http://chineseinput.net/에서 pinyin(병음)방식으로 중국어를 변환할 수 있습니다.
변환된 중국어를 복사하여 사용하시면 됩니다.
혈액투석을 받고 있는 만성신부전증 환자에서 동 정맥루(Arteriovenous fistuls) 와 대퇴동맥과의 동맥혈가스
김현숙,손현주,조영주,윤견일,이은령 대한신장학회 1985 Kidney Research and Clinical Practice Vol.4 No.2
The validity of obtaining blood directly from arteriovenous fistulae for blood gas and pH mea- surements in 15 patients undergoing hemodialysis was examined. In such patients, blood samples were taken simultaneously from both the arterial and venous lines of the a-v fistula and from a femoral artery. The results are as follows: 1) The mean value of PCO, of venous line of a-v fistula revealed significant difference compared with femoral artery. (p(0. 01) 2) The mean value of pH, PCO, and PO, of arterial line of a-v fistula didnt show significant difference compared with femoral artery. (p)0. 05) So, we conclude that it is more convenient and safer to obtain a specimen for blood gas analysis directly from the arterial line within arterioven- ous fistula in patients undergoing hemodialysis.
임상병리 진단검사에서의 차세대염기서열분석 기술의 적용 및 발전 방향
김현숙 청주대학교 보건의료과학연구소 2019 보건의료과학연구 Vol.8 No.1
The Sanger Sequencing method, a sequencing technique of DNA that includes genetic information from living organisms, is the most popular sequencing method. However, because this method has consumed high cost and time, Next Generation Sequencing(NGS) technique has been developed to supplement this method. With the development of the NGS technique, various disease-related genes can be simultaneously analyzed from a single sample, and investigation and molecular diagnostics using genome analysis have been started in earnest. For the first time in 2013, Illumina's MiSeqDx platform and in 2014 Thermo's Ion PGM Dx system was approved by the US FDA for diagnosis. After that, researches on cancer gene discovery, cancer development research, various cancer diagnosis research and biomarker development are actively being carried out. Accordingly, major overseas companies are developing NGS platform for diagnosis and NGS has started to be applied in various medical institutions in Korea. NGS technology is expected to be applicable to the diagnostic laboratory medicine, genome research, population genetics, microorganism species identification and metagenomics, forensic DNA profiling, and industrial process. Therefore, in the future, NGS panel of various diseases will be developed and it is predicted that it will play a critial role in the development of precision medicine which is receiving the highest attention am ong medical fields.