New Hope: Anemia Treating Drugs May Improve Recovery after a Heart Attack
Drugs being trialed to treat anemia can provide new hopes to aid recovery after a heart attack, reports a new study. The findings of the study are published in the Journal of the American College of Cardiology.
Drugs currently undergoing development to treat anemia could be repurposed to help prevent people with Type 2 diabetes from developing heart failure, according to new research funded by the British Heart Foundation (BHF) and Diabetes UK.
‘New hopes have been raised that drugs being trialed to treat anemia can offer recovery after a heart attack and help reduce the risk of future heart failure.’
In the study, researchers found that, after a heart attack, a protein called HIF acts to help heart cells survive.
In people with diabetes, fats accumulate within the heart muscle and stop the HIF protein from becoming active. This means that a person is more likely to suffer lasting heart muscle damage, and develop heart failure after a heart attack.
A team of researchers from the University of Oxford treated diabetic rats with a drug known to activate the HIF protein and were able to encourage the heart to recover after a heart attack. Further work is needed to see whether the same process can be replicated in people.
However, these initial results suggest that several drugs are known to activate HIF - and currently undergoing phase III clinical trials to treat people with anemia - could potentially be given to people with diabetes immediately after a heart attack in the future.
Nearly 3.7 million people in the UK have been diagnosed with diabetes, with 90% living with Type 2 diabetes. If people don't receive a swift diagnosis and the right care, it can put people at much higher risk of developing heart and circulatory disease.
In the UK there are nearly 200,000 hospital visits each year due to heart attacks. It is estimated that nearly a fifth (18.6%) of people who have a heart attack in the UK, also have diabetes.
Dr. Lisa Heather, a BHF research fellow at the University of Oxford who led the research, said: "After a heart attack, people with Type 2 diabetes are more likely to develop heart failure more quickly, but we have not fully understood the reasons why that is the case.
"What we have shown with this research is that the metabolism of people with Type 2 diabetes means they have higher levels of fatty acids in the heart. This prevents signals going to the heart-protective protein telling it to 'kick-in' after a heart attack.
"But what is perhaps most exciting, is that existing drugs - currently being trialed for people with blood disorders - can reverse that effect and allow the protein to be activated after a heart attack.
"This opens the possibility that, in the near future, we could also use these drugs to help treat heart attacks in people with Type 2 diabetes."
Professor Jeremy Pearson, Associate Medical Director at the British Heart Foundation, which part-funded the research, said: "This research in rats has not only identified the mechanism that could explain why people with Type 2 diabetes to have poorer outcomes after a heart attack, but also a practical way this might be prevented.
"Further studies will be needed to confirm if we see the same benefits in humans. But if we can reactivate the body's own defense system, we may be able to reduce the damage caused by a heart attack and improve people's quality of life."
Anna Morris, Assistant Director of Research Strategy and Partnerships at Diabetes UK, who part-funded the research, said: "It's vital that we find ways to reduce the harm caused by diabetes. It's still early days, but this research is helping us to understand how to improve recovery after a heart attack, and we're looking forward to seeing how this could help people with Type 2 diabetes in the future."
"For now, the best way to reduce your risk of a heart attack is to keep your blood glucose, blood pressure and blood fat at healthy levels, seek help to stop smoking, and by being active and eating a healthy, balanced diet."
Source: Eurekalert