Influence of Atlantoaxial Fusion on Sagittal Alignment of the Occipitocervical and Subaxial spines in Os Odontoideum with Atlantoaxial Instability
Study Design Retrospective case analysis. Purpose We hypothesized that larger the C1–C2 fusion angle, greater the severity of the sagittal malalignment of C0–C1 and C2–C7. Overview of Literature In our experience, instances of sagittal malalignment occur at C0–C1 and C2–C7 following atlantoaxial fus...
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Korean Spine Society
2019-08-01
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| Series: | Asian Spine Journal |
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| Online Access: | http://www.asianspinejournal.org/upload/pdf/asj-2018-0154.pdf |
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doaj-40914a4f426845e2813f41f40d2e584a2020-11-24T20:43:19ZengKorean Spine SocietyAsian Spine Journal1976-19021976-78462019-08-0113455656210.31616/asj.2018.01541024Influence of Atlantoaxial Fusion on Sagittal Alignment of the Occipitocervical and Subaxial spines in Os Odontoideum with Atlantoaxial InstabilityByung-Wan Choi0Jong-Beom Park1Jong-Won Kang2Do-Gyun Kim3Han Chang4 Department of Orthopedic Surgery, Inje University Haeundae Paik Hospital, Busan, Korea Department of Orthopedic Surgery, College of Medicine, The Catholic University of Korea, Seoul, Korea Department of Orthopedic Surgery, Sun Hospital, Daejeon, Korea Department of Orthopedic Surgery, College of Medicine, The Catholic University of Korea, Seoul, Korea Department of Orthopedic Surgery, Busan Korea Hospital, Busan, KoreaStudy Design Retrospective case analysis. Purpose We hypothesized that larger the C1–C2 fusion angle, greater the severity of the sagittal malalignment of C0–C1 and C2–C7. Overview of Literature In our experience, instances of sagittal malalignment occur at C0–C1 and C2–C7 following atlantoaxial fusion in patients with Os odontoideum (OO). Methods We assessed 21 patients who achieved solid atlantoaxial fusion for reducible atlantoaxial instability secondary to OO. The mean patient age at the time of the operation was 42.8 years, and the mean follow-up duration was 4.9 years. Radiographic parameters were preoperatively measured and at the final follow-up. The patients were divided into two groups (A and B) depending on the C1–C2 fusion angle. In group A (n=11), the C1–C2 fusion angle was ≥22°, whereas in group B, it was <22°. The differences in the radiographic parameters of the two groups were evaluated. Results At the final follow-up, the C1–C2 angle was increased. However, this increase was not statistically significant (18° vs. 22°, p=0.924). The C0–C1 angle (10° vs. 5°, p<0.05) and C2–C7 angle (22° vs. 13°, p<0.05) significantly decreased. The final C1–C2 angle was negatively correlated with the final C0–C1 and C2–C7 angles. The final C0–C1 angle (4° vs. 6°, p<0.05) and C2–C7 angle (8° vs. 20°, p<0.05) were smaller in group A than in group B. After atlantoaxial fusion, the C0–C1 range of motion (ROM; 17° vs. 9°, p<0.05) and the C2–C7 ROM (39° vs. 31°, p<0.05) were significantly decreased. Conclusions We found a negative association between the sagittal alignment of C0–C1 and C2–C7 after atlantoaxial fusion and the C1–C2 fusion angle along with decreased ROM. Therefore, overcorrection of C1–C2 kyphosis should be avoided to maintain good physiologic cervical sagittal alignment.http://www.asianspinejournal.org/upload/pdf/asj-2018-0154.pdfOs odontoideumAtlantoaxial instabilityAtlantoaxial fusionSagittal alignment |
| collection |
DOAJ |
| language |
English |
| format |
Article |
| sources |
DOAJ |
| author |
Byung-Wan Choi Jong-Beom Park Jong-Won Kang Do-Gyun Kim Han Chang |
| spellingShingle |
Byung-Wan Choi Jong-Beom Park Jong-Won Kang Do-Gyun Kim Han Chang Influence of Atlantoaxial Fusion on Sagittal Alignment of the Occipitocervical and Subaxial spines in Os Odontoideum with Atlantoaxial Instability Asian Spine Journal Os odontoideum Atlantoaxial instability Atlantoaxial fusion Sagittal alignment |
| author_facet |
Byung-Wan Choi Jong-Beom Park Jong-Won Kang Do-Gyun Kim Han Chang |
| author_sort |
Byung-Wan Choi |
| title |
Influence of Atlantoaxial Fusion on Sagittal Alignment of the Occipitocervical and Subaxial spines in Os Odontoideum with Atlantoaxial Instability |
| title_short |
Influence of Atlantoaxial Fusion on Sagittal Alignment of the Occipitocervical and Subaxial spines in Os Odontoideum with Atlantoaxial Instability |
| title_full |
Influence of Atlantoaxial Fusion on Sagittal Alignment of the Occipitocervical and Subaxial spines in Os Odontoideum with Atlantoaxial Instability |
| title_fullStr |
Influence of Atlantoaxial Fusion on Sagittal Alignment of the Occipitocervical and Subaxial spines in Os Odontoideum with Atlantoaxial Instability |
| title_full_unstemmed |
Influence of Atlantoaxial Fusion on Sagittal Alignment of the Occipitocervical and Subaxial spines in Os Odontoideum with Atlantoaxial Instability |
| title_sort |
influence of atlantoaxial fusion on sagittal alignment of the occipitocervical and subaxial spines in os odontoideum with atlantoaxial instability |
| publisher |
Korean Spine Society |
| series |
Asian Spine Journal |
| issn |
1976-1902 1976-7846 |
| publishDate |
2019-08-01 |
| description |
Study Design Retrospective case analysis. Purpose We hypothesized that larger the C1–C2 fusion angle, greater the severity of the sagittal malalignment of C0–C1 and C2–C7. Overview of Literature In our experience, instances of sagittal malalignment occur at C0–C1 and C2–C7 following atlantoaxial fusion in patients with Os odontoideum (OO). Methods We assessed 21 patients who achieved solid atlantoaxial fusion for reducible atlantoaxial instability secondary to OO. The mean patient age at the time of the operation was 42.8 years, and the mean follow-up duration was 4.9 years. Radiographic parameters were preoperatively measured and at the final follow-up. The patients were divided into two groups (A and B) depending on the C1–C2 fusion angle. In group A (n=11), the C1–C2 fusion angle was ≥22°, whereas in group B, it was <22°. The differences in the radiographic parameters of the two groups were evaluated. Results At the final follow-up, the C1–C2 angle was increased. However, this increase was not statistically significant (18° vs. 22°, p=0.924). The C0–C1 angle (10° vs. 5°, p<0.05) and C2–C7 angle (22° vs. 13°, p<0.05) significantly decreased. The final C1–C2 angle was negatively correlated with the final C0–C1 and C2–C7 angles. The final C0–C1 angle (4° vs. 6°, p<0.05) and C2–C7 angle (8° vs. 20°, p<0.05) were smaller in group A than in group B. After atlantoaxial fusion, the C0–C1 range of motion (ROM; 17° vs. 9°, p<0.05) and the C2–C7 ROM (39° vs. 31°, p<0.05) were significantly decreased. Conclusions We found a negative association between the sagittal alignment of C0–C1 and C2–C7 after atlantoaxial fusion and the C1–C2 fusion angle along with decreased ROM. Therefore, overcorrection of C1–C2 kyphosis should be avoided to maintain good physiologic cervical sagittal alignment. |
| topic |
Os odontoideum Atlantoaxial instability Atlantoaxial fusion Sagittal alignment |
| url |
http://www.asianspinejournal.org/upload/pdf/asj-2018-0154.pdf |
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