Seyed Hossein Mahfouzi scite author profile

Maintaining cell viability within 3D tissue engineering scaffolds is an essential step toward a functional tissue or organ. Assessment of cell viability in 3D scaffolds is necessary to control and optimize tissue culture process. Monitoring systems based on respiration activity of cells (e.g., oxygen consumption) have been used in various cell cultures. In this research, an online monitoring system based on respiration activity was developed to monitor cell viability within acellular lung scaffolds. First, acellular lung scaffolds were recellularized with human umbilical cord vein endothelial cells, and then, cell viability was monitored during a 5-day period. The real-time monitoring system generated a cell growth profile representing invaluable information on cell viability and proliferative states during the culture period. The cell growth profile obtained by the monitoring system was consistent with 3-(4,5-dimethylthiazol-2-yl)-2,5-diphenyltetrazolium bromide analysis and glucose consumption measurement. This system provided a means for noninvasive, real-time, and repetitive investigation of cell viability. Also, we showed the applicability of this monitoring system by introducing shaking as an operating parameter in a long-term culture.

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Recellularization on Acellular Lung Tissue Scaffold Using Perfusion-Based Bioreactor: An Online Monitoring Strategy

Doryab

Heydarian

Amoabediny

et al. 2017

J. Med. Biol. Eng.

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Advances in bioreactors for lung bioengineering: From scalable cell culture to tissue growth monitoring

Mahfouzi

Amoabediny

Tali

2021

Biotech & Bioengineering

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Enhanced articular cartilage decellularization using a novel perfusion-based bioreactor method

Mousavi

Amoabediny

Mahfouzi

et al. 2021

Journal of the Mechanical Behavior of Biomedical Materials

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