Prakash K N Bhanu, Gupta Varsha, Bilello Michel, Beauchamp Norman J, Nowinski Wieslaw L
Biomedical Imaging Lab, Singapore Bioimaging Consortium, Agency for Science Technology and Research, 30 Biopolis Street, #07-01 Matrix Singapore 138671.
Acad Radiol. 2006 Dec;13(12):1474-84. doi: 10.1016/j.acra.2006.09.045.
Accurate identification of infarcted regions of the brain is critical in management of stroke patients. An efficient and fast method for identification and segmentation of infarcts in the diffusion-weighted images (DWI) is proposed.
Thirteen stroke patients were studied. DWI scans were acquired with a slice thickness of 5 mm. We have used a probabilistic neural network for selecting infarct slices and an adaptive (two-level) Gaussian mixture model for segmentation of the infarcts. Statistical analysis, such as identification of distribution, first-order statistics calculation, and receiver operating characteristic curve analysis, was performed.
The average dice index is about 0.6, and average sensitivity and specificity are about 81% and 99%, respectively. The value of sensitivity and dice index are influenced by the number of false positives and false negatives. Because artifacts and infarcts have similar imaging characteristics, it is difficult to completely eliminate the artifacts. The accuracy of localization is nearly 100% as there were only two false-positive and three false-negative slices of all 381 slices. The algorithm takes about 1 minute in the Matlab computing environment to process a volume.
A method to localize and segment the acute brain infarcts is proposed. The method aids the clinician in reducing the time needed to localize and segment the infarcts. The speed of localization and segmentation can be enhanced further by implementing the algorithm in VC++ and using fast algorithms for selection of Gaussian mixture model parameters.
准确识别脑梗死区域对中风患者的治疗至关重要。本文提出了一种在扩散加权图像(DWI)中识别和分割梗死灶的高效快速方法。
对13例中风患者进行研究。DWI扫描层厚为5mm。我们使用概率神经网络选择梗死灶切片,并使用自适应(两级)高斯混合模型对梗死灶进行分割。进行了统计分析,如分布识别、一阶统计量计算和受试者工作特征曲线分析。
平均骰子系数约为0.6,平均灵敏度和特异度分别约为81%和99%。灵敏度和骰子系数的值受假阳性和假阴性数量的影响。由于伪影和梗死灶具有相似的成像特征,难以完全消除伪影。在全部381个切片中,仅2个假阳性切片和3个假阴性切片,定位准确率接近100%。在Matlab计算环境中,该算法处理一个容积大约需要1分钟。
提出了一种定位和分割急性脑梗死灶的方法。该方法有助于临床医生减少定位和分割梗死灶所需的时间。通过在VC++中实现该算法并使用快速算法选择高斯混合模型参数,可进一步提高定位和分割速度。
