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06.11.2020 | Original Article

Normal anterior-posterior diameters of the spinal cord and spinal canal in healthy term newborns on sonography

verfasst von: Gagandeep Singh, Alan J. True, Christopher C. Lui, Prateek Prasanna, Genevieve Orleans, Luke Partyka, Tej D. Phatak

Erschienen in: Pediatric Radiology | Ausgabe 4/2021

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Abstract

Background

There are no published normal values for spinal cord and canal diameters in newborns. Spinal cord and spinal canal diameters are assessed subjectively by radiologists without any objective values for the upper limit of normal.

Objective

To determine normal values for anteroposterior (AP) diameters of the spinal cord and spinal canal on sonography in healthy term newborns.

Materials and methods

We performed ultrasound of the entire spine on 37 healthy newborns (23 male, 14 female). The AP diameters of the spinal canal and spinal cord were measured at representative levels of the cervical (C4, C5, C6), thoracic (T5, T6, T7, T8) and lumbar spine (lumbar enlargement and above and below the lumbar enlargement level). Statistical analysis was performed to determine the mean and standard deviation of the spinal canal and spinal cord AP diameter at each aforementioned vertebral level, and their correlations with birth weight, length and head circumference.

Results

The mean AP spinal cord diameter was 4.1±0.5 mm at the cervical level, 3.3±0.3 mm at the thoracic level and 4.4±0.6 mm at the lumbar level. The mean AP spinal canal diameter was 7.7±0.7 mm at the cervical level, 6.2±0.8 mm at the thoracic level, and 8.4±0.7 mm at the lumbar level.

Conclusion

In this prospective study, we have determined normal values for AP diameters of the spinal cord and spinal canal on sonography in healthy newborns at representative cervical, thoracic and lumbar levels. This data may assist in evaluating the neonatal spine in clinical situations such as suspected spinal cord injury.

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Unsinn KM, Geley T, Freund MC, Gassner I (2000) US of the spinal cord in newborns: spectrum of normal findings, variants, congenital anomalies, and acquired diseases. Radiographics 20:923–938CrossRef

Meyers AB, Chandra T, Epelman M (2017) Sonographic spinal imaging of normal anatomy, pathology and magnetic growing rods in children. Pediatr Radiol 47:1046–1057CrossRef

Lowe LH, Johanek AJ, Moore CW (2007) Sonography of the neonatal spine: part 1, Normal anatomy, imaging pitfalls, and variations that may simulate disorders. AJR Am J Roentgenol 188:733–738CrossRef

Babyn PS, Chuang SH, Daneman A, Davidson GS (1988) Sonographic evaluation of spinal cord birth trauma with pathologic correlation. AJR Am J Roentgenol 151:763–766CrossRef

Mills JF, Dargaville PA, Coleman LT et al (2001) Upper cervical spinal cord injury in neonates: the use of magnetic resonance imaging. J Pediatr 138:105–108CrossRef

Ulbrich EJ, Schraner C, Boesch C et al (2014) Normative MR cervical spinal canal dimensions. Radiology 271:172–182

Arthurs O, Thayyil S, Wade A et al (2012) MR determination of neonatal spinal canal depth. Eur J Radiol 81:e813–e816CrossRef

Kato F, Yukawa Y, Suda K et al (2012) Normal morphology, age-related changes and abnormal findings of the cervical spine. Part II: magnetic resonance imaging of over 1,200 asymptomatic subjects. Eur Spine J 21:1499–1507CrossRef

Sheikh A, Warren D, Childs AM et al (2017) Paediatric spinal cord infarction-a review of the literature and two case reports. Childs Nerv Syst 33:671–676CrossRef

10.

Nair N, Sreenivas M, Gupta AK et al (2016) Neonatal and infantile spinal sonography: a useful investigation often underutilized. Indian J Radiol Imaging 26:493–501CrossRef

11.

Gusnard DA, Naidich TP, Yousefzadeh DK, Haughton VM (1986) Ultrasonic anatomy of the normal neonatal and infant spine: correlation with cryomicrotome sections and CT. Neuroradiology 28:493–511CrossRef

12.

Dick EA, Patel K, Owens CM, De Bruyn R (2002) Spinal ultrasound in infants. Br J Radiol 75:384–392CrossRef

13.

Dubory A, Laemmel E, Badner A et al (2015) Contrast enhanced ultrasound imaging for assessment of spinal cord blood flow in experimental spinal cord injury. J Vis Exp e52536

14.

de Vries E, Robben SG, van den Anker JN (1995) Radiologic imaging of severe cervical spinal cord birth trauma. Eur J Pediatr 154:230–232CrossRef

15.

Leadman M, Seigel S, Hollenberg R, Caco C (1988) Ultrasound diagnosis of neonatal spinal epidural hemorrhage. J Clin Ultrasound 16:440–442CrossRef

16.

Koch BL, Moosbrugger EA, Egelhoff JC (2007) Symptomatic spinal epidural collections after lumbar puncture in children. AJNR Am J Neuroradiol 28:1811–1816CrossRef

17.

Kuker W, Weller M, Klose U et al (2004) Diffusion-weighted MRI of spinal cord infarction--high resolution imaging and time course of diffusion abnormality. J Neurol 251:818–824CrossRef

18.

Masson C, Pruvo JP, Meder JF et al (2004) Spinal cord infarction: clinical and magnetic resonance imaging findings and short term outcome. J Neurol Neurosurg Psychiatry 75:1431–1435CrossRef

19.

Simon L, Perreaux F, Devictor D et al (1999) Clinical and radiological diagnosis of spinal cord birth injury. Arch Dis Child Fetal Neonatal Ed 81:F235–F236CrossRef

20.

MacKinnon JA, Perlman M, Kirpalani H et al (1993) Spinal cord injury at birth: diagnostic and prognostic data in twenty-two patients. J Pediatr 122:431–437CrossRef

Titel: Normal anterior-posterior diameters of the spinal cord and spinal canal in healthy term newborns on sonography
verfasst von: Gagandeep Singh
Alan J. True
Christopher C. Lui
Prateek Prasanna
Genevieve Orleans
Luke Partyka
Tej D. Phatak
Publikationsdatum: 06.11.2020
Verlag: Springer Berlin Heidelberg
Erschienen in: Pediatric Radiology / Ausgabe 4/2021
Print ISSN: 0301-0449
Elektronische ISSN: 1432-1998
DOI: https://doi.org/10.1007/s00247-020-04879-8

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Normal anterior-posterior diameters of the spinal cord and spinal canal in healthy term newborns on sonography