (95% CI: 41.6-51.1) which is similar to studies done in Egypt (43.2%) [16] and Cameroon (50.6%) [15] . However, it was lower than those reported from ailand (56.6%) [9] , Qatar (66.2%) [8] , Spain (71.0%) [13] , and Kenya (94.5%) [17] . is difference might be due to the sociocultural differences, the study design used, and the exclusion criteria.

is finding was higher than studies from Greece (35.2%) [12] , Israel (21.8%) [34] , and Nigeria (41.5%) [35] .

In this study, age was a significant factor for developing ED. e prevalence of ED increased as the age of study participants increased. ese results are similar to those studies from Qatar [8] , ailand [9] , Cameroon [15] , and Nigeria [14] . Increased age is often accompanied by multiple organic diseases which can interfere with erectile function. In particular, cardiovascular and metabolic diseases with increased prevalence among older ages could play a crucial role in the pathogenesis of agerelated ED [36] . Since penile erection is primarily a vascular event, it may be impaired on increasing age that causes degenerative changes in the vascular endothelium resulting in endothelial dysfunction. is in turn resulted in an alteration of vascular tone as a result of a marked reduction of the relaxation process of smooth muscle cells located in the corpus cavernosum and wall of small arteries [21] . Age-related decrease in testosterone levels could also contribute to the increased prevalence of ED [37] . Furthermore, it is recognized that there is aging-dependent decrease in the amount of functioning corporal smooth muscles. e mechanism underlying this aging-related loss of normal smooth muscle within the corporal body is believed to be mainly due to the apoptotic process primarily triggered by oxidative stress [38] . e results of this study indicated that male patients with stages I and II of hypertension exhibited ED more frequently than subjects with controlled hypertension. As the severity of hypertension increased, the prevalence of ED also increased, which is consistent with studies from Israel [34] , Qatar (66.2%) [8] , Greece [12] , and Cameroon [15] . Our study also found that patients with hypertension follow-up for long periods were more likely to acquire ED, which is in line with studies in ailand [9] , Greece [12] , and Egypt [16] . Since vascular tissue is the main contributor for penile erection, structural/functional abnormalities in penile vessels may impair the ability to achieve and maintain erection [18] . Hypertension is related to endothelial dysfunction leading to reduced nitric oxide (NO) production by the endothelium, which in turn results in ED [39] . Hypertension is also responsible for stenotic lesions secondary to atherosclerosis, smooth muscle hypertrophy of cavernosum arteries, and blood flow impairment in the penile vasculature [21] . Treatment with antihypertension medications had increased the prevalence of ED in our study participants. Patients on combination antihypertensive therapy exhibited ED more frequently (64.07%) than patients on monotherapy (25%), and the difference was statistically significant (p < 0.05). is finding was in line with studies in Qatar [8] and Cameroon [15] , where antihypertensive polytherapy was significantly associated with ED. Combination pharmacotherapy is often prescribed in the treatment of hypertension in the majority of hypertensive patients. ED is considered a common side effect of central-acting beta-blockers and diuretics that reduce cardiac output and blood pressure, thereby decreasing blood flow to penile vasculature [40, 41] .

In the current study, the presence of comorbid medical illnesses such as diabetes mellitus, hypertensive heart disease, and chronic kidney disease increased the prevalence of ED. e prevalence of ED among hypertensive men with no comorbidity was 35.6%, but it was 66.9% among those with comorbidities; and the change was statistically significant which is in agreement with other studies [10, 35, 42] . Diabetes mellitus was the major comorbid disease found among the study participants. It affects the corpus cavernous nerve terminals and endothelial cells, resulting in a deficiency in NO synthesis and release, which in turn causes ED [43] .

Moreover, this study found that ED was significantly associated with depression. is finding is supported by studies from Spain [13] , China [44] , and Finland [45] . Depression affects the higher centers of the brain, which initiate sexual arousal and behavior and interfere with normal erectile neurophysiology [45] . Depressed people have a low degree of sexual appetite because of their feeling of low self-esteem and guilt feeling resulting in ED [45] . However, since the study is cross-sectional, it is difficult to establish the direction of causality.

Our study also revealed that the likelihood of developing ED among physically active study participants was reduced by 48% (AOR � 0.48 95% CI: 0.28-0.83). is is in line with other studies where physical activity was statistically associated with ED [8, 20, 46, 47] . e mechanisms by which physical activity reduces the risk of ED include improved International Journal of Hypertension International Journal of Hypertension cardiovascular fitness, endothelial function, and beneficial effects on self-esteem and mental health with a positive impact on psychological issues associated with sexual function, increase in endothelial-derived NO [48] , decrease in oxidative stress [49] , and increase in regenerative endothelial progenitor cells [50] .

Another important finding from this study was that there were a few number of hypertensive men with ED who were approached to get counseling and medications for their sexual problems. Only 11 (2.6%) patients sought medical advice and were taking medications for treatment. is failure to seek medical attention might be due to social stigma or not considering ED as a treatable condition. As a result, ED is a common distressful problem of hypertensive patients, which is often underreported. is could further adversely affect the quality of life of the affected men.

e cross-sectional nature of the study does not allow making inferences about the causal relationship. Further longitudinal studies to clarify the causal relation between ED and those predictors should be conducted. e study may have social desirability bias due to the type of data collection technique (face-to-face interviewer-administered questionnaire).

Nearly half of the study participants had erectile dysfunction, indicating the high burden of the problem among hypertensive patients. ED and hypertension were found to be related, as there were more cases of ED among hypertensive men. e prevalence of ED was associated with the age of patients, severity and duration of hypertension, presence of comorbidities, depression, and physical activity. Hypertensive patients with ED were not getting clinical counseling and medical treatment for their sexual problems. erefore, assessment and management of ED should be part of routine medical care in hypertensive follow-up clinics. In addition, hypertensive patients should adequately control their blood pressure and prevent coexisting illnesses to reduce the risk of ED.

e research data can be obtained from authors upon reasonable request.

e authors declare that they have no conflicts of interest. 

Original articles: definitions/epidemiology/risk factors for sexual dysfunction

Sexuality and quality of life

Male sexual dysfunction: diagnosis and treatment from a sexological and interdisciplinary perspective

Erectile dysfunction

Erectile dysfunction in patients with arterial hypertension. Cardiovascular risk and impact on their quality of life

e quality of life and economic burden of erectile dysfunction

e association of erectile dysfunction with productivity and absenteeism in eight countries globally

Prevalence of erectile dysfunction among hypertensive and nonhypertensive Qatari men

Prevalence of erectile dysfunction among treated hypertensive males

Prevalence and risk factors for erectile dysfunction in men with diabetes, hypertension, or both diseases: a community survey among 1,412 Israeli men

An evaluation of the frequency and severity of erectile dysfunction in hypertensive married men compared with normotensive married men

Factors affecting the increased prevalence of erectile dysfunction in Greek hypertensive compared with normotensive subjects

Erectile dysfunction in high-risk hypertensive patients treated with beta-blockade agents

Erectile dysfunction among male hypertensives in a tertiary health facility in South-West Nigeria

Erectile dysfunction among hypertensive patients in yaounde, Cameroon

Incidence of erectile dysfunction in 800 hypertensive patients: a multicenter Egyptian national study

Prevalence of Peripheral Arterial Disease and Erectile Dysfunction Among Ambulant Hypertensive Males at Kenyatta National Hospital Investigator

Erectile dysfunction and hypertension: impact on cardiovascular risk and treatment

Lifestyle modifications and erectile dysfunction: what can be expected?

Prevalence and correlates of erectile dysfunction among primary care clinic attendees in Nigeria

New insights into hypertension-associated erectile dysfunction

Summary and statistical report of the 2007 population and housing census. addis ababa, ethiopia: federal democratic republic of ethiopia population census commission

2014 evidence-based guideline for the management of high blood pressure in adults

Understanding erectile dysfunction in hypertensive patients: the need for good patient management

Surgical medical sciences diagnosis and treatment

e challenge for global health systems in preventing and managing obesity

Validity of the patient health questionnaire-9 for depression screening and diagnosis in East Africa

World Health Organization, Global Recommendations on Physical Activity for Health, World Health Organization

Guide for Measuring Alcohol Outlet Density

Tobacco product use among adults-United States

Surveillance Manual: e WHO STEPwise Approach to Chronic Disease Risk Factor Surveillance, World Health Organization

Development and evaluation of an abridged, 5-item version of the International Index of Erectile Function (IIEF-5) as a diagnostic tool for erectile dysfunction

Global physical activity questionnaire (GPAQ): nine country reliability and validity study

Original researchepidemiology: the prevalence of erectile dysfunction among hypertensive and prehypertensive men aged 25-40 years

Prevalence and risk factors of erectile dysfunction in Niger delta region

Aging and pathogenesis of erectile dysfunction

Testosterone level and endothelial dysfunction in patients with vasculogenic erectile dysfunction

Aging related erectile dysfunction-potential mechanism to halt or delay its onset

Endothelial dysfunction and hypertension

Effects of major antihypertensive drug classes on erectile function: a network metaanalysis

e effect of antihypertensive drugs on erectile function: a proposed management algorithm

Prevalence of erectile dysfunction among 7689 patients with diabetes or hypertension, or both

e prevalence and predictors of erectile dysfunction in men with newly diagnosed with type 2 diabetes mellitus

Associations between erectile dysfunction and psychological disorders (depression and anxiety): a cross-sectional study in a Chinese population

Bidirectional relationship between depression and erectile dysfunction

Prevalence of erectile dysfunction and its correlates among men attending primary care clinics in three countries: Pakistan, Egypt, and Nigeria

Body mass index, physical activity and erectile dysfunction: an U-shaped relationship from population-based study

Erectile hydraulics: maximizing inflow while minimizing outflow

Effects of intensive lifestyle changes on erectile dysfunction in men

Endothelial progenitor cells in vascular health: focus on lifestyle

Acknowledgments e researchers are grateful to the University of Gondar for giving ethical approval to conduct this research. e authors sincerely thank the study participants for their time to participate in this study. is work was supported by the University of Gondar, which was not involved in any of the manuscript preparation or decision to publication.