AFib Archives - Sanford Burnham Prebys

Tag: AFib

Institute News

Scientists unite to get to the heart of AFib

AuthorSusan Gammon
Date

August 15, 2023

3D Human Circulatory System Heart Anatomy

A collaborative study led by researchers at Sanford Burnham Prebys is paving the way to identifying gene networks that cause atrial fibrillation (AFib), the most common age-related cardiac arrhythmia.

The findings, published in Disease Models & Mechanisms, validate an approach that combines multiple experimental platforms to identify genes linked to an abnormal heart rhythm.

“One of the biggest challenges to solving the AFib genetic puzzle has been the lack of experimental models that are relevant to humans,” says Alex Colas, PhD, co-senior author and assistant professor in the Development, Aging and Regeneration Program at Sanford Burnham Prebys. “By working with colleagues who focus on AFib but in different systems, we have created a robust multiplatform model that can accurately pinpoint genes associated with this condition.”

AFib is characterized by an irregular, rapid heartbeat that causes a quivering of the upper chambers of the heart, called the atria. This condition is the result of a malfunction in the heart’s electrical system that can lead to heart failure and other heart-related complications, which include stroke-inducing blood clots.

AFib impacts more than 5.1 million people in the United States, with expectations of 15.9 million by 2050. It is more common in individuals over the age of 60 but can also occur in teenagers and young adults.

“There will never be a one-size-fits-all solution to AFib, since it can be caused by many different genes—and the genes that do cause it vary from person to person,” says Karen Ocorr, PhD, also a co-senior author and assistant professor in the Development, Aging and Regeneration Program at Sanford Burnham Prebys. “A better understanding of the gene network(s) that contribute to AFib will help us design tests to predict a person’s risk, and develop individualized approaches to treat this dangerous heart condition.”

To overcome the limitations of current AFib research models, Colas, Ocorr and researchers from UC Davis and Johns Hopkins University combined forces to assemble a multi-model platform that combines:

  • A high-throughput screen using atrial-like cells (derived from human-induced pluripotent stem cells) to measure how a gene mutation alters the strength and duration of a heartbeat.
  • A Drosophila (fruit fly) model—with heart genetics and development remarkably similar to human hearts—that permits analysis of gene mutations in a functioning organ.
  • A well-established computational model that uses computers to simulate the effects of gene mutations on the electrical activity in human atrial cells.

The accuracy of the multi-model platform was confirmed when each screened 20 genes, and all three platforms identified phospholamban, a protein found in the heart muscle with known links to AFib.

“This collaboration has greatly expanded our ability to understand AFib at the genetic level,” says Colas. “Importantly, the high-throughput screening component of the model will also allow us to rapidly and effectively screen for drugs that can restore a heart to its normal rhythm.”

He adds, “Hopefully this is just the beginning. There are many more cardiac diseases to which our system can be applied.”

Institute News

Sanford Burnham Prebys welcomes U.S. Congressman Mike Levin

AuthorMonica May
Date

October 22, 2019

Congressman Mike Levin visits SBP

On October 1, 2019, U.S. Representative Mike Levin (D-CA) toured Sanford Burnham Prebys and met with several faculty members to learn more about the innovative biomedical research taking place in his backyard. Levin represents California’s 49th Congressional District, which includes North County San Diego, South Orange County and neighbors our La Jolla campus. 

The visit kicked off with a visit to a lab working to find medicines for a heart arrhythmia condition called atrial fibrillation (AFib), a disorder that hits home for Levin: His grandmother struggled with the disease. Levin peered into a microscope to view beating heart cells and learned how a team of experts from Sanford Burnham Prebys and Scripps Clinic are working to develop personalized treatments for the condition, which affects nearly six million Americans (meet the A-team.)

“Sanford Burnham Prebys is a great example of the vibrant biomedical research taking place in San Diego that has the potential to improve the quality of life for families across the country,” says Levin. “Seeing the Institute’s critical research up close and hearing firsthand how National Institutes of Health (NIH) funding has accelerated medical discovery only strengthens my commitment to supporting biomedical science. Following my visit to Sanford Burnham Prebys, I was proud to introduce legislation that would invest $10 billion in the NIH to support biomedical research, and I will continue to fight for this much-needed funding.”

Following the lab tour, Levin met with faculty members who—thanks to federally funded research—are working to find treatments for Alzheimer’s disease and addiction, and study the aging process to address age-related diseases such as cancer. The visit wrapped up in the lab of Hudson Freeze, PhD, the director of our Human Genetics Program, who studies a rare childhood disease called congenital disorders of glycosylation, or CDG. 

“Americans today are living longer and healthier lives because of federally funded medical research,” says Chris Larson, PhD, the adjunct associate professor of Development, Aging and Regeneration at the Institute who arranged the visit. “We are grateful that Mike took the time to sit down with us to learn about our NIH-funded work and how he can help support us on our mission to find cures for human disease.”

Editor’s note: Shortly after his visit Levin introduced legislation that calls for a $10 billion investment in biomedical research. 

Institute News

5 facts you need to know about atrial fibrillation (AFib)

AuthorMonica May
Date

February 14, 2019

Heart-AFib-Sanford Burnham Prebys

It’s one of the most common heart rhythm disorders and a leading risk factor for stroke, but most people haven’t heard of it—that is, atrial fibrillation, also known as AFib or AF. Below are five facts everyone should know about AFib. 

  1. Nearly 10 percent of people over the age of 65 develop AFib, and it can be deadly. According to the Centers for Disease Control, it is estimated that 12.1 million people in the United States will have AFib in 2030. In 2019, AFib was mentioned on 183,321 death certificates and was the underlying cause of death in 26,535 of those deaths.
     
  2. There is no cure. Current treatments include surgery to remove the malfunctioning heart tissue; medications that reduce the risk of stroke by thinning the blood, such as warfarin or other anticoagulants; or medications that slow the heart rate or rhythm. But scientists currently don’t know the cause of AFib. There is no cure. 
     
  3. Increased stroke risk makes AFib lethal. The irregular heartbeats that characterize AFib can cause blood to pool in the heart, and clot. If a blood clot travels to the brain, stroke may occur. About 15 to 20 percent of strokes are due to AFib, according to the American Heart Association.
     
  4. The Apple Watch can detect—but not diagnose—the condition. The Apple Watch can take an electrocardiogram and send a notification if an irregular heart rhythm is identified. However, only a doctor can diagnosis AFib. Apple has teamed up with Johnson & Johnson to determine if the wearable technology’s ability to detect AFib earlier improves diagnosis and patient outcomes.
     
  5. Fruit flies could unlock new AFib treatments. Believe it or not, the heart of a fruit fly—which is a tube—models early heart development. In a human, this tube folds into the four chambers of the heart. Combined with their short life cycle and simple genome, fruit flies are an excellent model of heart disease that could unlock new treatments, including those for AFib. Listen to how SBP scientists are using fruit flies to study AFib.

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