Cardiovascular diseases, including heart disease, hypertension and heart failure,
along with stroke, continue to be leading causes of death in the United States.
1,2
Hypertension currently affects nearly 78 million* adults in the United States and
is also a major modifiable risk factor for other cardiovascular diseases and stroke.
1
According to data from the National Health and Nutrition Evaluation Survey (NHANES)
in 2007–2010, 81.5% of those with hypertension are aware they have it, and 74.9% are
being treated but only 52.5% are under control, with significant variation across
different patient subgroups.
1,3–6
Of those with uncontrolled hypertension, 89.4% reported having a usual source of health
care, and 85.2% reported having health insurance.
7
This is the current status, despite the fact that therapies to lower blood pressure
and associated risks of cardiovascular events and death have been available for decades
and various education and quality improvement efforts have been targeted at patients
and healthcare providers.
The direct and indirect costs of hypertension are enormous, considering the number
of patients and their families impacted as well as the healthcare dollars spent on
treatment and blood pressure-related complications.
8
Currently, hypertension affects 46% of patients with known cardiovascular disease,
72% of those who have suffered a stroke, and was listed as a primary or contributing
cause in approximately 15% of the 2.4 million deaths in 2009.
1
In 2008, the total estimated direct and indirect cost of hypertension was estimated
at $69.9 billion.
8
Thus, it is imperative to identify, disseminate and implement more effective approaches
to achieve optimal control of this condition.
High-quality blood pressure management is multifactorial and requires engagement of
patients, families, providers and healthcare delivery systems and communities. This
includes expanding patient and healthcare provider awareness, appropriate lifestyle
modifications, access to care, evidence-based treatment, a high level of medication
adherence and adequate follow-up.
9
Recognizing the urgent need to address inadequate control, the American Heart Association
(AHA) has made hypertension a primary focus area of its 2014–2017 strategic plan as
it seeks to improve the cardiovascular health of all Americans by 20% and reduce the
death rate from cardiovascular disease and stroke by 20% by 2020.
10
Similarly, Million Hearts, a US Department of Health and Human Services initiative
spearheaded by the Centers for Disease Control (CDC) and Prevention and the Centers
for Medicare & Medicaid Services (CMS) to prevent a million heart attacks and strokes
by 2017, has focused its first 2 years on actions to improve and achieve control of
hypertension.
11
We believe that identification of best practice, evidence–based management algorithms
leading to standardization of treatment is a critical element in helping to achieve
these ambitious national goals at a population level. In this paper, we describe the
value of hypertension treatment algorithms, provide criteria for effective hypertension
management algorithms, describe an AHA/American College of Cardiology (ACC)/CDC-recommended
treatment algorithm based on current guidelines and describe examples of other specific
algorithms that have been associated with improved blood pressure on a large scale.
The Value of Hypertension Treatment Algorithms As Part of a Multifactorial Approach
to Improve Blood Pressure Control
As described previously, despite the strong evidence and consensus regarding the treatment
and control of high blood pressure,
9,12
as well as the availability of many different therapeutic options, achieving success
in hypertension control at both the individual patient-level and even more importantly,
the population-level, has remained a major challenge nationally.
Although there is no single explanation for the poor hypertension control seen in
many patient subgroups, the fragmentation of health care for many patients and the
lack of consistent implementation of system-level solutions in clinical practice and
healthcare delivery systems appear to be important contributors. Efforts focused primarily
on educating patients and providers about hypertension and the benefits of its treatment
have not been sufficient in bringing hypertension under control. Similarly, interventions
targeting only physicians have not led to consistent and meaningful improvements on
a large scale.
13
However, there are examples of substantial success that could be emulated and scaled
with a high likelihood of important benefit.
To reduce the prevalence of hypertension in the United States,
10,14
system-level approaches will be needed. Successful examples from other medical areas
where a system-level approach has been taken include reducing medical errors and improving
patient safety in the hospital setting
15
; improving the inpatient treatment and outcomes of acute myocardial infarction, heart
failure, stroke and cardiopulmonary resuscitation
16
; reducing health disparities in the treatment of cardiovascular conditions
16
; early detection and intervention in sepsis to lower case fatality
17,18
; and reducing hospital-acquired infections.
19,20
In the case of hypertension, system-level methods can address multiple factors in
a coordinated manner:
Identifying all patients eligible for management
Monitoring at the practice/population level
Increasing patient and provider awareness
Providing an effective diagnosis and treatment guideline
Systematic follow-up of patients for initiation and intensification of therapy
Clarifying roles of healthcare providers to implement a team approach
Reducing barriers for patients to receive and adhere to medications as well as to
implementing lifestyle modifications
Leveraging the electronic medical record systems being established throughout the
US to support each of these steps
Several examples of success using a system-level paradigm have been recently reported.
For example, within Kaiser Permanente Northern California, a large integrated healthcare
delivery system caring for >3 million members, a regional hypertension program was
implemented involving five major components: creation and maintenance of a health
system-wide electronic hypertension registry, tracking hypertension control rates
with regular feedback to providers at a facility- and provider-level, development
and frequent updating of an evidence-based treatment guideline, promotion of single-pill
combination therapies and using medical assistants for follow-up blood pressure checks
to facilitate necessary treatment intensification. Between 2001 and 2009, the number
of patients with hypertension increased from 349,937 to 652,763, but the proportion
of hypertensive patients meeting target blood pressure goals improved substantially
from 44% to >80%, and continued to improve to >87% in 2011.
21
Favorable hypertension control rates have been observed in other healthcare delivery
systems
22
as well as coordinated health systems such as the Veterans Affairs medical system.
23–25
Developing, disseminating and implementing an effective hypertension treatment algorithm
is a critical part of a multipronged, systematic approach to controlling hypertension,
as it facilitates clinical decision-making, provides a default approach with proven
benefits, and engages multiple providers in a coordinated manner. We describe next
the principles for developing such an algorithm.
Principles for Algorithm Development
The following is a summary of principles recommended by the AHA, ACC, and CDC for
creating an effective hypertension management algorithm:
Base algorithm components and processes on the best available science.
Format to be simple to update as better information becomes available.
Create feasible, simple implementation strategy.
Include patient version at appropriate scientific and language literacy level.
Consider costs of diagnosis, monitoring, treatment.
Develop algorithm in format easily used within a team approach to health care.
Develop algorithm in a format able to be incorporated into electronic health records
for use as clinical decision support.
Include a disclaimer to ensure that the algorithm is not used to counter the treating
healthcare provider’s best clinical judgment.
The purpose of these principles is to establish a common platform for the development
and implementation of hypertension management algorithms tailored to different practice
settings and populations. We note the last principle supports the notion that treatment
guidelines serve to facilitate a systematic approach to the management of hypertension,
but provide appropriate modifications based on specific patient characteristics, preferences
and other pragmatic factors (eg, cost, pill burden, risks of certain side effects)
to optimize a personalized approach to the care of individual patients.
9,12,26,27
In addition, ongoing randomized clinical trials (eg, SPRINT
28
) are addressing optimal blood pressure targets for specific patient subgroups such
as the elderly and patient with chronic kidney diseases to maximize net clinical benefit
and avoid unnecessary complications.
AHA/ACC/CDC Hypertension Treatment Algorithm
In the Appendix is a template outlining a general approach for an effective treatment
algorithm that incorporates the principles described previously and balances applicability
the largest number of hypertensive patients with the flexibility and the level of
detail to support individualization of therapy.
Several existing algorithms for hypertension treatment in large healthcare settings
associated with improved blood pressure in populations
21
have also been reviewed, which included a look at both private and public systems,
systems with regional reach, as well as an algorithm used by the US Department of
Veteran Affairs that are in support of the recommended principles. These algorithms
are either attached in the online-only data supplement or are available for public
use within the resources and tools section of the Million Hearts initiative Web site
at http://millionhearts.hhs.gov/resources.html.
Call-to-Action, Next Steps, and Conclusions
It is critical that the AHA, ACC and CDC, together with other organizations, continue
to identify, define, and implement exemplary local, regional, and national programs
that facilitate better blood pressure awareness, treatment, and control together with
improving other cardiovascular health factors and behaviors.
11,15,29–31,31a
Arming healthcare providers, health systems, and communities with proven tools, algorithms,
strategies, programs, and other best practices along with expertise and technical
assistance for improving blood pressure awareness, treatment, and control is essential
to reducing the tremendous burden of cardiovascular risk.
30,32
This advisory serves as a call to action for broad-based efforts to improve hypertension
awareness, treatment, and the proportion of patients treated and controlled. There
is a clear need to provide enhanced, evidence-based, blood pressure treatment systems
for providers, including standardization of protocols and algorithms, incentives for
improved performance based on achieving and maintaining patients at blood pressure
goals, and technology-facilitated clinical decision support and feedback.
32
As noted previously, health system wide implementation of focused evidence-based hypertension
treatment algorithms together with regularly scheduled performance feedback within
a coordinated multifactorial management program have been associated with substantially
improved hypertension control in large populations and varied clinical practice settings.
21,32–34
This approach can facilitate the ability to emphasize existing evidence-based recommendations
and integrate new evidence as it becomes available. Successful best practices or innovations
can be further identified and then disseminated health system wide.
21
Such an approach is scalable, sustainable, and of high value, especially as the use
of electronic medical records becomes even more widespread nationally.
21,33,34,40
This advisory has provided a number of examples of algorithms from successful programs
that can be readily implemented in diverse healthcare settings. Greater participation
in innovative programs such as the AHA’s Heart 360 personal health record,
35
AHA/ASA’s Get With The Guidelines Program,
36
the AHA/ADA/ACS Guideline Advantage Program,
37
and the HHS Million Hearts initiative,
11,15,30,31
as well as the ACC’s National Cardiovascular Data Registries (NCDR)
38
and CDC Coverdell Stroke registry,
39
should also be encouraged and incentivized.
Further engaging individuals in the hypertension control process, motivating more
proactive management though shared accountability and incentives for blood pressure
treatment and control are also essential.
30
There are also opportunities for the increased role of pharmacists and other community-based
providers in hypertension treatment and control.
30,40,41
There is also great potential to apply an innovative mix of health information technology,
peer support, feedback, and incentive programs designed to drive actionable, patient-centered
blood pressure awareness, treatment and control programs. Workplace and community
based wellness programs can also have significant impact.
30
It is also vital that these programs are implemented among broader segments of the
population. Disparities/inequities in hypertension awareness, treatment, and control
continue to exist in a number of patient subgroups.
6,42
Intervention programs for hypertension should be specifically targeted to groups with
the greatest cardiovascular risk and disease burden based on clinical risk factors
and appropriate consideration of sex, race, ethnicity, socioeconomic status, disability,
and geographic location.
30
Additional research is needed to better define blood pressure treatment goals especially
in specific populations including by age, sex, race, ethnicity, and comorbid conditions.
It is essential that there be proportionate representation of these patient populations
in the study of blood pressure goals as well as new hypertension treatment technologies
such as catheter-based renal sympathetic denervation.
The AHA, ACC, CDC, and other organizations should continue to foster effective activities
regarding hypertension which include surveillance, education and media, organizational
partnerships, and environmental and policy changes.
30
Building on such programs as the
AHA’s Life’s Simple 7 program
43
with a longitudinal cardiovascular health tracking system, patient-oriented clinical
decision support tool, individual patient-oriented cardiovascular health performance
measures, and data feedback, and
ACC’s CardioSmart Patient Education Portal
44
with a customized patient dashboard for blood pressure management, an interactive
workbook to educate and motivate better health, and a patient text messaging program
providing heart healthy tips aimed at primary prevention should be considered within
a comprehensive system-level management program. This approach may help to facilitate
and incentivize improvement in blood pressure control, cardiovascular health, as well
as enhance real-time surveillance of cardiovascular health. Further research efforts
to enhance specific interventions for improving patient adherence and to identify
optimal patient-centered, value oriented systems of care should continue to be supported.
This advisory is intended to complement and support clinical guidelines, providing
clinicians and health systems tools to improve treatment and control of hypertension.
The prevention of heart disease and stroke mandates a greater emphasis on the population-wide
improvement of blood pressure awareness, treatment, and control together with other
cardiovascular health factors.
15,26,45
Supplementary Material
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