Gender-Based Differences in Anxiety and Depression Following Acute Myocardial Infarction

Serpytis, Pranas; Navickas, Petras; Lukaviciute, Laura; Navickas, Alvydas; Aranauskas, Ramunas; Serpytis, Rokas; Deksnyte, Ausra; Glaveckaite, Sigita; Petrulioniene, Zaneta; Samalavicius, Robertas

doi:10.5935/abc.20180161

Abstract

Background:

Among patients with heart disease, depression and anxiety disorders are highly prevalent and persistent. Both depression and anxiety play a significant role in cardiovascular disease progression and are acknowledged to be independent risk factors. However, there is very little gender-related analysis concerning cardiovascular diseases and emotional disorders.

Objective:

We aimed to evaluate depression and anxiety levels in patients suffering from myocardial infarction [MI] within the first month after the MI and to assess the association between cardiovascular disease risk factors, demographic indicators and emotional disorders, as well as to determine whether there are gender-based differences or similarities.

Methods:

This survey included demographic questions, clinical characteristics, questions about cardiovascular disease risk factors and the use of the Hospital Anxiety and Depression Scale [HADS]. All statistical tests were two-sided, and p values < 0.05 were considered statistically significant.

Results:

It was determined that 71.4% of female and 60.4% of male patients had concomitant anxiety and/or depression symptomatology (p = 0.006). Using men as the reference point, women had an elevated risk of having some type of psychiatric disorder (odds ratio, 2.86, p = 0.007). The HADS-D score was notably higher in women (8.66 ± 3.717) than men (6.87 ± 4.531, p = 0.004). It was determined that male patients who developed depression were on average younger than those without depression (p = 0.005).

Conclusions:

Women demonstrated an elevated risk of having anxiety and/or depression disorder compared to men. Furthermore, depression severity increased with age in men, while anxiety severity decreased. In contrast, depression and anxiety severity was similar for women of all ages after the MI. A higher depression score was associated with diabetes and physical inactivity, whereas a higher anxiety score was associated with smoking in men. Hypercholesterolemia was associated with both higher anxiety and depression scores, and a higher depression score was associated with physical inactivity in women.

Keywords:
Cardiovascular Diseases; Myocardial Infarction; Anxiety, Depression; Risk Factors; Gender Identify

Resumo

Fundamento:

Os pacientes com doença cardíaca, depressão e transtornos de ansiedade são altamente prevalentes e persistentes. A depressão e a ansiedade desempenham um papel significativo na progressão da doença cardiovascular e são reconhecidas como fatores de risco independentes. No entanto, há muito pouca análise relacionada ao gênero em relação às doenças cardiovasculares e transtornos emocionais.

Objetivo:

Avaliar os níveis de depressão e ansiedade em pacientes com infarto do miocárdio (IM) no primeiro mês após o IM e avaliar a relação entre os fatores de risco para doença cardiovascular, indicadores demográficos e distúrbios emocionais, bem como determinar se existem diferenças ou semelhanças baseadas no sexo do paciente.

Métodos:

Esta pesquisa incluiu questões demográficas, características clínicas, questões sobre fatores de risco de doença cardiovascular e a Escala Hospitalar de Ansiedade e Depressão [HADS]. Todos os testes estatísticos foram bilaterais, e valores de p < 0,05 foram considerados estatisticamente significativos.

Resultados:

Determinou-se que 71,4% dos pacientes do sexo feminino e 60,4% dos pacientes do sexo masculino apresentavam sintomatologia concomitante de ansiedade e/ou depressão (p = 0,006). Utilizando os homens como o ponto de referência, as mulheres mostraram um risco elevado de apresentar qualquer distúrbio psiquiátrico (odds ratio, 2,86, p = 0,007). O escore da HADS-D foi notavelmente maior nas mulheres (8,66 ± 3,717) do que nos homens (6,87 ± 4,531, p = 0,004). Foi determinado que os pacientes do sexo masculino que desenvolveram depressão eram em média mais jovens do que aqueles sem depressão (p = 0,005).

Conclusões:

As mulheres demonstraram risco mais elevado de apresentar distúrbio de ansiedade e/ou depressão em comparação aos homens. Além disso, a gravidade da depressão aumentou com a idade entre os homens, enquanto o gravidade da ansiedade diminuiu. Em contraste, a gravidade da depressão e ansiedade foram semelhantes para mulheres de todas as idades após o IM. Um maior escore de depressão foi associado com diabetes e inatividade física, e o maior escore de ansiedade foi associado ao tabagismo nos homens. A hipercolesterolemia foi associada tanto aos maiores escores de ansiedade e depressão, enquanto um maior escore de depressão foi associado à inatividade física entre mulheres.

Palavras-chave:
Doenças Cardiovasculares; Infarto do Miocárdio; Ansiedade; Depressão; Fatores de Risco; Identidade de Gênero

Introduction

By 2020, depression is predicted to be the second highest cause of disability and mortality worldwide, surpassed only by ischemic heart disease (WHO). Myocardial infarction [MI] is a severe life-threatening event that is accompanied by an increased risk of depression and anxiety.¹1 Feng HP, Chien WC, Cheng WT, Chung CH, Cheng SM, Tzeng WC. Risk of anxiety and depressive disorders in patients with myocardial infarction: A nationwide population-based cohort study. Medicine (Baltimore). 2016;95(34):e4464.^,²2 Figueiredo JHC, Silva N, Pereira BB, Oliveira GMM. Major depression and acute coronary syndrome-related factors. Arq Bras Cardiol. 2017;108(3):217-27. A recent meta-analysis that explored the effect of the interactions of risk factors on all-cause mortality in patients with MI concluded that women have worse coronary artery disease [CAD] outcomes compared to men, with more women (17%) than men (12%) dying within 3 years of having their first MI.³3 van Loo HM, van den Heuvel ER, Schoevers RA, Anselmino M, Carney RM, Denollet J, et al. Sex dependent risk factors for mortality after myocardial infarction: individual patient data meta-analysis. BMC Med. 2014 Dec 14;12:242. In addition, hospital mortality rates after acute MI have also been shown to be higher in women (16%) than in men (11%).⁴4 Canto JG, Rogers WJ, Goldberg RJ, Peterson ED, Wenger NK, Vaccarino V, et al. Association of age and sex with myocardial infarction symptom presentation and in hospital mortality. JAMA. 2012;307(8):813-22. Gender differences are correspondingly evident regarding mental stress-induced MI when assessing laboratory-based proxies, with a higher prevalence being observed in women than in men,⁵5 Jiang W, Samad Z, Boyle S, Becker RC, Williams R, Kuhn C, et al. Prevalence and clinical characteristics of mental stress-induced myocardial ischemia in patients with coronary heart disease. J Am Coll Cardiol. 2013;61(7):714-22. even more so in women aged 50 years or younger.⁶6 Vaccarino V, Shah AJ, Rooks C, Ibeanu I, Nye JA, Pimple P, et al. Sex differences in mental stress-induced myocardial ischemia in young survivors of an acute myocardial infarction. Psychosom Med. 2014;76(3):171-80. A large-scale case-control study indicated that post-MI depressive symptoms were associated with an increased risk of mortality, whereas anxiety symptoms were not an independent prognostic risk factor for new cardiovascular events or death.⁷7 Larsen KK, Agerbo E, Christensen B, Sondergaard J, Vestergaard M. Myocardial infarction and risk of suicide: a population-based case-control study. Circulation. 2010;122(23):2388-93. In contrast, another study of 5,750 patients with MI demonstrated that patients with anxiety are at a higher risk of both adverse cardiac events and all-cause mortality.⁸8 Roest AM, Martens EJ, Denollet J, de Jonge P. Prognostic association of anxiety post myocardial infarction with mortality and new cardiac events: a meta-analysis. Psychosom Med. 2010;72(6):563-9. The suicide risk is at its highest during the first month following discharge for MI for both patients with no history of psychiatric illness (adjusted rate ratio - 3.25) and for those with a history of psychiatric disorders (adjusted rate ratio - 64.05), with the rate ratios being comparable with those with no history of MI or psychiatric illness.⁷7 Larsen KK, Agerbo E, Christensen B, Sondergaard J, Vestergaard M. Myocardial infarction and risk of suicide: a population-based case-control study. Circulation. 2010;122(23):2388-93. The suicide risk remained higher for at least five years after the MI.⁷7 Larsen KK, Agerbo E, Christensen B, Sondergaard J, Vestergaard M. Myocardial infarction and risk of suicide: a population-based case-control study. Circulation. 2010;122(23):2388-93. Although post-MI depression is a common and burdensome condition, it remains underrecognized and undertreated.⁹9 Larsen KK. Depression following myocardial infarction--an overseen complication with prognostic importance. Dan Med J. 2013;60(8):B4689.^,¹⁰10 Feinstein RE, Blumenfield M, Orlowski B, Frishman WH, Ovanessian S. A national survey of cardiovascular physicians’ beliefs and clinical care practices when diagnosing and treating depression in patients with cardiovascular disease. Cardiol Rev. 2006;14(4):164-9. There are also very few gender-related analyses concerning cardiovascular diseases and emotional disorders.¹¹11 Rugulies R. Depression as a predictor for coronary heart disease. a review and meta-analysis. Am J Prev Med. 2002;23(1):51-61. We, therefore, aimed to evaluate depression and anxiety levels in patients suffering from MI and to assess the association between cardiovascular disease risk factors, demographic indicators and emotional disorders, as well as to determine whether there are gender-based differences or similarities.

Methods

Participants and Recruitment

Patients with a documented MI who were admitted to a tertiary health care institution from 1 November 2012 to 31 May 2013 were included.

Patients were included in the study according to the following inclusion criteria:

Possessing a full understanding of the survey instructions;
Age > 18 years;
Either gender;
A diagnosis of acute MI verified based on two of the three standard criteria: typical chest pain, ECG presentation, elevated cardiac biomarkers;
Time after MI < 31 days;
Knowledge of Lithuanian language;
Completion of the survey.

Exclusion criteria were:

Cognitive impairment or physical inability to complete the survey;
Diagnosed depression or anxiety disorder prior to MI;
Antidepressant or benzodiazepine use prior to MI;
Patient refusal;
Participation in another research study.

Of the 180 patients recruited, a total of 160 patients met the inclusion criteria and were assessed. This survey included demographic questions (gender, age), clinical characteristics and questions about cardiovascular disease risk factors: diabetes mellitus, arterial hypertension, hypercholesterolemia, smoking, hypodynamia, and obesity. Furthermore, the Hospital Anxiety and Depression Scale [HADS] was used to determine anxiety and depression symptomatology. The scale contains 14 items: seven to assess anxiety and seven to assess depression. The score can be interpreted according to the following range: 0-7 - no depression or anxiety disorder; 8-10 - mild depression or anxiety disorder; 11-14 - moderate disorder; and 15-21 - severe disorder. The anxiety subscale (HADS-A) specificity is 0.78 and the sensitivity is 0.9, while the depression subscale (HADS-D) specificity is 0.79 and the sensitivity is 0.83.¹²12 Bjelland I, Dahl AA, Haug TT, Neckelmann D. The validity of the Hospital Anxiety and Depression Scale. An updated literature review. J Psychosom Res. 2002;52(2):69-77.

Statistical analysis

The analysis was conducted using SPSS (IBM Corp. Released 2011. IBM SPSS Statistics for Windows. Version 20.0. Armonk, NY: IBM Corp) software. The Shapiro-Wilk’s test of normality was performed to verify the assumption of normality. Categorical variables were compared using the χ² test. Binary logistic regression analysis and the χ² test were used for categorical variables to assess the odds ratio [OR] for depression and anxiety presence associated with gender. The independent sample t-test, when the distribution of variables was normal, and the Mann-Whitney-Wilcoxon test, when variables showed an abnormal distribution, were used to assess continuous variables. Normally-distributed continuous variables are expressed as mean (mean ± standard deviation), whereas those with an abnormal distribution are expressed as median and interquartile range (IQR, Q1 - Q3). Correlation was assessed using Spearman’s rank correlation coefficient (p). All statistical tests were two-sided, and p values < 0.05 were considered statistically significant.

Results

Of the 180 patients recruited, a total of 160 met the inclusion criteria (88.8%) and were assessed. A total of 101 patients (63.1%) were males and 59 (36.9%) were females. The mean age of female patients was 69.9 years, whilst the mean age of male patients was significantly lower, at 62.3 years (p < 0.001). The youngest female patient was 33 and the oldest was 92 years of age. Similarly, the youngest male patient was 26 and the oldest was 85 years of age. The overall age range of 59 years was identical for both genders. Based on the accumulated data, it was determined that 71.4% of female and 60.4% of male respondents (68.1% of all respondents) had concomitant anxiety and/or depression symptomatology (Table 1). Logistic regressions were used to assess the differences regarding the risk of each psychiatric disorder according to gender. Using men as the reference point, women had an increased risk of having some type of psychiatric disorder (odds ratio, 2.86, p = 0.007) (Table 1).

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Table 1
Emotional disorder presentation in both genders

The all-patient mean HADS-D subscale score was 7.54 ± 4.322. It is particularly important to note that the HADS-D score was notably higher in women (8.66 ± 3.717) than in men (6.87 ± 4.531, p = 0.004). About 54.2% of female and 47.5% of male patients exhibited a depression disorder, being mild in 30.5%, moderate in 16.9% and severe in 6.8% of females, while the respective percentages for males were mild in 24.8%, moderate in 16.8% and severe in 5.9% (Table 2). It should be noted that the distribution of the aforementioned depression symptomatology severity degrees did not statistically differ between genders (p = 0.841).

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Table 2
Prevalence of anxiety and depression based on gender and severity

The HADS-A subscale score analysis revealed that all-patient mean HADS-A subscale score was 7.59 ± 4.335 and women had a higher mean score of 8.2 ± 3.938, while the mean score in men was 7.18 ± 4.532 (p = 0.142). 64.4% of female and 39.6% of male respondents had anxiety symptoms (mild in 35.6%, moderate in 23.7% and severe in 5.1% of females, while the respective percentages for males were mild in 17.8%, moderate in 15.8% and severe in 5.9%) (Table 2). According to the anxiety severity degree data, the prevalence of anxiety was considerably higher in women (p = 0.014), with this difference being more significant in the mild anxiety group (p = 0.012). Logistic regression analysis demonstrated that women had an elevated risk of having an anxiety disorder, with an OR of 2.76 (Table 2).

There was no significant association between patient age and anxiety severity. However, a weak positive significant correlation was found between patient age and depression severity (p = 0.233, p = 0.003). In addition, it was determined that male patients who developed depression were on average younger than those without the disease, with a mean age of 58 years and 66 years, respectively (p = 0.005). The age with the highest risk of developing depression was determined to be between 55 and 62 years of age for males, whilst 95% of female patients who developed depression were between 66 and 75 years of age. A subsequent gender-based analysis showed that there was a significant weak positive correlation between male patient age and depression severity (p = 0.212, p = 0.033) and a weak negative correlation between male patient age and anxiety severity (p = - 0,278, p = 0.005). In contrast, the data analysis in women did not demonstrate any statistical association, thus meaning that depression and anxiety severity is similar for women of all age after MI. (Table 3)

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Table 3
Cardiovascular risk factor characteristics distributed by gender

Cardiovascular risk factor analysis showed an association between diabetes mellitus and HADS-D score in males who had a significantly higher median depression score compared to those who were not diabetic (10, IQR 5 - 11 vs. 5, IQR 3 - 9.75, p = 0.043). In contrast, female patients did not show any significant association between diabetes mellitus and emotional disorders. Hypercholesterolemia was associated with both higher median anxiety (8, IQR 6 - 12 vs. 6.5, IQR - 4 - 8, p = 0.02) and depression (9, IQR 7 - 12 vs. 7, IQR 4 - 8.75, p = 0.015) scores in women, while men did not show any association between the aforementioned factors (Table 4). Moreover, it was determined that arterial hypertension and body mass index were not, in any way, associated with anxiety or depression. The evaluation of patient smoking habits revealed that 15.6% of respondents were daily smokers (Table 3). Smoking was more prevalent amongst men than women (20.8% vs. 6.8%, p = 0.019). Furthermore, a higher HADS-A score was identified in male patients who did smoke (10, IQR 7.5 - 14) vs. 6.5, IQR 3 - 9, p = 0.002), whilst the HADS-A score did not differ between women who smoked or did not smoke (p = 0.311). Likewise, there was no statistically significant difference in the HADS-D subscale scores between smoking and non-smoking patients. Exercise habit analysis showed that the group of patients who did not exercise had a higher median HADS-D score than the group that exercised (9, IQR 6 - 12 vs. 5, IQR 3 - 9, p < 0.001). Gender-based analysis similarly revealed significantly higher median HADS-D scores in male (7.5, IQR 5 - 12 vs. 4, IQR 3 - 8, p = 0.002) and female patients (9, IQR 7.25 - 11.75 vs. 8, IQR 4 - 10, p = 0.027) who were hypodynamic. In contrast, the median HADS-A score did not significantly differ between females and males who exercised and did not exercise (p = 0.676) (Table 4).

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Table 4
Cardiovascular risk factors and Hospital Anxiety and Depression Scale score

Discussion

This study assessed gender differences regarding the associations between emotional disorders and MI that had occurred less than one month before the initial assessment. Our investigation showed that 71.4% of female and 60.4% of male patients had some type of emotional mental health problem after having been diagnosed with MI. Subsequently, we observed an elevated risk of concomitant emotional disorders in women, in comparison to men (p = 0.006). Likewise, a gender-associated difference was displayed by Carvalho et al. who used the same HAD scale and found depression symptoms in 17.5% of adult inpatients with cardiovascular disease and anxiety symptoms in 32.5% and, amongst these, the highest prevalence of mental disorders were also associated with female gender (anxiety: p = 0.002; depression: p = 0.022).¹³13 Carvalho IG, Bertolli ED, Paiva L, Rossi LA, Dantas RA, Pompeo DA. Anxiety, depression, resilience and self-esteem in individuals with cardiovascular diseases. Rev Lat Am Enf. 2016;24:e2836. Although the incidence of depression in women in society is nearly double than that in men,¹⁴14 Weissman MM, Bland R, Joyce PR, Newman S, Wells JE, Wittchen HU. Sex differences in rates of depression: cross-national perspectives. J Affect Disord. 1993;29(2-3):77-84. it is of utmost importance to stress that this gender-based discrepancy in society is quite probably irrelevant to our study, as the mean age of women in our study was 70 years and the incidence of depression in women after menopause (when reproductive hormones stabilize) is similar to that in men.¹⁵15 Bebbington P, Dunn G, Jenkins R, Lewis G, Brugha T, Farrell M, et al. The influence of age and sex on the prevalence of depressive conditions: report from the National Survey of Psychiatric Morbidity. Int Rev Psychiatry. 2003;15(1-2):74-83. The high prevalence of emotional disorders that we observed may be partially explained by the fact that we only assessed those with a more severe condition, i.e., MI. A similar study that also used the HAD scale, but assessed dermatological patients in the same region (Vilnius city, Lithuania), found the prevalence of mental disorders to be higher than in other comparable studies, although lower than that observed in our study.¹⁶16 Lukaviciute L, Navickas P, Navickas A, Grigaitiene J, Ganceviciene R, Zouboulis CC. Quality of life, anxiety prevalence, depression symptomatology and suicidal ideation among acne patients in Lithuania. J Eur Acad Dermatol Venereol. 2017;31(11):1900-6. Another noteworthy explanation for the high prevalence might be the fact that mental health problems in Lithuania are particularly widespread, as demonstrated by the suicide rates that are amongst the highest worldwide.¹⁷17 WHO. World Health Statistics. Monitoring Health for the Sustainable Development Goals. Geneva: WHO Press; 2016.p.62-3.

It is particularly important to note that the HADS-D score was especially higher in women. Although we did not assess the impact of depression on patient outcomes, it is nonetheless necessary to stress the predictive influence of depressive symptoms in acute coronary syndrome [ACS]. A meta-analysis including 22 studies, carried out by Van Melle et al.,¹⁸18 van Melle JP, de Jonge P, Spijkerman TA, Tijssen JG, Ormel J, van Veldhuisen DJ, et al. Prognostic association of depression following myocardial infarction with mortality and cardiovascular events: a meta-analysis. Psychosom Med. 2004;66(6):814-22. concluded that depression is associated with a two-fold increase in mortality following MI. Furthermore, depression is associated with worse long-term outcomes after MI. For example, it was determined that moderate or high stress at the time of the MI is associated with an increased two-year mortality and an increased risk of angina in the first year.¹⁹19 Arnold SV, Smolderen KG, Buchanan DM, Li Y, Spertus JA. Perceived stress in myocardial infarction: long-term mortality and health status outcomes. J Am Coll Cardiol. 2012;60(18):1756-63. Bush et al.²⁰20 Bush DE, Ziegelstein RC, Tayback M, Richter D, Stevens S, Zahalsky H, et al. Even minimal symptoms of depression increase mortality risk after acute myocardial infarction. Am J Cardiol. 2001;88(4):337-41. prospectively studied patients with MI who survived to discharge and determined that the highest mortality rates were observed in patients with the most severe depressive symptoms. Moreover, the ENRICHD study²¹21 Lichtman JH, Froelicher ES, Blumenthal JA, Carney RM, Doering LV, Frasure-Smith N, et al. Depression as a risk factor for poor prognosis among patients with acute coronary syndrome: systematic review and recommendations: a scientific statement from the American Heart Association. Circulation. 2014;129(12):1350-69. also concluded that depression increases the risk of all-cause mortality for 30 months, even after adjusting for confounders. After the extensive review of 53 studies and four meta-analyses, the American Heart Association [AHA] stated that depression is an individual risk factor for adverse medical outcomes in patients with acute coronary syndrome.²¹21 Lichtman JH, Froelicher ES, Blumenthal JA, Carney RM, Doering LV, Frasure-Smith N, et al. Depression as a risk factor for poor prognosis among patients with acute coronary syndrome: systematic review and recommendations: a scientific statement from the American Heart Association. Circulation. 2014;129(12):1350-69. Depression is an important risk factor that should be taken into consideration, not only after ACS but prior to CAD as well. Results of an 11-cohort study meta-analysis by Rugulies et al.¹¹11 Rugulies R. Depression as a predictor for coronary heart disease. a review and meta-analysis. Am J Prev Med. 2002;23(1):51-61. support this statement, since they concluded that clinical depression was a strong predictor of the development of coronary heart disease in an initially healthy population. Furthermore, another study demonstrated that depression was a stronger CHD predictor, especially for women (p = 0.002).²²22 Mendes de Leon CF, Krumholz HM, Seeman TS, Vaccarino V, Williams CS, Kasl SV, et al. Depression and risk of coronary heart disease in elderly men and women: New Haven EPESE, 1982-1991. Established Populations for the Epidemiologic Studies of the Elderly. Arch Intern Med. 1998;158(21):2341-8.

Our study revealed that women had a markedly elevated risk of having anxiety disorder. It should be highlighted that the prognostic significance of anxiety raises discussions, since some studies suggest that post-MI anxiety symptoms were not an independent prognostic risk factor for new cardiovascular events or death.²³23 Larsen KK, Christensen B, Nielsen TJ, Vestergaard M. Post-myocardial infarction anxiety or depressive symptoms and risk of new cardiovascular events or death: a population-based longitudinal study. Psychosom Med. 2014;76(9):739-46. Moreover, according to Hosseini et al.,²⁴24 Hosseini SH, Ghaemian A, Mehdizadeh E, Ashraf H. Contribution of depression and anxiety to impaired quality of life in survivors of myocardial infarction. Int J Psychiatry Clin Pract. 2014;18(3):175-81. post-MI anxiety does not predict long-term quality of life in MI survivors. Nonetheless, we believe that post-MI anxiety should be taken into consideration in clinical practice, since it has been shown that not only depression but also pre-myocardial anxiety in the preceding 2 hours increase 10-year mortality rates in those aged > 65 years.²⁵25 Smeijers L, Mostofsky E, Tofler GH, Muller JE, Kop WJ, Mittleman MA. Anxiety and anger immediately prior to myocardial infarction and long-term mortality: Characteristics of high-risk patients. J Psychosom Res. 2017;93:19-27. Moreover, Paine et al.²⁶26 Paine NJ, Bacon SL, Pelletier R, Arsenault A, Diodati JG, Lavoie KL. Do Women with anxiety or depression have higher rates of myocardial ischemia during exercise testing than men? Circ Cardiovasc Qual Outcomes. 2016;9(2 Suppl 1):S53-61. recently published an article stating that women with anxiety and no CAD history had higher rates of ischemia than women without anxiety. Since women are more prone to anxiety, it is important to mention that many CAD symptoms (for example, fatigue, chest pain and shortness of breath) overlap with anxiety symptoms and might mask CAD. This is more evident in women than men and contributes to the referral to other specialists and, thus, diagnostic delays.²⁷27 Halvorsen S, Eritsland J, Abdelnoor M, Holst Hansen C, Risoe C, Midtbo K, et al. Gender differences in management and outcome of acute myocardial infarctions treated in 2006-2007. Cardiology. 2009;114(2):83-8.

Although a recent publication by Feng et al.¹1 Feng HP, Chien WC, Cheng WT, Chung CH, Cheng SM, Tzeng WC. Risk of anxiety and depressive disorders in patients with myocardial infarction: A nationwide population-based cohort study. Medicine (Baltimore). 2016;95(34):e4464. determined that especially those women between 45 and 64 years of age had the greatest risk for anxiety when it comes to cardiovascular disease, our findings did not support this conclusion. First, our study showed that women had the highest probability to develop anxiety from 68 to 75 years of age. Second, the analysis showed that age did not have any influence on either anxiety or depression prevalence in women. On the other hand, there was a significant association between age in men and depressive symptomatology prevalence and it was shown that a relatively younger population, aged 55 to 62 years, had the highest risk of developing depression. Furthermore, male patients showed a significant weak positive correlation between age and depression severity and a weak negative correlation between age and anxiety severity.

The cardiovascular risk factor analysis showed that a higher anxiety score was identified in male patients who smoked, whereas the HADS-A score did not differ between women who smoked and did not smoke. Similarly, a significantly higher HADS-D score was found in those patients who were hypodynamic. Also, an association between diabetes mellitus and the HADS-D score was evident and men who had diabetes mellitus also had a significantly higher depression score, whereas female patients did not show any significant association between diabetes mellitus and emotional disorders. Although our analysis did not demonstrate any association between hypertension and mental disorders, another study listed depression as being associated with several known prognostic factors, such as a history of treatment of hypertension, diabetes, advanced Killip Class and left ventricular ejection fraction of 35% or less.²⁸28 Lesperance F, Frasure-Smith N, Talajic M, Bourassa MG. Five-year risk of cardiac mortality in relation to initial severity and one-year changes in depression symptoms after myocardial infarction. Circulation. 2002;105(9):1049-53. We would also like to address the association found between elevated anxiety and depression levels and hypercholesterolemia in females. A quite recent experimental study by Engel et al.²⁹29 Engel DF, de Oliveira J, Lopes JB, Santos DB, Moreira ELG, Farina M, et al. Is there an association between hypercholesterolemia and depression? Behavioral evidence from the LDLr(-/-) mouse experimental model. Behav Brain Res. 2016 Sep 15;311:31-8. aimed to investigate this pathophysiological association and concluded that depressive-like behavior in hypercholesterolemic mice is accompanied by alterations in the monoaminergic metabolism, providing new evidence about the association between hypercholesterolemia and depression.

It is of paramount importance to mention the need for routine screening for depression since it is also associated with decreased adherence to medications³⁰30 Gehi A, Haas D, Pipkin S, Whooley MA. Depression and medication adherence in outpatients with coronary heart disease: findings from the Heart and Soul Study. Arch Intern Med. 2005;165(21):2508-13. and a three-fold increase in the risk of noncompliance with medical treatment regimens.³¹31 Di Matteo MR, Lepper HS, Croghan TW. Depression is a risk factor for noncompliance with medical treatment: meta-analysis of the effects of anxiety and depression on patient adherence. Arch Intern Med. 2000;160(14):2101-7. Moreover, it leads to significantly reduced quality of life³²32 Swenson JR. Quality of life in patients with coronary artery disease and the impact of depression. Curr Psychiatry Rep. 2004;6(6):438-45.^,³³33 Rodrigues GH, Gebara OC, Gerbi CC, Pierri H, Wajngarten M. Depression as a clinical determinant of dependence and low quality of life in elderly patients with cardiovascular disease. Arq Bras Cardiol. 2015;104(6):443-9. and higher healthcare costs.³⁴34 Frasure-Smith N, Lesperance F, Gravel G, Masson A, Juneau M, Talajic M, et al. Depression and health-care costs during the first year following myocardial infarction. J Psychosom Res. 2000;48(4-5):471-8. All patients should be screened within one month of MI. The AHA recommends using Patient Health Questionnaire-2, which consists of one question seeking to identify a depressive mood in the preceding two weeks and another for anhedonia in the preceding two weeks.³⁵35 Lichtman JH, Bigger JT Jr, Blumenthal JA, Frasure-Smith N, Kaufmann PG, Lesperance F, et al. Depression and coronary heart disease: recommendations for screening, referral, and treatment: a science advisory from the American Heart Association Prevention Committee of the Council on Cardiovascular Nursing, Council on Clinical Cardiology, Council on Epidemiology and Prevention, and Interdisciplinary Council on Quality of Care and Outcomes Research: endorsed by the American Psychiatric Association. Circulation. 2008;118(17):1768-75. If the answer is positive to either question, then the patient should be referred for a more thorough clinical evaluation by a professional qualified in the diagnosis and management of depression or screened with the Patient Health Questionnaire-9, which has shown to be diagnostically superior in patients with CHD.³⁶36 Haddad M, Walters P, Phillips R, Tsakok J, Williams P, Mann A, et al. Detecting depression in patients with coronary heart disease: a diagnostic evaluation of the PHQ-9 and HADS-D in primary care, findings from the UPBEAT-UK study. PLoS One. 2013;8(10):e78493. In contrast, there are no specific guidelines from the AHA for anxiety disorder screening in CHD. This can be partially due to the high prevalence of anxiety symptoms in angina and MI. Furthermore, it has been shown that anxiety rating scales have relatively high false positive scores that result in reduced cost-effectiveness of routine screening.³⁷37 Bunevicius A, Staniute M, Brozaitiene J, Pop VJ, Neverauskas J, Bunevicius R. Screening for anxiety disorders in patients with coronary artery disease. Health Qual Life Outcomes. 2013;11:37.

Both depression and anxiety treatment options include cardiac rehabilitation and exercise therapy, disease management programs, cognitive behavior therapy and pharmacotherapy.³⁸38 Hare DL, Toukhsati SR, Johansson P, Jaarsma T. Depression and cardiovascular disease: a clinical review. Eur Heart J. 2014;35(21):1365-72. Data from the Secondary Prevention in Uppsala Primary Health Care study further support the heart-helping benefits of cognitive-behavioral therapy since at follow-up, the psychotherapy intervention group had 45% fewer recurrent heart attacks and a 41% lower rate of both non-fatal and fatal first recurrent cardiovascular events than the group receiving traditional care.³⁹39 Gulliksson M, Burell G, Vessby B, Lundin L, Toss H, Svardsudd K. Randomized controlled trial of cognitive behavioral therapy vs standard treatment to prevent recurrent cardiovascular events in patients with coronary heart disease: Secondary Prevention in Uppsala Primary Health Care project (SUPRIM). Arch Intern Med. 2011;171(2):134-40. On the other hand, there are still ongoing discussions concerning the optimal treatment algorithm, as a few studies have had disappointing results concerning behavior therapy. For example, the ENRICHD study found that a six-month intervention focused on treating patients' depression made patients feel better, but had no positive impact when it came to preventing repeat heart attacks or death.⁴⁰40 Carney RM, Blumenthal JA, Catellier D, Freedland KE, Berkman LF, Watkins LL, et al. Depression as a risk factor for mortality after acute myocardial infarction. Am J Cardiol. 2003;92(11):1277-81.

Possible limitations of our study include unequal sample sizes between genders, with the male group being larger. However, this gender inequality reflects the real rates of patients with MI admitted to hospitals in Lithuania. Second, the absence of a control group can be considered a limitation, though we have attempted to mitigate this by discussing and comparing our data with results of previous similar studies. Third, the study design did not include mental health evaluation by a psychiatrist. Finally, our study was not a longitudinal one and patients were not reassessed several times to determine a more long-term association between MI and mental disease.

Conclusions

MI is especially closely associated with anxiety and depression. More than two-thirds of patients with MI had a depression and/or anxiety comorbidity within the first month of MI. Women showed an elevated risk of having anxiety and/or depression disorder compared to men. Furthermore, both anxiety and depression severity had a tendency to be higher in women. In addition, depression severity increased with age in men, while anxiety severity decreased. In contrast, depression and anxiety severity are similar for women of all ages after MI. A higher depression score was associated with diabetes and physical inactivity, whereas a higher anxiety score was associated with smoking in men. Hypercholesterolemia was associated with both higher anxiety and depression scores, whereas a higher depression score was associated with physical inactivity in women.

Sources of Funding

There were no external funding sources for this study.
Study Association

This study is not associated with any thesis or dissertation work.
Ethics approval and consent to participate

This study was approved by the Ethics Committee of the Regional Biomedical Research Ethics Committee in Vilnius based at the Medical Faculty of Vilnius University under the protocol number 158200-04-301-78, 2011-04-06. All the procedures in this study were in accordance with the 1975 Helsinki Declaration, updated in 2013. Informed consent was obtained from all participants included in the study.

Acknowledgements

PS conceived the study, wrote the protocol, designed and adopted the database system, and oversaw data collection. PN, LL, AN performed the statistical data analysis, wrote the manuscript and contributed to the design of the study. RA, RS, AD contributed to study design, provided other technical support and edited the manuscript. SG, ZP, RS oversaw data collection and edited the manuscript. All authors approved this version for publication.

References

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Lukaviciute L, Navickas P, Navickas A, Grigaitiene J, Ganceviciene R, Zouboulis CC. Quality of life, anxiety prevalence, depression symptomatology and suicidal ideation among acne patients in Lithuania. J Eur Acad Dermatol Venereol. 2017;31(11):1900-6.
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²⁹
Engel DF, de Oliveira J, Lopes JB, Santos DB, Moreira ELG, Farina M, et al. Is there an association between hypercholesterolemia and depression? Behavioral evidence from the LDLr(-/-) mouse experimental model. Behav Brain Res. 2016 Sep 15;311:31-8.
³⁰
Gehi A, Haas D, Pipkin S, Whooley MA. Depression and medication adherence in outpatients with coronary heart disease: findings from the Heart and Soul Study. Arch Intern Med. 2005;165(21):2508-13.
³¹
Di Matteo MR, Lepper HS, Croghan TW. Depression is a risk factor for noncompliance with medical treatment: meta-analysis of the effects of anxiety and depression on patient adherence. Arch Intern Med. 2000;160(14):2101-7.
³²
Swenson JR. Quality of life in patients with coronary artery disease and the impact of depression. Curr Psychiatry Rep. 2004;6(6):438-45.
³³
Rodrigues GH, Gebara OC, Gerbi CC, Pierri H, Wajngarten M. Depression as a clinical determinant of dependence and low quality of life in elderly patients with cardiovascular disease. Arq Bras Cardiol. 2015;104(6):443-9.
³⁴
Frasure-Smith N, Lesperance F, Gravel G, Masson A, Juneau M, Talajic M, et al. Depression and health-care costs during the first year following myocardial infarction. J Psychosom Res. 2000;48(4-5):471-8.
³⁵
Lichtman JH, Bigger JT Jr, Blumenthal JA, Frasure-Smith N, Kaufmann PG, Lesperance F, et al. Depression and coronary heart disease: recommendations for screening, referral, and treatment: a science advisory from the American Heart Association Prevention Committee of the Council on Cardiovascular Nursing, Council on Clinical Cardiology, Council on Epidemiology and Prevention, and Interdisciplinary Council on Quality of Care and Outcomes Research: endorsed by the American Psychiatric Association. Circulation. 2008;118(17):1768-75.
³⁶
Haddad M, Walters P, Phillips R, Tsakok J, Williams P, Mann A, et al. Detecting depression in patients with coronary heart disease: a diagnostic evaluation of the PHQ-9 and HADS-D in primary care, findings from the UPBEAT-UK study. PLoS One. 2013;8(10):e78493.
³⁷
Bunevicius A, Staniute M, Brozaitiene J, Pop VJ, Neverauskas J, Bunevicius R. Screening for anxiety disorders in patients with coronary artery disease. Health Qual Life Outcomes. 2013;11:37.
³⁸
Hare DL, Toukhsati SR, Johansson P, Jaarsma T. Depression and cardiovascular disease: a clinical review. Eur Heart J. 2014;35(21):1365-72.
³⁹
Gulliksson M, Burell G, Vessby B, Lundin L, Toss H, Svardsudd K. Randomized controlled trial of cognitive behavioral therapy vs standard treatment to prevent recurrent cardiovascular events in patients with coronary heart disease: Secondary Prevention in Uppsala Primary Health Care project (SUPRIM). Arch Intern Med. 2011;171(2):134-40.
⁴⁰
Carney RM, Blumenthal JA, Catellier D, Freedland KE, Berkman LF, Watkins LL, et al. Depression as a risk factor for mortality after acute myocardial infarction. Am J Cardiol. 2003;92(11):1277-81.

Publication Dates

Publication in this collection
23 Aug 2018
Date of issue
Nov 2018

History

Received
14 Feb 2018
Reviewed
20 May 2018
Accepted
23 May 2018

This is an Open Access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited

[1] Sources of Funding

There were no external funding sources for this study.

[2] Study Association

This study is not associated with any thesis or dissertation work.

[3] Ethics approval and consent to participate

This study was approved by the Ethics Committee of the Regional Biomedical Research Ethics Committee in Vilnius based at the Medical Faculty of Vilnius University under the protocol number 158200-04-301-78, 2011-04-06. All the procedures in this study were in accordance with the 1975 Helsinki Declaration, updated in 2013. Informed consent was obtained from all participants included in the study.

Emotional disorder	Men		Women		χ² or β	p value
Any emotional disorder
Prevalence	n = 61	60.4%	n = 48	81.4%	χ² = 7.54	0.006^* * Significant p values. Odds ratio reported as odds ratio (95% confidence interval).
Odds ratio	1		2.861 (1.33 – 6.16)		β = 1.05	0.007^* * Significant p values. Odds ratio reported as odds ratio (95% confidence interval).
Anxiety disorder
Prevalence	n = 40	39.6%	n = 38	64.4%	χ² = 9.17	0.002^* * Significant p values. Odds ratio reported as odds ratio (95% confidence interval).
Odds ratio	1		2.760 (1.42 – 5.37)		β = 1.02	0.003^* * Significant p values. Odds ratio reported as odds ratio (95% confidence interval).
Depression disorder
Prevalence	n = 48	47.5%	n = 32	54.2%	χ² = 0.67	0.413
Odds ratio	1		0.764 (0.4 – 1.46)		β = 0.269	0.413
Both depression and anxiety disorders
Prevalence	n = 27	26.7%	n = 22	37.3%	χ² = 1.95	0.162
Odds ratio	1		1.630 (0.82 – 3.24)		β = 0.49	0.164

Risk factors	Men		Women		p value
Risk factors	n = 101	%	n = 59	%	p value
Current smoker	21	20.8	4	6.8	0.019^* * Significant p values (between men and women, χ2). MI, myocardial infarction.
Physical inactivity	49	48.5	27	45.8	0.737
Diabetes mellitus	21	20.8	21	35.6	0.040^* * Significant p values (between men and women, χ2). MI, myocardial infarction.
Hypertension	87	86.1	57	96.6	0.033^* * Significant p values (between men and women, χ2). MI, myocardial infarction.
Hypercholesterolemia	52	51.5	39	66.1	0.072

Risk factors		HADS-A		HADS-D
		Median (interquartile range)		Median (interquartile range)
		Men	Women	Men	Women
Current smoker	Yes	10 (7.5 – 14)	9 (7.25 – 13)	5 (2 – 11.5)	6 (4 – 11.75)
	No	6.5 (3 – 9)	8 (5 – 10)	6 (4 – 10)	8 (7 – 11)
	p value	0.002^* * Significant p values. HADS: Hospital Anxiety and Depression Scale; HADS-A: Hospital Anxiety and Depression Scale-Anxiety; HADS-D: Hospital Anxiety and Depression Scale-Depression.	0.311	0.473	0.439
Physical inactivity	Yes	7.5 (4 – 11)	7 (5 – 10.75)	7.5 (5 – 12)	9 (7.25 – 11.75)
	No	7 (3 – 10)	8 (6 – 10)	4 (3 – 8)	8 (4 – 10)
	p value	0.286	0.364	0.002^* * Significant p values. HADS: Hospital Anxiety and Depression Scale; HADS-A: Hospital Anxiety and Depression Scale-Anxiety; HADS-D: Hospital Anxiety and Depression Scale-Depression.	0.027^* * Significant p values. HADS: Hospital Anxiety and Depression Scale; HADS-A: Hospital Anxiety and Depression Scale-Anxiety; HADS-D: Hospital Anxiety and Depression Scale-Depression.
Diabetes mellitus	Yes	7 (4 – 9)	8 (6 – 11)	10 (5 – 11)	9 (7 – 13)
	No	7 (3 – 11)	8 (5 – 10)	5 (3 – 9.75)	8 (5.75 – 10.25)
	p value	0.943	0.537	0.043^* * Significant p values. HADS: Hospital Anxiety and Depression Scale; HADS-A: Hospital Anxiety and Depression Scale-Anxiety; HADS-D: Hospital Anxiety and Depression Scale-Depression.	0.283
Hypertension	Yes	7 (4 – 10)	8 (5.5 – 10.5)	6 (3 – 10)	8 (6.5 – 11)
	No	6 (2.75 – 10.75)	N/A	8 (4.75 – 10.25)	N/A
	p value	0.756	N/A	0.287	N/A
Hypercholesterolemia	Yes	7 (4 – 9)	8 (6 – 12)	6.5 (4 – 10)	9 (7 – 12)
	No	8 (3.5 – 12.5)	6.5 (4 – 8)	6 (3 – 10.5)	7 (4 – 8.75)
	p value	0.2	0.02^* * Significant p values. HADS: Hospital Anxiety and Depression Scale; HADS-A: Hospital Anxiety and Depression Scale-Anxiety; HADS-D: Hospital Anxiety and Depression Scale-Depression.	0.859	0.015^* * Significant p values. HADS: Hospital Anxiety and Depression Scale; HADS-A: Hospital Anxiety and Depression Scale-Anxiety; HADS-D: Hospital Anxiety and Depression Scale-Depression.

Brasil

Brasil

Gender-Based Differences in Anxiety and Depression Following Acute Myocardial Infarction

Abstract

Background:

Objective:

Methods:

Results:

Conclusions:

Resumo

Fundamento:

Objetivo:

Métodos:

Resultados:

Conclusões:

Introduction

Methods

Participants and Recruitment

Statistical analysis

Results

Discussion

Conclusions

Acknowledgements

References

Publication Dates

History

Severity of anxiety/depression	Hospital Anxiety and Depression Scale (HADS)
	Anxiety subscale							Depression subscale
	Total		Men		Women		p value	Total		Men		Women		p value
	n	%	n	%	n	%		n	%	n	%	n	%
No disorder	82	51.3	61	60.4	21	35.6	0.002^* * Significant p values (between men and women, χ2). HADS, Hospital Anxiety and Depression Scale.	80	50	53	52.5	27	45.8	0.413
Mild disorder	39	24.4	18	17.8	21	35.6	0.012^* * Significant p values (between men and women, χ2). HADS, Hospital Anxiety and Depression Scale.	43	26.9	25	24.8	18	30.5	0.428
Moderate disorder	30	18.8	16	15.8	14	23.7	0.217	27	16.9	17	16.8	10	16.9	0.985
Severe disorder	9	5.6	6	5.9	3	5.1	0.821	10	6.3	6	5.9	4	6.8	0.832
Total	82	51.3	61	60.4	21	35.6	0.002^* * Significant p values (between men and women, χ2). HADS, Hospital Anxiety and Depression Scale.	80	50	53	52.5	27	45.8	0.413