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Team develops injectable heart stimulator for emergency situations

by Medical Xpress
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eBICS formed in live zebrafish enable ECG recordings. a Site of proBICS injection and formation of eBICS in situ. b In vivo impedance measurement of BICS and eBICS hearts. c The raw ECG signal of zebrafish was recorded within a 2-mV range; the expanded image shows the PQRST complex extracted from the raw ECG signal. d ECG signal was recorded via the BICS patch on the zebrafish skin surface. Figure created with BioRender.com released under a Creative Commons Attribution-NonCommcercial-NoDerivs 4.0 International license (https://creativecommons.org/licenses/by-nc-nd/4.0/deed.en). Credit: Nature Communications (2024). DOI: 10.1038/s41467-024-51111-4

A new study by researchers in Sweden shows that an injection of a solution of nanoparticles around the heart can cause a temporary heart stimulator to self-assemble and correct heart arrhythmia in emergency situations with the help of an external power source. After treatment, the electrode spontaneously disappears from the body. The study was conducted on animals and is published in the journal Nature Communications.

Arrhythmia occurs when there are disturbances in the heart’s , causing it to beat too fast, slow, or irregularly. Often, can be treated with medication, but it is also possible to alter the heart’s rhythm using electrical signals with—for example—a defibrillator or a surgically implanted pacemaker. These types of interventions can be challenging in war zones, during mountain hikes, or in other environments where a defibrillator is not available or surgery is not feasible.

“We have developed an injectable heart stimulator for , which consists of a syringe loaded with a solution of nanoparticles,” says Roger Olsson, Professor of Chemical Biology and Therapeutics at Lund University and Professor of Medicinal Chemistry at the University of Gothenburg.

Nanoparticles are extremely . Because the particles are so small, they can be injected with a needle thinner than a human hair. When the solution comes into contact with tissue, a structure forms around the heart consisting of a long chain of molecules—a so-called polymer—that conducts electricity. The injected electrode integrates with the body’s cells and facilitates ECG measurements, can regulate heartbeats, and correct arrhythmia.

“If you connect a mobile phone to the injection site near the heart, you can temporarily stimulate the heart’s rhythm for up to five days,” says Umut Aydemir, a doctoral student and first author of the study.

Owing to the intimate contact between the polymer and the heart tissue, the stimulator can operate with low power inputs which can come from handheld devices. Most people carry their mobile phones everywhere, and with the help of a cable attached to the skin at the injection site near the heart, charges from the phone can be transferred to the conductive electrode in the body. With an app on the phone—which the researchers now want to develop—a user can then regulate the arrhythmia before the person in question can reach a hospital for further treatment.

So far, these experimental studies have been on , zebrafish and chicken embryos, following the 3R principle to reduce animal testing in mammals. Now that the concept is optimized and shows great potential, the next step is studies on larger animals, such as pigs, for translation to humans.

“The method is minimally invasive. Moreover, the stimulator spontaneously degrades and is excreted from the body after treatment, so it does not need to be surgically removed,” concludes Martin Hjort, Associate Researcher in Chemical Biology and Therapeutics at Lund University.

More information:
Umut Aydemir et al, In situ assembly of an injectable cardiac stimulator, Nature Communications (2024). DOI: 10.1038/s41467-024-51111-4

Provided by
Lund University


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Team develops injectable heart stimulator for emergency situations (2024, August 27)
retrieved 27 August 2024
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