Knowledge fused latent representation from lung ultrasound examination for COVID-19 pneumonia severity assessment.

Publication date: Sep 01, 2024

COVID-19 pneumonia severity assessment is of great clinical importance, and lung ultrasound (LUS) plays a crucial role in aiding the severity assessment of COVID-19 pneumonia due to its safety and portability. However, its reliance on qualitative and subjective observations by clinicians is a limitation. Moreover, LUS images often exhibit significant heterogeneity, emphasizing the need for more quantitative assessment methods. In this paper, we propose a knowledge fused latent representation framework tailored for COVID-19 pneumonia severity assessment using LUS examinations. The framework transforms the LUS examination into latent representation and extracts knowledge from regions labeled by clinicians to improve accuracy. To fuse the knowledge into the latent representation, we employ a knowledge fusion with latent representation (KFLR) model. This model significantly reduces errors compared to approaches that lack prior knowledge integration. Experimental results demonstrate the effectiveness of our method, achieving high accuracy of 96. 4 % and 87. 4 % for binary-level and four-level COVID-19 pneumonia severity assessments, respectively. It is worth noting that only a limited number of studies have reported accuracy for clinically valuable exam level assessments, and our method surpass existing methods in this context. These findings highlight the potential of the proposed framework for monitoring disease progression and patient stratification in COVID-19 pneumonia cases.

Concepts Keywords
Covid COVID-19
Pneumonia COVID-19 pneumonia
Portability Deep learning
Ultrasonics Humans
Ultrasound Image Interpretation, Computer-Assisted
Knowledge fusion
Lung
Lung ultrasound
SARS-CoV-2
Severity assessment
Ultrasonography

Semantics

Type Source Name
disease MESH COVID-19
disease MESH pneumonia
disease MESH clinical importance
disease VO LACK
disease VO effectiveness
disease MESH disease progression

Original Article

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