Objective: To assess the correlation and consistency between continuous noninvasive hemoglobin detection and venous blood hemoglobin detection in children with kidney disease, and try to analyze the affecting factors. Try to provide a reference for the monitoring of hemoglobin in children with kidney disease by continuous noninvasive hemoglobin detection technique. Methods: Eighty-five inpatient children with kidney disease, 50 boys (58.8%) and 35 girls (41.2%), aged from 3 years old to 18 years old (9.35±4.29) were included finally. Noninvasive hemoglobin monitoring by spectrophotometry (SpHb) was stably read by PRONTO-7, selecting the ring finger of the non handedness as the detection site. And then the venous blood hemoglobin of the same patient was collected in 5 minutes as the true hemoglobin (tHb) by Beckman coulter DXH-800. The data of SpHb and tHb were compared and analyzed using SPSS 17.0 and MedCalc. Results: Correlation analysis showed data of SpHb and tHb were with significant correlation, the correlation coefficient between SpHb and tHb was 0.85 (P<0.05). Bland-Altman plot points suggested that the mean of differences between SpHb and tHb was -1.3 g/dL. The 95% CI of agreement of SpHb-tHb was -4.2-1.5 g/dL, suggesting that the average measurement result of SpHb was lower than that of tHb. The mean of differences as percent between SpHb and tHb was -9.8%, 95% CI of agreement was (-35.9%, 16.2%) exceeding the acceptable range of true value ±6%. The consistent rate of non-invasive hemoglobin detection and venous blood hemoglobin detection was 31.8%, the 95% CI of consistent rate was (21.7%, 41.9%). The chi square test of the fourfold table showed that the diagnosis of anemia with SpHb was of high sensitivity, but the specificity was low, the false positive rate was high, and the difference was statistically significant (P=0.000). Conclusion: There was a significant correlation between SpHb and tHb in the children with kidney disease. Noninvasive hemoglobin measurement can be used for monitoring of changes of hemoglobin in children with kidney diseases. But the consistency between SpHb and tHb needs to be improved. Noninvasive hemoglobin measurement could not replace the venous hemoglobin measurement. It could not be used for the diagnosis of anemia, and the accuracy of hemoglobin concentration measurement in children with kidney disease should be further explored.
LIU Xiao-yu
,
YANG Xiao-qing
,
XIAO Hui-jie
,
DING Jie
. Comparison between continuous noninvasive hemoglobin monitoring and venous blood hemoglobin monitoring in children with kidney disease[J]. Journal of Peking University(Health Sciences), 2017
, 49(5)
: 778
-782
.
DOI: 10.3969/j.issn.1671-167X.2017.05.006
[1] Levin A, Thompson CR, Ethier J, et al. Left ventricular mass index increase in early renal disease: impact of decline in hemoglobin [J] . Am J Kidney Dis, 1999, 34(1): 125-134.
[2] Gayat E, Bodin A, Sportiello C, et al. Performance evaluation of a noninvasive hemoglobin monitoring device [J]. Ann Emerg Med, 2011, 57(4): 330-333.
[3] Shah N, Osea EA, Martinez GJ . Accuracy of noninvasive hemoglobin and invasive point-of-care hemoglobin testing compared with a laboratory analyzer [J] . Int J Lab Haematol, 2014, 36(1): 56-61.
[4] 中华医学会儿科学分会血液学组,小儿缺铁性贫血诊断标准和防治建议 [J].中华儿科杂志, 1989, 27(3): 159-159.
[5] 尚红, 王毓三, 申子瑜. 全国临床检验操作规程 [M]. 4版. 北京: 人民卫生出版社, 2014: 1015.
[6] McLean E, Cogswell M, Egli I, et al. Worldwide prevalence of anaemia, WHO vitamin and mineral nutrition information system, 1993-2005 [J]. Public Health Nutr, 2009, 12(4): 444-454.
[7] Strippoli GF, Navaneethan SD, Craig JC. Haemoglobin and haematocrit targets for the anaemia of chronic kidney disease [J] . Cochrane Database Syst Rev, 2006, 1(1): 3967.
[8] Beutler E, Blume KG, Kaplan JC, et al. International Committee for standardization in haematology: recommended methods for red-cell enzyme analysis [J]. Br J Haematol, 1977, 35(2): 331-340.
[9] Lamhaut L, Apriotesei R, Combes X, et al. Comparison of the accuracy of noninvasive hemoglobin monitoring by spectrophotometry (SpHb) and Hemocue with automated laboratory hemoglobin measurement[J]. Anesthesiology, 2011, 115(3): 548-554.
[10] Causey MW, Miller S, Foster A, et al. Validation of noninvasive hemoglobin measurements using the masimo radical-7 SpHb station [J] . Am J Surg, 2011, 201(5): 590-596.
[11] Agrawal A, Sullivan JN, Zink MA, et al. Evaluation of the Masimo�� Rainbow SET Radical-7 in a 6-month-old pediatric multivisceral organ transplant [J] . J Anesth, 2012, 26(4): 629-630.
[12] Sjöstrand F, Rodhe P, Berglund E, et al. The use of a noninvasive hemoglobin monitor for volume kinetic analysis in an emergency room setting[J]. Anesth Analg, 2013, 116(2): 337-342.
[13] Crowley C, Montenegro-Bethancourt G, Arriaga C, et al. Correspondence of hemoglobin values obtained by a noninvasive, cutaneous-contact method with values obtained by conventional me-thods from whole blood samples in a Guatemalan field setting [J]. Food Nutr Bull, 2010, 31(4): 503-512.
