This study was aimed to improve the sensitivity of magnetic induction phase shift detection system for cerebral hemorrhage. In the study, a cerebral hemorrhage model with 13 rabbits was established by injection of autologous blood and the cerebral hemorrhage was detected by utilizing magnetic induction phase shift spectroscopy (MIPSS) detection method under the feature band. Sixty five groups of phase shift spectroscopy data were obtained. According to the characteristics of cerebral hemorrhage phase shift spectroscopy under the feature band, an effective method, B-F distribution, to diagnose the severity of cerebral hemorrhage was designed. The results showed that using MIPSS detection method under feature band, the phase shift obviously growed with increase of injection volume of autologous blood, and the phase shift induced by a 3-mL injection reached-7.750 3°±1.420 4°. B-F distribution could effectively diagnose the severity of cerebral hemorrhage. It can be concluded that the sensitivity of the cerebral hemorrhage magnetic induction detection system is improved by one order of magnitude with the MIPSS detection method under the feature band.
Citation: PANWencai, QINMingxin, JINGui, SUNJian, YANQingguang, PENGBin, NINGXu, ZHUANGWei, LIGen, DUZhenwei. Experimental Detection Study on Cerebral Hemorrhage in Rabbits Based on Magnetic Induction Phase Shift Spectroscopy Under the Feature Band. Journal of Biomedical Engineering, 2015, 32(3): 569-574. doi: 10.7507/1001-5515.20150104 Copy