Injecting hydrogels containing stem cell or exosome therapeutics directly into the pericardial cavity could be a less invasive, less costly, and more effective means of treating cardiac injury, according to new research from North Carolina State University and the University of North Carolina at Chapel Hill.
Stem cell therapy holds promise as a way to treat cardiac injury, but delivering the therapy directly to the site of the injury and keeping it in place long enough to be effective are ongoing challenges. Even cardiac patches, which can be positioned directly over the site of the injury, have drawbacks in that they require invasive surgical methods for placement.
We wanted a less invasive way to get therapeutics to the injury site, says Ke Cheng, Randall B. Terry, Jr. Distinguished Professor in Regenerative Medicine at NCStates Department of Molecular Biomedical Sciences and professor in the NCState/UNC-Chapel Hill Joint Department of Biomedical Engineering. Using the pericardial cavity as a natural mold could allow us to create cardiac patches at the site of injury from hydrogels containing therapeutics.
In a proof-of-concept study, Cheng and colleagues from NCState and UNC-Chapel Hill looked at two different types of hydrogels one naturally derived and one synthetic and two different stem cell-derived therapeutics in mouse and rat models of heart attack. The therapeutics were delivered via intrapericardial (iPC) injection.
Via fluorescent imaging the researchers were able to see that the hydrogel spread out to form a cardiac patch in the pericardial cavity. They also confirmed that the stem cell or exosome therapeutics can be released into the myocardium, leading to reduced cell death and improved cardiac function compared to animals in the group who received only the hydrogel without therapeutics.
The team then turned to a pig model to test the procedures safety and feasibility. They delivered the iPC injections using a minimally invasive procedure that required only two small incisions, then monitored the pigs for adverse effects. They found no breathing complications, pericardial inflammation, or changes in blood chemistry up to three days post-procedure.
Our hope is that this method of drug delivery to the heart will result in less invasive, less costly procedures with higher therapeutic efficacy, Cheng says. Our early results are promising the method is safe and generates a higher retention rate of therapeutics than those currently in use. Next we will perform additional preclinical studies in large animals to further test the safety and efficacy of this therapy, before we can start a clinical trial.
I anticipate in a clinical setting in the future, iPC injection could be performed with pericardial access similar to the LARIAT procedure. In that regard, only one small incision under local anesthesia is needed on the patients chest wall, says Dr. Joe Rossi, associate professor in the division of cardiology at UNC-Chapel Hill and co-author of the paper.
The research appears in Nature Communications and was supported by the National Institutes of Health and the American Heart Association. Dr. Thomas Caranasos, director of adult cardiac surgery at UNC-Chapel Hill, also contributed to the work.
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Note to editors: An abstract follows.
Minimally invasive delivery of therapeutic agents by hydrogel injection into the pericardial cavity for cardiac repair
DOI: 10.1038/s41467-021-21682-7
Authors: Dashuai Zhu, Zhenhua Li, Ke Cheng, North Carolina State University; Thomas Caranasos, Joseph Rossi, University of North Carolina at Chapel HillPublished: March 3, 2021 in Nature Communications
Abstract:Cardiac patch is an effective way to deliver therapeutics to the heart. However, such procedures are normally invasive and difficult to perform. Here, we developed and tested a method to utilize the pericardial cavity as a natural mold for in situ cardiac patch formation after intrapericardial (iPC) injection of therapeutics in biocompatible hydrogels. In rodent models of myocardial infarction (MI), we demonstrated that iPC injection is an effective and safe method to deliver hydrogels containing induced pluripotent stem cells-derived cardiac progenitor cells (iPS-CPCs) or mesenchymal stem cells (MSCs)-derived exosomes. After injection, the hydrogels formed cardiac patch-like structure in the pericardial cavity, mitigating immune response and increasing the cardiac retention of the therapeutics. With robust cardiovascular regeneration and stimulation of epicardium-derived repair, the therapies mitigated cardiac remodeling and improved cardiac functions post MI. Furthermore, we demonstrated the feasibility of minimally-invasive iPC injection in a clinically-relevant porcine model as well as in human patients. Collectively, our study establishes iPC injection as a safe and effective method to deliver therapeutics to the heart for cardiac repair.
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