TY - JOUR
T1 - In situ assembly of an injectable cardiac stimulator
AU - Aydemir, Umut
AU - Mousa, Abdelrazek H.
AU - Dicko, Cedric
AU - Strakosas, Xenofon
AU - Shameem, Muhammad Anwar
AU - Hellman, Karin
AU - Yadav, Amit Singh
AU - Ekström, Peter
AU - Hughes, Damien
AU - Ek, Fredrik
AU - Berggren, Magnus
AU - Arner, Anders
AU - Hjort, Martin
AU - Olsson, Roger
PY - 2024/8/8
Y1 - 2024/8/8
N2 - Without intervention, cardiac arrhythmias pose a risk of fatality. However, timely intervention can be challenging in environments where transporting a large, heavy defibrillator is impractical, or emergency surgery to implant cardiac stimulation devices is not feasible. Here, we introduce an injectable cardiac stimulator, a syringe loaded with a nanoparticle solution comprising a conductive polymer and a monomer that, upon injection, forms a conductive structure around the heart for cardiac stimulation. Following treatment, the electrode is cleared from the body, eliminating the need for surgical extraction. The mixture adheres to the beating heart in vivo without disrupting its normal rhythm. The electrofunctionalized injectable cardiac stimulator demonstrates a tissue-compatible Young’s modulus of 21 kPa and a high conductivity of 55 S/cm. The injected electrode facilitates electrocardiogram measurements, regulates heartbeat in vivo, and rectifies arrhythmia. Conductive functionality is maintained for five consecutive days, and no toxicity is observed at the organism, organ, or cellular levels.
AB - Without intervention, cardiac arrhythmias pose a risk of fatality. However, timely intervention can be challenging in environments where transporting a large, heavy defibrillator is impractical, or emergency surgery to implant cardiac stimulation devices is not feasible. Here, we introduce an injectable cardiac stimulator, a syringe loaded with a nanoparticle solution comprising a conductive polymer and a monomer that, upon injection, forms a conductive structure around the heart for cardiac stimulation. Following treatment, the electrode is cleared from the body, eliminating the need for surgical extraction. The mixture adheres to the beating heart in vivo without disrupting its normal rhythm. The electrofunctionalized injectable cardiac stimulator demonstrates a tissue-compatible Young’s modulus of 21 kPa and a high conductivity of 55 S/cm. The injected electrode facilitates electrocardiogram measurements, regulates heartbeat in vivo, and rectifies arrhythmia. Conductive functionality is maintained for five consecutive days, and no toxicity is observed at the organism, organ, or cellular levels.
U2 - 10.1038/s41467-024-51111-4
DO - 10.1038/s41467-024-51111-4
M3 - Article
C2 - 39117721
SN - 2041-1723
VL - 15
JO - Nature Communications
JF - Nature Communications
M1 - 6774
ER -