Histology of the vertebral artery–dural junction: relevance to posterolateral approaches to the skull base

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  • 1 Departments of Neurological Surgery
  • 2 Pathology, and
  • 5 Neurosciences and Pediatrics, University of California–San Diego, La Jolla, California
  • 3 Carolina Neuroscience Institute, Raleigh, North Carolina; and
  • 4 Department of Neurosurgery, University of Arkansas, Little Rock, Arkansas
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OBJECTIVE

The far-lateral and extreme-lateral infrajugular transcondylar–transtubercular exposure (ELITE) and extreme-lateral transcondylar transodontoid (ELTO) approaches provide access to lesions of the foramen magnum, inferolateral to mid-clivus, and ventral pons and medulla. A subset of pathologies in this region require manipulation of the vertebral artery (VA)–dural interface. Although a cuff of dura is commonly left on the VA to avoid vessel injury during these approaches, there are varying descriptions of the degree of VA-dural separation that is safely achievable. In this paper the authors provide a detailed histological analysis of the VA-dural junction to guide microsurgical technique for posterolateral skull base approaches.

METHODS

An ELITE approach was performed on 6 preserved adult cadaveric specimens. The VA-dural entry site was resected, processed for histological analysis, and qualitatively assessed by a neuropathologist.

RESULTS

Histological analysis demonstrated a clear delineation between the intima and media of the VA in all specimens. No clear plane was identified between the connective tissue of the dura and the connective tissue of the VA adventitia.

CONCLUSIONS

The VA forms a contiguous plane with the connective tissue of the dura at its dural entry site. When performing posterolateral skull base approaches requiring manipulation of the VA-dural interface, maintenance of a dural cuff on the VA is critical to minimize the risk of vascular injury.

ABBREVIATIONS ELITE = extreme-lateral infrajugular transcondylar–transtubercular exposure; ELTO = extreme-lateral transcondylar transodontoid; VA = vertebral artery.

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Contributor Notes

Correspondence Michael L. Levy: University of California, San Diego, CA. mlevy@rchsd.org.

INCLUDE WHEN CITING Published online November 22, 2019; DOI: 10.3171/2019.9.JNS191394.

Disclosures The authors report no conflict of interest concerning the materials or methods used in this study or the findings specified in this paper.

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