Abstract
Background: Movements of the spinal cord are induced by arterial pulsation and breathing. Objective: The aim of this study was to analyse these oscillations in more detail and to classify them using one-dimensional fast Fourier transformation (1D-FFT). Materials and methods: A total of 153 M-mode studies in 53 patients (age 1 month to 14 years) were undertaken using a 5-MHz linear transducer (B- and M-mode). 1D-FFT was applied to the M-mode areas of digitized images. Results: 1D-FFT shows characteristic patterns of spectra for groups of normal, reduced and missing cord motility. For normal cord motility, 1D-FFT peak frequency corresponded to the heart rate, and additional four to five harmonic maxima up to 11 Hz could be found. Reduced cord motility was characterised by one to three harmonic maxima; an immobile cord showed only zero to one maximum. The maximum speed of transverse motion of the neural structures in the lumbar region reached 25 mm/s. Conclusions: Using 1D-FFT, characteristic frequency patterns of spinal cord motions can be analysed. In patients with meningomyelocoele individual classification of cord motility is possible. This method of analysis may assist with recognising those at risk of developing secondary tethered cord syndrome.
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References
Naidich TP, Radkowski MA, Britton J (1986) Realtime sonographic display of caudal spinal anomalies. Neuroradiology 28:512–527
Winkler P (1994) Cerebrospinal fluid dynamics in infants evaluated with color Doppler US and spectral analysis: respiratory versus arterial synchronization. Radiology 192:423–430
Schumacher R, Kroll B, Schwarz M, et al (1992) M-mode sonography of the caudal spinal cord in patients with meningomyelocele. Radiology 184:263–265
Brigham EO (1992) FFT, fast Fourier transformation, 5th edn (in German). Oldenbourg, Munich
Chine A (1990) Different algorithms of error correction in signal analysis by fast Fourier transformation (in German). Thesis, Zwickau, TH Zwickau
Brunelle F, Sebag G, Baraton J, et al (1996) Lumbar spinal cord motion measurement with phase-contrast MR imaging in normal children and in children with spinal lipomas. Pediatr Radiol 26:265–270
Mikulis DJ, Wood ML, Zerdoner OA, et al (1994) Oscillatory motion of the normal cervical spinal cord. Radiology 192:117–121
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Schumacher, R., Richter, D. One-dimensional Fourier transformation of M-mode sonograms for frequency analysis of moving structures with application to spinal cord motion. Pediatr Radiol 34, 793–797 (2004). https://doi.org/10.1007/s00247-004-1243-3
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DOI: https://doi.org/10.1007/s00247-004-1243-3