Artificial intelligence feasibility in veterinary medicine: A systematic review

Fayssal Bouchemla; Sergey Vladimirovich Akchurin; Irina Vladimirovna Akchurina; Georgiy Petrovitch Dyulger; Evgenia Sergeevna Latynina; Anastasia Vladimirovna Grecheneva

doi:10.14202/vetworld.2023.2143-2149

Artificial intelligence feasibility in veterinary medicine: A systematic review

Vet World. 2023 Oct;16(10):2143-2149. doi: 10.14202/vetworld.2023.2143-2149. Epub 2023 Oct 21.

Authors

Fayssal Bouchemla¹, Sergey Vladimirovich Akchurin², Irina Vladimirovna Akchurina², Georgiy Petrovitch Dyulger², Evgenia Sergeevna Latynina², Anastasia Vladimirovna Grecheneva³

Affiliations

¹ Department of Animal Disease, Veterinarian and Sanitarian Expertise, Faculty of Veterinary Medicine, Vavilov Saratov State University of Genetic, Biotechnology and Engineering Saratov, Russia.
² Department of Veterinary Medicine, Russian State Agrarian University- Moscow Agricultural Academy named after K.A. Timiryazev, 49, str. Timiryazevskaya, Moscow, 127550, Russia.
³ Department of Applied Informatics, Russian State Agrarian University-Moscow Agricultural Academy named after K.A. Timiryazev, 49, str. Timiryazevskaya, Moscow, 127550, Russia.

Abstract

Background and aim: In recent years, artificial intelligence (AI) has become increasingly necessary in the life sciences, particularly medicine and healthcare. This study aimed to systematically review the literature and critically analyze multiple databases on the use of AI in veterinary medicine to assess its challenges. We aim to foster an understanding of the effects that can be approached and applied for professional awareness.

Materials and methods: This study used multiple electronic databases with information on applied AI in veterinary medicine based on the current guidelines outlined in PRISMA and Cochrane for systematic review. The electronic databases PubMed, Embase, Google Scholar, Cochrane Library, and Elsevier were thoroughly screened through March 22, 2023. The study design was carefully chosen to emphasize evidence quality and population heterogeneity.

Results: A total of 385 of the 883 citations initially obtained were thoroughly reviewed. There were four main areas that AI addressed; the first was diagnostic issues, the second was education, animal production, and epidemiology, the third was animal health and welfare, pathology, and microbiology, and the last was all other categories. The quality assessment of the included studies found that they varied in their relative quality and risk of bias. However, AI aftereffect-linked algorithms have raised criticism of their generated conclusions.

Conclusion: Quality assessment noted areas of AI outperformance, but there was criticism of its performance as well. It is recommended that the extent of AI in veterinary medicine should be increased, but it should not take over the profession. The concept of ambient clinical intelligence is adaptive, sensitive, and responsive to the digital environment and may be attractive to veterinary professionals as a means of lowering the fear of automating veterinary medicine. Future studies should focus on an AI model with flexible data input, which can be expanded by clinicians/users to maximize their interaction with good algorithms and reduce any errors generated by the process.

Keywords: Cochrane study; artificial intelligence; criterion; extracted data; heterogeneity; systematic review.