Imaging examination is a crucial part in diagnosis and treatment of central nervous system infection(CNSI),involving complex imaging sequences and parameters.This consensus was jointly written by multiple CNSI imaging experts in China,aimed to standardize imaging examination of CNSI.

Imaging examination is a crucial part in diagnosis and treatment of central nervous system infection(CNSI),involving complex imaging sequences and parameters.This consensus was jointly written by multiple CNSI imaging experts in China,aimed to standardize imaging examination of CNSI.

Objective To find the mutation of disease-causing genes of sudden unexplained death syn-drome (SU D S ) in the young by whole exome sequencing in one case. Methods O ne SU D S case was found no obvious fatal pathological changes after conventional autopsy and pathological examination. The whole exome sequencing was performed with the Ion Torrent PGMTM Systemwith hg19 as reference se-quence for sequencing data. The functions of mutations were analyzed by PhyloP, PolyPhen2 and SIFT. A three-step bioinformatics filtering procedure was carried out to identify possible significative single nu-cleotide variation (SN V ), which was missense mutation with allele frequency <1% of myocardial cell. Results Four rare suspicious pathogenic SN V were identified. C ombined with the analysis of convention-al autopsy and pathological examination, the mutation MYOM 2 (8_2054058_G/A ) was assessed as high-risk deleterious mutation by PolyPhen2 and SIFT, respectively. Conclusion Based on the second genera-tion sequencing technology, analysis of whole exome sequencing can be a newmethod for the death cause investigation of SU D S. The gene MYOM2 is a newcandidate SU D S pathogenic gene for mecha-nismresearch.