Coronal MR Imaging of the Normal 3rd, 4th, and 5th Lumbar and 1st Sacral Nerve Roots

The authors describe a unique case of a choroid plexus papilloma of the sacral nerve roots. This 60-year-old woman was admitted to the hospital because of a 1-year history of sacral pain, rectal and urinary bladder retention, and paradoxical episodic incontinence. Physical examination revealed sensory abnormalities in the S-2 dermatomes and poor rectal and bladder sphincter contractions. Contrast-enhanced spinal MR imaging showed a well-circumscribed, ovoid, homogeneously enhancing mass at the S1–2 level suggesting a diagnosis of ependymoma or schwannoma, and surgery allowed the identification and complete removal of a soft gray mass intimately adhering to the sacral nerve roots. Histological examination revealed a tumor consisting of papillary structures lined by a single layer of columnar cells, with an immunophenotype that satisfied the diagnostic criteria of choroid plexus papilloma. After diagnosis, contrast-enhanced brain MR imaging excluded the presence of a primary choroid plexus papilloma in the cerebral ventricles, thus ruling out a drop metastasis along the CSF pathways. A review of the literature did not reveal any similar cases of choroid plexus papilloma, and so the authors also discuss the inclusion of primary or metastatic papillary tumors in this unusual location as part of the differential diagnosis.

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Coronal MR Imaging of the Normal 3rd 4th and 5th Lumbar and 1st Sacral Nerve Roots

Acta Radiologica ◽

10.1177/028418519103200305 ◽

1991 ◽

Vol 32 (3) ◽

pp. 210-213

Author(s):

J. K. Hald ◽

P. H. Nakstad ◽

B. E. Hauglum

Keyword(s):

Mr Imaging ◽

Nerve Roots ◽

Sacral Nerve

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Gravity determines the direction of nerve roots sedimentation in the lumbar spinal canal

BMC Musculoskeletal Disorders ◽

10.1186/s12891-021-04032-y ◽

2021 ◽

Vol 22 (1) ◽

Author(s):

Jun Yang ◽

Zhiyun Feng ◽

Nian Chen ◽

Zhenhua Hong ◽

Yongyu Zheng ◽

...

Keyword(s):

Lumbar Spine ◽

Mr Imaging ◽

Spinal Canal ◽

Ventral Side ◽

Lateral Position ◽

Dorsal Side ◽

Mr Images ◽

Nerve Roots ◽

Cross Sectional ◽

Dural Sac

Abstract Objectives To investigate the role of gravity in the sedimentation of lumbar spine nerve roots using magnetic resonance (MR) imaging of various body positions. Methods A total of 56 patients, who suffered from back pain and underwent conventional supine lumbar spine MR imaging, were selected from sanmen hospital database. All the patients were called back to our hospital to perform MR imaging in prone position or lateral position. Furthermore, the sedimentation sign (SedSign) was determined based on the suspension of the nerve roots in the dural sac on cross-sectional MR images, and 31 cases were rated as positive and another 25 cases were negative. Results The mean age of negative SedSign group was significantly younger than that of positive SedSign group (51.7 ± 8.7 vs 68.4 ± 10.5, P < 0.05). The constitutions of clinical diagnosis were significantly different between patients with a positive SedSign and those with a negative SedSign (P < 0.001). Overall, nerve roots of the vast majority of patients (48/56, 85.7%) subsided to the ventral side of the dural sac on the prone MR images, although that of 8 (14.3%) patients remain stay in the dorsal side of dural sac. Nerve roots of only one patient with negative SedSign did not settle to the ventral dural sac, while this phenomenon occurred in 7 patients in positive SedSign group (4% vs 22.6%, P < 0.001). In addition, the nerve roots of all the five patients subsided to the left side of dural sac on lateral position MR images. Conclusions The nerve roots sedimentation followed the direction of gravity. Positive SedSign may be a MR sign of lumbar pathology involved the spinal canal.

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First in Literature Intraneuronal Sacral Nerve Stimulation for Fecal Incontinence After Robotic-Assisted En-Bloc Sacrectomy with Transection of Nerve Roots

World Neurosurgery ◽

10.1016/j.wneu.2019.12.173 ◽

2020 ◽

Vol 136 ◽

pp. 208-212 ◽

Cited By ~ 1

Author(s):

Nathaniel Melling ◽

Pasquale Scognamiglio ◽

Sven Teller ◽

Jakob Robert Izbicki ◽

Marc Dreimann ◽

...

Keyword(s):

Fecal Incontinence ◽

Nerve Stimulation ◽

Sacral Nerve Stimulation ◽

Nerve Roots ◽

En Bloc ◽

Robotic Assisted ◽

Sacral Nerve

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The Relation of Sacral Nerve Roots to the Piriformis Muscle

Journal of Minimally Invasive Gynecology ◽

10.1016/j.jmig.2018.09.179 ◽

2018 ◽

Vol 25 (7) ◽

pp. S88

Author(s):

A.L. Li ◽

L. Cancelliere ◽

I. Marcu ◽

G.L. Fernandes ◽

C. Sermer ◽

...

Keyword(s):

Piriformis Muscle ◽

Nerve Roots ◽

Sacral Nerve

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Measurements and mapping of 282,420 nerve fibers in the S1–5 nerve roots

Journal of Neurosurgery Spine ◽

10.3171/2009.3.spine17684 ◽

2009 ◽

Vol 11 (3) ◽

pp. 255-263 ◽

Cited By ~ 16

Author(s):

Erik F. Hauck ◽

Markus Schwefer ◽

Werner Wittkowski ◽

Hans W. Bothe

Keyword(s):

Nerve Fiber ◽

Cross Sections ◽

Fiber Diameter ◽

Inverse Correlation ◽

Nerve Fibers ◽

Fiber Types ◽

Nerve Roots ◽

Sacral Nerve ◽

Dorsal Roots ◽

Fiber Stimulation

Object The study aims to analyze nerve fiber types in the sacral nerve roots as a prerequisite for stimulation. Methods One-micrometer cross-sections of human ventral and dorsal S1–5 roots were stained with osmium and toluidine blue. The total fiber diameter and myelin sheath were measured in 282,420 nerve fibers. Results The analysis revealed the following 3 main nerve fiber types: Aα fibers (diameter 6–14 μm), Aγ fibers (diameter 2–4 μm), and B fibers (diameter < 2 μm). The B fibers were absent in S-1, present in some S-2 fascicles, and abundant from S-3 to S-5. The Aα fibers dominated the S-1 roots and most fascicles of S-2 roots. In the S3–5 roots, only a few Aα fibers were present. The relative occurrence of Aγ fibers increased from S-1 to S-5. In dorsal roots, Aγ fibers represented ~ 70% of all nerve fibers in every root and fascicle. Conclusions The B fibers represented efferent parasympathetic fibers. These fibers were concentrated in certain areas of the nerve roots, not randomly distributed. The Aα fibers innervate lower-extremity muscles and sphincters. The inverse correlation of Aα and Aγ fibers in the ventral roots from S-1 to S-5 is surprising. In dorsal roots, Aγ fibers may conduct pain, touch, and temperature signals. Highly selective fiber stimulation specific for type, location, and direction may improve sacral nerve stimulation for a spastic bladder in paraplegic individuals.

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Does magnetic stimulation of sacral nerve roots cause contraction or suppression of the bladder?

Neurourology and Urodynamics ◽

10.1002/nau.20009 ◽

2004 ◽

Vol 23 (3) ◽

pp. 241-245 ◽

Cited By ~ 18

Author(s):

J.A. Bycroft ◽

M.D. Craggs ◽

M. Sheriff ◽

S. Knight ◽

P.J.R. Shah

Keyword(s):

Magnetic Stimulation ◽

Nerve Roots ◽

Sacral Nerve ◽

Stimulation Of

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Use of Anal Sphincter Electromyography during Operations on the Conus Medullaris and Sacral Nerve Roots

Neurosurgery ◽

10.1227/00006123-197906000-00005 ◽

1979 ◽

Vol 4 (6) ◽

pp. 521-523 ◽

Cited By ~ 46

Author(s):

Hector E. James ◽

John J. Mulcahy ◽

John W. Walsh ◽

George W. Kaplan

Keyword(s):

Anal Sphincter ◽

Spinal Dysraphism ◽

Conus Medullaris ◽

Mechanical Activity ◽

Sphincter Muscle ◽

Recording Device ◽

Striated Muscles ◽

External Urethral Sphincter ◽

Nerve Roots ◽

Sacral Nerve

abstract The mechanical activity of the anal sphincter can be translated into electrical activity and recorded on graph paper or an oscilloscope. The activity of the anal sphincter may be extrapolated to activity of the external urethral sphincter because both are striated muscles innervated by the pudendal nerve that arises from S-2, S-3, and S-4. Stimulation of these nerves causes contraction of the sphincter muscles, and a deflection of the recording device occurs. This technique was employed intraoperatively in monitoring operations on the conus medullaris and sacral nerve roots in 10 patients with spinal dysraphism (age range, 3 weeks to 15 years). Their diagnoses were tethered conus, 4; lipomeningocele, 3; spinal hamartoma, 1; syringocele, 1; and sacral arachnoiditis, 1. With general anesthesia, and the patient in the prone position, an electrode-containing anal plug was inserted or two needle electrodes were inserted into the anal sphincter muscle. The electrodes were connected to the electromyography recording stylus of the urodynamic bladder diagnostic unit. During the spinal operation, whenever a structure could not be identified clearly, it was stimulated with the disposable electrical stimulator and, if oscillations of the stylus occurred (indicating contraction of the anal sphincter), the structure was preserved. This technique permitted spinal operations in these 10 patients without changes in neurological or urological function.

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