Abstract
Objective
To improve the understanding in pathology and provide steady proof for diagnosis and treatment of tethered cord syndrome (TCS), the ultrastructure of filum terminale (FT) with TCS will be researched, respectively.
Methods
Thirty-one fila were sectioned and divided into two groups according to diameter. Twenty-two fila thicker than 2 mm were placed into group 1; nine no thicker than 2 mm were placed into group 2. Their transverse and longitudinal sections were respectively submitted for scanning electron microscopy analysis.
Results
For the FTs with TCS, ultrastructural analysis confirmed the presence of abundant collagen bundles and adipocytes, sparse or invisible elastic and reticular fibers inside the FT, but the latter two fibers were still visible in the relative normal areas of FT; some abnormalities, such as thickening, distortion, adhesion or fusion to piece, relatively dense and disorderly arrangement at a different degree, were quite common for collagen fiber. Some areas looked blurry, and some crystallization appeared occasionally on their surface. For the FTs with TFTS, those changes as mentioned above were still exhibited, but slightly relatively. All the changes mentioned inside all the FTs may exist alone or concomitantly, rarely simultaneously. Moreover, they can be often seen focally or diffusely occasionally.
Conclusions
Low elasticity resulting from the destruction of the three-dimensional structure of FT is involved in TCS. Early FT severing is a treatment of choice no matter whether its appearance looks normal.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
Hendric EB, Hoffman HJ, Humphreys RP (1983) The tethered spinal cord. Clin Neurosurg 30:457–463
Hansasuta A, Tubbs RS, Oakes WJ (1999) Filum terminale fusion and dural sac termination: study in 27 cadavers. Pediatr Neurosurg 30:176–179
Lemire RJ, Loeser JD, Alvord EC Jr (1975) Normal and abnormal development of the human nervous system. Harper & Row, Hagerstown, pp 71–83
SUN KM, Liu FY, Xia B (2008) Study on the proximal structure of fetus filum terminale. J Chin Prakt Med (China) 35:62–63
Si PC, Liu FY, Xia B (2005) Distribution of neural stem cells in the terminal fila. J Clin Pediatr Surg (China) 4:425–429
Garceau GJ (1953) The filum terminale syndrome. J Bone Joint Surg Am 35A:711–716
Miklos R, Erika L, Csaba B (2004) The caudal end of the rat spinal cord: transformation to and ultrastructure of the filum terminale. Brain Res 1028:133–139
Tubbs RS et al (2005) The filum terminale externum. J Neurosurg Spine 3:149–152
Selcuki M, Vatansever S, Inan S (2003) Is a filum terminale with a normal appearance really normal? Childs Nerv Syst 19:3–10
Fontes RB, Saad F, Soares MS (2006) Ultrastructural study of the filum terminale and its elastic fibers. Neurosurgery 58:978–984
Fabiano AJ, Khan MF, Rozzelle CJ (2009) Preoperative predictors for improvement after surgical untethering in occult tight filum terminale syndrome. Pediatr Neurosurg 45:256–261
Royo-Salvador MB, Sole-Llenas J, Domenech JM (2005) Results of the section of the filum terminale in 20 patients with syringomyelia, scoliosis and Chiari malformation. Acta Neurochir (Wien) 147:515–523
Iskandar BJ, Fulmer BB, Hadley MN (2001) Congenital tethered spinal cord syndrome in adults. Neurosurg Focus 10:e7
Magrassi L, Chiaranda I, Minelli M (2008) Total endoscopic approach to the cauda in a patient with a tight filum. Minim Invasive Neurosurg 51:350–353
Di X (2009) Endoscopic spinal tethered cord release: operative technique. Childs Nerv Syst 25:577–581
Author information
Authors and Affiliations
Corresponding author
Rights and permissions
About this article
Cite this article
Liu, FY., Li, JF., Guan, X. et al. SEM study on filum terminale with tethered cord syndrome. Childs Nerv Syst 27, 2141–2144 (2011). https://doi.org/10.1007/s00381-011-1414-0
Received:
Accepted:
Published:
Issue Date:
DOI: https://doi.org/10.1007/s00381-011-1414-0