Published in:
01-07-2018 | Original Article
Clinical utility of FDG-PET in amyotrophic lateral sclerosis and Huntington’s disease
Authors:
Federica Agosta, Daniele Altomare, Cristina Festari, Stefania Orini, Federica Gandolfo, Marina Boccardi, Javier Arbizu, Femke Bouwman, Alexander Drzezga, Peter Nestor, Flavio Nobili, Zuzana Walker, Marco Pagani, for the EANM-EAN Task Force for the Prescription of FDG-PET for Dementing Neurodegenerative Disorders
Published in:
European Journal of Nuclear Medicine and Molecular Imaging
|
Issue 9/2018
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Abstract
Aim
To evaluate the incremental value of FDG-PET over clinical tests in: (i) diagnosis of amyotrophic lateral sclerosis (ALS); (ii) picking early signs of neurodegeneration in patients with a genetic risk of Huntington’s disease (HD); and detecting metabolic changes related to cognitive impairment in (iii) ALS and (iv) HD patients.
Methods
Four comprehensive literature searches were conducted using the PICO model to extract evidence from relevant studies. An expert panel then voted using the Delphi method on these four diagnostic scenarios.
Results
The availability of evidence was good for FDG-PET utility to support the diagnosis of ALS, poor for identifying presymptomatic subjects carrying HD mutation who will convert to HD, and lacking for identifying cognitive-related metabolic changes in both ALS and HD. After the Delphi consensual procedure, the panel did not support the clinical use of FDG-PET for any of the four scenarios.
Conclusion
Relative to other neurodegenerative diseases, the clinical use of FDG-PET in ALS and HD is still in its infancy. Once validated by disease-control studies, FDG-PET might represent a potentially useful biomarker for ALS diagnosis. FDG-PET is presently not justified as a routine investigation to predict conversion to HD, nor to detect evidence of brain dysfunction justifying cognitive decline in ALS and HD.