Radiomics Analysis of Brain [(18)F]FDG PET/CT to Predict Alzheimer’s Disease in Patients with Amyloid PET Positivity: A Preliminary Report on the Application of SPM Cortical Segmentation, Pyradiomics and Machine-Learning Analysis

Background: Early in-vivo diagnosis of Alzheimer’s disease (AD) is crucial for accurate management of patients, in particular, to select subjects with mild cognitive impairment (MCI) that may evolve into AD, and to define other types of MCI non-AD patients. The application of artificial intelligence...

Descripción completa

Detalles Bibliográficos
Autores principales: Alongi, Pierpaolo, Laudicella, Riccardo, Panasiti, Francesco, Stefano, Alessandro, Comelli, Albert, Giaccone, Paolo, Arnone, Annachiara, Minutoli, Fabio, Quartuccio, Natale, Cupidi, Chiara, Arnone, Gaspare, Piccoli, Tommaso, Grimaldi, Luigi Maria Edoardo, Baldari, Sergio, Russo, Giorgio
Formato: Online Artículo Texto
Lenguaje:English
Publicado: MDPI 2022
Materias:
Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9030037/
https://www.ncbi.nlm.nih.gov/pubmed/35453981
http://dx.doi.org/10.3390/diagnostics12040933
_version_ 1784692046470053888
author Alongi, Pierpaolo
Laudicella, Riccardo
Panasiti, Francesco
Stefano, Alessandro
Comelli, Albert
Giaccone, Paolo
Arnone, Annachiara
Minutoli, Fabio
Quartuccio, Natale
Cupidi, Chiara
Arnone, Gaspare
Piccoli, Tommaso
Grimaldi, Luigi Maria Edoardo
Baldari, Sergio
Russo, Giorgio
author_facet Alongi, Pierpaolo
Laudicella, Riccardo
Panasiti, Francesco
Stefano, Alessandro
Comelli, Albert
Giaccone, Paolo
Arnone, Annachiara
Minutoli, Fabio
Quartuccio, Natale
Cupidi, Chiara
Arnone, Gaspare
Piccoli, Tommaso
Grimaldi, Luigi Maria Edoardo
Baldari, Sergio
Russo, Giorgio
author_sort Alongi, Pierpaolo
collection PubMed
description Background: Early in-vivo diagnosis of Alzheimer’s disease (AD) is crucial for accurate management of patients, in particular, to select subjects with mild cognitive impairment (MCI) that may evolve into AD, and to define other types of MCI non-AD patients. The application of artificial intelligence to functional brain [(18)F]fluorodeoxyglucose (FDG) positron emission tomography (PET)/computed tomography(CT) aiming to increase diagnostic accuracy in the diagnosis of AD is still undetermined. In this field, we propose a radiomics analysis on advanced imaging segmentation method Statistical Parametric Mapping (SPM)-based completed with a Machine-Learning (ML) application to predict the diagnosis of AD, also by comparing the results with following Amyloid-PET and final clinical diagnosis. Methods: From July 2016 to September 2017, 43 patients underwent PET/CT scans with FDG and Florbetaben brain PET/CT and at least 24 months of clinical/instrumental follow-up. Patients were retrospectively evaluated by a multidisciplinary team (MDT = Neurologist, Psychologist, Radiologist, Nuclear Medicine Physician, Laboratory Clinic) at the G. Giglio Institute in Cefalù, Italy. Starting from the cerebral segmentations applied by SPM on the main cortical macro-areas of each patient, Pyradiomics was used for the feature extraction process; subsequently, an innovative descriptive-inferential mixed sequential approach and a machine learning algorithm (i.e., discriminant analysis) were used to obtain the best diagnostic performance in prediction of amyloid deposition and the final diagnosis of AD. Results: A total of 11 radiomics features significantly predictive of cortical beta-amyloid deposition (n = 6) and AD (n = 5) were found. Among them, two higher-order features (original_glcm_Idmn and original_glcm_Id), extracted from the limbic enthorinal cortical area (ROI-1) in the FDG-PET/CT images, predicted the positivity of Amyloid-PET/CT scans with maximum values of sensitivity (SS), specificity (SP), precision (PR) and accuracy (AC) of 84.92%, 75.13%, 73.75%, and 79.56%, respectively. Conversely, for the prediction of the clinical-instrumental final diagnosis of AD, the best performance was obtained by two higher-order features (original_glcm_MCC and original_glcm_Maximum Probability) extracted from ROI-2 (frontal cortex) with a SS, SP, PR and AC of 75.16%, 80.50%, 77.68%, and 78.05%, respectively, and by one higher-order feature (original_glcm_Idmn) extracted from ROI-3 (medial Temporal cortex; SS = 80.88%, SP = 76.85%, PR = 75.63%, AC = 78.76%. Conclusions: The results obtained in this preliminary study support advanced segmentation of cortical areas typically involved in early AD on FDG PET/CT brain images, and radiomics analysis for the identification of specific high-order features to predict Amyloid deposition and final diagnosis of AD.
format Online
Article
Text
id pubmed-9030037
institution National Center for Biotechnology Information
language English
publishDate 2022
publisher MDPI
record_format MEDLINE/PubMed
spelling pubmed-90300372022-04-23 Radiomics Analysis of Brain [(18)F]FDG PET/CT to Predict Alzheimer’s Disease in Patients with Amyloid PET Positivity: A Preliminary Report on the Application of SPM Cortical Segmentation, Pyradiomics and Machine-Learning Analysis Alongi, Pierpaolo Laudicella, Riccardo Panasiti, Francesco Stefano, Alessandro Comelli, Albert Giaccone, Paolo Arnone, Annachiara Minutoli, Fabio Quartuccio, Natale Cupidi, Chiara Arnone, Gaspare Piccoli, Tommaso Grimaldi, Luigi Maria Edoardo Baldari, Sergio Russo, Giorgio Diagnostics (Basel) Article Background: Early in-vivo diagnosis of Alzheimer’s disease (AD) is crucial for accurate management of patients, in particular, to select subjects with mild cognitive impairment (MCI) that may evolve into AD, and to define other types of MCI non-AD patients. The application of artificial intelligence to functional brain [(18)F]fluorodeoxyglucose (FDG) positron emission tomography (PET)/computed tomography(CT) aiming to increase diagnostic accuracy in the diagnosis of AD is still undetermined. In this field, we propose a radiomics analysis on advanced imaging segmentation method Statistical Parametric Mapping (SPM)-based completed with a Machine-Learning (ML) application to predict the diagnosis of AD, also by comparing the results with following Amyloid-PET and final clinical diagnosis. Methods: From July 2016 to September 2017, 43 patients underwent PET/CT scans with FDG and Florbetaben brain PET/CT and at least 24 months of clinical/instrumental follow-up. Patients were retrospectively evaluated by a multidisciplinary team (MDT = Neurologist, Psychologist, Radiologist, Nuclear Medicine Physician, Laboratory Clinic) at the G. Giglio Institute in Cefalù, Italy. Starting from the cerebral segmentations applied by SPM on the main cortical macro-areas of each patient, Pyradiomics was used for the feature extraction process; subsequently, an innovative descriptive-inferential mixed sequential approach and a machine learning algorithm (i.e., discriminant analysis) were used to obtain the best diagnostic performance in prediction of amyloid deposition and the final diagnosis of AD. Results: A total of 11 radiomics features significantly predictive of cortical beta-amyloid deposition (n = 6) and AD (n = 5) were found. Among them, two higher-order features (original_glcm_Idmn and original_glcm_Id), extracted from the limbic enthorinal cortical area (ROI-1) in the FDG-PET/CT images, predicted the positivity of Amyloid-PET/CT scans with maximum values of sensitivity (SS), specificity (SP), precision (PR) and accuracy (AC) of 84.92%, 75.13%, 73.75%, and 79.56%, respectively. Conversely, for the prediction of the clinical-instrumental final diagnosis of AD, the best performance was obtained by two higher-order features (original_glcm_MCC and original_glcm_Maximum Probability) extracted from ROI-2 (frontal cortex) with a SS, SP, PR and AC of 75.16%, 80.50%, 77.68%, and 78.05%, respectively, and by one higher-order feature (original_glcm_Idmn) extracted from ROI-3 (medial Temporal cortex; SS = 80.88%, SP = 76.85%, PR = 75.63%, AC = 78.76%. Conclusions: The results obtained in this preliminary study support advanced segmentation of cortical areas typically involved in early AD on FDG PET/CT brain images, and radiomics analysis for the identification of specific high-order features to predict Amyloid deposition and final diagnosis of AD. MDPI 2022-04-08 /pmc/articles/PMC9030037/ /pubmed/35453981 http://dx.doi.org/10.3390/diagnostics12040933 Text en © 2022 by the authors. https://creativecommons.org/licenses/by/4.0/Licensee MDPI, Basel, Switzerland. This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution (CC BY) license (https://creativecommons.org/licenses/by/4.0/).
spellingShingle Article
Alongi, Pierpaolo
Laudicella, Riccardo
Panasiti, Francesco
Stefano, Alessandro
Comelli, Albert
Giaccone, Paolo
Arnone, Annachiara
Minutoli, Fabio
Quartuccio, Natale
Cupidi, Chiara
Arnone, Gaspare
Piccoli, Tommaso
Grimaldi, Luigi Maria Edoardo
Baldari, Sergio
Russo, Giorgio
Radiomics Analysis of Brain [(18)F]FDG PET/CT to Predict Alzheimer’s Disease in Patients with Amyloid PET Positivity: A Preliminary Report on the Application of SPM Cortical Segmentation, Pyradiomics and Machine-Learning Analysis
title Radiomics Analysis of Brain [(18)F]FDG PET/CT to Predict Alzheimer’s Disease in Patients with Amyloid PET Positivity: A Preliminary Report on the Application of SPM Cortical Segmentation, Pyradiomics and Machine-Learning Analysis
title_full Radiomics Analysis of Brain [(18)F]FDG PET/CT to Predict Alzheimer’s Disease in Patients with Amyloid PET Positivity: A Preliminary Report on the Application of SPM Cortical Segmentation, Pyradiomics and Machine-Learning Analysis
title_fullStr Radiomics Analysis of Brain [(18)F]FDG PET/CT to Predict Alzheimer’s Disease in Patients with Amyloid PET Positivity: A Preliminary Report on the Application of SPM Cortical Segmentation, Pyradiomics and Machine-Learning Analysis
title_full_unstemmed Radiomics Analysis of Brain [(18)F]FDG PET/CT to Predict Alzheimer’s Disease in Patients with Amyloid PET Positivity: A Preliminary Report on the Application of SPM Cortical Segmentation, Pyradiomics and Machine-Learning Analysis
title_short Radiomics Analysis of Brain [(18)F]FDG PET/CT to Predict Alzheimer’s Disease in Patients with Amyloid PET Positivity: A Preliminary Report on the Application of SPM Cortical Segmentation, Pyradiomics and Machine-Learning Analysis
title_sort radiomics analysis of brain [(18)f]fdg pet/ct to predict alzheimer’s disease in patients with amyloid pet positivity: a preliminary report on the application of spm cortical segmentation, pyradiomics and machine-learning analysis
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9030037/
https://www.ncbi.nlm.nih.gov/pubmed/35453981
http://dx.doi.org/10.3390/diagnostics12040933
work_keys_str_mv AT alongipierpaolo radiomicsanalysisofbrain18ffdgpetcttopredictalzheimersdiseaseinpatientswithamyloidpetpositivityapreliminaryreportontheapplicationofspmcorticalsegmentationpyradiomicsandmachinelearninganalysis
AT laudicellariccardo radiomicsanalysisofbrain18ffdgpetcttopredictalzheimersdiseaseinpatientswithamyloidpetpositivityapreliminaryreportontheapplicationofspmcorticalsegmentationpyradiomicsandmachinelearninganalysis
AT panasitifrancesco radiomicsanalysisofbrain18ffdgpetcttopredictalzheimersdiseaseinpatientswithamyloidpetpositivityapreliminaryreportontheapplicationofspmcorticalsegmentationpyradiomicsandmachinelearninganalysis
AT stefanoalessandro radiomicsanalysisofbrain18ffdgpetcttopredictalzheimersdiseaseinpatientswithamyloidpetpositivityapreliminaryreportontheapplicationofspmcorticalsegmentationpyradiomicsandmachinelearninganalysis
AT comellialbert radiomicsanalysisofbrain18ffdgpetcttopredictalzheimersdiseaseinpatientswithamyloidpetpositivityapreliminaryreportontheapplicationofspmcorticalsegmentationpyradiomicsandmachinelearninganalysis
AT giacconepaolo radiomicsanalysisofbrain18ffdgpetcttopredictalzheimersdiseaseinpatientswithamyloidpetpositivityapreliminaryreportontheapplicationofspmcorticalsegmentationpyradiomicsandmachinelearninganalysis
AT arnoneannachiara radiomicsanalysisofbrain18ffdgpetcttopredictalzheimersdiseaseinpatientswithamyloidpetpositivityapreliminaryreportontheapplicationofspmcorticalsegmentationpyradiomicsandmachinelearninganalysis
AT minutolifabio radiomicsanalysisofbrain18ffdgpetcttopredictalzheimersdiseaseinpatientswithamyloidpetpositivityapreliminaryreportontheapplicationofspmcorticalsegmentationpyradiomicsandmachinelearninganalysis
AT quartuccionatale radiomicsanalysisofbrain18ffdgpetcttopredictalzheimersdiseaseinpatientswithamyloidpetpositivityapreliminaryreportontheapplicationofspmcorticalsegmentationpyradiomicsandmachinelearninganalysis
AT cupidichiara radiomicsanalysisofbrain18ffdgpetcttopredictalzheimersdiseaseinpatientswithamyloidpetpositivityapreliminaryreportontheapplicationofspmcorticalsegmentationpyradiomicsandmachinelearninganalysis
AT arnonegaspare radiomicsanalysisofbrain18ffdgpetcttopredictalzheimersdiseaseinpatientswithamyloidpetpositivityapreliminaryreportontheapplicationofspmcorticalsegmentationpyradiomicsandmachinelearninganalysis
AT piccolitommaso radiomicsanalysisofbrain18ffdgpetcttopredictalzheimersdiseaseinpatientswithamyloidpetpositivityapreliminaryreportontheapplicationofspmcorticalsegmentationpyradiomicsandmachinelearninganalysis
AT grimaldiluigimariaedoardo radiomicsanalysisofbrain18ffdgpetcttopredictalzheimersdiseaseinpatientswithamyloidpetpositivityapreliminaryreportontheapplicationofspmcorticalsegmentationpyradiomicsandmachinelearninganalysis
AT baldarisergio radiomicsanalysisofbrain18ffdgpetcttopredictalzheimersdiseaseinpatientswithamyloidpetpositivityapreliminaryreportontheapplicationofspmcorticalsegmentationpyradiomicsandmachinelearninganalysis
AT russogiorgio radiomicsanalysisofbrain18ffdgpetcttopredictalzheimersdiseaseinpatientswithamyloidpetpositivityapreliminaryreportontheapplicationofspmcorticalsegmentationpyradiomicsandmachinelearninganalysis

Ejemplares similares