Accurate Diagnosis of Multiple Sclerosis Using PET/MR

Multiple sclerosis (MS) is an immune-mediated chronic inflammatory demyelinating disease of the central nervous system. Its main feature is progressive demyelination, which ultimately leads to axon damage and neuron loss. MR is the main imaging technique in the current diagnostic criteria of MS. The conventional MR sequence recommended in this diagnostic criteria has high sensitivity for detecting demyelination and axon damage, but has poor specificity, which makes disease modification therapy (DMT) blind, and it is also difficult to accurately determine the long-term prognosis.

PET is a non-invasive molecular imaging technology that can quantitatively monitor physiological or pathological processes in vivo. 18F-labeled thioflavin derivative probe (18F-florbetapir) can bind to myelin basic protein in the white matter, providing quantitative assessment of myelin content. Our preliminary studies have confirmed that the uptake of 18F-florbetapir in MS lesions is significantly related to the myelin content measured by histological staining. Therefore, 18F-florbetapir PET may be a very effective myelin imaging technology.

Advanced MR sequence such as magnetic resonance spectroscopy (MRS) can evaluate axonal damage by analyzing neuronal activity marker N-acetyl aspartate (NAA). The new whole-brain fast 3D MRS sequence breaks through the bottleneck of low signal-to-noise ratio and spatial resolution of the current MRS sequence, and provides a reliable method for obtaining neuronal activity markers in the three-dimensional space of MS sporadic lesions in the whole brain.

Integrated PET/MR makes PET detector implant in the MR magnet, which realizes the simultaneous acquisition of PET and MR in one scan, ensuring the high consistency of the two modes. This makes it possible to simultaneously analyze PET and MRS quantitative parameters in multiple and different sizes of MS lesions, that is, to obtain two different pathological features of demyelination and neuronal damage. Separating these two pathological changes will help to more accurately and quantitatively evaluate the efficacy of DMT, program selection and prognostic judgment.

This project intends to recruit 30 MS patients between 18-65 years old, and 30 healthy volunteers with matched age and sex as normal controls. PET/MR imaging, serological examination and cerebrospinal fluid testing and scale evaluation will be performed. The aim of this project is to planned to establish a new imaging evaluation technology for accurate diagnosis and prognosis evaluation of MS.