基于多波长的无创血红蛋白检测技术在高原低氧环境中的应用

doi:10.3969/j.issn.1671-2587.2026.02.006

临床输血与检验 ›› 2026, Vol. 28 ›› Issue (2): 185-191.DOI: 10.3969/j.issn.1671-2587.2026.02.006

基于多波长的无创血红蛋白检测技术在高原低氧环境中的应用

李小薇¹, 肖军¹, 王应佳², 任道菊¹, 李治材¹, 张晓娟¹, 陈春月¹, 李翠莹¹

¹空军军医大学空军特色医学中心输血科,北京 100142;
²中国人民解放军95532部队医院,北京 850011

收稿日期:2025-07-14 接受日期:2025-09-25 出版日期:2026-04-20 发布日期:2026-04-22
通讯作者: 李翠莹,主要从事临床输血及免疫血液学方面研究,（E-mail）licuiying2013@qq.com。
作者简介:李小薇,主要从事临床输血与免疫血液学方面研究,（E-mail）lixiaowei0825@126.com。

Application of Non-invasive Hemoglobin Concentration Detection Technology Based on Multi-wavelength in High-altitude Environments

LI Xiaowei¹, XIAO Jun¹, WANG Yingjia², REN Daoju¹, LI Zhicai¹, ZHANG Xiaojuan¹, CHEN Chunyue¹, LI Cuiying¹

¹Department of Blood Transfusion, Air Force Specialty Medical Center, Air Force Medical University, Beijing 100142;
²95532 Hospital, PLA, Beijing 850011

Received:2025-07-14 Accepted:2025-09-25 Online:2026-04-20 Published:2026-04-22

摘要/Abstract

摘要： 目的探讨高原低氧环境下无创血红蛋白（SpHb）检测仪的测量准确性及其与微创血红蛋白（POCT-Hb）检测仪检测结果的一致性,并分析无创血红蛋白检测的影响因素。方法平原志愿者528名,采用国产MHS28无创血红蛋白检测仪和全自动血细胞分析仪分别进行血红蛋白浓度检测并进行对比分析。高原健康志愿者36名,根据进入高原时间不同,分为急进高原组和高原习服组。在海拔3 700米高原低氧环境下,采用美国Masimo RAD-57和国产MHS28无创血红蛋白检测仪分别进行无创血红蛋白浓度检测,比较不同设备的检测成功率,同时与微创血红蛋白分析仪对比血红蛋白结果的准确性、一致性,并分析无创血红蛋白检测的影响因素。结果在平原地区,无创SpHb和有创血红蛋白（tHb）测得血红蛋白浓度分别为（126.00±29.14）g/L、（126.06±21.68）g/L,差异无统计学意义（P>0.05）,一致性较好,且具有显著相关性（R=0.816,P<0.001）。在高原地区,全部检测人次和不同分组中无创MHS28-SpHb检测成功率100%明显高于Masimo-SpHb（P<0.01）。与微创POCT-Hb检测结果比较,高原地区全部检测人次中无创SpHb检测值相对偏差不大于10%中Masimo-SpHb占比73.68%准确性略优于MHS28-SpHb 64.89%,高原习服组中MHS28-SpHb占比88.46%准确性略优于Masimo-SpHb 61.11%,但均没有统计学差异（P>0.05）;而在急进高原组中Masimo-SpHb占比85.0%准确性优于MHS28-SpHb 55.88%（P<0.05）。无创MHS28-SpHb、无创Masimo-SpHb和微创POCT-Hb测得Hb分别为（159.66±15.92）g/L、（151.84±13.21）g/L、（158.13±17.80）g/L,统计分析发现无创MHS28-SpHb与微创POCT-Hb测得的血红蛋白总体均数之间没有差异性（P>0.05）,而无创Masimo-SpHb与微创POCT-Hb测得的血红蛋白总体均数之间存在差异性（P<0.01）。Pearson相关性分析显示无创MHS28-SpHb、无创Masimo-SpHb与微创POCT-Hb相关系数分别是R=0.669、R=0.674,均具有显著相关性（P<0.001）。全部检测人次和不同分组中,无创SpHb与微创POCT-Hb检测具有较好的一致性。多因素线性回归分析无创血红蛋白的影响因素显示,血氧饱和度（SpO2）与无创MHS28-SpHb偏倚成正相关（P<0.05）。结论在平原和高原地区,无创MHS28-SpHb检测血红蛋白成功率较高、准确性好,且与有创tHb和微创POCT-Hb检测具有较好一致性,可以作为血红蛋白监测的有力手段。

关键词: 高海拔, 高原低氧, 血红蛋白, 微创血红蛋白检测仪, 无创血红蛋白检测仪, 多波长光谱

Abstract: Objective The aim of this study is to explore the accuracy of the non-invasive hemoglobin (SpHb) detection device in high-altitude hypoxic environments and its consistency with results obtained by minimally invasive hemoglobin (POCT-Hb) detection, as well as to analyze the influencing factors affecting the performance of the non-invasive hemoglobin detection device. Methods A total of 528 healthy volunteers from plain areas were recruited, and their Hb concentrations were measured using the domestic MHS28 non-invasive hemoglobin detection device and an automatic hematology analyzer for comparative analysis. Additionally, 36 healthy volunteers residing at high-altitude were divided into two groups based on their duration of stay at high altitudes. In the hypoxic environment at an altitude of 3 700 meters, Hb concentrations were detected using the US-made Masimo RAD-57 and domestic MHS28 non-invasive hemoglobin detection devices. The detection success rates of the two devices were compared, and the accuracy and consistency of SpHb results were evaluated against those obtained from the minimally invasive hemoglobin analyzer. Additionally, influencing factors of non-invasive hemoglobin detection device were analyzed. Results In plain regions, non-invasive hemoglobin (SpHb) and invasive hemoglobin (tHb) measurements were (126.00±29.14) g/L and (126.06±21.68) g/L, respectively, with no statistically significant difference (P>0.05), demonstrating good agreement between two methods. Moreover, a significant correlation was observed (R=0.816, P<0.001). In high-altitude regions, the non-invasive MHS28-SpHb detection device success rate (100%) was significantly higher than that of Masimo-SpHb (P<0.01). Compared to POCT-Hb, Masimo-SpHb showed marginally better accuracy (73.68% of measurements within ±10% deviation) than MHS28-SpHb (64.89%) across all high-altitude measurements, though without statistical significance (P>0.05). After acclimatization to the plateau, the proportion of MHS28-SpHb was 88.46%, slightly higher than that of Masimo-SpHb (61.11%), without statistical significance (P>0.05). Conversely, upon rapid entry into the plateau, the Masimo-SpHb detection device exhibited better accuracy (85.0%) than the MHS28-SpHb (55.88%) (P<0.05). The Hb values measured by MHS28-SpHb, Masimo-SpHb, and POCT-Hb were (159.66±15.92) g/L, (151.84±13.21) g/L, and (158.13±17.80) g/L, respectively. Statistical analysis revealed no significant difference between MHS28-SpHb and POCT-Hb (P>0.05), whereas Masimo-SpHb differed significantly from POCT-Hb (P<0.01). Pearson correlation analysis demonstrated strong correlations between MHS28-SpHb (R=0.669) and Masimo-SpHb (R=0.674) with POCT-Hb (P<0.001). Both non-invasive and minimally invasive hemoglobin detection devices demonstrate good consistency. Multivariate linear regression identified SpO2 as positively correlated with MHS28-SpHb bias (P<0.05). Conclusion Both in plain and high-altitude regions, the domestic non-invasive MHS28-SpHb exhibits high detection success rates and good accuracy, instrong consistency with venous invasive tHb and minimally invasive POCT-Hb, supporting its utility as a reliable tool for hemoglobin detection device.

Key words: High-altitude, High-altitude hypoxia, Hemoglobin, Minimally invasive hemoglobin detection device, Non-invasive hemoglobin detection device, Multiple wavelength spectrum

中图分类号:

R318.51R339.5R446.11

李小薇, 肖军, 王应佳, 任道菊, 李治材, 张晓娟, 陈春月, 李翠莹. 基于多波长的无创血红蛋白检测技术在高原低氧环境中的应用[J]. 临床输血与检验, 2026, 28(2): 185-191.

LI Xiaowei1, XIAO Jun1, WANG Yingjia2, REN Daoju1, LI Zhicai1, ZHANG Xiaojuan1, CHEN Chunyue1, LI Cuiying1. Application of Non-invasive Hemoglobin Concentration Detection Technology Based on Multi-wavelength in High-altitude Environments[J]. JOURNAL OF CLINICAL TRANSFUSION AND LABORATORY MEDICINE, 2026, 28(2): 185-191.

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基于多波长的无创血红蛋白检测技术在高原低氧环境中的应用

Application of Non-invasive Hemoglobin Concentration Detection Technology Based on Multi-wavelength in High-altitude Environments

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