Namreiba LLC, Albany, NY, USA.
Light and Health Research Center, Department of Population Health Science and Policy, Icahn School of Medicine at Mount Sinai, New York, NY, USA.
Br J Anaesth. 2024 May;132(5):957-963. doi: 10.1016/j.bja.2024.01.037. Epub 2024 Mar 5.
Pulse oximetry uses noninvasive optical measurements of light transmission from each of two sources through vascularised living tissue over the cardiac cycle (SpO). From those measurements, the relative amount of oxygenated haemoglobin (SaO) in circulating blood can be deduced. Recent reports have shown that, compared with SaO measurements from blood samples, SpO measurements are biased erroneously high for patients with dark skin.
We developed a new method, spectrally resolved photoplethysmography (srPPG), to examine how spectral bandwidth affects the transmission of polychromatic light through the fingertip across the cardiac cycle. We measured and recorded the spectral transmission through the fingertip as the O concentration in inspired air was reduced. We applied digital spectral filters of two different bandwidths, narrow or broad, to the same srPPG recordings to determine whether SpO readings systematically varied for the two bandwidths. The srPPG method also allowed us to measure the fractional amount of melanin in the optical path. The effect of melanin content on the ratio of SpO readings for narrow and broad spectral bandwidths was analysed.
We hypothesised, based upon the Beer-Lambert law, and then showed experimentally, that the light emission spectra of light-emitting diode light sources, as used in commercial pulse oximeters, result in erroneously high SpO measurements for patients having greater melanin concentrations in their skin than those of the subject pool used for instrument calibration.
To eliminate melanin bias, pulse oximeters should use much narrower spectral bandwidths than those used in current models.
脉搏血氧仪利用两个光源通过血管化的活体组织在心动周期(SpO)中进行非侵入性的光传输测量(SpO)。根据这些测量值,可以推断出血液中含氧血红蛋白(SaO)的相对含量。最近的报告表明,与来自血液样本的 SaO 测量值相比,脉搏血氧仪对深色皮肤患者的 SpO 测量值存在错误的偏高。
我们开发了一种新方法,即光谱分辨光体积描记术(srPPG),以检查光谱带宽如何影响多色光通过指尖在心动周期中的传输。我们测量并记录了指尖的光谱传输,同时降低了吸入空气中的 O 浓度。我们将两个不同带宽(窄或宽)的数字光谱滤波器应用于相同的 srPPG 记录,以确定两种带宽的 SpO 读数是否系统地变化。srPPG 方法还允许我们测量光学路径中黑色素的分数含量。分析了黑色素含量对窄带和宽带光谱带宽 SpO 读数比值的影响。
我们基于比尔-朗伯定律提出了假设,然后通过实验证明,商用脉搏血氧仪中使用的发光二极管光源的发光光谱导致皮肤中黑色素浓度大于仪器校准所使用的对象池的患者的 SpO 测量值错误偏高。
为了消除黑色素偏差,脉搏血氧仪应使用比当前模型窄得多的光谱带宽。