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    Dynamic three-dimensional computed tomographic imaging facilitates evaluation of the equine cervical articular process joint in motion (2023)

    Art
    Zeitschriftenartikel / wissenschaftlicher Beitrag
    Autoren
    Schulze, Nicole (WE 17)
    Werpy, Natasha
    Gernhardt, Jennifer (WE 17)
    Fritsch, Guido
    Hildebrandt, Thomas
    Vanderperre, Katrien
    Klopfleisch, Robert (WE 12)
    Romdhane, Racem Ben (WE 16)
    Lischer, Christophorus (WE 17)
    Ehrle, Anna (WE 17)
    Quelle
    Equine veterinary journal : official journal of the British Equine Veterinary Association
    Bandzählung: 55
    Heftzählung: 1
    Seiten: 83 – 91
    ISSN: 0425-1644
    Sprache
    Englisch
    Verweise
    URL (Volltext): https://beva.onlinelibrary.wiley.com/doi/10.1111/evj.13560
    DOI: 10.1111/evj.13560
    Pubmed: 35043993
    Kontakt
    Institut für Tierpathologie

    Robert-von-Ostertag-Str. 15
    14163 Berlin
    +49 30 838 62450
    pathologie@vetmed.fu-berlin.de

    Abstract / Zusammenfassung

    Background:
    Dynamic computed tomography (CT) imaging has been introduced in human orthopaedics and is continuing to gain popularity. With dynamic CT, video sequences of anatomical structures can be evaluated in motion.

    Objectives:
    To investigate the feasibility of dynamic CT for diagnostic imaging of the equine cervical articular process joints (APJs) and to give a detailed description of the APJ movement pattern.

    Study design:
    Descriptive cadaver imaging.

    Methods:
    Cervical specimens of twelve Warmblood horses were included. A custom-made motorised testing device was used to position and manipulate the neck specimens and perform dynamic 2D and 3D CT imaging. Images were obtained with a 320-detector-row CT scanner with a 160 mm wide-area (2D) solid-state detector design that allows image acquisition of a volumetric axial length of 160 mm without moving the CT couch. Dynamic videos were acquired and divided into four phases of movement. Three blinded observers used a subjective scale of 1 (excellent) to 4 (poor) to grade the overall image quality in each phases of motion cycle.

    Results:
    With an overall median score of 1 the image quality, a significantly lower score was observed in the dynamic 3D videos over the four phases by the three observers compared with the 2D videos for both flexion (3D 95% CI: 1-2 and 2D 95% CI: 1-3; P = .007) and extension movement (3D 95% CI: 1-2 and 2D 95% CI: 1-3; P = .008). Median Translational displacement of the APJ surface was significantly greater in flexion than in extension movement (P = .002).

    Main limitations:
    The small number of specimens included. Excision of spines and removal of musculature.

    Conclusions:
    The study is a first step in the investigation of the potential of dynamic 3D CT in veterinary medicine, a technique that has only begun to be explored and leaves much room for refinement prior to its introduction in routine practice. CT with a detector coverage of 16 cm and a rotation speed of 0.32 seconds provides high-quality images of moving objects and gives new insight into the movement pattern of equine cervical APJs.