A quantitative assessment of the depth sensitivity of an optical topography system using a solid dynamic tissue-phantom.

Correia T; Banga A; Everdell NL

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A quantitative assessment of the depth sensitivity of an optical topography system using a solid dynamic tissue-phantom.

机译：使用实体动态组织模型对光学形貌系统的深度灵敏度进行定量评估。

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A solid dynamic phantom with tissue-like optical properties is presented, which contains seven discrete targets impregnated with thermochromic pigment located at different depths from the surface. Changes in absorption are obtained in response to localized heating of the targets, simulating haemodynamic changes occurring in the brain and other tissues. The depth sensitivity of a continuous wave optical topography system was assessed successfully using the phantom. Images of the targets have been reconstructed using a spatially variant regularization, and the determined spatial localization in the depth direction is shown to be accurate within an uncertainty of about 3 mm down to a depth of about 30 mm.

机译：提出了一种具有组织状光学特性的固体动态体模，该体模包含七个离散的目标，这些目标中浸入了距离表面不同深度的热致变色颜料。响应目标的局部加热，获得吸收变化，模拟在大脑和其他组织中发生的血液动力学变化。使用体模成功评估了连续波光学地形系统的深度灵敏度。使用空间变异正则化重建了目标的图像，并且确定的深度方向上的空间定位在大约3 mm的不确定性到大约30 mm的深度内是准确的。

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《Physics in medicine and biology.》 |2009年第20期|共10页
作者
Correia T; Banga A; Everdell NL;
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正文语种 eng
中图分类医用一般科学;生物科学;
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机译：使用实体动态组织模型对光学形貌系统的深度灵敏度进行定量评估。
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A quantitative assessment of the depth sensitivity of an optical topography system using a solid dynamic tissue-phantom.

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