The Asia Pacific region is a large and diverse group of countries usually defined as those countries on the western side of the Pacific Ocean and is often further subdivided into East Asia, North Asia, Southeast Asia, Oceania (Australasia, Polynesia, Micronesia, and Melanesia), and the Indian subcontinent.¹ Depending on the definition used, there are approximately 5 billion people who live in the region and make up most of the world population.²

In 2010, the Asia Pacific Heart Rhythm Society (APHRS) began collecting annual information on disease burden of arrhythmias and related clinical issues, availability of specialized therapies for arrhythmias, and workforce information from their member representatives and published the collated results in the APHRS White Book.³ Using these data and other sources, Figure 1 provides an estimate of the percentage of gross domestic product (GDP) used for health care for individual countries. There is a significant range for different countries in the region (from 2% to 10%).^3–6

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FIGURE 1. Estimated percentage of a country's gross domestic product (GDP) spent on health care. When multiple years were available, the past 5 years were averaged to account for year-to-year variability.3–6

Use of nonpharmacologic therapies for arrhythmia care for different countries is shown in Figures 2 and 3. As shown in Figure 2, a wide range of cardiac implantable electronic device (CIED) implantation rates are observed, with the highest implant utilization in countries where a higher percentage of the GDP is directed to health care (Japan and New Zealand). The CIED implant rates in Japan and New Zealand are 598 per million and 720 per million, respectively. For comparison, one study from a rural county in the United States estimated that the CIED implant rate is 890 per million, and Germany has the highest reported CIED implant rate in Europe with an estimate of 1698 per million.^7,8 Low rates of CIED implantation are observed in countries where workforce issues are present. For example, in Pakistan and the Philippines, only a small percentage of the general population are physicians, and among physicians, only a very small percentage implant CIEDs (Table 1). Use of ablation follows a similar pattern, with the highest ablation rates reported by Japan and New Zealand. In most countries, ablations for arrhythmias other than atrial fibrillation (AF) make up most ablation procedures, and in Japan and South Korea, a larger percentage of ablations are performed for the treatment of AF (Figure 3).

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FIGURE 2. Cardiac implantable electronic device implant rates (implants per million) for different countries in the Asia Pacific region divided by pacemakers and “advanced” devices including cardiac resynchronization therapy (CRT) and implantable cardioverter defibrillators (ICDs) in 2020 (*Pakistan) and 2021.3–6

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FIGURE 3. Catheter ablation procedures (procedures per million) for different countries in the Asia Pacific region divided by atrial fibrillation (AF) ablation and non-AF ablation procedures for 2020 (*Pakistan and Vietnam) and 2021.3–6

TABLE 1 Percentage of physicians in the general population and percentage of physicians who implant pacemakers and perform ablation.

Abbreviation: NA, not available.

Brunei Darussalam is situated on the northwestern coast of Borneo in Southeast Asia and has a population of approximately 440,000 according to the 2021 census.⁹ Health care for citizens is largely free at the point of care, with permanent residents entitled to subsidized care. Other individuals rely on insurance or pay out of pocket.

There are few published data on the prevalence of arrhythmias in Brunei Darussalam, but approximately 25.3% of stroke patients had AF, which is comparable to findings in a matched German population.¹⁰ In addition, other data suggest that survival from cardiac arrests remains very low (1.4%), with low rates of bystander cardiopulmonary resuscitation.¹¹ According to the 2022 APHRS White Book, 61 pacemakers, 18 cardiac resynchronization therapy (CRT) devices, and 27 implantable cardioverter defibrillators (ICDs) were implanted. A total of 102 ablation procedures were performed, mostly for AF, supraventricular tachycardia (SVT), and premature ventricular contractions.³ Lead extraction using powered tools is available, although numbers are low. A three-dimensional mapping system is available for use, and the rates of conduction system pacing are increasing. On a per capita basis, the numbers of implanted devices and procedures performed indicate reasonable access to therapy.

Cambodia is located in Southeast Asia with a total population of around 17 million.¹² The improvement in health care (both public and private sectors) has resulted in an increased life expectancy of 70 years in 2021.¹³ Universal health coverage is a huge challenge in Cambodia, and out-of-pocket expenditure remains as high as 60%. However, several years ago, the Royal Government of Cambodia created the National Social Security Fund designed to provide social health insurance to all employed adults in the country with the greater access to care including invasive therapeutic procedures for life-threatening emergency conditions.¹⁴

Cardiovascular disease is a major burden for the Cambodian healthcare system, although heart rhythm disorders remain underrecognized in provincial and rural areas. A verbal survey among the cardiologists in tertiary hospitals found that the majority of patients with arrhythmias including tachyarrhythmias (SVT, AF, ventricular arrhythmia [VA]) and bradyarrhythmias frequently presented with disabling symptoms and at a relatively late stage with critical conditions such as arrhythmia induced-cardiomyopathy, ischemic stroke, and cardiac arrest. In contrast to developed countries, rheumatic heart disease (mitral stenosis) is still one of the leading causes of AF in adults. Recently, cardiologists and other physicians have become increasingly aware of genetic diseases associated with sudden cardiac death (SCD) such as Brugada syndrome and long QT syndrome.

A total of six centers with 12 electrophysiologists are located solely in one city (Phnom Penh) and provide invasive management in arrhythmia care such as CIED implantation (six centers) and radiofrequency catheter ablation (three centers). However, interventional procedures remain relatively limited because of multiple factors including patient understanding and financial constraint. In the future, it will be key to educate medical professionals and patients about arrhythmias through social media and other communication platforms and to negotiate with national health insurance systems for the reimbursement of interventional arrhythmia procedures.

China has a large population of around 1.4 billion people.¹⁵ With the efforts of healthcare providers and improving healthcare policies, the current average life expectancy has reached as high as 77 years.¹⁵ However, cardiac death continues to be the leading cause of all-cause mortality in China. Among the causes of cardiac death, cardiac rhythm disorders, either idiopathic or associated with underlying cardiovascular disease, are important contributors. The incidence of SCD is 5.4 million per year, and efforts are underway to target prevention and improve emergency management.¹⁶ Public campaigns for screening high-risk patients, more widespread availability of automatic external defibrillators, and efforts to broadly teach cardiopulmonary resuscitation to the general public are being implemented. The number of ICDs for both primary and secondary prevention is only 5000 per year in China.³ China has approximately 20 million patients with AF, with the prevalence of 1.6% in the adult population.¹⁷ Of note, 50% are in the rural areas where medical resources are less available.¹⁷ AF screening and management programs are being implemented as pilot programs in different regions to generate evidence to support more widespread strategies for the identification and optimal management of AF. A similar strategy of developing chest pain centers significantly shortened the door-to-balloon time in patients with acute myocardial infarction.¹⁸ Strategies to optimize identification and treatment for heart failure and valvular heart disease are also being implemented.

Similar to developed countries, AF in Indonesia is also the most common arrhythmia encountered in clinical practice. However, data from a national registry showed that in Indonesia patients are younger, with the majority between 41 and 60 years old (Figure 4), and permanent AF is common (31%) (Figure 5).¹⁹ AF distribution varies depending on ethnicity. Based on risk factors, the reported prevalence of AF is lower than expected, suggesting the possibility of underidentification. Approximately 56% of male and 43% of female patients were candidates for anticoagulant therapy (gender-independent CHA₂DS₂VASc score ≥ 2). When anticoagulation is prescribed, warfarin is used because direct oral anticoagulants are not covered by national health insurance. However, the time in therapeutic range with warfarin treatment is only 37%.^19,20 The availability of test facilities that can measure the international normalized ratio (INR) is limited and not well distributed in Indonesia, which has led to the reluctance of primary care physicians to prescribe warfarin. The prevalence of hypertension in all provinces ranges from 22% to 39.6% (Figure 6).²⁰ All of these factors likely contribute to why stroke is the highest cause of mortality in Indonesia. In response, the Indonesian Heart Rhythm Society routinely conducts AF campaigns to educate people on the importance of AF screening and treatment.

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FIGURE 4. Age distribution of atrial fibrillation (AF) patients in Indonesia (n = 896).19

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FIGURE 5. Classification of atrial fibrillation (AF) patients in Indonesia (n = 896) based on standard definitions. Long-standing persistent: >1 year. Paroxysmal: AF episode duration [less than]1 week. Permanent: persistent AF with no future attempt for rhythm control. Persistent: AF duration >1 week.19

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FIGURE 6. Prevalence of hypertension as risk factor for atrial fibrillation in all provinces in Indonesia. DI, Daerah Istimewa; DKI, Daerah Khusus Ibukota; KEP, Kepulauan.20

Indonesia spends approximately 2%–3% of its GDP on health care.²⁰ In 2014, the Indonesian government introduced a national health insurance system to address the fragmented healthcare system and resolve the country's healthcare inequality; this system currently provides coverage for 92% of the population.²⁰ However, minimal reimbursement is a critical issue, and currently, only single-chamber pacemakers and simple cardiac ablation procedures utilizing resterilized catheters are supported. The lack of funds for complex procedures is a burden for hospitals because national health insurance system participants are not allowed to contribute additional costs. Procedures within this category include implantation of CIEDs such as dual-chamber pacemakers, CRT, and ICDs and ablation procedures that require complex mapping systems.

Finally, there are only 42 cardiac electrophysiologists in 14 centers that are distributed unevenly (located in 13 of 34 provinces) and serve a population of more than 270 million people.³ Complex ablation procedures can be performed in only 50% of those electrophysiology centers. The availability of arrhythmia drugs and their distribution is another challenge.

Heart disease, in particular heart failure and AF, has been an increasing cause of death in Japan (Figure 7).²¹ The Stroke and Cardiovascular Disease Control Act was implemented in 2019 with specific aims that include promoting the prevention of stroke, heart disease, and other cardiovascular disease while advancing the development of a system that provides rapid and appropriate treatment to extend healthy life expectancies and reduce the financial burdens of medical treatment and long-term care.

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FIGURE 7. Death rates (defined as number of deaths per 100,000 people) by cause in Japan. Created by Nippon.com based on the vital statistics report published in 2018 by the Ministry of Health, Labour, and Welfare.

Since 1961, Japan has had a system for universal health coverage that allows every citizen equal access to necessary and high-quality medical treatment by paying only a certain percentage of the medical cost. The current healthcare system faces various issues, such as increase in the elderly population, decrease in the working-age population, and a burden on the healthcare system caused by emergencies and expensive treatment, all of which lead to increased costs (Figure 8).^22,23 Between 2008 and 2013, health spending increased from 8.5% to 10.2% of the GDP, which is higher than the 2013 average of 8.9% for Organization for Economic Cooperation and Development (OECD) countries. The medical device market in Japan was estimated in 2012 as $32 billion, an increase of 8.7% from 2011.²³ Other reasons for the increase include longer hospital stays, and lower generics share in Japan than in other OECD countries (28% vs. 48%).

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FIGURE 8. Change in social security costs in Japan in Japanese Yen (in 2012, average exchange rate was 1 yen = 0.0115 USD).23

One specific prominent clinical issue in Japan is that inherited arrhythmias such as Brugada syndrome are a significant cause of SCD. Brugada syndrome is common in Southeast Asia, and some cases of previously described SCD syndromes such as Lai Tai in Thailand or Pokkuri in Japan are thought to be Brugada syndrome.²⁴ Prevalence of Brugada syndrome with type 1 electrocardiogram is significantly higher in Asia (0.15%–0.27% in Japan) than in Europe or the United States.²⁵ Inherited arrhythmias including Brugada syndrome account for approximately 10% of SCD in Japan, and Brugada syndrome accounts for 10% of ICDs implanted for primary prevention and 7% of ICDs implanted for secondary prevention.²⁶ The annual lethal cardiac event rate in Brugada syndrome patients with a history of ventricular fibrillation/anomalous coronary artery was approximately 8%–11%. Moreover, a prospective Japanese Brugada syndrome multicenter registry reported that the Brugada syndrome probands with a pathogenic SCN5A mutation, especially a mutation located in the pore region, had a higher cardiac event rate than those without SCN5A mutations.²⁷

Mongolia is the world's most sparsely populated country with 3.4 million people in 1.6 million square kilometers.²⁸ Cardiovascular disease is thought to be the leading cause of death, accounting for approximately 34% of deaths.²⁸ The most prevalent conditions are coronary artery disease, heart failure, and AF. The first dedicated electrophysiology laboratory was established in 2016, and since then 727 ablation (700 SVT, 12 AF, 15 VT) procedures have been performed.³ In addition, approximately 200 cardiac devices are implanted annually. Challenges remain, including a lack of physicians and staff trained in electrophysiology.

Myanmar is a developing country, and currently, rheumatic valvular heart disease with AF is the most prevalent arrhythmia condition.^29,30 The absence of widespread availability of advanced therapies, antiarrhythmic medication, and anticoagulation therapy is a major healthcare burden.

Currently, the Ministry of Labor provides partial reimbursement of healthcare costs for people who are employed. Private insurance is also available but rare. Medications such as antiarrhythmic drugs are available during hospital stays, but continued outpatient treatment is the patient's responsibility. The Myanmar government provides infrastructure for electrophysiology laboratories. Ablation for SVT is the most common procedure, followed by pacing therapy for bradyarrhythmia (Table 2). Specialized electrophysiology training of the physician and nonphysician workforce is recognized as an important problem in Myanmar.

TABLE 2 Ablation procedures and device implantation during 2015–2020 in Myanmar.

Abbreviations: AF, atrial fibrillation; CRT, cardiac resynchronization therapy; ICD, implantable cardioverter defibrillator; PPM, permanent pacemaker; SVT, supraventricular tachycardia; VA, ventricular arrhythmia.

The estimated population of New Zealand (NZ) is 5 million, with a prevalence of arrhythmia comparable with other OECD countries.^31,32 The largest cardiac medical issue in NZ is coronary heart disease, followed by arrhythmia disorders, valvular heart disease, vascular disease, and congenital heart disease. Importantly, a disproportionate burden of rheumatic heart disease exists in NZ. Arrhythmia-specific issues, in order of prevalence and healthcare burden, encompass AF, bradycardia, VA in a structurally normal heart, VA associated with cardiomyopathy, and VA related to ischemia.

Bradycardia is the most prevalent arrhythmia problem requiring intervention faced in NZ, and the workforce is sufficient to meet this demand in a timely fashion. However, workforce issues, particularly too few cardiac physiologists (personnel that can perform ambulatory electrocardiographic monitoring and monitoring in cardiac invasive laboratories), are the major clinical problem, followed by training, technology/equipment facilities, access to antiarrhythmic drugs, nonantiarrhythmic drugs, and CIEDs. Interventional data are derived from a national device registry and activity records from individual operating centers.^33,34 In 2020, there were 2056 ablation procedures, comprising 730 for AF, 921 for SVT, and 120 for VA. In the same year, 2670 pacemakers, 457 ICDs, and 347 CRT devices were implanted.

Pakistan is the fifth largest country in the world by population, with 242 million people.³⁵ Unfortunately, there are no national data available, but coronary heart disease and associated risk factors and infectious disease are likely the largest health issues in Pakistan.^36,37 Arrhythmias are likely the third major cardiovascular problem behind coronary artery disease and heart failure. SVT, followed by AF (mainly because of rheumatic heart disease), and bradycardia are the three most important arrhythmia issues in Pakistan. Workforce challenges remain the most critical health policy problem in Pakistan, mainly owing to the lack of training availability. Access to antiarrhythmic drugs is also a critical problem.

Arrhythmia management in the Philippines faces challenges including geographic and economic barriers to equitable healthcare access. CIEDs such as pacemakers and ICDs are available in the country, but most of the facilities in which these devices can be implanted are in the city centers, particularly in the Metropolitan Manila area. Radiofrequency ablation and specialized mapping equipment are available in the larger hospitals, and ablation procedures are slowly increasing. However, many patients are unable to afford these expensive therapies, with approximately 24% of the citizenry living under the poverty line.³⁸ Evaluation of the national health insurance program's database suggests that pacemaker implantation, radiofrequency ablation, and ICDs are underutilized in the country (Table 3).^38–40

TABLE 3 Arrhythmia claims vs claims for arrhythmia-related procedures in the Philippines.

Singapore is a city state located approximately 1 degree north of the equator in Southeast Asia. In the year 2021, the population numbered 5.45 million with a median age of 41.8 years.⁴¹ Approximately 11.7% of the population is aged ≥65 years. The government's healthcare system comprises a government-funded health insurance program, a compulsory national medical savings system, and a safety net for those not able to afford health care. The volume of CIEDs and catheter ablation is shown in Table 4.^3,42 It shows a stable trend with a reduction in ablation volume during the COVID-19 pandemic because of a decision to reduce the number of elective procedures in the country. The volume is much lower than in countries such as the United Kingdom and United States.

TABLE 4 Volume of CIED and ablation procedures for the years 2017–2020 in Singapore.

Abbreviations: AF, atrial fibrillation; AFL, atrial flutter; CIED, cardiac implantable electronic device; CRT, cardiac resynchronization therapy; ICD, implantable cardioverter defibrillator; PVC, premature ventricular contraction; VA, ventricular arrhythmia; VT, ventricular tachycardia.

Action is needed to enhance healthcare delivery for heart rhythm management. First, adoption of established guidelines for cardiac arrhythmia management and CIED implantation in patients who will benefit from these therapies must be improved. Second, rising healthcare costs must be contained. To meet these challenges, Singapore is adopting a value-driven care approach and shifting to a capitation model to fund its healthcare system.

The 10-year trend of out-of-hospital cardiac arrests (OHCAs) from a South Korean nationwide population-based study showed that the incidence of OHCA has rapidly increased during the past decade. One-year mortality rate after OHCA has gradually decreased but is still high.⁴³ Between 2002 and 2013, coronary artery disease was the most common cause of sudden cardiac arrest cases (59.3%), and sudden unexplained death syndrome accounted for 14.7% of total sudden cardiac arrest.³⁰ The annual number of new ICDs has been rapidly increasing in South Korea in response to guideline updates and reimbursement policies.^3,44,45 In 2016, a pre-evaluation system for reimbursement of ICDs was adopted to address the issue of value and clinical benefit. Importantly, after implementation, total cases of ICD implantation increased, perhaps because of prior underuse. One of the most important issues in electrophysiology is the process of new medical technology evaluation by the government. The process is too slow to approve the use of cutting-edge technology in patients who need it, even if that technology is already widely used in other Asian countries or around the world. For example, cryoablation was approved in South Korea in 2018, 8 years after its approval in the United States. Another important issue is telemedicine. Telemedicine is currently prohibited in South Korea; thus, it is impossible for physicians to use a patient-monitoring system based on CIED. However, medical professional associations, including the Korean Heart Rhythm Society, and the government have exchanged their opinions continuously and kept mutual communication, so many policies and regulations will be gradually adjusted to the generally acceptable level.

Based on the analysis from the National Health Insurance (NHI) Research Database, the projected AF prevalence in Taiwan is between 1.5% and 1.8% (2020–2025).⁴⁶ A community survey conducted for the residents of Yi-Lan City showed that AF prevalence was 6.5% in people >65 years old.⁴⁷ The SCD registry in central Taiwan reported the incidence of out-of-hospital cardiac death (cardiovascular cause) as approximately 60 per 100,000 person-years with relatively low incidence of VAs.⁴⁷

The NHI of Taiwan plays an important role in not only deciding health policy but also providing comprehensive medical information for research. The NHI program is mandatory for the citizens of Taiwan and has a high coverage rate of approximately 99% of the residents. This system generally offers excellent accessibility to medical care and medications. Access to health care has led to improvements in quality of life and clinical outcomes. However, because of budget constraints and requirements for fee-for-service payment, access to interventional arrhythmia therapy and expensive cardiac devices is limited. The annual performance of CIEDs and catheter ablation procedures is shown in Figure 9.

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FIGURE 9. Annual patient numbers of device and ablation procedures of Taiwan in 2020. Top: Estimated annual cardiac implantable electronic device implants in Taiwan by device type stratified by total, new implant, and replacement. Bottom: Annual patient numbers of ablation procedures in Taiwan in 2020. AF, atrial fibrillation; CRT-D, cardiac resynchronization therapy with defibrillator; CRT-P, cardiac resynchronization therapy with pacemaker; ICD, implantable cardioverter defibrillator; SVT, supraventricular tachycardia; VPC, ventricular premature complex; VT, ventricular tachycardia.

Like much of the world, the most common arrhythmia in Thailand is AF.^3,48 In order to provide optimal care for patients with AF and other arrhythmias, the field of cardiac electrophysiology in Thailand is actively growing. Over the past decade, the numbers of pacemaker implantation, ICD implantation, and overall electrophysiology procedures increased by 80%, 140%, and 100%, respectively.^3,49 The numbers of AF ablation increased by 30% over the past few years. However, the absolute numbers (2.7 procedures per 1 million population) are relatively small (Figure 10).

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FIGURE 10. Annual numbers of electrophysiology procedures per 1 million population of Thailand. AF, atrial fibrillation; CRT, cardiac resynchronization therapy; ICD, implantable cardioverter defibrillator; PPM, permanent pacemaker; SVT, supraventricular tachycardia; VT, ventricular tachycardia.

The major determinant of the rising procedural numbers is the reimbursement policy of the government-based health insurance. In 2012, the policy expanded its package to fully cover most of the electrophysiology procedures including ICD for primary prevention, CRT with defibrillator, and catheter ablation using 3-dimensional mapping. However, the number of electrophysiologists who are trained in complex ablation techniques remains small. The Thai Electrophysiology Club (Thai EP Club) established standards for electrophysiology fellowship training and certification in 2018 and has been active in implementing strategies to provide training in complex techniques.

As shown in Figure 11, the top policy issue in Thailand for arrhythmia care is reimbursement. Beyond standard procedures, adoption of newer procedures such as leadless pacemaker, subcutaneous ICD, and cryoablation for AF has been slow because of reimbursement policies since patients must pay 70%–100% of the cost. The Thai EP Club, which is the major professional group dedicated to arrhythmia care and is part of the Heart Association of Thailand, has filed a request to the government asking for full coverage of these new procedures, but the process will likely require years before implementation.

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FIGURE 11. Major issues in health care, cardiovascular care, and arrhythmia care in Thailand. AF, atrial fibrillation; Brady, bradycardia; CAD, coronary artery disease; HF, heart failure; NICM, nonischemic cardiomyopathy; SVT, supraventricular tachycardia; VA, ventricular arrhythmia; VT, ventricular tachycardia.

Vietnam has a population of 96 million people.⁵⁰ One report has estimated that 12.5% of the GDP is spent on health care.⁵¹ Universal health coverage allows 88% of the population to have healthcare coverage.⁵² The Ministry of Health manages larger hospitals, and a decentralized approach allows province, city, and community healthcare providers to deliver more local care. In 2019, efforts were started to have a national electronic healthcare system throughout.

Arrhythmia care in the Asia Pacific region continues to develop, but there is significant variability because of differences in country-specific clinical issues, available resources, workforce availability, and access to medications and technology. Leaders of professional medical societies focused on arrhythmia care were asked to identify significant obstacles related to the delivery of arrhythmia care at the APHRS/Heart Rhythm Society Summit. As would be expected, fewer or no obstacles to delivery of arrhythmia-specific care were identified in countries that devoted a larger portion of their national GDP to health care. Among the remaining countries, the obstacles were diverse, but the most common obstacle was lack of reimbursement or financial resources with related infrastructure to support advanced arrhythmia therapies. Based on this information, there are several immediate and long-term strategies that could be implemented to improve arrhythmia care for patients in the region. First, increasing access to all antiarrhythmic medications throughout the region would be an important step. While most countries have access to older antiarrhythmic medication, access to newer-generation antiarrhythmic drugs is less consistent (Table 5). In addition, while an antiarrhythmic drug may be available in a country, adequate supplies may not be present. Second, consistent use among countries of a portion of the GDP directed to health care would be helpful. From an arrhythmia perspective, focusing on the treatment of bradycardia and implantation of permanent pacemakers seems to correlate with the GDP percentage directed to health care. As noted in Table 6, countries that devoted larger percentages of the GDP to health care reported fewer obstacles for the delivery of arrhythmia-related care. Perhaps consistently allocating greater than 5% of a country's GDP to health care would improve the health of the population while continuing to address other nonhealthcare-related issues in countries that have limited financial resources. Third, workforce issues and training have a significant impact on access to use of important advanced arrhythmia care procedures, such as ablation or implantation of newer types of CIEDs beyond permanent pacemakers. Some training issues can be alleviated in part by developing a system of collaboration among different countries both in the region and worldwide, facilitated by cardiac professional organizations that focus on arrhythmia care such as APHRS and the Heart Rhythm Society. However, longer-term, more permanent solutions to workforce problems will require implementation of health policy measures that incentivize entry into the medical workforce and provide additional training for delivering advanced arrhythmia care.

TABLE 5 Availability of medications commonly used for treating arrhythmias in countries in the Asia Pacific region.

Note: All available: dabigatran, apixaban, rivaroxaban, edoxaban.

Abbreviation: NHS, national health service.

^aSpecial authority.

^bDrugs that are not distributed although may be used.

TABLE 6 Country-specific barriers to providing the best arrhythmia care.

Note: During the Summit and also throughout the APHRS White Book (2021 and 2022 editions), leaders of the heart rhythm-related organizations were asked about obstacles specifically for arrhythmia care that were important in their country (defined as great or near great).

Wataru Shimizu: Representative of the Asia Pacific Heart Rhythm Society. Wataru Shimizu, Kyoko Soejima: Representative of the Japanese Heart Rhythm Society. Fred M. Kusumoto, Andrew D. Krahn: Representative of the Heart Rhythm Society. Michael-Joseph F. Agbayani: Representative of the Philippine Heart Rhythm Society. Sirin Apiyasawat, Tachapong Ngarmukos: Representative of the Thai Electrophysiology Club (a subsidiary of the Thai Heart Association). Minglong Chen: Representative of the Chinese Society of Pacing and Electrophysiology; Representative of the Chinese Society of Arrhythmias. Chi Keong Ching: Representative of the Heart Rhythm Association Singapore. Jong-Il Choi, Seil Oh: Representative of the Korean Heart Rhythm Society. Dicky A. Hanafy: Representative of the Indonesian Heart Rhythm Society. Sofian Johar: Representative of the Brunei Cardiac Society. Jonathan M. Kalman, Martin K. Stiles: Representative of the Cardiac Society of Australia and New Zealand. Aamir Hameed H. Khan: Representative of the Pakistan Heart Rhythm Society. Pichmanil Khmao: Representative of the Cambodian Heart Association. Nwe Nwe: Representative of the Cardiac Society of Myanmar Medical Association. Hsuan-Ming Tsao: Representative of the Taiwan Heart Rhythm Society. Saruul Tseveendee: Representative of the Mongolian Heart Rhythm Society.

Authors declare no conflict of interests for this article.