Abstract
Magnetic resonance imaging (MRI) has been used extensively in revealing pathological changes in the central nervous system. However, to date, MRI is very much underutilized in evaluating the peripheral nervous system (PNS). This underutilization is generally due to two perceived weaknesses in MRI: first, the need for very high resolution to image the small structures within the peripheral nerves to visualize morphological changes; second, the lack of normative data in MRI of the PNS and this makes reliable interpretation of the data difficult. This article reviews current state-of-the-art capabilities in in vivo MRI of human peripheral nerves. It aims to identify areas where progress has been made and those that still require further improvement. In particular, with many new therapies on the horizon, this review addresses how MRI can be used to provide non-invasive and objective biomarkers in the evaluation of peripheral neuropathies. Although a number of techniques are available in diagnosing and tracking pathologies in the PNS, those techniques typically target the distal peripheral nerves, and distal nerves may be completely degenerated during the patient’s first clinic visit. These techniques may also not be able to access the proximal nerves deeply embedded in the tissue. Peripheral nerve MRI would be an alternative to circumvent these problems. In order to address the pressing clinical needs, this review closes with a clinical protocol at 3T that will allow high-resolution, high-contrast, quantitative MRI of the proximal peripheral nerves.
Highlights
The peripheral nervous system In order to execute commands from the central nervous system (CNS), humans need the peripheral nervous system (PNS) to provide a communication route from their “external devices” such as sensory organs or muscles to the brain
magnetization transfer ratio (MTR) decreases significantly related to disability scores
Various Magnetic resonance imaging (MRI) methods have been investigated in peripheral neuropathies (Table 1)
Summary
The peripheral nervous system In order to execute commands from the central nervous system (CNS) (consisting of the brain and spinal cord), humans need the peripheral nervous system (PNS) to provide a communication route from their “external devices” such as sensory organs or muscles to the brain. Many MRI tissue properties, such as proton density (PD), longitudinal (T1) and transverse (T2) relaxations, susceptibilities, and magnetization transfer (MT), have been well established for human brain imaging in vivo. These quantitative measurements have improved MRI image contrast between healthy and pathologic tissues. These MRI properties offer better visualization of the processes during inflammation, infarction, demyelination, and axonal degeneration[18] but these quantitative imaging modalities have not yet been well tested in the peripheral nerves. LS plexus, arm, and leg SN at mid thigh and TN at mid calf Muscle and SN at mid thigh
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