There are many active research projects accessing and applying shared ADNI data. Use the search above to find specific research focuses on the active ADNI investigations. This information is requested annually as a requirement for data access.
Principal Investigator | |
Principal Investigator's Name: | James Moggridge |
Institution: | UCL |
Department: | Department of Neuroradiology |
Country: | |
Proposed Analysis: | Evaluate and compare performance of baseline Hippocampus segmentation models on ADNI dataset with the goal of of developing a robust machine learning model for 3-dimensional segmentation of the hippocampus (and potentially hippocampal substructures) from high resolution MRI scans. |
Additional Investigators | |
Investigator's Name: | Melissa Bristow |
Proposed Analysis: | Evaluate and compare performance of baseline Hippocampus segmentation models on ADNI dataset with the goal of of developing a robust machine learning model for 3-dimensional segmentation of the hippocampus (and potentially hippocampal substructures) from high resolution MRI scans. |
Investigator's Name: | Fernando Perez-Garcia |
Proposed Analysis: | Evaluate and compare performance of baseline Hippocampus segmentation models on ADNI dataset with the goal of of developing a robust machine learning model for 3-dimensional segmentation of the hippocampus (and potentially hippocampal substructures) from high resolution MRI scans. |
Investigator's Name: | Anna Schroder |
Proposed Analysis: | Evaluate and compare performance of baseline Hippocampus segmentation models on ADNI dataset with the goal of of developing a robust machine learning model for 3-dimensional segmentation of the hippocampus (and potentially hippocampal substructures) from high resolution MRI scans. |
Investigator's Name: | Peter Hessey |
Proposed Analysis: | Evaluate and compare performance of baseline Hippocampus segmentation models on ADNI dataset with the goal of of developing a robust machine learning model for 3-dimensional segmentation of the hippocampus (and potentially hippocampal substructures) from high resolution MRI scans. |