2021 article

Radiographic Assessment of the Feline Temporomandibular Joint with Oblique Projections: A Preliminary Ex Vivo Study

Villamizar-Martinez, L. A., Villegas, C. M., Gioso, M. A., Baroni, C. O., Unruh, S. M., Cohen, E. B., & Reiter, A. M. (2021, December 7). JOURNAL OF VETERINARY DENTISTRY.

author keywords: radiography; cat; temporomandibular joint; TMJ; diagnostic imaging
MeSH headings : Animals; Cat Diseases; Cats; Cone-Beam Computed Tomography / veterinary; Mandibular Condyle; Radiography; Temporomandibular Joint / diagnostic imaging; Temporomandibular Joint Disorders / diagnostic imaging; Temporomandibular Joint Disorders / veterinary
TL;DR: The results of this study identified that the dependent temporomandibular joint anatomy was best seen on the latero-10°-ventral-laterodorsal, Latero-15°- ventral- laterodorsals, and latero -20°-ventions, and opposite lateral oblique views at these angulations may be helpful in characterization of this anatomy in clinical patients. (via Semantic Scholar)
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Added: January 3, 2022

Radiographic assessment of the temporomandibular joint in the domestic cat using conventional radiographic views can be challenging due to superimposition of overlying structures and the complex anatomy of the skull. The use of computed tomography, magnetic resonance imaging, and cone beam computed tomography to assess the temporomandibular joint in the cat has increased, but these modalities are not always available in general veterinary practices. Conventional radiography is still commonly used for first line assessment of the temporomandibular joint. The aim of this preliminary study was to determine optimal angle of obliquity of lateroventral-laterodorsal and laterorostral-laterocaudal (nose up lateral oblique) oblique radiographic views in the assessment of the temporomandibular joints in five feline mesaticephalic dry skulls. Visibility of the mandibular head, mandibular fossa, retroarticular process, and temporomandibular joint space were evaluated and scored by two veterinary radiologists. The results of this study identified that the dependent temporomandibular joint anatomy was best seen on the latero-10°-ventral-laterodorsal, latero-15°-ventral-laterodorsal, and latero-20°-ventral-laterodorsal, oblique views, and opposite lateral oblique views at these angulations may be helpful in characterization of this anatomy in clinical patients. The results also indicate that the laterorostral-laterocaudal (nose up lateral oblique) oblique view did not allow adequate discrimination of all TMJ anatomy at any angle, and is not recommended.