Real-time Temperature Measurements of HMEC-1 Cells during Inflammation Production and Repair detected by Wireless Thermometry
Cell inflammation and its repair process are extremely important for inflammation treatment. The processes can be reflected through real-time in situ cellular temperature changes. By detecting the HMEC-1 cellular temperature under lipopolysaccharide inflammation production and norepinephrine for inflammation repair, combining the changes in cell viability, inflammatory factor levels and ATP content caused by different lipopolysaccharide or norepinephrine doses, an obvious inflammatory response and repair effect was obtained. Temperature variations were correlated with ATP content. The relationship between cell thermogenesis and intracellular energy reserves is related to cell processes. Analysis of the energy changes in different physiological process can be realized.