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C1 anterior arch preservation in transnasal odontoidectomy using three-dimensional endoscope: A case report.

Zenga F, Marengo N, Pacca P, Pecorari G, Ducati A - Surg Neurol Int (2015)

Bottom Line: After surgery, a dynamic X-ray scan showed no difference in CVJ motility in comparison with the preoperative one.The stereoscopic perception augmented the precision of the surgical gesture in the deep field.This affects the preservation of the C1 anterior arch because of the presence of critical structures that are exposed to potential damage if not displayed.

View Article: PubMed Central - PubMed

Affiliation: Department of Neurosciences, Molinette University Hospital, Via Cherasco 15, 10126 Torino, Italy.

ABSTRACT

Background: The transoral ventral corridor is the most common approach used to reach the craniovertebral junction (CVJ). Over the last decade, many case reports have demonstrated the transnasal corridor to the odontoid peg represents a practicable route to remove the tip of the odontoid process. The biomechanical consequences of the traditional odontoidectomy led to the necessity of a cervical spine stabilization. Preserving the inferior portion of the C1 anterior arch should prevent instability.

Case description: This is the first report in which the technique to remove the tip of the odontoid while preserving the C1 anterior arch is described by means of a three-dimensional (3D) endoscope. A 53-year-old man underwent a transnasal 3D endoscopic approach because of a complex CVJ malformation. The upper-medial portion of the C1 anterior arch was removed preserving its continuity, and the odontoidectomy was performed. After surgery, a dynamic X-ray scan showed no difference in CVJ motility in comparison with the preoperative one.

Conclusions: The stereoscopic perception augmented the precision of the surgical gesture in the deep field. The importance of a 3D view relates to the depth of field, which a two-dimensional endoscopy cannot provide. This affects the preservation of the C1 anterior arch because of the presence of critical structures that are exposed to potential damage if not displayed.

No MeSH data available.


Related in: MedlinePlus

Intraoperative endoscopic views: (a) C1 anterior arch upper portion drilling; the arrow points out the residual lateral part of the arch (b) final endoscopic view after the odontoidectomy is completed showing the spinal cord dura just behind the drilled portion of the dens (c) the white arrow indicates the dura
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Figure 3: Intraoperative endoscopic views: (a) C1 anterior arch upper portion drilling; the arrow points out the residual lateral part of the arch (b) final endoscopic view after the odontoidectomy is completed showing the spinal cord dura just behind the drilled portion of the dens (c) the white arrow indicates the dura

Mentions: The patient underwent a transnasal image-guided fully 3D endoscopic approach [Figure 3]. Intraoperative neurophysiological monitoring was used: Somatosensory evoked potentials of the four limbs and motor evoked potentials. The technique to reach the CVJ has been described elsewhere.[1718]


C1 anterior arch preservation in transnasal odontoidectomy using three-dimensional endoscope: A case report.

Zenga F, Marengo N, Pacca P, Pecorari G, Ducati A - Surg Neurol Int (2015)

Intraoperative endoscopic views: (a) C1 anterior arch upper portion drilling; the arrow points out the residual lateral part of the arch (b) final endoscopic view after the odontoidectomy is completed showing the spinal cord dura just behind the drilled portion of the dens (c) the white arrow indicates the dura
© Copyright Policy - open-access
Related In: Results  -  Collection

License
Show All Figures
getmorefigures.php?uid=PMC4697203&req=5

Figure 3: Intraoperative endoscopic views: (a) C1 anterior arch upper portion drilling; the arrow points out the residual lateral part of the arch (b) final endoscopic view after the odontoidectomy is completed showing the spinal cord dura just behind the drilled portion of the dens (c) the white arrow indicates the dura
Mentions: The patient underwent a transnasal image-guided fully 3D endoscopic approach [Figure 3]. Intraoperative neurophysiological monitoring was used: Somatosensory evoked potentials of the four limbs and motor evoked potentials. The technique to reach the CVJ has been described elsewhere.[1718]

Bottom Line: After surgery, a dynamic X-ray scan showed no difference in CVJ motility in comparison with the preoperative one.The stereoscopic perception augmented the precision of the surgical gesture in the deep field.This affects the preservation of the C1 anterior arch because of the presence of critical structures that are exposed to potential damage if not displayed.

View Article: PubMed Central - PubMed

Affiliation: Department of Neurosciences, Molinette University Hospital, Via Cherasco 15, 10126 Torino, Italy.

ABSTRACT

Background: The transoral ventral corridor is the most common approach used to reach the craniovertebral junction (CVJ). Over the last decade, many case reports have demonstrated the transnasal corridor to the odontoid peg represents a practicable route to remove the tip of the odontoid process. The biomechanical consequences of the traditional odontoidectomy led to the necessity of a cervical spine stabilization. Preserving the inferior portion of the C1 anterior arch should prevent instability.

Case description: This is the first report in which the technique to remove the tip of the odontoid while preserving the C1 anterior arch is described by means of a three-dimensional (3D) endoscope. A 53-year-old man underwent a transnasal 3D endoscopic approach because of a complex CVJ malformation. The upper-medial portion of the C1 anterior arch was removed preserving its continuity, and the odontoidectomy was performed. After surgery, a dynamic X-ray scan showed no difference in CVJ motility in comparison with the preoperative one.

Conclusions: The stereoscopic perception augmented the precision of the surgical gesture in the deep field. The importance of a 3D view relates to the depth of field, which a two-dimensional endoscopy cannot provide. This affects the preservation of the C1 anterior arch because of the presence of critical structures that are exposed to potential damage if not displayed.

No MeSH data available.


Related in: MedlinePlus