Trends and limitation in hydrogel-based therapies for myocardial regeneration
Annual Summit on Cell Signaling, Cell Therapy and Cancer Therapeutics
September 27-28, 2017 Chicago, USA

Ali Mohammad Hasan Joshaghani, Maryam Eslami, Atefe Soluk, Karim Nayernia and Dariush Farhood

Islamic Azad University, Iran
Farhud-Nayernia Center for Genomics Medicine, Iran
Amirkabir University of Technology, Iran
International Center for Personalized Medicine, Germany
Tehran University of Medical Sciences, Iran

Scientific Tracks Abstracts: J Stem Cell Res Ther

Abstract:

Struggling to expand man's life expectancy, scientists have always come across a rather remarkable obstacle damage done to cardiac tissue by myocardial infarction. Incapability of self-regeneration in myocardium causes major problems in the treatment of cardiovascular diseases. Myocardial infarction cannot be tackled effectively by existing approaches such as pharmaceutical therapy, organ transplant or implantation of medical devices; Said methods lack the efficiency expected of the modern technology, since they exert matters such as shortage of donor organs, long periods of hospitalization, rejection of the immune system, heavy operations often including high invasiveness and a high risk of degeneration. In order to regenerate damaged heart muscle, cell-based regenerative therapies and tissue engineering products have gained popularity these days. Injectable hydrogels are one of the tissue engineering products with great potential in treating heart diseases. Different kinds of hydrogels including cell-free hydrogels or those loaded with cardiac stem cells or bioactive agents are available, and previous treatments of heart diseases are now becoming less popular. Hydrogels can be injected intracoronary, epicardial or endocardial. These gels have satisfactory stiffness and viscoelasticity, most of them are biocompatible, and some are biodegradable and conductive as well; such traits encounter myocardial patches' downsides such as hypoxia, electro-provocation, patch rejection and many more. In what follows we are going to shed some light on hydrogels loaded with or carrying angiogenesis drugs or cardiac stem cells and their advantages against the aforementioned methods.

Biography :

Ali Mohammad Hasan Joshaghani has completed his BS in Biomedical Engineering from Islamic Azad University and is currently an MS student in Biomedical Engineering in Islamic Azad University. He has won awards at 10th and 12th Royan International Congress on Stem Cell Biology and Technology in 2014 and 2016.