利用绿光估算血氧饱和度的新型无创技术的验证:观察研究

Sanjay Gokhale, V. Daggubati, Georgios Alexandrakis
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引用次数: 0

摘要

脉冲血氧仪的工作波长为红外线。因此,这些血氧仪对深肤色受试者和四肢冰冷的受试者产生的结果不稳定。脉搏血氧仪是发热患者的常规检测仪器,但体温升高会降低血红蛋白对氧气的亲和力,导致血氧饱和度或氧血红蛋白浓度下降。 我们的目的是确定我们的新型研究设备--Shani 设备或 SH1(美国专利 11191460)是否能检测到血氧饱和度下降或氧血红蛋白浓度降低。 为了验证血红蛋白和氧浓度的测量结果,我们在两个不同的小组中分别进行了观察研究(第 1 阶段),其中包括从 20-40 岁的在校大学生和教职员工中招募的 39 名参与者。所有志愿者都使用 SH1 设备和经美国食品和药物管理局批准的商用脉搏血氧仪 Masimo 完成了基线读数。SH1 使用两个发光二极管,其发射波长与氧合血红蛋白(含氧血红蛋白)和脱氧血红蛋白(不含氧血红蛋白或还原血红蛋白)的吸收峰相匹配。总血红蛋白的计算是氧合血红蛋白和脱氧血红蛋白之和。随后,16 名受试者完成了 "热夹克研究",其他受试者完成了 "献血研究"。始终使用 Masimo 对手指进行比较。黑色素水平是通过 von Luschan 皮肤色标(VLS)和专门设计的算法计算得出的。在这项研究中,受试者穿着双层加热夹克和裤子,其中包括一个聚乙烯管网和一个进出口。通过循环温水,使体温比基准体温高出 0.5-0.8 °C。我们预计在加热阶段,氧合血红蛋白在组织水平的浓度会略有下降。 参与者的平均年龄为 24.1 岁(标准差为 0.8 岁)。在 VLS 上,肤色从 12 到 36 不等,分布均匀,三分之一的参与者分别为白皙皮肤、棕色皮肤和深色皮肤。通过特定的算法和软件,氧合血红蛋白的反射比值与直接血红蛋白值一起显示在设备屏幕上。与脉搏血氧仪相比,SH1 设备在体温变化后能捕捉到更多的氧合血红蛋白水平的微小变化,检测到的氧合血红蛋白浓度的最大降幅分别为 6.5% 和 2.54%。 我们的新型研究设备 SH1 通过使用绿色波长的反射光谱法测量组织水平的血氧饱和度。无论肤色如何,该设备都表现良好。因此,该设备可以消除这些关键生物标志物评估中的种族差异。此外,由于光照在手腕上,SH1 可以很容易地微型化,成为一种可穿戴设备。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Validation of a Novel Noninvasive Technology to Estimate Blood Oxygen Saturation Using Green Light: Observational Study
Pulse oximeters work within the red-infrared wavelengths. Therefore, these oximeters produce erratic results in dark-skinned subjects and in subjects with cold extremities. Pulse oximetry is routinely performed in patients with fever; however, an elevation in body temperature decreases the affinity of hemoglobin for oxygen, causing a drop in oxygen saturation or oxyhemoglobin concentrations. We aimed to determine whether our new investigational device, the Shani device or SH1 (US Patent 11191460), detects a drop in oxygen saturation or a decrease in oxyhemoglobin concentrations. An observational study (phase 1) was performed in two separate groups to validate measurements of hemoglobin and oxygen concentrations, including 39 participants recruited among current university students and staff aged 20-40 years. All volunteers completed baseline readings using the SH1 device and the commercially available Food and Drug Administration–approved pulse oximeter Masimo. SH1 uses two light-emitting diodes in which the emitted wavelengths match with absorption peaks of oxyhemoglobin (hemoglobin combined with oxygen) and deoxyhemoglobin (hemoglobin without oxygen or reduced hemoglobin). Total hemoglobin was calculated as the sum of oxyhemoglobin and deoxyhemoglobin. Subsequently, 16 subjects completed the “heat jacket study” and the others completed the “blood donation study.” Masimo was consistently used on the finger for comparison. The melanin level was accounted for using the von Luschan skin color scale (VLS) and a specifically designed algorithm. We here focus on the results of the heat jacket study, in which the subject wore a double-layered heated jacket and pair of trousers including a network of polythene tubules along with an inlet and outlet. Warm water was circulated to increase the body temperature by 0.5-0.8 °C above the baseline body temperature. We expected a slight drop in oxyhemoglobin concentrations in the heating phase at the tissue level. The mean age of the participants was 24.1 (SD 0.8) years. The skin tone varied from 12 to 36 on the VLS, representing a uniform distribution with one-third of the participants having fair skin, brown skin, and dark skin, respectively. Using a specific algorithm and software, the reflection ratio for oxyhemoglobin was displayed on the screen of the device along with direct hemoglobin values. The SH1 device picked up more minor changes in oxyhemoglobin levels after a change in body temperature compared to the pulse oximeter, with a maximum drop in oxyhemoglobin concentration detected of 6.5% and 2.54%, respectively. Our new investigational device SH1 measures oxygen saturation at the tissue level by reflectance spectroscopy using green wavelengths. This device fared well regardless of skin color. This device can thus eliminate racial disparity in these key biomarker assessments. Moreover, since the light is shone on the wrist, SH1 can be readily miniaturized into a wearable device.
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