Litcius/Paper detail

Automatic Facial Paralysis Assessment via Computational Image Analysis

Chaoqun Jiang, Jianhuang Wu, Weizheng Zhong, Mingqiang Wei, Jing Tong, Haibo Yu, Ling Wang

2020Journal of Healthcare Engineering45 citationsDOIOpen Access PDF

Abstract

Facial paralysis (FP) is a loss of facial movement due to nerve damage. Most existing diagnosis systems of FP are subjective, e.g., the House-Brackmann (HB) grading system, which highly depends on the skilled clinicians and lacks an automatic quantitative assessment. In this paper, we propose an efficient yet objective facial paralysis assessment approach via automatic computational image analysis. First, the facial blood flow of FP patients is measured by the technique of laser speckle contrast imaging to generate both RGB color images and blood flow images. Second, with an improved segmentation approach, the patient's face is divided into concerned regions to extract facial blood flow distribution characteristics. Finally, three HB score classifiers are employed to quantify the severity of FP patients. The proposed method has been validated on 80 FP patients, and quantitative results demonstrate that our method, achieving an accuracy of 97.14%, outperforms the state-of-the-art systems. Experimental evaluations also show that the proposed approach could yield objective and quantitative FP diagnosis results, which agree with those obtained by an experienced clinician.

Topics & Concepts

Artificial intelligenceFacial paralysisComputer scienceSegmentationFacial nerveComputer visionSpeckle patternFace (sociological concept)Blood flowQuantitative assessmentPattern recognition (psychology)MedicineRadiologySurgerySociologyRisk analysis (engineering)Social scienceFacial Nerve Paralysis Treatment and ResearchEar Surgery and Otitis MediaReconstructive Facial Surgery Techniques