2023
DOI: 10.1093/hropen/hoad031
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Embryo selection through artificial intelligence versus embryologists: a systematic review

M Salih,
C Austin,
R R Warty
et al.

Abstract: STUDY QUESTION What is the present performance of artificial intelligence (AI) decision support during embryo selection compared to the standard embryo selection by embryologists? SUMMARY ANSWER AI consistently outperformed the clinical teams in all the studies focused on embryo morphology and clinical outcome prediction during embryo selection assessment. WHAT IS KNOWN ALREAD… Show more

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Cited by 35 publications
(9 citation statements)
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“…These methods show promising associations with euploidy, but require further development, which could be facilitated by the availability of training data for less favorable embryo morphologies (Cimadomo et al, 2023). Higher accuracy may be achieved with AI coupled to time-lapse video to identify euploid blastocysts, and the use of static images combined with time-lapse video data and AI combined with other data can improve accuracy to above 80% (Salih et al, 2023). Oxygen consumption measurements, metabolic measurement of embryo culture media, and hyperspectral microscopy are among the other potential tools for embryo assessment but require further testing (Houghton et al, 1996;Krisher et al, 2015;Kurosawa et al, 2016;Sutton-McDowall et al, 2017).…”
Section: Noninvasive Methodsmentioning
confidence: 99%
“…These methods show promising associations with euploidy, but require further development, which could be facilitated by the availability of training data for less favorable embryo morphologies (Cimadomo et al, 2023). Higher accuracy may be achieved with AI coupled to time-lapse video to identify euploid blastocysts, and the use of static images combined with time-lapse video data and AI combined with other data can improve accuracy to above 80% (Salih et al, 2023). Oxygen consumption measurements, metabolic measurement of embryo culture media, and hyperspectral microscopy are among the other potential tools for embryo assessment but require further testing (Houghton et al, 1996;Krisher et al, 2015;Kurosawa et al, 2016;Sutton-McDowall et al, 2017).…”
Section: Noninvasive Methodsmentioning
confidence: 99%
“…The oocyte fertilization rate can be increased by selecting the best sperm for oocytes [4] and applying the oocyte activation method [5]. Another method is to analyze the results of time-lapse observation using artificial intelligence (AI) [6] to evaluate the development of oocytes until they become fertilized, although the efficacy of this method has not been proven. While the above procedures are performed before oocyte fertilization, even when fertilized oocytes are obtained, they are not always successful, and there is the possibility of miscarriage at the embryo transfer stage.…”
Section: Introductionmentioning
confidence: 99%
“…Various methods for selection related to aneuploidy have been developed, based on morphological features of cleavage embryos and blastocysts, the timing of cleavages, as well as the integration of artificial intelligence (AI) with time-lapse imaging technology and omics analysis of embryo waste products in culture media (Cimadomo et al, 2023;Del Collado et al, 2023;Gardner & Lane, 2017;Mashiko et al, 2022;Nguyen et al, 2020;Salih et al, 2023;Shenoy et al, 2021). In contrast, embryo selection or evaluation methods using the nucleolus/nucleolus precursor body (NPB) as a marker are primarily limited to the zygotic stage (Chen & Kattera, 2006;Coskun et al, 2003;Fulka et al, 2015;Inoue et al, 2021;Nagy et al, 2003;Tesarik & Greco, 1999).…”
mentioning
confidence: 99%