Comprehensive cardiac rehabilitation is associated with significant reductions in systolic blood pressure by 3 to 7 mm Hg and diastolic blood pressure by 2 mm Hg.
The ICCPR highlights the critical role of cardiac rehabilitation in global hypertension management and advocates for increased access and reimbursement, particularly in low-resource settings.
The burden of cardiovascular diseases (CVDs) has been steadily rising over the past decades, with an over 40% increase globally.1 Efforts in primary and secondary prevention of CVD and its associated risk factors are required to mitigate this epidemic. One of the chief risk factors contributing to the CVD burden is hypertension, as it is a significant contributor to CVD-related morbidity and mortality. Specifically, hypertension is estimated to cause 7.5 million deaths, which is approximately 12.8% of total mortality, making it one of the top 10 leading causes for death across the world.2, 3 Moreover, hypertension accounts for nearly 57 million disability-adjusted life years or 3.7% of total disability-adjusted life years.2 Given this high rate of morbidity, secondary prevention to control hypertension is tantamount. Cardiac rehabilitation (CR) is a comprehensive model of care for the secondary prevention and control of CVD, including blood pressure (BP) assessment and delivery of interventions for hypertension management. The International Council of Cardiovascular Prevention and Rehabilitation (ICCPR) is concerned with promoting greater delivery of CR, which, in turn, will promote greater assessment and control of BP. The ICCPR has recently partnered formally with the World Hypertension League (WHL). Consequently, the WHL has official representation on the ICCPR council and actively contributes to our primary initiatives. ICCPR is collaborating on WHL's recent dietary salt initiative and has official representation on the expert committee to develop a call to action.4 Outlined herein are the aims of the ICCPR, a description of CR in a global context, and ICCPR's current efforts, with a particular focus on hypertension management. The ICCPR (http://globalcardiacrehab.com) was formed in 2011 by a group of CR experts from leading CR associations internationally to fill the gap in communication between such associations and unite in efforts to “promote cardiovascular disease prevention and cardiac rehabilitation for all.” The ICCPR is composed of elected representatives from the board of directors of CR-associated organizations from across the world. The associations of the 24 current members are shown in the Figure. The ICCPR is an official member of the World Heart Federation. As outlined in our inaugural Charter,5 among our main goals are to: (1) promote CR as an essential, not optional, service; and (2) support countries to establish and augment programs of CR, adapted to local needs and conditions. The ICCPR council meets quarterly via web conference to work towards these aims. The ICCPR is led by an Executive Board, on which the senior author serves. CR is defined by the World Health Organization (WHO) as “the sum of activities required to influence favourably the underlying cause of the disease, as well as the best possible physical, mental and social conditions, so that they may, by their own efforts preserve or resume when lost, as normal a place as possible in the community.”6 The “core components” of CR are commonly agreed upon by the member associations of ICCPR and include individualized programs of cardioprotective pharmacologic therapies in conjunction with health behavior and education interventions of physical activity and exercise, nutrition, psychological health, and smoking cessation.5 These components are generally delivered by an interprofessional team over a series of months, which is of particular benefit for monitoring BP. Again, one of the main elements is BP assessment and monitoring, as well multifactorial, evidence-based intervention to achieve control. Among patients with CVD, participation in CR is associated with reduced rates of all-cause mortality and cardiac mortality by 13% to 26% and 20% to 36%, respectively.7 An observational study of 601,099 US Medicare beneficiaries enrolled in CR found a reduction in 5-year all-cause mortality rates by 21% to 34%.8 A recent Cochrane overview of six CR Cochrane reviews concluded that compared with usual care alone, the addition of CR participation was related to significantly reduced hospital re-admissions, even in low-risk patients following myocardial infarction or percutaneous intervention or among those with heart failure.9 Meta-analyses have also demonstrated that CR participation is associated with reductions in BP. With comprehensive CR, systolic BP was significantly reduced by 3 mm Hg to 7 mm Hg,10, 11 while diastolic BP was significantly reduced by 2 mm Hg.11 While much of this evidence comes from high-income countries, the benefits of CR in low- and middle-income countries has also been established.7 As outlined above, a core element of CR focuses on evaluation, intervention, and monitoring of BP. Table 1 displays hypertension-specific excerpts from guidelines/position statements/quality indicators from the leading CR associations globally.12-17 As shown, achieving BP targets by program discharge is a key outcome of CR among the majority of Society publications. Measure BP in sitting position ≥2 days on both arms and in various positions Assess current treatment compliance and nonprescription drugs that may affect BP Lifestyle modifications if BP is between 120–139/80–89 mm Hg Drug therapy if BP is >130/80 mm Hg after lifestyle modifications in patients with CKD, HF, and DM and >140/90 mm Hg for others 1. Assessment of BP control, with target goals defined by AHA/ACC secondary prevention guidelines. 2. For patients with a diagnosis of hypertension, an intervention plan is developed. This should include education about target BP goals, medication compliance, lifestyle modification for optimal dietary and physical activity habits, and weight control. 3. During the CR program, BP control is reassessed and communicated to the patient as well as to the primary care provider and/or cardiologist If resting systolic BP is 130–139 mm Hg or diastolic BP is 85–89 mm Hg, recommend lifestyle modifications. If resting systolic BP is >140 mm Hg or diastolic BP is >90 mm Hg despite lifestyle changes, initiate drug therapy According to best practice guidelines Sitting and standing BP evaluation Percentage of patients who received BP education session Percentage of patients referred for medication titration Percentage of patients who achieve and maintain a BP of <130/80 mm Hg at 3, 6, and 12 months Percentage of patients referred to general practitioner Assessment of BP should be made at program entry and exit in order to determine cardiovascular risk, identify patients who are not at target, and monitor antihypertensive treatment. Canadian Hypertension Education Program recommendations regarding patient preparation, posture and position, equipment, and technique should be followed to ensure accurate assessment. Subsequently, risk factor management should be undertaken in the appropriate manner during the CR program in order to reach goal by program completion. BP control is defined as systolic and diastolic values, which are less than or equal to the guideline-recommended threshold. Programs should aim to achieve BP control in at least 90% of patients (benchmark) A cornerstone of hypertension management is lifestyle changes, namely diet, exercise, and smoking cessation, which are promoted in CR. Indeed, this has been reiterated in recent hypertension guidelines.18 In particular, exercise training has been a key intervention to mitigate the burden of hypertension and its comorbidities.19 Exercise prescription recommendations from leading associations with corresponding BP reductions are summarized in Table 2. 3–4 sessions per wk ≥12 wk Moderate 40% to <60% of VO2reserve Type (what kind?) Primary “High”c,d Grade Bc,d Class IIa level of evidence Ae Dynamic RT 2–3 d/wk Moderate 60%–80% 1-RM, 8–12 repetitions Dynamic RT 2–3 d/wk A core component of CR also relates to medical management. As such, pharmacotherapy is reviewed at the initial assessment to ensure that patients are taking the guideline-recommended therapies for hypertension control, and that they are titrated and tolerated such that targets are achieved. CR education and counseling focuses on medication actions, side effects, and the importance of adherence. Despite the high quality and quantity of evidence supporting guideline recommendations for CR referral from leading professional organizations (eg, American Heart Association and the American College of Cardiology Foundation),20 CR utilization rates are incredibly low globally.21 CR is available in only 38.8% countries worldwide: 68.0% of high-income, 28.2% of middle-income, and 8.3% of low-income countries. The number of CR programs per inhabitant (referred to as CR density) is a crude estimate of the number of patients who might have access to CR in each country.22 Based on national and regional surveys in high-income countries, CR density ranges from one program per 100,000 to one program per 300,000 inhabitants.23-25 In middle-income countries, CR density ranges from 0.9 to 6.4 million inhabitants per program.23 Given data demonstrating the cost-effectiveness of CR,26 clearly there is a need to augment delivery of CR to ensure greater patient access and, subsequently, greater hypertension management. Given the low cost to deliver CR, this model of care will be useful in low-resource settings to increase the reach of hypertension interventions. ICCPR is currently focused on two initiatives to increase the provision of CR globally. The first is a consensus statement on a CR delivery model for low-resource settings. Leaders with WHL served as key members of the primary writing panel for this initiative. Following a literature review, low-cost approaches to delivering the core components of CR were proposed. Recommendations for each component were developed using a modified Grading of Recommendations Assessment, Development and Evaluation (GRADE approach),27 or consensus where evidence was not available. An algorithm to tailor the program based on the type of healthcare provider available for delivery (ie, community healthcare worker, allied health professional, or physician/equivalent) was also developed to facilitate implementation. We are currently working toward academic dissemination of this work, and then, as offered by WHL leadership, we hope to distill the recommendations for clinical and policy application through the website http://www.worldhypertensionleague.org/, among other venues. The second initiative is a practical guide to support CR reimbursement advocacy. The economic impact of CVD and the corresponding benefits of CR and its cost-effectiveness are summarized. This provides the case for CR reimbursement. Second, the results of the ICCPR survey on CR reimbursement policies by government and insurance companies are summarized, which show that government reimbursement is low and many patients pay out-of-pocket. Finally, a multifaceted approach to CR advocacy is forwarded. Indeed, the WHL has demonstrated leadership in its advocacy work and has been highly supportive of our efforts in this regard. In conclusion, the ICCPR is delighted to partner with WHL in our efforts to increase hypertension management in CVD patients globally. We hope to continue with our fruitful partnership, as CR is an important model of care for hypertension management. None. None. None.
Babu et al. (Tue,) conducted a review in Hypertension and cardiovascular disease. Cardiac rehabilitation was evaluated. Comprehensive cardiac rehabilitation is associated with significant reductions in systolic blood pressure by 3 to 7 mm Hg and diastolic blood pressure by 2 mm Hg.