基于组织光学原理研发了组织氧饱和度无损检测仪。
Based on the principles of organizational optics, the noninvasive tissue oxygenation saturation monitor was developed.
腾轶超。丁海曙。黄岚用近红外光谱检测体外循环时的脑组织氧饱和度。
C Teng. H. S. Ding. L. Huang Monitoring cerebral oxygen saturation of patients under cardiopulmonary bypass (CPB) using near infrared spectroscopy(NIRS)
应用近红外光谱技术,测定脑损伤患儿的脑组织氧饱和度,并与对照组进行比较。
Using NIRS, the brain regional oxygen saturation in HIE infants were measured, comparing with the control group.
在多层生物组织模型下,提出了一种利用近红外光谱技术定量无损检测组织氧饱和度的方法。
Based on the model of multilayered biological tissue, a method to measure tissue oxygenation saturation by using noninvasive near infrared spectroscopy was present.
在新生儿缺氧缺血性脑病时,脑组织氧饱和度能客观评价脑组织的氧合状态,缺氧缺血性脑病患儿存在脑氧合和脑灌注的异常。
In HIE infants, brain oxygen saturation can evaluate brain injury objectively, the infant with HIE had abnormality in brain cerebral oxygenation and perfusion.
这种方法有助于脑外科微创手术中实时在位测试脑组织血氧饱和度研究。
This method can be used for monitoring hemoglobin oxygen saturation in different depth in brain Minimally Invasive Surgery.
目的:探讨急性重复低氧对脑组织血氧饱和度与线粒体功能的影响。
AIM: to study the effects of repeated hypoxic exposures on saturation oxygen and mitochondrial function in the brain.
能有效的增加血氧分压、氧含量和氧饱和度,增加组织细胞氧的利用率,从而使脑细胞获得足够的能量,使更多脑细胞参与大脑活动,从而活跃思维,提高大脑工作效率。
Effective to increase partial pressure of oxygen and oxygen supply in blood, promote the oxygen utilization coefficient of tissue cells to make brain with enough energy and more active and efficient.
能有效的增加血氧分压、氧含量和氧饱和度,增加组织细胞氧的利用率,从而使脑细胞获得足够的能量,使更多脑细胞参与大脑活动,从而活跃思维,提高大脑工作效率。
Effective to increase partial pressure of oxygen and oxygen supply in blood, promote the oxygen utilization coefficient of tissue cells to make brain with enough energy and more active and efficient.
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