1. Myocardial injection of a thermoresponsive hydrogel with reactive oxygen species scavenger properties improves border zone contractility
- Author
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Spaulding, Kimberly A, Zhu, Yang, Takaba, Kiyoaki, Ramasubramanian, Anusuya, Badathala, Anusha, Haraldsson, Henrik, Collins, Alexander, Aguayo, Esteban, Shah, Curran, Wallace, Arthur W, Ziats, Nicholas P, Lovett, David H, Baker, Anthony J, Healy, Kevin E, and Ratcliffe, Mark B
- Subjects
Cardiovascular ,Heart Disease - Coronary Heart Disease ,Heart Disease ,Acrylamides ,Animals ,Free Radical Scavengers ,Hydrogels ,Injections ,Myocardial Contraction ,Myocardial Infarction ,Polyethylene Glycols ,Reactive Oxygen Species ,Sheep ,hydrogel ,matrix metalloproteinases-2 ,myocardial contraction ,myocardial infarction ,reactive oxygen species ,Chemical Sciences ,Biological Sciences ,Engineering - Abstract
The decrease in contractility in myocardium adjacent (border zone; BZ) to a myocardial infarction (MI) is correlated with an increase in reactive oxygen species (ROS). We hypothesized that injection of a thermoresponsive hydrogel, with ROS scavenging properties, into the MI would decrease ROS and improve BZ function. Fourteen sheep underwent antero-apical MI. Seven sheep had a comb-like copolymer synthesized from N-isopropyl acrylamide (NIPAAm) and 1500 MW methoxy poly(ethylene glycol) methacrylate, (NIPAAm-PEG1500), injected (20 × 0.5 mL) into the MI zone 40 min after MI (MI + NIPAAm-PEG1500) and seven sheep were MI controls. Cardiac MRI was performed 2 weeks before and 6 weeks after MI + NIPAAm-PEG1500. BZ wall thickness at end systole was significantly higher for MI + NIPAAm-PEG1500 (12.32 ± 0.51 mm/m2 MI + NIPAAm-PEG1500 vs. 9.88 ± 0.30 MI; p = .023). Demembranated muscle force development for BZ myocardium 6 weeks after MI was significantly higher for MI + NIPAAm-PEG1500 (67.67 ± 2.61 mN/m2 MI + NIPAAm-PEG1500 vs. 40.53 ± 1.04 MI; p
- Published
- 2020