Imaging central nervous system myelin by positron emission tomography in multiple sclerosis using [methyl-11C]-2-(4′-methylaminophenyl)- 6-hydroxybenzothiazole

Objective: Imaging of myelin tracts in vivo would greatly improve the monitoring of demyelinating diseases such as multiple sclerosis (MS). To date, no imaging technique specifically targets demyelination and remyelination. Recently, amyloid markers related to Congo red have been shown to bind to ce...

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Bibliographic Details
Published in:Annals of neurology 2011-04, Vol.69 (4), p.673-680
Main Authors: Stankoff, Bruno, Freeman, Leorah, Aigrot, Marie-Stéphane, Chardain, Audrey, Dollé, Frédéric, Williams, Anna, Galanaud, Damien, Armand, Lucie, Lehericy, Stéphane, Lubetzki, Catherine, Zalc, Bernard, Bottlaender, Michel
Format: Article
Language:English
Subjects:
Aniline Compounds
Animals
Benzothiazoles
Brain - diagnostic imaging
Brain - physiopathology
Cadaver
Carbon Radioisotopes
Computer Science
Demyelinating Diseases - diagnostic imaging
Humans
Magnetic Resonance Imaging
Medical Imaging
Medical research
Mice
Mice, Inbred C57BL
Mice, Inbred Strains
Multiple sclerosis
Multiple Sclerosis - diagnostic imaging
Multiple Sclerosis - physiopathology
Nerve Regeneration
Papio
Papio anubis
Positron-Emission Tomography - methods
Thiazoles
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Summary:Objective: Imaging of myelin tracts in vivo would greatly improve the monitoring of demyelinating diseases such as multiple sclerosis (MS). To date, no imaging technique specifically targets demyelination and remyelination. Recently, amyloid markers related to Congo red have been shown to bind to central nervous system (CNS) myelin. Here we questioned whether the thioflavine‐T derivative 2‐(4′‐methylaminophenyl)‐6‐hydroxybenzothiazole (PIB), which also binds to amyloid plaques, could serve as a myelin marker. Methods: PIB fixation to myelin was studied by fluorescence in the normal and dysmyelinating mouse brain, as well as in the postmortem brain of MS patients. Positron emission tomography (PET) experiments were conducted using [11C]PIB in baboons and in a proof of concept clinical study in 2 MS patients. Results: Applied directly on tissue sections or after intraperitoneal injection, PIB stained CNS myelin, and the decrease in the level of fixation paralleled the amount of myelin loss in a dysmyelinating mutant. In normally myelinated areas of postmortem MS brain, demyelinated and remyelinated lesions were clearly distinguishable by the differential intensity of labeling observed with PIB. PET using intravenously injected radiolabeled [11C]PIB imaged CNS myelin in baboons and humans. In MS patients, the dynamic analysis of PET acquisitions allowed quantitative assessment of demyelination. Interpretation: PIB could be used as an imaging marker to quantify myelin loss and repair in demyelinating diseases. Ann Neurol 2011;
ISSN:0364-5134
1531-8249
DOI:10.1002/ana.22320