The purpose of this study is to investigate the prevalence rate and risk factors of depression in outpatients who were diagnosed with PE. Therefore, between September 2009 and September 2011, 1801 outpatients at andrology clinics were enrolled and consented to participate in our survey by completed a verbal questionnaire. It included the following: (1) demographic data (e.g., age, body mass index), (2) PE duration, medical history, and sexual history, (3) self-estimated intravaginal ejaculatory latency times, (4) the Zung Self-rating Depression Scale (SDS), and (5) the National Institute of Health Chronic Prostatitis Symptom Index (NIH-CPSI) and (6) the International Index of Erectile Function (IIEF-5). The results showed that a total of 1,206 patients were diagnosed with PE. The prevalence rate of depression in these PE patients was 26.78%. Depression was associated with PE duration, NIH-CPSI score, and IIEF-5 score. Risk factors for depression specifically included PE durations for 13–24, 25–60, or ≥61 months, CPSI scores of 15–30 or ≥31, and IIEF-5 scores <22. These findings suggested that several associated factors (PE duration, CPSI scores, and IIEF-5 scores) were the risk factors of depression in men with PE.
Premature ejaculation (PE) is a common male sexual dysfunction, which affects 20
In a large observational study conducted by Patrick et al., men with PE reported a greater level of distress than men without PE (2.69 versus 0.69; 5-point scale ranging from 0 = not all distressed to 4 = extremely distressed) [
Although putative negative psychological effects of PE have been discussed in recent years, correlations between PE and negative psychological effects have not been clarified, especially in China. In 2005, Lau et al. [
From September 2009 to September 2011, a noninterventional, observational, cross-sectional field survey was conducted. Patients who sought treatment for the complaint of ejaculating prematurely were enrolled from andrology clinics located at three cities (namely, Hefei city, Suzhou city, and Wangjiang city) in Anhui province, China. This study were evaluated and approved by the Anhui Medical University Research Subject Review Board.
Subjects had to meet the following criteria to be included in this study: (1) age ≥18 years; (2) heterosexual man in a stable, monogamous sexual relationship for at least 6 months; (3) able to speak Chinese. Each subject’s medical history was carefully evaluated to rule out mental and/or other major medical diseases. Patients on medications that may affect ejaculatory function, such as antidepressants or phosphodiesterase type 5 inhibitors, were excluded.
Prior to study enrollment, all patients were informed about this survey. A careful medical and sexual history was also taken by an experienced clinician. Eligible patients were asked to provide written consent. Prior to survey administration, a presurvey was given to a small sample of subjects to modify the originally designed items to ensure that the questionnaire was comprehensive and easily understood.
This survey was conducted by face-to-face interviews. All subjects participated in the survey by completing a verbal questionnaire, which collected the following data: (1) age, body mass index (BMI), educational level, and occupation, (2) PE duration, medical and sexual history, (3) self-estimated intravaginal ejaculatory latency times (IELTs), (4) the Zung Self-rating Depression Scale (SDS), and (5) the National Institute of Health Chronic Prostatitis Symptom Index (NIH-CPSI) and International Index of Erectile Function (IIEF-5). The reliability of the instruments was assessed using Cronbach’s alpha coefficient. The internal consistencies of the instruments (SDS, NIH-CPSI, and IIEF-5) were 0.80, 0.77, and 0.81, respectively.
Based on ISSM criteria [
Diagnostic criteria for lifelong and acquired PE.
Lifelong PE | Acquired PE |
---|---|
(1) Ejaculation occurs too early at nearly every intercourse |
(1) Ejaculation occurs too early at some point in life |
Depression was assessed by the SDS [
The NIH-CPSI is a reliable, convenient, self-administered index that is widely used across scientific research and clinical studies. The assessment measures chronic prostatitis (CP) symptoms and their impact on daily life [
The IIEF-5 questionnaire contained five questions that were answered according to symptoms (scale range 0–5). IIEF-5 scores ≥22 points were rated as normal erectile function, while scores <22 points were rated as erectile dysfunction (ED).
Collected data were analyzed by SPSS (SPSS Inc., v. 13.0, Chicago, IL, USA). The relationship between depression and associated factors in PE men was examined by the chi-square test. Multiple logistic regression was used to evaluate the risk factors of depression. Odds ratios (ORs) and 95% confidence intervals (CIs) were calculated to examine association strength. Statistical significance was defined as
Of 2,513 outpatients who met the inclusion criteria, 1,801 completed the questionnaire (425 rejected participation; 287 provided incomplete questionnaires), yielding a response rate of 71.67%. Ultimately, 1206 (66.96%, 1206/1801) patients were diagnosed with PE based on ISSM criteria. Among those 1206 men, 483 (40.05%) patients had lifelong PE, and 723 (59.95%) had acquired PE. The mean patient age, BMI, and PE duration were 35.23
Demographic characteristics of men with PE.
Characteristics | Subjects | Lifelong PE | Acquired PE | |||
---|---|---|---|---|---|---|
( |
( |
( |
||||
|
% |
|
% |
|
% | |
Age, years | ||||||
20–29 | 489 | 40.55 | 339 | 70.19 | 150 | 20.75 |
30–39 | 372 | 30.85 | 86 | 17.81 | 286 | 39.56 |
40–49 | 178 | 14.76 | 25 | 5.18 | 153 | 21.16 |
50–66 | 167 | 13.85 | 33 | 6.83 | 134 | 18.53 |
Mean ± SD |
|
|
|
|||
BMI, kg/m2 | ||||||
≤24 | 475 | 39.39 | 203 | 42.03 | 272 | 37.62 |
>24 | 731 | 60.61 | 280 | 57.97 | 451 | 62.38 |
Mean ± SD |
|
|
|
|||
Duration, months | ||||||
0–12 | 195 | 16.17 | 121 | 25.05 | 74 | 10.24 |
13–24 | 367 | 30.43 | 241 | 49.90 | 126 | 17.43 |
25–60 | 412 | 34.16 | 100 | 20.70 | 312 | 43.15 |
≥61 | 232 | 19.24 | 21 | 4.35 | 211 | 29.18 |
Mean ± SD |
|
|
|
|||
Educational status | ||||||
Primary and illiterate | 51 | 4.23 | 31 | 6.42 | 20 | 2.77 |
Secondary school | 566 | 46.93 | 218 | 45.13 | 348 | 48.13 |
College | 519 | 43.03 | 180 | 37.27 | 339 | 46.89 |
Postgraduate and above | 70 | 5.80 | 54 | 11.18 | 16 | 2.21 |
Occupational status | ||||||
Workers | 365 | 30.27 | 102 | 21.12 | 263 | 36.38 |
Students | 115 | 9.54 | 92 | 19.05 | 23 | 3.18 |
Drivers | 152 | 12.60 | 64 | 13.25 | 88 | 12.17 |
Farmers | 71 | 5.89 | 41 | 8.49 | 30 | 4.15 |
Officials | 132 | 10.95 | 83 | 17.18 | 49 | 6.78 |
Businessmen | 144 | 11.94 | 58 | 12.01 | 86 | 11.89 |
Other occupations | 227 | 18.82 | 43 | 8.90 | 184 | 25.45 |
Subjects: men with PE; SD: standard deviation.
According to the SDS, 323/1206 (26.78%) patients experienced depression. Based on the diagnostic criteria of ED (IIEF-5 scores <22), 813/1206 (67.41%) patients in the PE group were diagnosed with ED. Chi-square test results showed that depression in PE patients was significantly associated with PE duration (
Factors associated with depression in men with PE.
Factors (df)a | With depression | Without depression | Total |
[ |
||
---|---|---|---|---|---|---|
( |
( |
| ||||
|
% |
|
% |
|
||
Age, years (3) | ||||||
20–29 | 127 | 25.97 | 362 | 74.03 | 489 |
|
30–39 | 100 | 26.88 | 272 | 73.12 | 372 | |
40–49 | 48 | 26.97 | 130 | 73.03 | 178 | |
50–66 | 48 | 28.74 | 119 | 71.26 | 167 | |
BMI, kg/m2 (1) | ||||||
≤24 | 125 | 26.32 | 350 | 73.68 | 475 |
|
>24 | 198 | 27.09 | 533 | 72.91 | 731 | |
Educational status (3) | ||||||
Primary and/or illiterate | 15 | 29.41 | 36 | 70.59 | 51 |
|
Secondary school | 147 | 25.97 | 419 | 74.03 | 566 | |
College | 140 | 26.97 | 379 | 73.03 | 519 | |
Postgraduate and above | 21 | 30.00 | 49 | 70.00 | 70 | |
Occupational status (6) | ||||||
Workers | 103 | 28.22 | 262 | 71.78 | 365 |
|
Students | 28 | 24.35 | 87 | 75.65 | 115 | |
Drivers | 39 | 25.66 | 113 | 74.34 | 152 | |
Farmers | 16 | 22.54 | 55 | 77.46 | 71 | |
Officials | 39 | 29.55 | 93 | 70.45 | 132 | |
Businessmen | 38 | 26.39 | 106 | 73.61 | 144 | |
Other occupations | 60 | 26.43 | 167 | 73.57 | 227 | |
Subtype (1) | ||||||
Lifelong PE | 124 | 25.67 | 359 | 74.33 | 483 |
|
Acquired PE | 199 | 27.52 | 524 | 72.48 | 723 | |
Duration, months (3) | ||||||
0–12 | 39 | 20.00 | 156 | 80.00 | 195 |
|
13–24 | 83 | 22.62 | 284 | 77.38 | 367 | |
25–60 | 119 | 28.88 | 293 | 71.12 | 412 | |
≥61 | 82 | 35.34 | 150 | 64.66 | 232 | |
NIH-CPSI, scores (2) | ||||||
0–14 | 145 | 20.80 | 552 | 79.20 | 697 |
|
15–30 | 147 | 32.38 | 307 | 67.62 | 454 | |
≥31 | 31 | 56.36 | 24 | 43.64 | 55 | |
IIEF-5, scores (1) | ||||||
≥22 | 84 | 21.37 | 309 | 78.63 | 393 |
|
<22 | 239 | 29.40 | 574 | 70.60 | 813 |
Risk factors revealed by multiple logistic regression for depression in men with PE.
Risk factors | Significance | Odds ratio | 95% confidence interval | |
---|---|---|---|---|
Lower | Upper | |||
Duration, months | ||||
0–12 | 1.00 | |||
13–24 | 0.01 | 1.42 | 1.15 | 3.12 |
25–60 | 0.00 | 2.08 | 1.33 | 4.97 |
≥61 | 0.00 | 4.02 | 3.85 | 10.47 |
NIH-CPSI, scores | ||||
0–14 | 1.00 | |||
15–30 | 0.00 | 2.01 | 1.23 | 4.15 |
≥31 | 0.00 | 4.98 | 3.87 | 11.21 |
IIEF-5, scores | ||||
≥22 | 1.00 | |||
<22 | 0.00 | 4.11 | 3.43 | 9.15 |
Several studies have shown that men with PE may be influenced by negative psychological effects [
In the current study, we found that 26.78% patients with PE suffered from depression. In addition, 25.67% of lifelong PE patients and 27.52% of acquired PE patients were diagnosed with depression. However, there was no significant correlation between PE subtype and depression. Moreover, the results of this study also showed that PE was not significantly associated with common demogrphaic factors, including age, BMI, educational status, and occupational status, suggesting that these factors likely do not influence the occurrence of depression in PE patients.
However, depression was significantly associated with PE duration. Specifically, multiple logistic regression indicated that PE durations extending beyond a year (13–24 months, 25–60 months, or ≥61 months) elevated risk of depression in PE patients. Considering the work of Graziottin and Althof [
It has been suggested that CP symptoms may be an important organic cause of PE [
A similar relationship was also identified between depression and ED, as demonstrated by IIEF-5 scores. Compared to patients with PE who have normal erectile function, men suffering from both PE and ED may be more vulnerable to be affected by depression. Indeed, IIEF-5 scores less than 22 were the risk factors of depression in PE patients. Our findings support Buvat [
The current study has several limitations that require consideration. (1) Our survey sample included patients who presented complaints of PE and sought treatment. However, patients with PE complaints not referred to andrology clinics were not enrolled in our study. As a result, there may be some discrepancies between our findings and the true rate of depression among patients with PE. (2) We collected patient information by face-to-face interviews, which may have made some patients embarrassed due to the sensitive, personal nature of the research. While we believe that it is important to interact with patients, we certainly acknowledge that others methods (e.g., internet-based survey) can be used for data collection. (3) There is no control group of non-PE men in the study, making the comparisons with nonaffected populations difficult. Further research that includes comparative control groups should be conducted.
In conclusion, PE is a multifactored sexual dysfunction that is associated with negative psychological effects, which seriously impairs patient health and sexual relationships. In our survey, we found a substantial prevalence of depression among patients with PE (26.78%). The prevalence was further elevated among patients with long-term PE, high NIH-CPSI score, and low IIEF-5 score. These variables were all risk factors for depression.
All authors have no conflict of interests.
Chaozhao Liang and Xiansheng Zhang participated in the design and conduct of the study. Xiansheng Zhang, Jingjing Gao, Jishuang Liu, Lei Xia, Jiajia Yang, Zongyao Hao, and Jun Zhou participated in data collection and analysis. Xiansheng Zhang, Jingjing Gao participated in writing the paper. All authors read and approved the final version of the paper.
The authors thank Dr. Puyu Su for his expertise in statistical analysis.