![]() The next step, the authors say, will be to evaluate long-term performance of the novel electrical therapy with an upgraded device in large animal models, with the ultimate goal of clinical application in humans. Tests of the device in models of rats showed that the mesh was integrating both structurally and electrically with the myocardium following heart attack, acting as a substructure of the heart during cardiac movement and improving cardiac contractile function without disturbing relaxation. ![]() “The mesh essentially wraps around and ‘hugs’ the heart and delivers electrical impulses to the whole ventricular myocardium, or heart muscle, “ said Hwang. The result was a new mesh device made up of nanowires, wires thinner than human hair, embedded in a rubber polymer that can conform to the unique three-dimensional anatomy of each individual heart. “In developing the novel material for this device, we wanted to closely imitate cardiac tissue, which is very elastic, and also imitate its unique functions, which is highly conductive,” said Hwang, who collaborated with Seoul National University researchers Taeghwan Hyeon, PhD, a specialist in nanomaterials and Dae-Hyeong Kim, PhD, a specialist in stretchable devices, to create the new nanocomposite. The research team, therefore, set out to develop an alternative device that would more closely resemble the human heart. “But pacemakers deliver electrical stimulation only at specific places in the heart and do not provide comprehensive coverage of the entire organ, as the heart’s own cardiac electrical conduction system does.” “Some patients with heart failure are treated with resynchronization therapy, in which three pairs of small electrodes are implanted with a pacemaker to keep the heart contracting coordinately,” explained corresponding author Hye Jin Hwang, MD, PhD, a researcher in the Division of Cardiovascular Medicine in BIDMC’s CardioVascular Institute. ![]() With the development of heart failure – when weakened heart muscle damages the heart’s pumping mechanism – this electrical conduction system can be damaged. Under normal conditions, the heart pumps blood throughout the body through a series of coordinated contractions maintained by a carefully synchronized electrical conduction system. The study, published in the June 22 issue of Science Translational Medicine, points to a potential new way of improving heart function and treating dangerous arrhythmias by compensating for damaged cardiac muscle and enabling healthy heart muscle to work more efficiently. ![]() BOSTON – A research team led by investigators at Beth Israel Deaconess Medical Center (BIDMC) and Seoul National University has developed a new electric mesh device that can be wrapped around the heart to deliver electrical impulses and improve cardiac function in experimental models of heart failure. ![]()
0 Comments
Leave a Reply. |
AuthorWrite something about yourself. No need to be fancy, just an overview. ArchivesCategories |