Center for Modeling, Simulation and Imaging in Medicine, Rensselaer Polytechnic Institute, Troy, NY, USA.
Medical Computing Team, Kitware, Inc., Clifton Park, NY, USA.
Sci Rep. 2020 Apr 2;10(1):5829. doi: 10.1038/s41598-020-62674-9.
This article presents a real-time approach for classification of burn depth based on B-mode ultrasound imaging. A grey-level co-occurrence matrix (GLCM) computed from the ultrasound images of the tissue is employed to construct the textural feature set and the classification is performed using nonlinear support vector machine and kernel Fisher discriminant analysis. A leave-one-out cross-validation is used for the independent assessment of the classifiers. The model is tested for pair-wise binary classification of four burn conditions in ex vivo porcine skin tissue: (i) 200 °F for 10 s, (ii) 200 °F for 30 s, (iii) 450 °F for 10 s, and (iv) 450 °F for 30 s. The average classification accuracy for pairwise separation is 99% with just over 30 samples in each burn group and the average multiclass classification accuracy is 93%. The results highlight that the ultrasound imaging-based burn classification approach in conjunction with the GLCM texture features provide an accurate assessment of altered tissue characteristics with relatively moderate sample sizes, which is often the case with experimental and clinical datasets. The proposed method is shown to have the potential to assist with the real-time clinical assessment of burn degrees, particularly for discriminating between superficial and deep second degree burns, which is challenging in clinical practice.
本文提出了一种基于 B 型超声成像的烧伤深度实时分类方法。从组织的超声图像中计算出灰度共生矩阵(GLCM),用于构建纹理特征集,并使用非线性支持向量机和核 Fisher 判别分析进行分类。采用留一交叉验证法对分类器进行独立评估。该模型用于对离体猪皮组织中的四种烧伤情况进行两两二元分类:(i)200°F 10s,(ii)200°F 30s,(iii)450°F 10s,和(iv)450°F 30s。在每个烧伤组中,平均每个烧伤组有 30 多个样本,平均两两分类准确率为 99%,平均多类分类准确率为 93%。结果表明,基于超声成像的烧伤分类方法与 GLCM 纹理特征相结合,可以在相对适中的样本量下准确评估组织特性的变化,这在实验和临床数据集通常情况下是如此。该方法有望用于实时临床评估烧伤程度,特别是在临床实践中鉴别浅二度和深二度烧伤方面,这具有挑战性。
