BACKGROUND AND OBJECTIVE: Posterior fossa surgery requires precise anatomic orientation within a restricted operative corridor. The trochlear nerve cranial nerve (CN) IV, although small and often overlooked, has distinctive cisternal relationships that may serve as a reproducible landmark. This study characterizes CN IV anatomy and highlights its role in guiding safe microsurgical approaches. METHODS: Five alcohol-fixed, silicone-injected adult cadaveric heads were dissected under ×10 to ×40 magnification after suboccipital craniotomy. The cisternal course of CN IV was traced from its dorsal brainstem exit to the tentorial edge, with attention to quadrigeminal, cerebellomesencephalic, and ambient portions. Four clinical cases of posterior fossa lesions treated via supracerebellar infratentorial approaches were reviewed to correlate anatomic findings with operative utility. RESULTS: CN IV consistently emerged dorsally below the inferior colliculus, marking the midbrain-pons transition and aqueduct-fourth ventricle boundary. Its cisternal trajectory divided adjacent sulci and venous channels into 4 quadrants, providing reproducible orientation within the cerebellomesencephalic fissure. In the ambient cistern, CN IV coursed between the posterior cerebral and superior cerebellar arteries. In all clinical cases, intraoperative identification of CN IV facilitated orientation and complete lesion resection without new neurological deficits. CONCLUSION: The trochlear nerve is a reliable intraoperative landmark in posterior fossa surgery. Recognition of its cisternal relationships enhances orientation, improves dissection accuracy, and reduces risk in approaches to deep-seated posterior fossa lesions.
Teyssandier et al. (Mon,) studied this question.