# A concise history of skull base surgery: what is its contribution to neurosurgery?

**Authors:** M. Necmettin Pamir, Tiit Illimar Mathiesen, Zeynep Hüseyinoğlu, Baran Bozkurt, Koray Özduman

PMC · DOI: 10.1007/s00701-025-06765-4 · Acta Neurochirurgica · 2026-01-17

## TL;DR

This paper reviews the history of skull base neurosurgery, showing how it developed within neurosurgery through collaboration and technological advances.

## Contribution

The paper provides a historical analysis of how skull base neurosurgery evolved as an organic development within neurosurgery.

## Key findings

- Skull base neurosurgery evolved through four distinct phases, starting with early attempts and ending with maturation and integration into neurosurgery.
- Collaboration with otolaryngology and technological innovations like the operating microscope and endoscopy were key to its development.
- The field was integrated into neurosurgical training and practice, leading to widespread implementation and continued evolution.

## Abstract

Skull base neurosurgery (SBNS) emerged as a specialized branch of microneurosurgery as it addressed the challenges posed by intricate skull base anatomy. Initially developed through close collaboration with otolaryngologists, SBNS expanded in the 1990s and has undergone substantial advancements over the following decades. In this review, we analyze whether SBNS evolved as an organic development within neurosurgery or an external innovation, and we review key historical literature to support of either hypothesis.

This is a synthetic, narrative historical review. An initial Pubmed review was performed with combination of keywords of “skull base neurosurgery”, “skull base surgery”, “neuroanatomy”, “microsurgical anatomy” and” neurosurgery complications”. Resulting database was restructured based on peer to peer, semi-structured interviews of two senior skull base neurosurgeons, with over 25 skull base neurosurgeons that were active 1970s–1990s. Emerging themes formed the framework for the analysis.

The evolution of SBNS was organic. It could be categorized into four distinct phases: Initially, Early attempts preceding the systematic application of SBNS techniques, subsequently the birth phase coincided with the widespread adoption of microneurosurgery and the establishment of dedicated societies and international meetings. During the popularization phase, advances in microneuroanatomy and novel approaches enhanced outcomes. Finally, the Maturation phase brought refined surgical approaches, the reevaluation of surgical indications, and the integration of stereotactic radiosurgery and endoscopic skull base surgery as well as international collaboration and teaching activities.

SBNS emerged within neurosurgery as a means to address challenging skull base pathologies and to enable surgical access through the skull-base. Its development was driven by collaboration with otolaryngology, alongside technological innovations such as the operating microscope, power drills, endoscopy, and stereotactic radiosurgery. These innovations facilitated the creation of novel surgical approaches, which were later refined through advances in neuroanatomical knowledge and improved understanding of pathology. Over time, SBNS were integrated into general neurosurgical practice and training curricula, allowing wide implementation and continued evolution in many directions.

## Full-text entities

- **Diseases:** craniofacial abnormalities (MESH:D019465), vascular disorders (MESH:D002561), infection (MESH:D007239), ethmoid carcinoma (MESH:D015521), tip (MESH:D060725), skull base fractures (MESH:D019292), Clinoidal meningiomas (MESH:D008579), orbital tumor (MESH:D009918), auditory canal hyperostosis (MESH:D015576), metastases (MESH:D009362), carotid-cavernous fistulas (MESH:D020216), TS (MESH:D004652), encephaloceles (MESH:D004677), CSF fistula (MESH:D005402), SBS (MESH:C535507), pathologies (MESH:D005598), skull (MESH:D012888), retinoblastoma (MESH:D012175), arteriovenous malformations (MESH:D001165), schwannomas (MESH:D009442), neoplastic and vascular lesions (MESH:D019043), aneurysms (MESH:D000783), cavernous sinus meningiomas (MESH:D020226), tinnitus (MESH:D014012), pituitary adenoma (MESH:D010911), benign tumors (MESH:D009369), venous infarctions (MESH:D020520), vascular lesions (MESH:D014652), vertebrobasilar aneurysms (MESH:D014715), visual deficits (MESH:D014786), CSF leak (MESH:D002559), pain (MESH:D010146), craniopharyngioma (MESH:D003397), sinus lesions (MESH:D012852), fibrous dysplasia (MESH:D005357), complication (MESH:D008107), anterior communicating artery aneurysms (MESH:D002532), trauma (MESH:D014947), congenital anomalies (MESH:D000013), chordomas (MESH:D002817), hearing loss (MESH:D034381), craniofacial carcinomas (MESH:D005157), hematological malignancies (MESH:D019337), vestibular schwannoma (MESH:D009464), sphenoid (MESH:D015524), glomus tumors (MESH:D005918), CSF leakage (MESH:D019585)
- **Chemicals:** SBNS (-)
- **Species:** Homo sapiens (human, species) [taxon 9606]

## Full text

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## Figures

7 figures with captions in the complete paper: https://tomesphere.com/paper/PMC12816123/full.md

## References

36 references — full list in the complete paper: https://tomesphere.com/paper/PMC12816123/full.md

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Source: https://tomesphere.com/paper/PMC12816123