Effects of vitamin D supplementation on a deep learning-based mammographic evaluation in SWOG S0812

Julia E. McGuinness; Garnet L. Anderson; Simukayi Mutasa; Dawn L. Hershman; Mary Beth Terry; Parisa Tehranifar; Danika L. Lew; Monica Yee; Eric A. Brown; Sebastien S. Kairouz; Nafisa Kuwajerwala; Therese B. Bevers; John E. Doster; Corrine Zarwan; Laura Kruper; Lori M. Minasian; Leslie Ford; Banu Arun; Marian L. Neuhouser; Gary E. Goodman; Powel H. Brown; Richard Ha; Katherine D. Crew

doi:10.1093/jncics/pkae042

Effects of vitamin D supplementation on a deep learning-based mammographic evaluation in SWOG S0812

Julia E. McGuinness, Garnet L. Anderson, Simukayi Mutasa, Dawn L. Hershman, Mary Beth Terry, Parisa Tehranifar, Danika L. Lew, Monica Yee, Eric A. Brown, Sebastien S. Kairouz, Nafisa Kuwajerwala, Therese B. Bevers, John E. Doster, Corrine Zarwan, Laura Kruper, Lori M. Minasian, Leslie Ford, Banu Arun, Marian L. Neuhouser, Gary E. GoodmanPowel H. Brown, Richard Ha, Katherine D. Crew

Research output: Contribution to journal › Article › peer-review

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Abstract

Deep learning-based mammographic evaluations could noninvasively assess response to breast cancer chemoprevention. We evaluated change in a convolutional neural network-based breast cancer risk model applied to mammograms among women enrolled in SWOG S0812, which randomly assigned 208 premenopausal high-risk women to receive oral vitamin D3 20000 IU weekly or placebo for 12 months. We applied the convolutional neural network model to mammograms collected at baseline (n = 109), 12 months (n = 97), and 24 months (n = 67) and compared changes in convolutional neural network-based risk score between treatment groups. Change in convolutional neural network-based risk score was not statistically significantly different between vitamin D and placebo groups at 12 months (0.005 vs 0.002, P =. 875) or at 24 months (0.020 vs 0.001, P =. 563). The findings are consistent with the primary analysis of S0812, which did not demonstrate statistically significant changes in mammographic density with vitamin D supplementation compared with placebo. There is an ongoing need to evaluate biomarkers of response to novel breast cancer chemopreventive agents.

Original language	English
Article number	pkae042
Journal	JNCI Cancer Spectrum
Volume	8
Issue number	4
DOIs	https://doi.org/10.1093/jncics/pkae042
Publication status	Published - Aug 1 2024

Bibliographical note

Publisher Copyright:
© 2024 The Author(s). Published by Oxford University Press.

ASJC Scopus Subject Areas

Oncology
Cancer Research

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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McGuinness, J. E., Anderson, G. L., Mutasa, S., Hershman, D. L., Terry, M. B., Tehranifar, P., Lew, D. L., Yee, M., Brown, E. A., Kairouz, S. S., Kuwajerwala, N., Bevers, T. B., Doster, J. E., Zarwan, C., Kruper, L., Minasian, L. M., Ford, L., Arun, B., Neuhouser, M. L., ... Crew, K. D. (2024). Effects of vitamin D supplementation on a deep learning-based mammographic evaluation in SWOG S0812. JNCI Cancer Spectrum, 8(4), Article pkae042. https://doi.org/10.1093/jncics/pkae042

McGuinness, JE, Anderson, GL, Mutasa, S, Hershman, DL, Terry, MB, Tehranifar, P, Lew, DL, Yee, M, Brown, EA, Kairouz, SS, Kuwajerwala, N, Bevers, TB, Doster, JE, Zarwan, C, Kruper, L, Minasian, LM, Ford, L, Arun, B, Neuhouser, ML, Goodman, GE, Brown, PH, Ha, R & Crew, KD 2024, 'Effects of vitamin D supplementation on a deep learning-based mammographic evaluation in SWOG S0812', JNCI Cancer Spectrum, vol. 8, no. 4, pkae042. https://doi.org/10.1093/jncics/pkae042

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abstract = "Deep learning-based mammographic evaluations could noninvasively assess response to breast cancer chemoprevention. We evaluated change in a convolutional neural network-based breast cancer risk model applied to mammograms among women enrolled in SWOG S0812, which randomly assigned 208 premenopausal high-risk women to receive oral vitamin D3 20000 IU weekly or placebo for 12 months. We applied the convolutional neural network model to mammograms collected at baseline (n = 109), 12 months (n = 97), and 24 months (n = 67) and compared changes in convolutional neural network-based risk score between treatment groups. Change in convolutional neural network-based risk score was not statistically significantly different between vitamin D and placebo groups at 12 months (0.005 vs 0.002, P =. 875) or at 24 months (0.020 vs 0.001, P =. 563). The findings are consistent with the primary analysis of S0812, which did not demonstrate statistically significant changes in mammographic density with vitamin D supplementation compared with placebo. There is an ongoing need to evaluate biomarkers of response to novel breast cancer chemopreventive agents.",

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AU - Hershman, Dawn L.

AU - Terry, Mary Beth

AU - Tehranifar, Parisa

AU - Lew, Danika L.

AU - Yee, Monica

AU - Brown, Eric A.

AU - Kairouz, Sebastien S.

AU - Kuwajerwala, Nafisa

AU - Bevers, Therese B.

AU - Doster, John E.

AU - Zarwan, Corrine

AU - Kruper, Laura

AU - Minasian, Lori M.

AU - Ford, Leslie

AU - Arun, Banu

AU - Neuhouser, Marian L.

AU - Goodman, Gary E.

AU - Brown, Powel H.

AU - Ha, Richard

AU - Crew, Katherine D.

PY - 2024/8/1

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N2 - Deep learning-based mammographic evaluations could noninvasively assess response to breast cancer chemoprevention. We evaluated change in a convolutional neural network-based breast cancer risk model applied to mammograms among women enrolled in SWOG S0812, which randomly assigned 208 premenopausal high-risk women to receive oral vitamin D3 20000 IU weekly or placebo for 12 months. We applied the convolutional neural network model to mammograms collected at baseline (n = 109), 12 months (n = 97), and 24 months (n = 67) and compared changes in convolutional neural network-based risk score between treatment groups. Change in convolutional neural network-based risk score was not statistically significantly different between vitamin D and placebo groups at 12 months (0.005 vs 0.002, P =. 875) or at 24 months (0.020 vs 0.001, P =. 563). The findings are consistent with the primary analysis of S0812, which did not demonstrate statistically significant changes in mammographic density with vitamin D supplementation compared with placebo. There is an ongoing need to evaluate biomarkers of response to novel breast cancer chemopreventive agents.

AB - Deep learning-based mammographic evaluations could noninvasively assess response to breast cancer chemoprevention. We evaluated change in a convolutional neural network-based breast cancer risk model applied to mammograms among women enrolled in SWOG S0812, which randomly assigned 208 premenopausal high-risk women to receive oral vitamin D3 20000 IU weekly or placebo for 12 months. We applied the convolutional neural network model to mammograms collected at baseline (n = 109), 12 months (n = 97), and 24 months (n = 67) and compared changes in convolutional neural network-based risk score between treatment groups. Change in convolutional neural network-based risk score was not statistically significantly different between vitamin D and placebo groups at 12 months (0.005 vs 0.002, P =. 875) or at 24 months (0.020 vs 0.001, P =. 563). The findings are consistent with the primary analysis of S0812, which did not demonstrate statistically significant changes in mammographic density with vitamin D supplementation compared with placebo. There is an ongoing need to evaluate biomarkers of response to novel breast cancer chemopreventive agents.

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Effects of vitamin D supplementation on a deep learning-based mammographic evaluation in SWOG S0812

Abstract

Bibliographical note

ASJC Scopus Subject Areas

UN SDGs

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