Division of Neonatal and Developmental Medicine, Department of Pediatrics, Stanford University School of Medicine, Stanford, CA, USA.
Pediatr Res. 2013 Jul;74(1):54-60. doi: 10.1038/pr.2013.67. Epub 2013 Apr 19.
The therapeutic phototherapy action spectrum ranges from 420 to 500 nm. However, a recent report of improved efficacy of fluorescent "turquoise" light (490 nm) as compared with blue light (450 nm) underscores the need to define an optimal action spectrum for precision-targeted phototherapy using very narrow wavelength ranges.
We used a current semi-empirical model of the optical properties of skin for robust calculations of the fraction of light absorbed by bilirubin at various wavelengths that could be confounded by hemoglobin (Hb), melanin, and skin thickness. Applying assumptions regarding the wavelength dependence of bilirubin photochemistry, "action spectra" were assembled from the calculated values.
All the calculated action spectra displayed a peak between 472 and 480 nm (most at 476 nm), which is a significant shift from the well-reported 460 nm absorption peak of bilirubin. Of note, the relative amplitudes of the action spectra showed an inverse relationship with hematocrit (Hct).
We speculate that a narrow range of light at 476 nm would be 60% more effective than blue (broadband) fluorescent lamps. Because Hb serves as a major competitor of bilirubin for light absorption, the calculations also predict that the efficacy of phototherapy is dependent on the Hct. A high Hct could reduce therapeutic efficiency.
治疗性光疗的作用光谱范围为 420 至 500nm。然而,最近有报道称,与蓝光(450nm)相比,荧光“绿松石”光(490nm)的疗效有所提高,这凸显了需要定义一个使用非常窄波长范围的精确靶向光疗的最佳作用光谱。
我们使用皮肤光学特性的当前半经验模型,对各种波长下胆红素的吸光率进行稳健计算,这些波长可能会受到血红蛋白(Hb)、黑色素和皮肤厚度的干扰。根据胆红素光化学反应的波长依赖性假设,从计算值中组装“作用光谱”。
所有计算出的作用光谱都显示出在 472nm 至 480nm 之间的峰值(大多数在 476nm),这与胆红素的 460nm 吸收峰有明显的偏移。值得注意的是,作用光谱的相对幅度与血细胞比容(Hct)呈反比关系。
我们推测,476nm 的窄光范围将比蓝色(宽带)荧光灯有效 60%。由于 Hb 是胆红素光吸收的主要竞争者,因此计算还预测光疗的疗效取决于 Hct。高 Hct 可能会降低治疗效率。
Zotero 插件