Disease Modeling of COVID-۱۹ by a Lung-on-a-Chip Simulation Model for Oxygen Management Purposes
سال انتشار: 1403
نوع سند: مقاله ژورنالی
زبان: انگلیسی
مشاهده: 5
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شناسه ملی سند علمی:
JR_IJCCE-43-3_029
تاریخ نمایه سازی: 17 خرداد 1404
چکیده مقاله:
COVID-۱۹ significantly impacts the lung's gas exchange units by thickening the gas-blood barrier. This study conducted finite element simulations on a COVID-۱۹ lung-on-a-chip model to assess the impact of alveolar barrier tissue remodeling on blood oxygenation during COVID-۱۹. The results can be used to ensure optimal oxygen treatment and mitigate potential side effects of excessive supplementation. First, the formation of a mucus layer with varying thicknesses was simulated. Interestingly, patients experiencing mucus-induced silent hypoxia did not require oxygen treatment, as their oxygen saturation levels consistently exceeded ۹۰% across all mucus thicknesses. Next, the severe exudative and fibrotic phases of COVID-۱۹, characterized by hyaline membrane and fibrotic tissue, were modeled. Oxygen exchange during these phases sharply declined compared to mucus-induced hypoxia, resulting in blood oxygen levels of ۱.۲ mol/m۳ and ۰.۹۶ mol/m۳ for ۱µm thickness of the hyaline membrane and fibrotic tissue. Furthermore, a five-fold increase in the thickness of the hyaline membrane and fibrotic tissue considerably limited oxygen transfer to about ۰.۲۹ mol/m۳ and ۰.۲ mol/m۳, respectively. The study also suggested the required alveolar oxygen content for ۹۰% blood saturation in different thicknesses of hyaline membrane and fibrotic tissue. For ۱µm thickness of the hyaline membrane and fibrotic tissue, the alveolar oxygen content needed to be ۱۶.۴۵% and ۲۰.۳۹%, respectively. The required oxygen increased to ۶۸.۴۲% and ۹۸.۶۸% for ۵µm thickness of the hyaline membrane and fibrotic tissue, respectively. Moreover, the investigation showed that changes in blood viscosity, flow rate, and hemoglobin concentration had minimal impact on blood oxygenation during COVID-۱۹ disease. In conclusion, this study provides valuable insights into how alterations in the air-blood barrier and blood disorders in COVID-۱۹ disease affect gas exchange dynamics. It also suggests oxygen treatment requirements for each phase of COVID-۱۹ disease, which can optimize oxygen therapy and improve patient care.
کلیدواژه ها:
نویسندگان
Shadi Sarami Foroushani
School of Chemical Engineering, Sharif University of Technology, Tehran, I.R. IRAN
Shohreh Mashayekhan
School of Chemical Engineering, Sharif University of Technology, Tehran, I.R. IRAN
Hajar Moghadas
School of Mechanical Engineering, Yasouj University, Yasouj, I.R. IRAN
Dariush Bastani
School of Chemical Engineering, Sharif University of Technology, Tehran, I.R. IRAN
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