Adeliya Latypova scite author profile

Introduction: There exists over the past decades a constant debate driven by controversies in the validity of psychiatric diagnosis. This debate is grounded in queries about both the validity and evidence strength of clinical measures. Materials and Methods: The objective of the study is to construct a bottom-up unsupervised machine learning approach, where the brain signatures identified by three principal components based on activations yielded from the three kinds of diagnostically relevant stimuli are used in order to produce cross-validation markers which may effectively predict the variance on the level of clinical populations and eventually delineate diagnostic and classification groups. The stimuli represent items from a paranoid-depressive self-evaluation scale, administered simultaneously with functional magnetic resonance imaging (fMRI). Results: We have been able to separate the two investigated clinical entities – schizophrenia and recurrent depression by use of multivariate linear model and principal component analysis. Following the individual and group MLM, we identified the three brain patterns that summarized all the individual variabilities of the individual brain patterns. Discussion: This is a confirmation of the possibility to achieve bottom-up classification of mental disorders, by use of the brain signatures relevant to clinical evaluation tests.

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Biomechanical Role of Bone Anisotropy Estimated on Clinical CT Scans by Image Registration

Taghizadeh

Zysset

Latypova

et al. 2016

Ann Biomed Eng

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Image-based modeling is a popular approach to perform patient-specific biomechanical simulations. Accurate modeling is critical for orthopedic application to evaluate implant design and surgical planning. It has been shown that bone strength can be estimated from the Bone Mineral Density (BMD) and trabecular bone architecture. However, these findings cannot directly be fully transferred to patient-specific modeling since only BMD can be derived from clinical CT. Therefore, the objective of this study was to propose a method to predict the trabecular bone structure using a µCT atlas and an image registration technique. The approach has been evaluated on femurs and patellae under physiological loading. The displacement and ultimate force for femurs loaded in stance position were predicted with an error of 2.5% and 3.7% respectively, while predictions obtained with an isotropic material resulted in errors of 7.3% and 6.9%. Similar results were obtained for the patella, where the strain predicted using the registration approach resulted in an improved mean squared error compared to the isotropic model. We conclude that the registration of anisotropic information from of a single template bone enables more accurate patient-specific simulation from clinical image datasets than isotropic model.

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Adeliya Latypova

Principal component analysis

Effect of changes of femoral offset on abductor and joint reaction forces in total hip arthroplasty

Dual mobility cups provide biomechanical advantages in situations at risk for dislocation: a finite element analysis

Cross-Validation of Functional MRI and Paranoid-Depressive Scale: Results From Multivariate Analysis

Biomechanical Role of Bone Anisotropy Estimated on Clinical CT Scans by Image Registration

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