<紀要論文>
尿中クレアチニン排泄量に関する研究 (3) : 年齢・身長・体重・除脂肪量からの24時間排泄量予測
作成者 | |
---|---|
本文言語 | |
出版者 | |
発行日 | |
収録物名 | |
巻 | |
開始ページ | |
終了ページ | |
出版タイプ | |
アクセス権 | |
JaLC DOI | |
関連DOI | |
関連URI | |
関連情報 | |
概要 | Equation to predict urinary creatinine excretion (UcrV) from age, body weight (BW), body height (BH), body surface area (BSA) and lean body mass (LBM) were developed based on data for UcrV determined ...by collecting 24-hour urine for at least 3 days in 256 adult male and 231 adult female healthy subjects. The method of forward stepwise regression analysis was adopted to establish the regression equation. Multiple regression analysis revealed that age, BSA and BW contributed most to the measured value of UcrV. In female subjects, however, LBM also highly contributed to that of UcrV. The regression equations obtained from age, BW and BH were as follows. Y(male) = -12.63 x Age + 15.12 x BW + 7.39 x BH + 79.90 Y(female) = -4.72 x Age + 8.58 x BW + 5.09 x BH + 74.95 The multiple correlation coefficients were 0.872 for males and 0.727 for females, respectively. An analysis of residuals by means of plotting of standardized residuals and predicted atandardized dependent variables showed no remarkable deficiencies in both sexes, suggesting that these equations are applicable to the evaluation of urinary creatinine excretion. LBM derived from skinfold and BW could be one of the most contributable variables to predict UcrV, especially for female subjects.続きを見る |
目次 | 緒言 対象ならびに方法 Ⅰ. 対象 Ⅱ. 方法 成績 Ⅰ. 分析対象者の基本統計 Ⅱ. 尿中クレアチニン排泄量と5変数間の単相関 Ⅲ. 重回帰方程式, 重相関係数ならびに標準化偏回帰係数 Ⅳ. LBM寄与度の検討 Ⅴ. 尿中クレアチニン予測値と実測値の相関 Ⅵ. 尿中クレアチニン予測式の応用 考按 結語 謝辞 文献続きを見る |
詳細
レコードID | |
---|---|
査読有無 | |
地域 | |
ISSN | |
NCID | |
タイプ | |
時代・年代 | |
登録日 | 2009.09.10 |
更新日 | 2022.02.10 |