The key to early intervention for cardiac problems may lie in determining the heart’s ‘true’ age, new research suggests.
- Tracking and evaluating
cardiac health are critical to catching heart problems early and finding
helpful interventions.
- One study found that cardiac
magnetic resonance imaging (MRI) may help determine the heart’s functional
age compared to biological age.
- The findings showed that
unhealthy lifestyles, as well as some chronic conditions such as obesity
and atrial fibrillation (AFib), made the heart age faster.
- The methods described in this study could help with early intervention before major heart concerns develop.
Evaluating how well the heart is
doing and what changes have occurred can help doctors and people make informed
decisions about heart health.
To do
that, a recent study examined a way
to calculate the functional age of people’s hearts compared to their biological
age.
The study used a model based on
cardiac magnetic resonance imaging (MRI), and found that certain health
conditions, such as obesity and AFib, and leading an unhealthy
lifestyle, can increase the functional age of the heart.
People
with certain conditions can also experience distinct heart changes that differ
from healthy heart aging.
The
findings were published in theEuropean Heart Journal Open.
Using cardiac MRI to determine the heart’s age
Researchers of this retrospective observational study wanted
to explore a way to measure the age of people’s hearts and what happens in
healthy versus unhealthy aging. They note that certain modifiable risk factors,
like high blood pressure, can speed up how fast the heart ages. One potential
tool to look at how the heart looks and functions is cardiac magnetic resonance
imaging.
Researchers
used a healthy reference population of 191 participants and compared them to a
testing population of 366 participants who had at least one comorbidity, such
as high blood pressure, diabetes, or obesity. Researchers also used another
group of 25 people as a “preliminary external validation” cohort.
Participants
were from five different locations across three countries. Researchers were
able to look at several components of heart structure and function. They then
developed a model to help determine the age of participants’ hearts and also
did statistical analyses.
There were
distinct heart differences between the healthy and unhealthy groups. For
example, the unhealthy group had a higher median
The final
model researchers used considered left atrial end-systolic volume and left
atrial ejection fraction, which both evaluate the function of the left upper
chamber of the heart. These two factors were functional parameters
significantly related to age among 169 healthy participants.
Health conditions linked to premature aging of the heart
Researchers found that healthy participants’ heart ages were
about the same as how old they were. Unhealthy participants saw heart ages
higher than their chronological age. The cardiac magnetic resonance-derived
heart ages were almost five years older than the chronological age of these
participants.
Obesity appeared to increase functional heart
age, with more weight increasing heart years. Participants with a body mass
index of 40 or higher had a functional heart age 45 years higher than their
chronological age. For participants with atrial fibrillation, heart functional
age was also higher than it was for healthy participants.
Functional
heart age was sometimes higher for other comorbidities in certain age groups.
In participants between the ages of 30 and 69, participants with high blood
pressure had increased functional heart age compared to healthy participants
who were in the same age category.
Similarly,
diabetes increased functional heart age for participants between 30 and 69,
with the greatest increase seen in the 40 to 49-year-old group. But in the
seventy to 85-year-old group, participants with diabetes and high blood
pressure actually had lower functional heart ages than healthy participants of
the same age.
Speaking
to MNT,
study author Pankaj Garg, MD, PhD,
Associate Professor in Cardiovascular Medicine, University of East Anglia,
Norwich, UK, highlighted a few key findings.
Study limitations
This research is a great possible step towards more effective
cardiac health monitoring, but it also has limitations. First, this work
involved estimations and estimated the functional age of the heart. Second,
since the study was not long-term, there’s a higher risk for survivor bias.
This could then minimize how comorbidities truly affect older people. Thirdly,
researchers did not measure how long participants had had the measured
comorbidities. So, it’s possible that there was variety among unhealthy
participants regarding how long they had comorbidity exposure. Bias is noted in
some of the calculations. Researchers also noted the possibility of selection
bias. This study did not assess certain factors like exercise and diet.
Researchers
also acknowledge that there could have been variation in the unhealthy group
because of medical treatments.
Researchers
had certain exclusion and inclusion criteria in place, which impacted who they
could include in the study. For example, they excluded people with severe
chronic kidney disease, which is a contraindication for the MRI scans they
used. Development of the age calculation model involved making a number of
decisions, and researchers may find areas for refinement.
Patrick Kee, MD, PhD, a cardiologist at Vital
Heart & Vein who was not involved in the study, noted several potential
limitations of the study, including its inability to examine long-term data,
lack of other measurements that could have been helpful, and use of a simple
model that focused on left atrium end-diastolic volume and left atrium ejection
fraction.
Long-term
studies will likely be beneficial, as well as seeing how changing factors like
lifestyle could help alter outcomes.
“The model
was preliminarily validated on a small cohort, necessitating larger-scale
validation to confirm its reliability and robustness for clinical application.
Furthermore, it remains unclear whether lifestyle and therapeutic interventions
will alter the trajectory of the heart age due to underlying medical
conditions,” Kee noted.
Test may aid early detection, promote heart-healthy actions
Cheng-Han
Chen, MD, a board certified interventional cardiologist and medical
director of the Structural Heart Program at MemorialCare Saddleback Medical
Center in Laguna Hills, CA, who was also not involved in the study, noted that
determining the functional age of the heart could be a helpful preventive
measure.
“An
assessment of a ‘functional heart age’ (either through imaging or other
biomarkers) can potentially motivate patients to improve their lifestyles,
identify patients at risk for future clinical events, and possibly even
evaluate response to clinical therapeutics and interventions.”— Cheng-Han Chen,
MD
Using
cardiac MRI also has an appeal because of the ease of use.
“Heart MRI
scans are completely noninvasive tests—meaning no cuts or needles—and for
checking the heart age, only a few minutes of this test are required. If
necessary, this can be done in a focused way to help lots of people quickly.
That might help catch heart trouble early and stop bigger problems, like heart
failure, later on,” Garg explained to MNT.
Finally, there could also be improved communication between doctors and people at risk for heart problems. As the authors in the study noted, it could help people see the need to make changes.
CHRONOLOGICAL
VS. FUNCTIONAL AGE
“By comparing a patient’s
‘functioning heart age’ with their ‘chronological age,’ clinicians can
effectively communicate ‘cardiovascular risk’ to encourage lifestyle and
therapeutic modifications. This approach can also serve as a tangible measure
to motivate patients toward preventive strategies such as weight management,
blood pressure control, and diabetes management to mitigate the progressive
decline in heart health. Tracking changes over time allows clinicians to adjust
treatment plans before irreversible damage occurs.”— Patrick Kee, MD, PhD
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