2019
DOI: 10.3390/jcm8101535
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Connecting Histopathology Imaging and Proteomics in Kidney Cancer through Machine Learning

Abstract: Proteomics data encode molecular features of diagnostic value and accurately reflect key underlying biological mechanisms in cancers. Histopathology imaging is a well-established clinical approach to cancer diagnosis. The predictive relationship between large-scale proteomics and H&E-stained histopathology images remains largely uncharacterized. Here we investigate such associations through the application of machine learning, including deep neural networks, to proteomics and histology imaging datasets generat… Show more

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Cited by 33 publications
(23 citation statements)
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“…Furthermore, complementary RNA (cRNA) expression and gene expression also strongly correlated with image-based data (r = 0.76). Despite no radiological TA being performed in these studies, the relevant information obtained can be applied to further develop prediction scores comprising quantitative image data [57].…”
Section: Gene Expression-based Molecular Biomarkersmentioning
confidence: 99%
“…Furthermore, complementary RNA (cRNA) expression and gene expression also strongly correlated with image-based data (r = 0.76). Despite no radiological TA being performed in these studies, the relevant information obtained can be applied to further develop prediction scores comprising quantitative image data [57].…”
Section: Gene Expression-based Molecular Biomarkersmentioning
confidence: 99%
“…Those needs that are classified as unmet require provision of some ample spaces for the purpose of imagination in relation to leveraging the strength associated with big data, as well as relevant artificial intelligence (AI) to improve the overall status of patients with kidney diseases [25]. In this article, we discuss the big data concepts in nephrology, describe the potential use of AI in nephrology and transplantation, and also encourage researchers and clinicians to submit their invaluable research, including original clinical research studies [26][27][28][29][30], database studies from registries [31][32][33], meta-analyses [34][35][36][37][38][39][40][41][42][43][44], and artificial intelligence research [25,[45][46][47][48] in nephrology and transplantation. Table 1 demonstrates known and commonly used databases that have provided big data in nephrology and transplantation [49][50][51].…”
Section: Introductionmentioning
confidence: 99%
“…Although it is yet to be confirmed whether this mutation can be used for clinical prediction, this study supports that ML can discriminate the gene mutation profile in hepatocellular carcinoma. Another example is connecting microscopy images and proteomics through ML ( 131 ). This study adopted a convolutional neural network algorithm to analyze histology from the Cancer Imaging Archive and proteomics datasets from CPTAC.…”
Section: Recent Trends In Proteomicsmentioning
confidence: 99%