image by jcomp on Freepik
Heart failure, a prevalent condition linked to sleep apnea and a shorter lifespan, may be improved by a novel drug. The drug, AF-130, was examined in an animal model at Waipapa Taumata Rau, University of Auckland, where researchers discovered that it increased the heart’s capacity to pump blood, but more importantly, that it also avoided sleep apnea, which itself shortens life. The project has been reported in Nature Communications. This drug does offer benefit for heart failure, but it’s two for the price of one, in that it’s also relieving the apnea for which there is currently no drug, only CPAP (a breathing device), which is poorly tolerated,” says Professor Julian Paton, director of the University’s Manaaki Manawa, Center for Heart Research.
The sympathetic nervous system, also known as the “fight or flight” reaction, is activated by the brain in response to a heart attack and subsequent heart failure in order to encourage the heart to pump blood. Although it is no longer necessary, the brain continues to activate the nervous system, which, along with the resulting sleep apnea, reduces the patient’s life span. Most people pass away within five years of being diagnosed with heart failure.
This study has revealed the first drug to temper the nervous activity from the brain to the heart thereby reversing the heart’s progressive decline in heart failure,” says Professor Paton.
The area of the brain that regulates breathing also transmits nervous impulses to the heart, so this medication performs two tasks at once: it lowers the “fight or flight” response while also promoting breathing to end sleep apnea. According to Professor Paton, these discoveries “have real potential for improving the health and life expectancy of almost 200,000 people living with heart disease in Aotearoa New Zealand.”
The fact that the drug is soon to be FDA approved, albeit for a different health problem, is another exciting development for the scientists, who are from the Universities of Auckland and So Paulo in Brazil, Professor Paton says. This will open the door for human trials in the following year or two.
“Over recent decades there have been several classes of drugs that have improved the prognosis of heart failure,” says cardiology consultant and Associate Professor, Martin Stiles. “However, none of these drugs work in the way that this new agent does. So it is exciting to see a novel method that potentially reverses some features of heart failure.”
more recommended stories
Spatial Computing Explains How Brain Organizes CognitionKey Takeaways (Quick Summary) MIT researchers.
Gestational Diabetes Risk Identified by Blood MetabolitesKey Takeaways (Quick Summary for Clinicians).
Phage Therapy Study Reveals RNA-Based Infection ControlKey Takeaways (Quick Summary) Researchers uncovered.
Pelvic Floor Disorders: Treatable Yet Often IgnoredKey Takeaways (Quick Summary) Pelvic floor.
Urine-Based microRNA Aging Clock Predicts Biological AgeKey Takeaways (Quick Summary) Researchers developed.
Circadian Control of Neutrophils in Myocardial InfarctionKey Takeaways for HCPs Neutrophil activity.
E-Cigarette Use and Heart Attack Risk in Former SmokersKey Takeaways for Clinicians and Nurses.
36-Week Pre-eclampsia Screening May Reduce Term RiskA New Preventive Strategy for Term.
Cardiovascular Risk and Sudden Cardiac Death in DiabetesRising Sudden Cardiac Death (SCD) Risk.
Poor Kidney Function and Alzheimer’s Biomarkers ExplainedPoor kidney function may influence levels.
Leave a Comment