Fachbereich Veterinärmedizin



    Longitudinal extension of myelomalacia by intramedullary and subdural hemorrhage in a canine model of spinal cord injury (2016)

    Zeitschriftenartikel / wissenschaftlicher Beitrag
    Henke, Diana
    Gorgas, Daniela
    Doherr, Marcus G (WE 16)
    Howard, Judith
    Forterre, Franck
    Vandevelde, Marc
    The spine journal : official journal of the North American Spine Society; 16(1) — S. 82–90
    ISSN: 1878-1632
    DOI: 10.1016/j.spinee.2015.09.018
    Pubmed: 26386168
    Institut für Veterinär-Epidemiologie und Biometrie

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    Abstract / Zusammenfassung

    In canine intervertebral disc (IVD) extrusion, a spontaneous animal model of spinal cord injury, hemorrhage is a consistent finding. In rodent models, hemorrhage might be involved in secondary tissue destruction by biochemical mechanisms.

    This study aimed to investigate a causal association between the extents of intramedullary, subdural and epidural hemorrhage and the severity of spinal cord damage following IVD extrusion in dogs.

    A retrospective study using histologic spinal cord sections from 83 dogs euthanized following IVD extrusion was carried out.

    The degree of hemorrhage (intramedullary, subdural, epidural), the degree of spinal cord damage in the epicenter (white and gray matter), and the longitudinal extent of myelomalacia were graded. Associations between the extent of hemorrhage and the degree of spinal cord damage were evaluated statistically.

    Intramedullary and subdural hemorrhages were significantly associated with the degree of white (p<.001/ p=.004) and gray (both p<.001) matter damage, and with the longitudinal extension of myelomalacia (p<.001/p=.005). Intriguingly, accumulation of hemorrhagic cord debris inside or dorsal to a distended and ruptured central canal in segments distant to the epicenter of the lesion was observed exhibiting a wave-like pattern on longitudinal assessment. The occurrence of this debris accumulation was associated with high degrees of tissue destruction (all p<.001).

    Tissue liquefaction and increased intramedullary pressure associated with hemorrhage are involved in the progression of spinal cord destruction in a canine model of spinal cord injury and ascending or descending myelomalacia. Functional and dynamic studies are needed to investigate this concept further.