Your search keyword '"Thirumalaraju P"' showing total 2 results

1. Performance of a deep learning based neural network in the selection of human blastocysts for implantation

Author

Charles L Bormann, Manoj Kumar Kanakasabapathy, Prudhvi Thirumalaraju, Raghav Gupta, Rohan Pooniwala, Hemanth Kandula, Eduardo Hariton, Irene Souter, Irene Dimitriadis, Leslie B Ramirez, Carol L Curchoe, Jason Swain, Lynn M Boehnlein, and Hadi Shafiee

Subjects

convolutional neural networks, blastocysts, human embryos, embryology, in - vitro fertilization, euploid embryos, Medicine, Science, Biology (General), QH301-705.5

Abstract

Deep learning in in vitro fertilization is currently being evaluated in the development of assistive tools for the determination of transfer order and implantation potential using time-lapse data collected through expensive imaging hardware. Assistive tools and algorithms that can work with static images, however, can help in improving the access to care by enabling their use with images acquired from traditional microscopes that are available to virtually all fertility centers. Here, we evaluated the use of a deep convolutional neural network (CNN), trained using single timepoint images of embryos collected at 113 hr post-insemination, in embryo selection amongst 97 clinical patient cohorts (742 embryos) and observed an accuracy of 90% in choosing the highest quality embryo available. Furthermore, a CNN trained to assess an embryo’s implantation potential directly using a set of 97 euploid embryos capable of implantation outperformed 15 trained embryologists (75.26% vs. 67.35%, p

Published

2020

2. Performance of a deep learning based neural network in the selection of human blastocysts for implantation.

Author

Bormann CL, Kanakasabapathy MK, Thirumalaraju P, Gupta R, Pooniwala R, Kandula H, Hariton E, Souter I, Dimitriadis I, Ramirez LB, Curchoe CL, Swain J, Boehnlein LM, and Shafiee H

Subjects

Adult, Algorithms, Blastocyst cytology, Blastocyst physiology, Female, Humans, Male, Microscopy, Pregnancy, Pregnancy Outcome, Blastocyst classification, Deep Learning, Fertilization in Vitro methods, Image Processing, Computer-Assisted methods

Abstract

Deep learning in in vitro fertilization is currently being evaluated in the development of assistive tools for the determination of transfer order and implantation potential using time-lapse data collected through expensive imaging hardware. Assistive tools and algorithms that can work with static images, however, can help in improving the access to care by enabling their use with images acquired from traditional microscopes that are available to virtually all fertility centers. Here, we evaluated the use of a deep convolutional neural network (CNN), trained using single timepoint images of embryos collected at 113 hr post-insemination, in embryo selection amongst 97 clinical patient cohorts (742 embryos) and observed an accuracy of 90% in choosing the highest quality embryo available. Furthermore, a CNN trained to assess an embryo's implantation potential directly using a set of 97 euploid embryos capable of implantation outperformed 15 trained embryologists (75.26% vs. 67.35%, p<0.0001) from five different fertility centers., Competing Interests: CB Charles L Bormann, Ph.D has a patent WO2019068073A1 pending. MK Manoj Kumar Kanakasabapathy has a patent WO2019068073A1 pending. PT Prudhvi Thirumalaraju has a patent WO2019068073A1 pending. RG, RP, HK, EH, IS, ID, LR, CC, JS, LB No competing interests declared, HS Dr. Shafiee has a patent WO2019068073A1 pending., (© 2020, Bormann et al.)

Published

2020