Sciatic neuropathy: findings on magnetic resonance neurography

Abstract Injuries of the sciatic nerve are common causes of pain and limitation in the lower limbs. Due to its particular anatomy and its long course, the sciatic nerve is often involved in diseases of the pelvis or leg. In recent years, magnetic resonance neurography has become established as an important tool for the study of peripheral nerves and can be widely applied to the study of the sciatic nerve. Therefore, detailed knowledge of its anatomy and of the most prevalent diseases affecting it is essential to maximizing the accuracy of diagnostic imaging.

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Faculty Opinions recommendation of Magnetic resonance neurography and diffusion tensor imaging of the peripheral nerves in patients with Charcot-Marie-Tooth Type 1A.

Faculty Opinions – Post-Publication Peer Review of the Biomedical Literature ◽

10.3410/f.727611887.793566457 ◽

2019 ◽

Author(s):

Jun Li

Keyword(s):

Diffusion Tensor Imaging ◽

Magnetic Resonance ◽

Peripheral Nerves ◽

Diffusion Tensor ◽

Magnetic Resonance Neurography ◽

Charcot Marie Tooth ◽

Tooth Type ◽

And Diffusion

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Top-10 Tips for Getting Started with Magnetic Resonance Neurography

Seminars in Musculoskeletal Radiology ◽

10.1055/s-0039-1677727 ◽

2019 ◽

Vol 23 (04) ◽

pp. 347-360

Author(s):

Majid Chalian ◽

Avneesh Chhabra

Keyword(s):

Clinical Practice ◽

Magnetic Resonance ◽

Patient Selection ◽

Peripheral Nerves ◽

Imaging Technique ◽

Routine Clinical Practice ◽

Mr Neurography ◽

Magnetic Resonance Neurography ◽

Technical Cost ◽

Imaging Pitfalls

AbstractMagnetic resonance neurography (MRN), also known as MR neurography, is a dedicated imaging technique for the peripheral nerves, used both in a clinical setting and research. However, like any other new diagnostic processes, there are technical, cost, and patient selection issues to overcome as well as potential imaging pitfalls to recognize before MRN can be adopted efficiently into routine clinical practice. This review focuses on the 10 most important practical tips to get started with MRN with a view to shortening the time needed for radiologists to implement this clinically useful technique into their imaging practices.

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Morphological correlates of oxaliplatin induced peripheral neuropathy assessed by magnetic resonance neurography.

Journal of Clinical Oncology ◽

10.1200/jco.2017.35.15_suppl.10092 ◽

2017 ◽

Vol 35 (15_suppl) ◽

pp. 10092-10092

Author(s):

Leonidas Apostolidis ◽

Daniel Schwarz ◽

Annie Xia ◽

Markus Weiler ◽

Sabine Heiland ◽

...

Keyword(s):

Peripheral Neuropathy ◽

Magnetic Resonance ◽

Sciatic Nerve ◽

Qualitative Evaluation ◽

Magnetic Resonance Neurography ◽

Imaging Protocol ◽

Morphological Alterations ◽

Patient Reported ◽

Neuroprotective Strategies

10092 Background: Oxaliplatin induced peripheral neuropathy (OXA-PNP) is a frequent side effect of oxaliplatin containing chemotherapy protocols. It is commonly assessed clinically via physical examination and patient reported symptoms. Research has been impeded by the lack of objective tests to quantify OXA-PNP. Neurophysiological examination is time-consuming and can only cover a selected part of the examined nerve. The aim of this study was to investigate in-vivo morphological correlates of OXA-PNP by magnetic resonance neurography (MRN). Methods: 20 patients with mild to moderate OXA-PNP and 20 matched controls were prospectively enrolled. All patients underwent a detailed neurophysiology examination prior to neuroimaging. A standardized MRN imaging protocol at 3.0 Tesla with large-coverage included the lumbosacral plexus, as well as both sciatic nerves and their branches using T2-weighted fat-saturated sequences at high resolution. Qualitative evaluation of sciatic, tibial, and peroneal nerves were performed by two readers regarding the presence, degree, and distribution of nerve lesions. Quantitative assessment included volumetry of the dorsal root ganglia (DRG) and sciatic nerve normalized T2 (nT2) signal and caliber. Results: Significant DRG hypertrophy in OXA-PNP patients (207.3±47.7mm3 vs. 153.0±47.1mm3 in controls, p = 0.001) was found as morphological correlate of the sensory neuronopathy. Peripheral nerves only exhibited slight morphological alterations qualitatively. Quantitatively, sciatic nerve caliber was unchanged (26.0±5.1mm2 vs. 27.4±7.4mm2, p = 0.19) while sciatic nerve nT2 signal was slightly and non-significantly elevated in patients (1.32±0.22 vs. 1.22±0.26, p = 0.19). Conclusions: OXA-PNP leads to morphological correlates that can be detected in-vivo by MRN. Significant hypertrophy of the DRG was observed, a phenomenon which has not been described in OXA-PNP previously. DRG volume should be investigated as a biomarker in other sensory peripheral neuropathies and ganglionopathies as well as in studies evaluating neuroprotective strategies for OXA-PNP.

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Workup and Management of Persistent Neuralgia following Nerve Block

Case Reports in Anesthesiology ◽

10.1155/2016/9863492 ◽

2016 ◽

Vol 2016 ◽

pp. 1-6

Author(s):

Paul David Weyker ◽

Christopher Allen-John Webb ◽

Thoha M. Pham

Keyword(s):

Magnetic Resonance ◽

Sciatic Nerve ◽

Nerve Block ◽

Magnetic Resonance Neurography ◽

Nerve Blocks ◽

Duration Of Symptoms ◽

Peripheral Nerve Blocks ◽

Nonopioid Analgesics ◽

Sciatic Nerves ◽

Neurological Injuries

Neurological injuries following peripheral nerve blocks are a relatively rare yet potentially devastating complication depending on the type of lesion, affected extremity, and duration of symptoms. Medical management continues to be the treatment modality of choice with multimodal nonopioid analgesics as the cornerstone of this therapy. We report the case of a 28-year-old man who developed a clinical common peroneal and lateral sural cutaneous neuropathy following an uncomplicated popliteal sciatic nerve block. Workup with electrodiagnostic studies and magnetic resonance neurography revealed injury to both the femoral and sciatic nerves. Diagnostic studies and potential mechanisms for nerve injury are discussed.

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Diffusion Tensor Imaging of the Sciatic Nerve as a Surrogate Marker for Nerve Functionality of the Upper and Lower Limb in Patients With Diabetes and Prediabetes

Frontiers in Neuroscience ◽

10.3389/fnins.2021.642589 ◽

2021 ◽

Vol 15 ◽

Author(s):

Johann M. E. Jende ◽

Zoltan Kender ◽

Christoph Mooshage ◽

Jan B. Groener ◽

Lucia Alvarez-Ramos ◽

...

Keyword(s):

Sciatic Nerve ◽

Lower Limb ◽

Peroneal Nerve ◽

Diffusion Tensor ◽

Surrogate Marker ◽

Nerve Damage ◽

Lower Limbs ◽

Magnetic Resonance Neurography ◽

Cross Sectional ◽

Patients With Diabetes

BackgroundNerve damage in diabetic neuropathy (DN) is assumed to begin in the distal legs with a subsequent progression to hands and arms at later stages. In contrast, recent studies have found that lower limb nerve lesions in DN predominate at the proximal sciatic nerve and that, in the upper limb, nerve functions can be impaired at early stages of DN.Materials and MethodsIn this prospective, single-center cross-sectional study, participants underwent diffusion-weighted 3 Tesla magnetic resonance neurography in order to calculate the sciatic nerve’s fractional anisotropy (FA), a surrogate parameter for structural nerve integrity. Results were correlated with clinical and electrophysiological assessments of the lower limb and an examination of hand function derived from the Purdue Pegboard Test.ResultsOverall, 71 patients with diabetes, 11 patients with prediabetes and 25 age-matched control subjects took part in this study. In patients with diabetes, the sciatic nerve’s FA showed positive correlations with tibial and peroneal nerve conduction velocities (r = 0.62; p < 0.001 and r = 0.56; p < 0.001, respectively), and tibial and peroneal nerve compound motor action potentials (r = 0.62; p < 0.001 and r = 0.63; p < 0.001, respectively). Moreover, the sciatic nerve’s FA was correlated with the Pegboard Test results in patients with diabetes (r = 0.52; p < 0.001), prediabetes (r = 0.76; p < 0.001) and in controls (r = 0.79; p = 0.007).ConclusionThis study is the first to show that the sciatic nerve’s FA is a surrogate marker for functional and electrophysiological parameters of both upper and lower limbs in patients with diabetes and prediabetes, suggesting that nerve damage in these patients is not restricted to the level of the symptomatic limbs but rather affects the entire peripheral nervous system.

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