Effects of sample dilution, peroxidase concentration, and chloride ion on the measurement of unbound bilirubin in premature newborns

详细信息	查看全文 | 推荐本文 |

• 作者：Charles E. Ahlfors ; Hendrik J. Vreman ; Ronald J. Wong ; G. Jesse Bender ; William Oh ; Brenda H. Morris ; David K. Stevenson
• 关键词：Newborn jaundice ; Hyperbilirubinemia ; Unbound bilirubin ; Peroxidase test ; Bilirubin/albumin binding ; Free bilirubin
• 刊名：Clinical Biochemistry
• 出版年：2007
• 期刊代码：55_00099120
• 类别：med
• 出版时间：February 2007
• 卷：40
• 期：3-4
• 页码：261-267
• 文件大小：356 K

摘要

>Objectives

To assess the effects of sample dilution, peroxidase concentration, and chloride ion (Cl⁻) on plasma unbound bilirubin (B_f) measurements made using a commercial peroxidase methodology (UB Analyzer) in a study population of ill, premature newborns.

Design and methods

B_f was measured with a UB Analyzer in 74 samples at the standard 42-fold sample dilution and compared with B_f measured at a 2-fold sample dilution using a FloPro Analyzer. B_f was measured at two peroxidase concentrations to determine whether the peroxidase steady state B_f (B_fss) measurements were significantly less than the equilibrium B_f (B_feq), in which case it was necessary to calculate B_feq from the two B_fss measurements. B_f was also measured before and after adding 100 mmol/L Cl⁻ to the UB Analyzer assay buffer.

Results

B_feq at the 42-fold dilution was nearly 10-fold less than but it correlated significantly with B_feq at the 2-fold dilution (mean 8.2 ± 5.2 nmol/L versus 73.5 ± 70 nmol/L, respectively, p c; 0.0001; correlation r = 0.6). The two UB Analyzer B_fss measurements were significantly less than B_feq in 42 of 74 (57%) samples, and Cl⁻ increased B_feq in 66 of 74 (89%) samples by a mean of 82 ± 67%.

Conclusions

B_fss measured by the UB Analyzer at the standard 42-fold sample dilution using assay buffer without Cl⁻ and a single peroxidase concentration is significantly less than the B_feq in undiluted plasma. Accurate B_f measurements can be made only in minimally diluted serum or plasma.