Manual versus deep learning measurements to evaluate cumulus expansion of bovine oocytes and its relationship with embryo development in vitro

Annelies Raes; Georgios Athanasiou; Nima Azari-Dolatabad; Hafez Sadeghi; Sebastian Gonzalez Andueza; Josep Lluis Arcos; Jesus Cerquides; Krishna Chaitanya Pavani; Geert Opsomer; Osvaldo Bogado Pascottini; Katrien Smits; Daniel Angel-Velez; Ann Van Soom

doi:10.1016/j.compbiomed.2023.107785

Manual versus deep learning measurements to evaluate cumulus expansion of bovine oocytes and its relationship with embryo development in vitro

Comput Biol Med. 2024 Jan:168:107785. doi: 10.1016/j.compbiomed.2023.107785. Epub 2023 Dec 1.

Affiliations

¹ Department of Internal Medicine, Reproduction and Population Medicine, Faculty of Veterinary Medicine, Ghent University, Merelbeke, Belgium. Electronic address: annelrae.raes@ugent.be.
² Artificial Intelligence Research Institute (IIIA-CSIC), 08193, Bellaterra, Spain; Department of Computer Science, Universitat Autonoma de Barcelona, Spain. Electronic address: gathanasiou@iiia.csic.es.
³ Department of Internal Medicine, Reproduction and Population Medicine, Faculty of Veterinary Medicine, Ghent University, Merelbeke, Belgium.
⁴ Artificial Intelligence Research Institute (IIIA-CSIC), 08193, Bellaterra, Spain.
⁵ Artificial Intelligence Research Institute (IIIA-CSIC), 08193, Bellaterra, Spain. Electronic address: cerquide@iiia.csic.es.
⁶ Department of Internal Medicine, Reproduction and Population Medicine, Faculty of Veterinary Medicine, Ghent University, Merelbeke, Belgium; Research Group in Animal Sciences-INCA-CES, Universidad CES, Medellin, 050021, Colombia.

PMID: 38056209
DOI: 10.1016/j.compbiomed.2023.107785

Abstract

Cumulus expansion is an important indicator of oocyte maturation and has been suggested to be indicative of greater oocyte developmental capacity. Although multiple methods have been described to assess cumulus expansion, none of them is considered a gold standard. Additionally, these methods are subjective and time-consuming. In this manuscript, the reliability of three cumulus expansion measurement methods was assessed, and a deep learning model was created to automatically perform the measurement. Cumulus expansion of 232 cumulus-oocyte complexes was evaluated by three independent observers using three methods: (1) measurement of the cumulus area, (2) measurement of three distances between the zona pellucida and outer cumulus, and (3) scoring cumulus expansion on a 5-point Likert scale. The reliability of the methods was calculated in terms of intraclass-correlation coefficients (ICC) for both inter- and intra-observer agreements. The area method resulted in the best overall inter-observer agreement with an ICC of 0.89 versus 0.54 and 0.30 for the 3-distance and scoring methods, respectively. Therefore, the area method served as the base to create a deep learning model, AI-xpansion, which reaches a human-level performance in terms of average rank, bias and variance. To evaluate the accuracy of the methods, the results of cumulus expansion calculations were linked to embryonic development. Cumulus expansion had increased significantly in oocytes that achieved successful embryo development when measured by AI-xpansion, the area- or 3-distance method, while this was not the case for the scoring method. Measuring the area is the most reliable method to manually evaluate cumulus expansion, whilst deep learning automatically performs the calculation with human-level precision and high accuracy and could therefore be a valuable prospective tool for embryologists.

Keywords: Cumulus expansion; Image segmentation; In vitro embryo production.

Publication types

Research Support, Non-U.S. Gov't

MeSH terms

Animals
Cattle
Cumulus Cells
Deep Learning*
Embryonic Development
Female
Humans
Oocytes
Reproducibility of Results