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Autori principali: Chintapalli, Sai Spandana, Wang, Rongguang, Yang, Zhijian, Tassopoulou, Vasiliki, Yu, Fanyang, Bashyam, Vishnu, Erus, Guray, Chaudhari, Pratik, Shou, Haochang, Davatzikos, Christos
Natura: Preprint
Pubblicazione: 2024
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Accesso online:https://arxiv.org/abs/2407.12897
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author Chintapalli, Sai Spandana
Wang, Rongguang
Yang, Zhijian
Tassopoulou, Vasiliki
Yu, Fanyang
Bashyam, Vishnu
Erus, Guray
Chaudhari, Pratik
Shou, Haochang
Davatzikos, Christos
author_facet Chintapalli, Sai Spandana
Wang, Rongguang
Yang, Zhijian
Tassopoulou, Vasiliki
Yu, Fanyang
Bashyam, Vishnu
Erus, Guray
Chaudhari, Pratik
Shou, Haochang
Davatzikos, Christos
contents Availability of large and diverse medical datasets is often challenged by privacy and data sharing restrictions. For successful application of machine learning techniques for disease diagnosis, prognosis, and precision medicine, large amounts of data are necessary for model building and optimization. To help overcome such limitations in the context of brain MRI, we present GenMIND: a collection of generative models of normative regional volumetric features derived from structural brain imaging. GenMIND models are trained on real brain imaging regional volumetric measures from the iSTAGING consortium, which encompasses over 40,000 MRI scans across 13 studies, incorporating covariates such as age, sex, and race. Leveraging GenMIND, we produce and offer 18,000 synthetic samples spanning the adult lifespan (ages 22-90 years), alongside the model's capability to generate unlimited data. Experimental results indicate that samples generated from GenMIND agree with the distributions obtained from real data. Most importantly, the generated normative data significantly enhance the accuracy of downstream machine learning models on tasks such as disease classification. Data and models are available at: https://huggingface.co/spaces/rongguangw/GenMIND.
format Preprint
id arxiv_https___arxiv_org_abs_2407_12897
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Generative models of MRI-derived neuroimaging features and associated dataset of 18,000 samples
Chintapalli, Sai Spandana
Wang, Rongguang
Yang, Zhijian
Tassopoulou, Vasiliki
Yu, Fanyang
Bashyam, Vishnu
Erus, Guray
Chaudhari, Pratik
Shou, Haochang
Davatzikos, Christos
Quantitative Methods
Machine Learning
Availability of large and diverse medical datasets is often challenged by privacy and data sharing restrictions. For successful application of machine learning techniques for disease diagnosis, prognosis, and precision medicine, large amounts of data are necessary for model building and optimization. To help overcome such limitations in the context of brain MRI, we present GenMIND: a collection of generative models of normative regional volumetric features derived from structural brain imaging. GenMIND models are trained on real brain imaging regional volumetric measures from the iSTAGING consortium, which encompasses over 40,000 MRI scans across 13 studies, incorporating covariates such as age, sex, and race. Leveraging GenMIND, we produce and offer 18,000 synthetic samples spanning the adult lifespan (ages 22-90 years), alongside the model's capability to generate unlimited data. Experimental results indicate that samples generated from GenMIND agree with the distributions obtained from real data. Most importantly, the generated normative data significantly enhance the accuracy of downstream machine learning models on tasks such as disease classification. Data and models are available at: https://huggingface.co/spaces/rongguangw/GenMIND.
title Generative models of MRI-derived neuroimaging features and associated dataset of 18,000 samples
topic Quantitative Methods
Machine Learning
url https://arxiv.org/abs/2407.12897