Clinical applications of diffusion magnetic resonance imaging of the lumbar foraminal nerve root entrapment

Eguchi, Yawara; Ohtori, Seiji; Yamashita, Masaomi; Yamauchi, Kazuyo; Suzuki, Mitsuaki; Orita, Sumihisa; Kamoda, Hiroto; Arai, Gen; Ishikawa, Tetsuhiro; Miyagi, Masayuki; Ochiai, Nobuyasu; Kishida, Shunji; Masuda, Yoshitada; Ochi, Shigehiro; Kikawa, Takashi; Takaso, Masashi; Aoki, Yasuchika; Toyone, Tomoaki; Suzuki, Takane; Takahashi, Kazuhisa

doi:10.1007/s00586-010-1520-9

Cited by 56 publications

(57 citation statements)

References 35 publications

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“…MR neurography by using DWI can clearly show lumbar nerve roots, and the mean ADC in nerve root entrapment with foraminal stenosis is higher than in intact nerve roots in approximately a 10-minute scan time by using MR imaging at 1.5 T. 20 The ADC map is limited because the tissue contrast between nerves and surrounding tissues is poor. 15 In this study, we have shown that DTI can clearly show tractograms of lumbar nerve roots and determine FA values of the nerve roots in patients and healthy volunteers in approximately a 5-minute scan time by using MR imaging at 3T.…”

Section: Discussionmentioning

confidence: 99%

“…[15][16][17][18] Imaging of the spinal cord is challenging because of technical limitations such as the relatively small size of the cord, susceptibility artifacts because of tissue-bone interfaces, and the motion artifacts arising from respiratory activity. 19 Although we reported previously that DWI of lumbar nerves by using 1.5T MR imaging could visualize and quantitatively evaluate lumbar nerve entrapment with foraminal stenosis, 20 to date, quantitative DTI has not been applied to evaluate the pathology of lumbar nerve root entrapment. Nerve root entrapment may contribute to radicular symptoms in patients with lumbar foraminal stenosis.…”

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confidence: 99%

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Quantitative Evaluation and Visualization of Lumbar Foraminal Nerve Root Entrapment by Using Diffusion Tensor Imaging: Preliminary Results

Eguchi¹,

Ohtori²,

Orita³

et al. 2011

AJNR Am J Neuroradiol

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Section: Discussionmentioning

confidence: 99%

mentioning

confidence: 99%

Quantitative Evaluation and Visualization of Lumbar Foraminal Nerve Root Entrapment by Using Diffusion Tensor Imaging: Preliminary Results

Eguchi¹,

Ohtori²,

Orita³

et al. 2011

AJNR Am J Neuroradiol

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“…Mean apparent diffusion coefficient values are higher in compressed spinal nerve roots compared with intact nerve roots. 22 This suggests demyelination and edema (restrictive diffusion). 22 The DWI technique promises a noninvasive diagnostic assessment of early changes associated with degenerative compression of spinal nerves.…”

Section: Discussionmentioning

confidence: 99%

“…22 This suggests demyelination and edema (restrictive diffusion). 22 The DWI technique promises a noninvasive diagnostic assessment of early changes associated with degenerative compression of spinal nerves. 23 Our patient presented with acute low back pain, and the diagnosis was CLDCS.…”

Section: Discussionmentioning

confidence: 99%

Redundant Nerve Root in a Patient With Chronic Lumbar Degenerative Canal Stenosis

Villafañe

Harvey

Kettner

2017

Journal of Chiropractic Medicine

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Objective: The purpose of this case report is to describe the diagnostic imaging features of redundant nerve roots caused by chronic lumbar degenerative canal stenosis (CLDCS). Clinical Features: A 56-year-old male presented with severe low back pain. He experienced pain during minimal active lumbar range of motion. The patient demonstrated weakness of the right iliopsoas and hypoesthesia of the L-2 dermatome. A working diagnosis of CLDCS was established. The patient's worsening severe low back pain warranted magnetic resonance imaging of the lumbar spine, which was performed for further evaluation. Magnetic resonance imaging demonstrated disk protrusion and canal stenosis with tortuosity of the cauda equina consistent with redundant nerve root appearance. Intervention and Outcome: The patient was treated with chiropractic flexion distraction, which was followed by a course of acupuncture and spinal manipulation. The patient self-discharged following clinical improvement. Conclusions: This case demonstrated CLDCS with associated redundant nerve roots. Conservative treatment included chiropractic diversified lumbar spinal manipulation, acupuncture, and electrical stimulation. The patient selfdischarged following clinical improvement in 3 months. (J Chiropr Med 2017;16:236-241)

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“…For this aim, it is necessary to include in the acquisition a low b value, usually ranging between 0 to 50 s/mm 2 . ADC may help to confirm and quantify the presence of edema in PN trauma or compression (11) and characterize tumoral lesions (12). DWN allows an accurate anatomical representation of PN by means of a fast and easy post process.…”

Section: Dwi Neurographymentioning

confidence: 99%

Quantitative magnetic resonance (MR) neurography for evaluation of peripheral nerves and plexus injuries

Noguerol¹,

Barousse²,

Socolovsky

et al. 2017

Quant. Imaging Med. Surg.

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Traumatic conditions of peripheral nerves and plexus have been classically evaluated by morphological imaging techniques and electrophysiological tests. New magnetic resonance imaging (MRI) studies based on 3D fat-suppressed techniques are providing high accuracy for peripheral nerve injury evaluation from a qualitative point of view. However, these techniques do not provide quantitative information. Diffusion weighted imaging (DWI) and diffusion tensor imaging (DTI) are functional MRI techniques that are able to evaluate and quantify the movement of water molecules within different biological structures. These techniques have been successfully applied in other anatomical areas, especially in the assessment of central nervous system, and now are being imported, with promising results for peripheral nerve and plexus evaluation. DWI and DTI allow performing a qualitative and quantitative peripheral nerve analysis, providing valuable pathophysiological information about functional integrity of these structures.In the field of trauma and peripheral nerve or plexus injury, several derived parameters from DWI and DTI studies such as apparent diffusion coefficient (ADC) or fractional anisotropy (FA) among others, can be used as potential biomarkers of neural damage providing information about fiber organization, axonal flow or myelin integrity. A proper knowledge of physical basis of these techniques and their limitations is important for an optimal interpretation of the imaging findings and derived data. In this paper, a comprehensive review of the potential applications of DWI and DTI neurographic studies is performed with a focus on traumatic conditions, including main nerve entrapment syndromes in both peripheral nerves and brachial or lumbar plexus.

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Clinical applications of diffusion magnetic resonance imaging of the lumbar foraminal nerve root entrapment

Cited by 56 publications

References 35 publications

Quantitative Evaluation and Visualization of Lumbar Foraminal Nerve Root Entrapment by Using Diffusion Tensor Imaging: Preliminary Results

Quantitative Evaluation and Visualization of Lumbar Foraminal Nerve Root Entrapment by Using Diffusion Tensor Imaging: Preliminary Results

Redundant Nerve Root in a Patient With Chronic Lumbar Degenerative Canal Stenosis

Quantitative magnetic resonance (MR) neurography for evaluation of peripheral nerves and plexus injuries

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