Osamu Uemura1,2, Masataka Honda3, Takeshi Matsuyama3, Kenji Ishikura3, Hiroshi Hataya3, Nahoko Yata3, Takuhito Nagai3, Yohei Ikezumi3, Naoya Fujita3, Shuichi Ito3, Kazumoto Iijima3, Teruo Kitagawa4. 1. The Japanese Society for Pediatric Nephrology, The Committee of Measures for Pediatric CKD, Tokyo, Japan. o_uemura@hkg.odn.ne.jp. 2. Department of Pediatric Nephrology, Aichi Children's Health and Medical Center, 1-2 Osakada Morioka-cho, Obu, Aichi, 474-8710, Japan. o_uemura@hkg.odn.ne.jp. 3. The Japanese Society for Pediatric Nephrology, The Committee of Measures for Pediatric CKD, Tokyo, Japan. 4. Tokyo Health Service Association, Tokyo, Japan.
Abstract
BACKGROUND: Enzymatic methods have recently been used to measure creatinine (Cr) instead of the Jaffe method. Therefore, it is necessary to determine the reference serum Cr value for these enzymatic methods to evaluate renal function in Japanese children. METHODS: To determine reference values of serum Cr in Japanese children, 1151 children (517 male, 634 female) aged between 1 month and 18 years had their serum Cr values measured by an enzymatic method. To be included in the study the children had to be without kidney disease, urogenital disease, infectious disease, inflammatory disease, dehydration, muscular disease, anomaly syndrome, cardiovascular disease, malignant disease, hypertension, liver or pancreas disease, or pregnancy. RESULTS: The medians of reference values increased gradually with age, i.e., 0.30 mg/dl at 4 years old and 0.41 mg/dl at 10 years old. In adolescence, they increased significantly more rapidly in males than in females. We found a linear regression equation capable of estimating the reference value of serum Cr in children aged 2-11 years, and quintic regression equations capable of estimating the reference values of serum Cr in male and female children of all ages. CONCLUSION: The reference serum Cr levels determined by an enzymatic method related to age, gender, and body length, and our linear and polynomial equations showing the relationship between body length and serum Cr level will be applicable for screening of renal function in Asian as well as Japanese children.
BACKGROUND: Enzymatic methods have recently been used to measure creatinine (Cr) instead of the Jaffe method. Therefore, it is necessary to determine the reference serum Cr value for these enzymatic methods to evaluate renal function in Japanese children. METHODS: To determine reference values of serum Cr in Japanese children, 1151 children (517 male, 634 female) aged between 1 month and 18 years had their serum Cr values measured by an enzymatic method. To be included in the study the children had to be without kidney disease, urogenital disease, infectious disease, inflammatory disease, dehydration, muscular disease, anomaly syndrome, cardiovascular disease, malignant disease, hypertension, liver or pancreas disease, or pregnancy. RESULTS: The medians of reference values increased gradually with age, i.e., 0.30 mg/dl at 4 years old and 0.41 mg/dl at 10 years old. In adolescence, they increased significantly more rapidly in males than in females. We found a linear regression equation capable of estimating the reference value of serum Cr in children aged 2-11 years, and quintic regression equations capable of estimating the reference values of serum Cr in male and female children of all ages. CONCLUSION: The reference serum Cr levels determined by an enzymatic method related to age, gender, and body length, and our linear and polynomial equations showing the relationship between body length and serum Cr level will be applicable for screening of renal function in Asian as well as Japanese children.
Authors: George J Schwartz; Alvaro Muñoz; Michael F Schneider; Robert H Mak; Frederick Kaskel; Bradley A Warady; Susan L Furth Journal: J Am Soc Nephrol Date: 2009-01-21 Impact factor: 10.121