The most striking examples of gender differences in medicine are found in patients with a history of sudden cardiac arrest (SCA). The Brugada syndrome (BrS) and long QT syndrome (LQTS) are 2 representative ion channel diseases causing ventricular fibrillation and SCA in patients with a structurally normal heart.2) LQTS is predominantly detected in females, whereas the majority (10:1) of patients affected by BrS are males. This striking gender difference in the clinical manifestation is explained by distinct differences in the electrophysiological properties between males and females. Unique differences in the distribution of specific potassium channels in the layers of ventricles elicit differential response to autonomic stimulation, electrolyte changes, or exposure to drugs. In human cardiac diseases, there are other examples demonstrating sex or gender differences. The development of coronary artery disease (CAD) is delayed by approximately 10 years in females, and the incidence of cardiovascular events is higher in males. Because SCA is mainly precipitated by the rupture of coronary atherosclerotic plaque, the incidence of SCA is also significantly higher in males. However, apart from the difference in the prevalence of CAD or SCA, more serious challenges arise from the differential gender response in the diagnosis or management of CAD. Because of the deep-rooted concept that females are more protected from CAD than are males, the risk of CAD is often overlooked in females, which may lead to a biased practice. Females with acute myocardial infarction (AMI) have a more unfavorable outcome than males. They are more prone to experience serious complications of AMI such as cardiogenic shock, congestive heart failure, and re-infarction. Females with CAD are more likely to present with atypical symptoms, which may cause a delay in presentation or medical attention. Females are less likely to be referred for functional testing for ischemia and diagnostic angiograms. Because of the different clinical presentations, under-recognition of CAD, and biased practice patterns, females are less likely to receive evidence-based treatment or invasive procedures and, therefore, have worse outcomes from both chronic stable angina and acute coronary syndromes than males.3)4)5)

Another piece of evidence supporting the need for gender-based medicine was provided in this issue of the Korean Circulation Journal. Lee et al.6) have reported gender perspectives in Korean atrial fibrillation (AF) epidemiology and practice patterns. The Comparison Study of Drugs for Symptom Control and Complication Prevention of AF (CODE-AF) registry is a large, prospective, observational cohort study from 10 tertiary hospitals representing all geographical regions of South Korea. This registry encompasses all treatment strategies in a population representative of Korean patients with AF. The authors reported that female patients with AF are more conservatively treated and rhythm control strategies are less frequently used in females than in males. In addition, they reported that an insufficient dosing of non-vitamin K antagonist oral anticoagulants is common in both sexes but is significantly more frequent in females.

Gender differences in AF prevalence and stroke risk have been previously reported. As is the case in patients with CAD, males show a higher risk of developing AF than females. This gender gap gradually decreases with advancing age. In general, female gender poses poorer outcomes in patients with AF. Females have a higher risk of stroke than males, and the mortality rate is higher for females than for males with AF.7) The increased stroke risk in females is partly explained by baseline comorbidities and increased thrombogenicity (endothelial dysfunction, elevated prothrombotic factors, and increased platelet activation).7)8) Despite these higher risks, as is the case in patients with CAD, females with AF are more conservatively treated with less rhythm control than males.9)

The results of the present Korean registry study are largely the same as those of previous studies. Notwithstanding this similarity, the authors are to be commended because the present study is timely and important considering the rapidly aging Korean population and the recently increased awareness regarding AF. There are insufficient data on AF and gender issues in the Asian population. Ethnic or racial issues are as important as gender differences, and this study is one of the few analyzing AF data in the Asian population. In contrast to Western patients with AF, gender differences in thromboembolic risks are not significant in the Asian population.7)10) Taiwanese, Japanese, and Korean data suggest no significant difference in stroke risk between males and females.8)10) It has been suggested that Asian patients should be differently approached for risk assessment and clinicians should use a risk stratification scheme for stroke other than the current CHADS-VASc score.

It is difficult to ignore an individual's personal experiences in medical practice. However, at the same time, all of us are subject to implicit stereotyping and unconscious bias in decision making, which is why current medical education and practice pursues evidence-based medicine. To overcome this inherent prejudice of humans, it may be of value to accelerate the introduction or application of artificial intelligence, big data, and precision medicine to provide more gender-based and individualized approaches in our daily practice.