Resource Management through Artificial Intelligence in Screening Programs—Key for the Successful Elimination of Hepatitis C

Butaru, Anca Elena; Mămuleanu, Mădălin; Streba, Costin Teodor; Doica, Irina Paula; Diculescu, Mihai Mircea; Gheonea, Dan Ionuţ; Oancea, Carmen Nicoleta

doi:10.3390/diagnostics12020346

Cited by 6 publications

(5 citation statements)

References 32 publications

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“…The AI/ML applications introduced in this review showed comparable or better performance to the traditional third‐generation rapid HCV‐Ab tests 64,91 . The only outlier was the ML model by Butaru 40 , which had a very low predictive power for detecting positive HCV infections. However, it performed similarly to rapid HCV‐Ab as a Point‐of‐Care (POC) tool to exclude HCV infection (Table 2).…”

Section: Discussionmentioning

confidence: 91%

“…Wei, L. & Ying, X., 2011 34 ; Wang, M. et al, 2012 35 ; Wei, Y. et al, 2016 36 ; Malik, A. A. et al, 2021 37 ; Wei, Y. et al, 2019 38 ; Reiser, M. et al, 2019 39 ; Butaru, A. E. et al, 2022 40 ; Villarreal, Y. R. et al, 2019 41 ; Doyle O. M. et al, 2020 42 ; Edeh, M. O. et al, 2022 43 ; Chirikov, V. V. et al, 2018 44 ; Park, H. et al, 2022 45 ; Janczewska, E. et al, 2021 46 ; Haga, H. et al, 2020 47 ; Churkin, A. et al, 2022 48 ; Rivero‐Juárez, A. et al, 2020 49 ; Oselio, B. et al, 2022 50 ; Weber, T. et al, 2022 51 ; Itami‐Matsumoto et al, 2019 52 ; Hashem, S. et al, 2020 53 ; Audureau, E. et al, 2020 54 ; G. Wong et al, 2022 55 ; Hershberger, C. E. et al, 2021 56 …”

Section: Discussionunclassified

“…The preclinical fields involved are the development of novel HCV treatments and HCV/human immunodeficiency virus-1 (HIV-1) coinhibitors, [34][35][36][37][38] while the clinical aspects covered are the early detection of HCV infection, [39][40][41][42][43] the prediction of DAAs treatment outcomes. [44][45][46][47][48][49][50] The development of HCV vaccines, 51 and the early diagnosis of HCV-related HCC.…”

Section: Review Bodymentioning

confidence: 99%

“…Using a 12‐item questionnaire, Butaru 40 built a deep artificial neural network (DANN) that could predict HCV infection 62 . The DANN predictor revealed a comparable specificity and negative predictive value (NPV) to those reported by the third‐generation rapid HCV‐antibody tests 63 (99.7% vs. 99.7% and 99.2% vs. 99.99%, respectively, promoting it as a rapid non‐costly tool to exclude HCV infection in high‐prevalence settings with limited resources, 64 Another questionnaire was employed by Villarreal 41 to train an RF classifier that can identify HCV infections among drug abusers, one of the HCV key populations, which constitutes 23%–39% of new HCV infections and around one‐third of HCV‐related deaths globally 65,66 .…”

Section: Review Bodymentioning

confidence: 99%

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Opportunities and challenges for the application of artificial intelligence paradigms into the management of endemic viral infections: The example of Chronic Hepatitis C Virus

Farrag,

Kamel,

El‐Baraky

2024

Reviews in Medical Virology

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Despite the advent of direct‐acting antiviral agents (DAAs) as a definitive therapy for chronic hepatitis C virus (HCV) infection, the burden of the disease remains globally elevated. The emerging big data on different HCV paradigms fostered the introduction of artificial intelligence/machine learning (AI/ML) applications to help decrease that burden by providing more optimised strategies for early diagnosis and treatment prioritisation. The current review provides descriptive and analytical insight into the recently published AI/ML applications in five medical aspects of HCV infection. In addition, it highlights the opportunities these powerful tools offer in designing national health policies that prioritise HCV patients for the costly DAAs and developing broadly neutralising HCV antibodies. Finally, this paper highlights the challenges encountered in developing and applying these AI/ML models to clinical practice and suggests schemes to overcome some of them. The presented models were primarily evaluated using the Matthews correlation coefficient and the F1‐score to make a more reliable inference about their predictive power under imbalanced datasets. Many published AI/ML applications offered great utilities for predicting novel HCV treatments and prioritising patients for DAAs receipt, especially in settings of limited resources and high HCV burden. Some outperformed the classical diagnostic tools, such as third‐generation serological tests, alpha‐fetoprotein, and ultrasound, in detecting HCV infections and early HCV‐associated hepatocellular carcinoma, respectively. However, further statistical and clinical validation of AI/ML models is highly advocated before incorporating these applications into clinical practice.

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Section: Discussionmentioning

confidence: 91%

Section: Discussionunclassified

Section: Review Bodymentioning

confidence: 99%

Section: Review Bodymentioning

confidence: 99%

See 2 more Smart Citations

Opportunities and challenges for the application of artificial intelligence paradigms into the management of endemic viral infections: The example of Chronic Hepatitis C Virus

Farrag,

Kamel,

El‐Baraky

2024

Reviews in Medical Virology

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“…Therefore, random samples from each class in the dataset were duplicated. This technique has been proven to be effective when dealing with class imbalance [ 14 , 15 ]. The dataset was split in 70% samples for training and 30% samples for validation.…”

Section: Proposed Methodsmentioning

confidence: 99%

An Automated Method for Classifying Liver Lesions in Contrast-Enhanced Ultrasound Imaging Based on Deep Learning Algorithms

et al. 2023

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Background: Contrast-enhanced ultrasound (CEUS) is an important imaging modality in the diagnosis of liver tumors. By using contrast agent, a more detailed image is obtained. Time-intensity curves (TIC) can be extracted using a specialized software, and then the signal can be analyzed for further investigations. Methods: The purpose of the study was to build an automated method for extracting TICs and classifying liver lesions in CEUS liver investigations. The cohort contained 50 anonymized video investigations from 49 patients. Besides the CEUS investigations, clinical data from the patients were provided. A method comprising three modules was proposed. The first module, a lesion segmentation deep learning (DL) model, handled the prediction of masks frame-by-frame (region of interest). The second module performed dilation on the mask, and after applying colormap to the image, it extracted the TIC and the parameters from the TIC (area under the curve, time to peak, mean transit time, and maximum intensity). The third module, a feed-forward neural network, predicted the final diagnosis. It was trained on the TIC parameters extracted by the second model, together with other data: gender, age, hepatitis history, and cirrhosis history. Results: For the feed-forward classifier, five classes were chosen: hepatocarcinoma, metastasis, other malignant lesions, hemangioma, and other benign lesions. Being a multiclass classifier, appropriate performance metrics were observed: categorical accuracy, F1 micro, F1 macro, and Matthews correlation coefficient. The results showed that due to class imbalance, in some cases, the classifier was not able to predict with high accuracy a specific lesion from the minority classes. However, on the majority classes, the classifier can predict the lesion type with high accuracy. Conclusions: The main goal of the study was to develop an automated method of classifying liver lesions in CEUS video investigations. Being modular, the system can be a useful tool for gastroenterologists or medical students: either as a second opinion system or a tool to automatically extract TICs.

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Prospective Evaluation of Machine Learning for Public Health Screening: Identifying Unknown Hepatitis C Carriers

Dagan,

Magen,

Leshchinsky

et al. 2024

NEJM AI

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Resource Management through Artificial Intelligence in Screening Programs—Key for the Successful Elimination of Hepatitis C

Cited by 6 publications

References 32 publications

Opportunities and challenges for the application of artificial intelligence paradigms into the management of endemic viral infections: The example of Chronic Hepatitis C Virus

Opportunities and challenges for the application of artificial intelligence paradigms into the management of endemic viral infections: The example of Chronic Hepatitis C Virus

An Automated Method for Classifying Liver Lesions in Contrast-Enhanced Ultrasound Imaging Based on Deep Learning Algorithms

Prospective Evaluation of Machine Learning for Public Health Screening: Identifying Unknown Hepatitis C Carriers

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