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Main Authors: Germani, Elodie, Baghwat, Nikhil, Dugré, Mathieu, Gau, Rémi, Montillo, Albert, Nguyen, Kevin, Sokolowski, Andrzej, Sharp, Madeleine, Poline, Jean-Baptiste, Glatard, Tristan
Format: Preprint
Published: 2024
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Online Access:https://arxiv.org/abs/2403.15405
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author Germani, Elodie
Baghwat, Nikhil
Dugré, Mathieu
Gau, Rémi
Montillo, Albert
Nguyen, Kevin
Sokolowski, Andrzej
Sharp, Madeleine
Poline, Jean-Baptiste
Glatard, Tristan
author_facet Germani, Elodie
Baghwat, Nikhil
Dugré, Mathieu
Gau, Rémi
Montillo, Albert
Nguyen, Kevin
Sokolowski, Andrzej
Sharp, Madeleine
Poline, Jean-Baptiste
Glatard, Tristan
contents Parkinson's disease (PD) is a common neurodegenerative disorder with a poorly understood physiopathology and no established biomarkers for the diagnosis of early stages and for prediction of disease progression. Several neuroimaging biomarkers have been studied recently, but these are susceptible to several sources of variability related for instance to cohort selection or image analysis. In this context, an evaluation of the robustness of such biomarkers to variations in the data processing workflow is essential. This study is part of a larger project investigating the replicability of potential neuroimaging biomarkers of PD. Here, we attempt to reproduce (re-implementing the experiments with the same data, same method) and replicate (different data and/or method) the models described in [1] to predict individual's PD current state and progression using demographic, clinical and neuroimaging features (fALFF and ReHo extracted from resting-state fMRI). We use the Parkinson's Progression Markers Initiative dataset (PPMI, ppmi-info.org), as in [1] and aim to reproduce the original cohort, imaging features and machine learning models as closely as possible using the information available in the paper and the code. We also investigated methodological variations in cohort selection, feature extraction pipelines and sets of input features. Different criteria were used to evaluate the reproduction and compare the reproduced results with the original ones. Notably, we obtained significantly better than chance performance using the analysis pipeline closest to that in the original study (R2 \> 0), which is consistent with its findings. Moreover, using derived data provided by the authors of the original study, we were able to make an exact reproduction and managed to obtain results that were close to the original ones. The challenges encountered while reproducing and replicating the original work are likely explained by the complexity of neuroimaging studies, in particular in clinical settings. We provide recommendations to further facilitate the reproducibility of such studies in the future.
format Preprint
id arxiv_https___arxiv_org_abs_2403_15405
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Predicting Parkinson's disease trajectory using clinical and functional MRI features: a reproduction and replication study
Germani, Elodie
Baghwat, Nikhil
Dugré, Mathieu
Gau, Rémi
Montillo, Albert
Nguyen, Kevin
Sokolowski, Andrzej
Sharp, Madeleine
Poline, Jean-Baptiste
Glatard, Tristan
Neurons and Cognition
Artificial Intelligence
Image and Video Processing
Parkinson's disease (PD) is a common neurodegenerative disorder with a poorly understood physiopathology and no established biomarkers for the diagnosis of early stages and for prediction of disease progression. Several neuroimaging biomarkers have been studied recently, but these are susceptible to several sources of variability related for instance to cohort selection or image analysis. In this context, an evaluation of the robustness of such biomarkers to variations in the data processing workflow is essential. This study is part of a larger project investigating the replicability of potential neuroimaging biomarkers of PD. Here, we attempt to reproduce (re-implementing the experiments with the same data, same method) and replicate (different data and/or method) the models described in [1] to predict individual's PD current state and progression using demographic, clinical and neuroimaging features (fALFF and ReHo extracted from resting-state fMRI). We use the Parkinson's Progression Markers Initiative dataset (PPMI, ppmi-info.org), as in [1] and aim to reproduce the original cohort, imaging features and machine learning models as closely as possible using the information available in the paper and the code. We also investigated methodological variations in cohort selection, feature extraction pipelines and sets of input features. Different criteria were used to evaluate the reproduction and compare the reproduced results with the original ones. Notably, we obtained significantly better than chance performance using the analysis pipeline closest to that in the original study (R2 \> 0), which is consistent with its findings. Moreover, using derived data provided by the authors of the original study, we were able to make an exact reproduction and managed to obtain results that were close to the original ones. The challenges encountered while reproducing and replicating the original work are likely explained by the complexity of neuroimaging studies, in particular in clinical settings. We provide recommendations to further facilitate the reproducibility of such studies in the future.
title Predicting Parkinson's disease trajectory using clinical and functional MRI features: a reproduction and replication study
topic Neurons and Cognition
Artificial Intelligence
Image and Video Processing
url https://arxiv.org/abs/2403.15405