Planar MIT Sensor Array with Gradiometers for Local Hemorrhage Detection

Yixuan Chen, C. Tan, Feng Dong, Shu Zhao
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引用次数: 2

Abstract

Magnetic induction tomography (MIT) is a promising technology in medical imaging due to its non-radioactive, non-invasive and non-contact properties. To realize the local detection of intracranial hemorrhage with small volume, a planar MIT sensor array with gradiometers is proposed. The local sensitive region was defined and the sensitivities of the planar array with gradiometers and the planar array with Bx sensors were compared. With 3D anatomical head model, the phase response of the hemorrhages in different volumes under the two sensor arrays was investigated. The evaluation indexes: sensitivity intensity A and useful signal to background signal ratio UBR were introduced for evaluating the performance of the sensor arrays in hemorrhage detection. In the local sensitive region, the sensitivity intensity of the planar sensor array with gradiometers is 3 times larger than the Bx sensors. Furthermore, for the 2 mL hemorrhage, the UBR under the structure of gradiometers is 6 times larger than that under the structure of Bx sensors. The results indicate that the planar sensor array with gradiometers can effectively reduce the effect of normal head tissues and improve the accuracy in hemorrhage detection.
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基于梯度计的平面MIT传感器阵列局部出血检测
磁感应层析成像(MIT)以其无放射性、无侵入性和非接触性等特点,在医学成像领域具有广阔的应用前景。为了实现小体积颅内出血的局部检测,提出了一种带梯度仪的平面MIT传感器阵列。定义了局部敏感区域,比较了带梯度仪的平面阵列和带Bx传感器的平面阵列的灵敏度。利用三维头颅解剖模型,研究了两种传感器阵列下不同体积出血的相位响应。引入敏感强度A、有用信号与背景信号比UBR等评价指标,评价传感器阵列在出血检测中的性能。在局部敏感区,平面梯度传感器阵列的灵敏度强度是Bx传感器的3倍。对于2ml出血,梯度仪结构下的UBR是Bx传感器结构下UBR的6倍。结果表明,平面梯度传感器阵列可以有效降低正常头部组织的影响,提高出血检测的准确性。
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