Artificial Intelligence in Toxicologic Pathology: Quantitative Evaluation of Compound-Induced Hepatocellular Hypertrophy in Rats

Pischon, Hannah; Mason, David; Lawrenz, Bettina; Blanck, Olivier; Frisk, Anna-Lena; Schorsch, Frédéric; Bertani, Valeria

doi:10.1177/0192623320983244

Cited by 16 publications

(14 citation statements)

References 34 publications

(107 reference statements)

Supporting

Mentioning

Contrasting

Order By: Relevance

“…Based on education, Thomas (2021) used AI technology to study the impact of education on poverty and emphasized the implicit effect of education. Hannah et al (2021) studied the application of AI in pathology and highlighted the contribution of AI in advanced fields. Crystal and Sotiria (2021) studied the application of AI in Finnish teacher education.…”

Section: Research Status Of Related Fieldsmentioning

confidence: 99%

The Teaching Pattern of Law Majors Using Artificial Intelligence and Deep Neural Network Under Educational Psychology

Zhu

Wen-hai

2021

Front. Psychol.

View full text Add to dashboard Cite

With the increasing attention to the cultivation of legal talents, a new teaching model has been explored through artificial intelligence (AI) technology under educational psychology, which focuses on improving learning initiative, teaching methods, and teaching quality of students. First, the application of AI and deep neural network (DNN) algorithms are reviewed in education, and the advantages and disadvantages of traditional learning material recommendation algorithms are summarized. Then, a personalized learning material recommendation algorithm is put forward based on DNN, together with an adaptive learning system based on DNN. Finally, the traditional user-based collaborative filtering (UserCF) model and lifelong topic modeling (LTM) algorithm are introduced as the control group to verify the performance of the proposed recommendation system. The results show that the best learning rate of model training is 0.0001, the best dropout value is 0.5, and the best batch size is 32. The proposed personalized learning resource recommendation method based on deep learning (DL) still has good stability under various training data scales. The personalized test questions of recommended students are moderately difficult. It is easier to recommend materials according to the acquisition of knowledge points and the practicability of the recommended test questions of students. Personalized learning material recommendation algorithm based on AI can timely feedback needs of students, thereby improving the effect of classroom teaching. Using the combination of AI and DL algorithms in teaching design, students can complete targeted personalized learning assignments, which is of great significance to cultivate high-level legal professionals.

show abstract

Section: Research Status Of Related Fieldsmentioning

confidence: 99%

The Teaching Pattern of Law Majors Using Artificial Intelligence and Deep Neural Network Under Educational Psychology

Zhu

Wen-hai

2021

Front. Psychol.

View full text Add to dashboard Cite

show abstract

“…The diversity of histology due to the wide variety of animal species used in toxicity studies (such as rats, mice, dogs, monkeys, and mini pigs) and the large number of organs and tissues to be evaluated in a single study are major hurdles in training algorithms. Some AI-based image-analysis algorithms for laboratory animals using histopathological digital images have recently been reported, such as for detecting and quantifying testicular stage classification in rats 13 , of rodent cardiomyopathy 14 and hypertrophy and vacuolation of rat liver 15,16 . These reports showed that, for abnormal findings, the algorithms could detect and quantify only a single type of finding in each case, and none could immediately detect or classify multiple types of findings simultaneously on a WSI.…”

Section: Introductionmentioning

confidence: 99%

Deep learning-based image-analysis algorithm for classification and quantification of multiple histopathological lesions in rat liver

Shimazaki

Deshpande²,

Hajra³

et al. 2022

J Toxicol Pathol

View full text Add to dashboard Cite

Artificial intelligence (AI)-based image analysis is increasingly being used for preclinical safety-assessment studies in the pharmaceutical industry. In this paper, we present an AI-based solution for preclinical toxicology studies. We trained a set of algorithms to learn and quantify multiple typical histopathological findings in whole slide images (WSIs) of the livers of young Sprague Dawley rats by using a U-Net-based deep learning network. The trained algorithms were validated using 255 liver WSIs to detect, classify, and quantify seven types of histopathological findings (including vacuolation, bile duct hyperplasia, and single-cell necrosis) in the liver. The algorithms showed consistently good performance in detecting abnormal areas. Approximately 75% of all specimens could be classified as true positive or true negative. In general, findings with clear boundaries with the surrounding normal structures, such as vacuolation and single-cell necrosis, were accurately detected with high statistical scores. The results of quantitative analyses and classification of the diagnosis based on the threshold values between "no findings" and "abnormal findings" correlated well with diagnoses made by professional pathologists. However, the scores for findings ambiguous boundaries, such as hepatocellular hypertrophy, were poor. These results suggest that deep learning-based algorithms can detect, classify, and quantify multiple findings simultaneously on rat liver WSIs. Thus, it can be a useful supportive tool for a histopathological evaluation, especially for primary screening in rat toxicity studies.

show abstract

“…12 Aside from these examples of the overarching use of AIbased morphometric assessments to entire studies, this special issue incorporates specific image analysis use-cases relevant for toxicologic pathology, many of which utilized AI-based tools. These include proprietary in-house built solutions, such as AI models built to count ovarian follicles, 13 or to quantify changes within retinal layer morphology, 14 and detection of endothelial tip cells in the oxygen-induced retinopathy model, 15 as well the utilization of commercially available application for spermatogenic staging, 16 analysis of rodent cardiomyocytes, 17 to support scoring of dextran sulfate sodium-induced colitis mouse model histology, 18 enumeration of cynomolgus bone marrow histology, 19 quantitative evaluation of hepatocellular cell hypertrophy in rats, 20 quantitate cell proliferation via common immunohistochemical biomarkers, 21 and for verification of changes observed in the Tg-rasH2 mouse used in carcinogenicity studies. 22 A fluorescence-based image analysis use-case (commercial software) is provided by Wilson et al 23 As novel applications at the periphery of the breadand-butter imaging work of a toxicologic pathologist are continuously emerging, Rousselle et al introduce a digital 3D topographic microscopy technique called scanning optical microscopy to evaluate re-endothelialization of vascular lumen after endovascular procedures.…”

mentioning

confidence: 99%

Special Issue on Digital Pathology, Tissue Image Analysis, Artificial Intelligence, and Machine Learning: Approximation of the Effect of Novel Technologies on Toxicologic Pathology

2021

View full text Add to dashboard Cite

For decades, it has been postulated that digital pathology is the future. By now it is safe to say that we are living that future. Digital pathology has expanded into all aspects of pathology, including human diagnostic pathology, veterinary diagnostics, research, drug development, regulatory toxicologic pathology primary reads, and peer review. Digital tissue image analysis has enabled users to extract quantitative and complex data from digitized whole-slide images. The following editorial provides an overview of the content of this special issue of Toxicologic Pathology to highlight the range of key topics that are included in this compilation. In addition, the editors provide a commentary on important current aspects to consider in this space, such as accessibility of publication content to the machine learning-novice pathologist, the importance of adequate test set selection, and allowing for data reproducibility.

show abstract

Artificial Intelligence in Toxicologic Pathology: Quantitative Evaluation of Compound-Induced Hepatocellular Hypertrophy in Rats

Cited by 16 publications

References 34 publications

The Teaching Pattern of Law Majors Using Artificial Intelligence and Deep Neural Network Under Educational Psychology

The Teaching Pattern of Law Majors Using Artificial Intelligence and Deep Neural Network Under Educational Psychology

Deep learning-based image-analysis algorithm for classification and quantification of multiple histopathological lesions in rat liver

Special Issue on Digital Pathology, Tissue Image Analysis, Artificial Intelligence, and Machine Learning: Approximation of the Effect of Novel Technologies on Toxicologic Pathology

Contact Info

Product

Resources

About