. 2021 Oct 10;13(10):e18647.
doi: 10.7759/cureus.18647.
eCollection 2021 Oct.
Affiliations
Affiliations
- 1 Neurosurgery, American Hospital, Istanbul, TUR.
- 2 Neurosurgery, Okan University, Istanbul, TUR.
- 3 Radiology, American Hospital, Istanbul, TUR.
- 4 Neurosurgery, Koc University School of Medicine, Istanbul, TUR.
- 5 Neurosurgery, Atatürk University, Erzurum, TUR.
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Mehdi Hekimoğlu et al.
Cureus.
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. 2021 Oct 10;13(10):e18647.
doi: 10.7759/cureus.18647.
eCollection 2021 Oct.
Affiliations
- 1 Neurosurgery, American Hospital, Istanbul, TUR.
- 2 Neurosurgery, Okan University, Istanbul, TUR.
- 3 Radiology, American Hospital, Istanbul, TUR.
- 4 Neurosurgery, Koc University School of Medicine, Istanbul, TUR.
- 5 Neurosurgery, Atatürk University, Erzurum, TUR.
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Abstract
Objective Adjacent segment disease is a controversial process after spine stabilization. The two important factors discussed are natural aging and hypermobility in incidental segmental fusion anomalies; patients have two or more fused vertebrae from birth, which are the results of spinal movement restriction due to the fusion of some spinal units. This article’s main purpose is to determine the degree of relationship of hypermobility and the aging process in the deterioration of the disks adjacent to fusion. Methods In this study, the degenerative process developed by hypermobility in the adjacent segment due to incidental segmental fusion was evaluated. The MRI images of 52 adjacent and nonadjacent disks of 45 patients in total were analyzed according to the Pfirrmann grading systems. The average Pfirrmann rating of the disks just above and below the fused segment and the distant first, second, and third non-neighboring levels were evaluated and calculated, respectively. Results The highest rate of incidental fusion is determined on the cervical area with 51.9%, followed by the thoracal area with 32.7%, and the lumbar area with 15.4%. Damage to the adjacent segment disks in cases with incidental fusion can still be seen at any age, with fusion, indicating that the hypermobility effect plays a more prominent role. The evidence of hypermobility without aging is that the segments adjacent to fusion undergo more degeneration than the distant disks. Conclusion Adjacent segment disease is under the influence of many factors. Our findings suggest that its incidence is increasing with the pathological processes initiated by hypermobility. It seems that, at least, it carries equal importance as compared to age. Fusion surgeries damage the adjacent segments under the influence of the passage of time beyond the physiological aging of the patient.
Keywords:
adjacent segment disease; dynamic stabilization; fusion surgery; incidental fusion; spine stabilization.
Copyright © 2021, Hekimoğlu et al.
Conflict of interest statement
The authors have declared that no competing interests exist.
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