Study finds heart attacks do not have as strong of a genetic link as previously suspected

October 20, 2014

Heart attacks are not as connected to family history and genetics as may have been previously believed, according to a new study by researchers at the Intermountain Medical Center Heart Institute in Salt Lake City.

These new findings may help those with a family history of coronary disease and those diagnosed with narrow coronaries realize that heart attacks aren't inevitable and that their lifestyle choices and environment, not just their genetics, may make the difference in whether or not they have a heart attack, say researchers.

In the study, Benjamin D. Horne, PhD, MPH, director of cardiovascular and genetic epidemiology at the Intermountain Medical Center Heart Institute, and his team studied patients with different severities of coronary disease who had or had not suffered a heart attack. The patients were identified by linking 700,000 patients in Intermountain Healthcare's clinical data warehouse with the Intermountain Genealogy Registry, which contains 23 million individuals within extended family pedigrees.

The research team found that while severe coronary artery disease can be inherited regardless of whether someone has a heart attack, the presence of heart attacks in people with less severe coronary disease was not clustered in families.

"This link between the registry and the medical records allowed us to look at information about both heart attacks and the degree of coronary disease," said Dr. Horne. "That means we can compare heart attack patients to people with coronary disease who were free from heart attacks."

Dr. Horne and his team will present findings from the research at the 2014 conference of the American Society of Human Genetics in San Diego on Monday, October 20 at 9 pm, EDT.

The medical importance of this finding is two-fold: first, it can help guide physicians and researchers to look for triggers or risk factors for heart attacks that result from behaviors or environmental factors rather than genetic ones. Second, it can help researchers better design genetic studies focused on heart attacks so they can best utilize the resources they have to find the limited set of genetic mutations that are actually involved in predisposing people to heart attack.

"Because coronary disease and heart attacks are so closely related, researchers in the past have assumed they're the same thing," Dr. Horne said. "They thought that if someone had coronary disease, they would eventually have a heart attack. This finding may help people realize that, through their choices, they have greater control over whether they ultimately have a heart attack."

The idea for Dr. Horne to study the connection between heart attacks and family history began in 2008 when researchers found that genetic factors related to chromosome 9 were strongly connected to coronary artery disease but those same mutations had no connection to heart attacks. This supported the biological understanding that a heart attack is different than coronary disease where heart attack results when the atherosclerosis causing coronary disease is unstable. Some atherosclerosis is stable and will not result in a heart attack.

"Although in almost all situations someone needs to have some level of coronary disease in order to have a heart attack, some people will have a heart attack when they only have mild coronary disease where there's only a small amount of narrowing of the artery, while others will have a heart attack with severe coronary narrowing," Dr. Horne said.

In 2011, Dr. Horne and his team were part of an international genome-wide association study run by the University of Pennsylvania that validated that the chromosome 9 mutation -- and the 10 other genetic mutations also known at the time to be predictors of coronary disease -- did not predict heart attacks.

"The 2011 study was only able to find one genetic mutation associated with heart attack among people with coronary disease," said Dr. Horne. "As researchers continued to find more connections to coronary disease but not specifically to heart attacks, we started wondering if we'd find the same within family pedigrees."

Three years later researchers have found 35 more genetic mutations ¬-- for a total of 46¬ -- generally accepted to be associated with coronary disease. The studies that have discovered these connections have evaluated unrelated people in large populations.

"These findings also show how Intermountain Healthcare is able to leverage the strengths of the local community in Utah, including genealogical resources, databases via medical informatics technology, and the involvement of community members to perform valuable, unique research that few others can do," said Dr. Horne. "These resources help us find new knowledge that has wide-spread, world-wide relevance in helping people avoid health risks and improve their quality of life. We are also grateful to the Intermountain Research and Medical Foundation for providing the financial support necessary to conduct this study."
Members of the research team includes: Stacey Knight, PhD, MStat. Members of the Intermountain Heart Institute genetic research program also include Jeffrey L. Anderson MD, Brent Muhlestein MD, and John Carlquist PhD.

Intermountain Medical Center

Related Heart Attack Articles from Brightsurf:

Top Science Tip Sheet on heart failure, heart muscle cells, heart attack and atrial fibrillation results
Newly discovered pathway may have potential for treating heart failure - New research model helps predict heart muscle cells' impact on heart function after injury - New mass spectrometry approach generates libraries of glycans in human heart tissue - Understanding heart damage after heart attack and treatment may provide clues for prevention - Understanding atrial fibrillation's effects on heart cells may help find treatments - New research may lead to therapy for heart failure caused by ICI cancer medication

Molecular imaging identifies link between heart and kidney inflammation after heart attack
Whole body positron emission tomography (PET) has, for the first time, illustrated the existence of inter-organ communication between the heart and kidneys via the immune system following acute myocardial infarction.

Muscle protein abundant in the heart plays key role in blood clotting during heart attack
A prevalent heart protein known as cardiac myosin, which is released into the body when a person suffers a heart attack, can cause blood to thicken or clot--worsening damage to heart tissue, a new study shows.

New target identified for repairing the heart after heart attack
An immune cell is shown for the first time to be involved in creating the scar that repairs the heart after damage.

Heart cells respond to heart attack and increase the chance of survival
The heart of humans and mice does not completely recover after a heart attack.

A simple method to improve heart-attack repair using stem cell-derived heart muscle cells
The heart cannot regenerate muscle after a heart attack, and this can lead to lethal heart failure.

Mount Sinai discovers placental stem cells that can regenerate heart after heart attack
Study identifies new stem cell type that can significantly improve cardiac function.

Fixing a broken heart: Exploring new ways to heal damage after a heart attack
The days immediately following a heart attack are critical for survivors' longevity and long-term healing of tissue.

Heart patch could limit muscle damage in heart attack aftermath
Guided by computer simulations, an international team of researchers has developed an adhesive patch that can provide support for damaged heart tissue, potentially reducing the stretching of heart muscle that's common after a heart attack.

How the heart sends an SOS signal to bone marrow cells after a heart attack
Exosomes are key to the SOS signal that the heart muscle sends out after a heart attack.

Read More: Heart Attack News and Heart Attack Current Events is a participant in the Amazon Services LLC Associates Program, an affiliate advertising program designed to provide a means for sites to earn advertising fees by advertising and linking to