Toward Motion Preservation across the Craniocervical Junction: Modeling and Design of C1–C2 Prosthetic Following Endonasal Odontoidectomy

Yara Alfawares; Abhijith Matur; Manish Aryal; Botao Zhang; Joel Kaye; Norberto Andaluz; Katie Phillips; Ahmad Sedaghat; Sam Anand; Jonathan Forbes

doi:10.1055/s-0043-1762207

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J Neurol Surg B Skull Base 2023; 84(S 01): S1-S344
DOI: 10.1055/s-0043-1762207

Presentation Abstracts

Oral Abstracts

Toward Motion Preservation across the Craniocervical Junction: Modeling and Design of C1–C2 Prosthetic Following Endonasal Odontoidectomy

Yara Alfawares

¹University of Cincinnati College of Medicine, Cincinnati, Ohio, United States

,

Abhijith Matur

²University of Kentucky College of Medicine, Lexington, Kentucky, United States

,

Manish Aryal

³University of Cincinnati, Cincinnati, Ohio, United States

,

Botao Zhang

³University of Cincinnati, Cincinnati, Ohio, United States

,

Joel Kaye

¹University of Cincinnati College of Medicine, Cincinnati, Ohio, United States

,

Norberto Andaluz

¹University of Cincinnati College of Medicine, Cincinnati, Ohio, United States

,

Katie Phillips

¹University of Cincinnati College of Medicine, Cincinnati, Ohio, United States

,

Ahmad Sedaghat

¹University of Cincinnati College of Medicine, Cincinnati, Ohio, United States

,

Sam Anand

³University of Cincinnati, Cincinnati, Ohio, United States

,

Jonathan Forbes

¹University of Cincinnati College of Medicine, Cincinnati, Ohio, United States

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Introduction: In cases of irreducible brainstem compression secondary to basilar invagination, ventral decompression with odontoidectomy is required. As odontoidectomy often results in C1–C2 and/or O–C1 instability, empiric separate-stage occipitocervical fusion is performed at many institutions at/near the time of decompression. We thus sought to investigate the feasibility of design of C1–C2 prosthetic (delivered through the endonasal cavity) to maintain physiologic stability and motion preservation of the craniocervical junction following odontoidectomy.

Methods: In four cadaveric heads, we performed inferior U-shaped nasopharyngeal flap exposure through the endonasal corridor followed by removal of anterior C1 ring and odontoid. In the 4 specimens, 4 different degrees of odontoidectomy were performed (partial <50%, subtotal >50%, total ~100%, and supratotal >100%) to recapitulate all clinical scenarios. Postprocedure CT imaging was obtained in each specimen. 3D segmentation and subtraction algorithms were subsequently utilized to obtain measurements essential for prosthetic design.

Results: The average length, height, and depth of the anterior arch of C1 removal was 17.8, 14.3, and 8.7 mm, respectively. The average odontoid depth, width and height was 16.9, 11.7, and 11.6 mm. The average screw length for bicortical fixation of the anterior C1 arch prosthesis was 13.4 mm. The average screw length required for bicortical fixation of the odontoid tip at the base was 16.9 mm. Co-axial screw stabilization requires a 45 degree angled drill and screw driver. On average, length of this single co-axial screw measured 18.7 mm.

Conclusion: The index study represents the first feasibility analysis for C1–C2 joint prosthetic designed for delivery through the endonasal corridor. Prosthetic manufacturing followed by rigorous biomechanical analysis should be the next steps in advancement of this technology.

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Artikel online veröffentlicht:
01. Februar 2023

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