ABSTRACT
Objective:To analyze the CT manifestations of the 2019 novel coronavirus pneumonia (NCP) combined with severe acute respiratory syndrome (SARS) and Middle East respiratory syndrome (MERS) literature review, and to summarize the characteristics of CT imaging, so as to improve the ability of rapid and accurate diagnosis.Methods:CT manifestations of two confirmed cases of NCP were reported, meanwhile the literatures on SARS and MERS imaging performance were reviewed and summarized.Results:The two cases of NCP were both in acute stage, the CT imaging showed multiple and scattered ground-glass opacity (GGO) in both lungs, which is similar to the CT performance of SARS and MERS in acute stage.Conclusions:The CT features of 2019 novel coronavirus pneumonia are similar to SARS and MERS. It has certain characteristics and changes rapidly with the course of the disease. In the acute stage, GGO and paving stone sign were the main manifestations. In the acute phase, GGO and crazy paving are the main manifestations. In the progress stage, the interlobular septal thickening and consolidation appeared. During the absorption period, the lesions disappeared or fibrosis was left behind, with lung structure distortion and bronchiectasis. Lymphadenopathy and hydrothorax were rare.
ABSTRACT
Objective@#To analyze the CT manifestations of the 2019 novel coronavirus pneumonia (NCP) combined with severe acute respiratory syndrome (SARS) and Middle East respiratory syndrome (MERS) literature review, and to summarize the characteristics of CT imaging, so as to improve the ability of rapid and accurate diagnosis.@*Methods@#CT manifestations of two confirmed cases of NCP were reported, meanwhile the literatures on SARS and MERS imaging performance were reviewed and summarized.@*Results@#The two cases of NCP were both in acute stage, the CT imaging showed multiple and scattered ground-glass opacity (GGO) in both lungs, which is similar to the CT performance of SARS and MERS in acute stage.@*Conclusions@#The CT features of 2019 novel coronavirus pneumonia are similar to SARS and MERS. It has certain characteristics and changes rapidly with the course of the disease. In the acute stage, GGO and paving stone sign were the main manifestations. In the acute phase, GGO and crazy paving are the main manifestations. In the progress stage, the interlobular septal thickening and consolidation appeared. During the absorption period, the lesions disappeared or fibrosis was left behind, with lung structure distortion and bronchiectasis. Lymphadenopathy and hydrothorax were rare.
ABSTRACT
BACKGROUND:It is necessary to dynamicaly monitor the survival, recognition and migration of neural stem cels after implantation. OBJECTIVE:Toin vitro label fetal rat neural stem cels using MRI technology so as to provide applied evidence of neural stem cels in nervous system repair. METHODS:Fetal rat neural stem cels were isolated, cultured and labeled folowed by identification and cel viability detection. A rat model of cerebral ischemia-reperfusion injury was established. Fetal neural stem cels labeled by superparamagnetic iron oxide particlesin vitro were transplanted into the left brain of model rats, and unlabeled fetal rat neural stem cels transplanted into the right brain. Prussian blue staining was used to observe the colonization and migration of implanted neural stem cels. MRI tracing was employed to monitor the signal changes of neural stem cels dynamicaly afterin vivo transplantation. RESULTS AND CONCLUSION:Over 95% fetal rat neural stem cels were labeled successfuly by superparamagnetic iron oxide particles, and under electron microscope, there were iron particles in labeled neural stem cels, which were concentrated in the lysosome and endosome. MRI results showed that the labeled neural stem cels had a changing trend of low signals. No difference was found in the cel viability between labeled and unlabeled cels, but T2WI and T2*WI signals were reduced in labeled neural stem cels. These findings confirm that superparamagnetic iron oxide-labeled fetal rat neural stem cels can highly express, and MRI tracing can be used forin vivo monitoring of neural stem cels.