Deep Principal Correlated Auto-Encoders With Application to Imaging and Genomics Data Integration

Abstract: In terms of complex diseases like schizophrenia, more and more studies are beginning to treat genetic variants and brain imaging phenotypes as an important factor. In this paper, a competent optimization model is exploited to overcome the weakness of deep canonical correlation analysis (DCCA). The model consists of principal component analysis (PCA) on the multi-modality linear features learning and multilayer belief networks on multi-modality nonlinear features learning. In order to complete a better result o… Show more

“…Methodologies for multimodal modelling are rapidly evolving, although the application of these methods in medical research and clinical setting is still in its nascent stages. Li, Wang, et al [80] provide a proof-of-concept for the integration of SNVs and brain image data to delineate schizophrenic patients and healthy controls. The model architecture was designed to detect complex nonlinear relationships between SNV and the image data.…”

Applications for Deep Learning in Epilepsy Genetic Research

“…Methodologies for multimodal modelling are rapidly evolving, although the application of these methods in medical research and clinical setting is still in its nascent stages. Li, Wang, et al [80] provide a proof-of-concept for the integration of SNVs and brain image data to delineate schizophrenic patients and healthy controls. The model architecture was designed to detect complex nonlinear relationships between SNV and the image data.…”

Applications for Deep Learning in Epilepsy Genetic Research

Towards artificial intelligence in mental health: a comprehensive survey on the detection of schizophrenia

An insight into applications of deep learning in neuroimaging