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노경원,김보미,최철훈,김태중,이정원,김병기,배덕수,조원경,박원,이유영 대한암학회 2022 Cancer Research and Treatment Vol.54 No.1
Purpose This study aimed to evaluate the effect of waiting time, from diagnosis to initiation of definitive concurrent chemoradiation (CCRT), on overall survival in cervical cancer patients. Materials and Methods Patients with cervical cancer who were treated with definitive CCRT between 2000 and 2017 were retrospectively reviewed. Time from initial pathological diagnosis to definitive CCRT was analyzed both as a continuous variable (per day) and as a categorical variable in two groups (group 1 ≤ median, group 2 > median). Patients with a waiting time of more than 60 days were excluded. Results The median waiting time was 14 days (0-60). There were differences between group 1 and group 2 in age and chemotherapy regimens. However, no significant difference was found in the International Federation of Gynecology and Obstetrics stage, cell type, or the number of cycles of chemotherapy received during CCRT. A longer waiting time was associated with poorer overall survival on the Kaplan-Meier curve (group 1 vs. group 2, p=0.042). On multivariate analysis, intervals as either a continuous variable (hazard ratio [HR], 1.023; 95% confidence interval [CI], 1.006 to 1.040; p=0.007) or a categorical variable (HR, 1.513; 95% CI, 1.073 to 2.134; p=0.018), FIGO stage, cell type, and the number of cycles of chemotherapy received during CCRT were significant independent prognostic factors for overall survival. Conclusion A shorter waiting time from pathological diagnosis to definitive CCRT showed benefit on overall survival. Our findings suggest that an effort to minimize waiting times should be recommended in cervical cancer patients who are candidates for CCRT.
노경원 ( Ro Kyung-weon ) 대한화장품학회 1993 대한화장품학회지 Vol.19 No.1
GC/MS는 GC의 분리능과 질량분석기의 화합물의 확인 능력을 결합시킨 기기이다. 질량분석기는 1) 시료를 주입하는 시료 주입부 2) 이온을 형성시키는 ion source 3) 이온을 질량 대 하전비로 분리하는 질량 분석관 4) 분리된 이온을 감지하고 신호를 증폭하는 검출기 5) 검출된 신호로부터 질량스펙트럼을 만들고 데이터를 처리하는 데이터 시스템으로 구성된다. GC/MS는 혼합물을 GC로 분석하여 MS를 반복적으로 주사함으로써 시간에 따른 크로마토그램을 얻은 후 각 성분의 질량스펙트럼으로부터 물질 구조를 확인하는 scan mode와 특정 성분을 높은 감도로서 정량할 수 있는 SIM mode를 수행한다. GC/MS를 이용한 화장품 분석의 예로서 로션, 크림화운데이션, 염모제중의 휘발성분 분석과 비누중의 지방산 분석, 그리고 head space sampler/GC/MS를 이용한 치약 중의 휘발성분 분석 결과를 소개하였다. Gas chromatography serves to separate the mixtures into its components, and mass spectrometer is used to analyzing of unknown compounds. But there are many problems the identification of horn compounds using by GC only. As this reason GC/MS a very powerful analyzing technique. Mass spectrometer consists of 1) inlet stem 2) ion source 3) Bass filter 4) detectors and 5) data system. There are two analyzing modes in the GC/MS, those are scan and SIM(selected ion mom toping) modes. Scan mode is used when analyzing unknown compounds and SIM mode al lows the mass spectrometer to detect specific compound with very high sensitivity. As GC/MS applications for the analysis of cosmetic products, volatile compounds in lotion, earn foundation and hair color, and carbon distribution of fatty acids in soap were performed. Also as a new sample pre-treatment technique, head space sampler/GC/MS introduced in order to analyze the volatile compounds in a toothpaste.