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    题名: Cox模式有時間相依共變數下預測問題之研究
    作者: 陳志豪
    Chen,Chih-Hao
    贡献者: 陳麗霞
    Chen,Li-Shya
    陳志豪
    Chen,Chih-Hao
    关键词: 分組的Cox模式
    合併的羅吉斯迴歸模式
    計數過程
    間隔時間
    B-spline函數
    延伸的Cox模式
    指數趨勢平滑法
    Grouped Cox model
    Pooled logistic regression
    Counting process
    TEL
    B-spline function
    Extended Cox model
    Exponential smoothing with trend
    日期: 2004
    上传时间: 2009-09-14
    摘要: 共變數的值會隨著時間而改變時,我們稱之為時間相依之共變數。時間相依之共變數往往具有重複測量的特性,也是長期資料裡最常見到的一種共變數形態;在對時間相依之共變數進行重複測量時,可以考慮每次測量的間隔時間相同或是間隔時間不同兩種情形。在間隔時間相同的情形下,我們可以忽略間隔時間所產生的效應,利用分組的Cox模式或是合併的羅吉斯迴歸模式來分析,而合併的羅吉斯迴歸是一種把資料視為“對象 時間單位”形態的分析方法;此外,分組的Cox模式和合併的羅吉斯迴歸模式也都可以用來預測存活機率。在某些條件滿足下,D’Agostino等六人在1990年已經證明出這兩個模式所得到的結果會很接近。

    當間隔時間為不同時,我們可以用計數過程下的Cox模式來分析,在計數過程下的Cox模式中,資料是以“對象 區間”的形態來分析。2001年Bruijne等人則是建議把間隔時間也視為一個時間相依之共變數,並將其以B-spline函數加至模式中分析;在我們論文的實證分析裡也顯示間隔時間在延伸的Cox模式中的確是個很顯著的時間相依之共變數。延伸的Cox模式為間隔時間不同下的時間相依之共變數提供了另一個分析方法。至於在時間相依之共變數的預測方面,我們是以指數趨勢平滑法來預測其未來時間點的數值;利用預測出來的時間相依之共變數值再搭配延伸的Cox模式即可預測未來的存活機率。
    It is so called “time-dependent covariates” that the values of covariates change over time. Time-dependent covariates are measured repeatedly and often appear in the longitudinal data. Time-dependent covariates can be regularly or irregularly measured. In the regular case, we can ignore the TEL(time elapsed since last observation) effect and the grouped Cox model or the pooled logistic regression model is employed to anlalyze. The pooled logistic regression is an analytic method using the“person-period”approach. The grouped Cox model and the pooled logistic regression model also can be used to predict survival probablity. D’Agostino et al. (1990) had proved that pooled logistic regression model is asymptotically equivalent to the grouped Cox model.

    If time-dependent covariates are observed irregularly, Cox model under counting process may be taken into account. Before making the prediction we must turn the original data into“person-interval”form, and this data form is also suitable for the prediction of grouped Cox model in regular measurements. de Bruijne et al.(2001) first considered TEL as a time-dependent covariate and used B-spline function to model it in their proposed extended Cox model. We also show that TEL is a very significant time-dependent covariate in our paper. The extended Cox model provided an alternative for the irregularly measured time-dependent covariates. On the other hand, we use exponential smoothing with trend to predict the future value of time-dependent covariates. Using the predicted values with the extended Cox model then we can predict survival probablity.
    參考文獻: Allison,P.D. (1995). Survival Analysis Using the SAS System. SAS Publishing.
    D’Agostino,R.B., Lee,M.L.T., Belander,A.J., Cupples,L.A., Anderson,K., and Kannel,W.B. (1990). Relation of pooled logistic regression to time dependent Cox regression analysis:the Framingham heart study. Statistics in Medicine 9,1501-1515.
    de Bruijne,M.H.J., Cessie,S.L., Nelemans,H.C., and Van Houwelingen,H.C. (2001). On the use of Cox regression in the presence of an irregularly observed time-dependent covariate. Statistics in Medicine 20,3817-3829.
    de Bruijne,M.H.J., Sijpkens,Y.W., Paul,L.C., Westendorp,R.G., van Houwelingen,H.C., and Zwinderman,A.H. (2003). Predicting kidney graft failure using time-dependent renal function covariates. Journal of Clinical Epidemiology 56,85-100.
    Eilers,P.H.C. and Marx,B.D. (1996). Flexible smoothing with B-splines and penalties. Statistical Science 2,89-121.
    Fleming,T.R.and Harrington,D.P. (1991). Counting Process and Survival Analysis. John Wiley and Sons,Inc.,New York.
    Simonoff,J.S. (1996). Smoothing Methods in Statistics.Springer.
    Kalbfleisch,J.D. and Prentice,R.L. (1980). The Statistical Analysis of Failure Time Data. John Wiley and Sons,Inc.,New York.
    Therneau,T.M. and Grambsch,P.M. (2000). Modeling Survival Data:Extending the Cox Model. Springer.
    描述: 碩士
    國立政治大學
    統計研究所
    92354006
    93
    資料來源: http://thesis.lib.nccu.edu.tw/record/#G0923540061
    数据类型: thesis
    显示于类别:[統計學系] 學位論文

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