Involvement of the Olfactory Apparatus by Gliomas

DISCUSSION

The first cranial nerve (CN I), also known as the olfactory nerve, is a purely sensory nerve that supplies the sensation of smell via specialized olfactory sensory neurons that arise from the nasal mucosa of the superior nasal cavity. Extending through the cribriform plate, small fibers of unmyelinated bipolar olfactory nerve cells synapse with secondary mitral and tufted neurons in the olfactory bulbs. Also known as projection neurons, these mitral and tufted neurons form myelinated olfactory tracts that lie within the bony olfactory sulcus and groove in the medial-most portions of the floor of the anterior cranial fossa. The olfactory tracts directly project to the olfactory cortices bilaterally, which include the posterior orbitofrontal gyrus, amygdala, and uncus, where the sensation of smell is synthesized and processed.^3,4

Our study of 12 patients with glioma involving the olfactory bulbs and tracts highlights an uncommon-but-clinically important phenomenon. All except 1 of the cases represented secondary involvement through direct infiltration of tumor or multifocal/multicentric disease in patients with known glioma diagnoses, including anaplastic oligodendroglioma, diffuse and anaplastic astrocytomas, diffuse midline glioma, and GBM. None of the gliomas in our series demonstrated osseous destruction, extension through the skull base, or involvement of the olfactory recess. The lack of these features distinguishes these tumors radiographically from other aggressive lesions common to this site, including enthesioneuroblastoma, aggressive primary osseous lesions, and intracranial extension of primary head and neck neoplasms, such as squamous cell carcinoma.^5,6

In all patients with GBM, olfactory bulb and tract involvement represented progression of previously treated disease elsewhere in the cerebrum. In 3 cases, the olfactory nerve affected was located contralateral to the site of the originally treated tumor, compatible with the underlying multifocal/infiltrative nature of GBM. From animal studies, there is evidence that GBM cancer-initiating cells may have special affinity for the subventricular zones and olfactory bulbs, mimicking the behavior or neural stem cells.⁷ This mechanism potentially explains the tropism for the olfactory system that is demonstrated by progressive gliomas in our series.

Typically, the imaging characteristics of progressive olfactory tract involvement mirrored those of the pre-existing glial tumor. In our series, 4 of the 6 patients with GBM had enhancing disease involving the olfactory bulb, while 2 patients had nonenhancing infiltrative lesions. For 4 of the 6 patients, the IDH1 genotyping was available. Of these patients, 1 patient with secondary IDH1-mutant disease demonstrated nonenhancing involvement of the olfactory nerve, while 3 patients with IDH1 wild-type disease all demonstrated enhancing tumor along the olfactory nerve. These findings are compatible with the most common MR imaging appearance of IDH1 wild-type versus mutant GBMs.⁸

In 1 case with a pre-existing glial tumor, there was widespread intracranial disease, including involvement of multiple cranial nerves, raising suspicion for leptomeningeal spread of disease, which resulted in the signal abnormality involving the olfactory nerve. However, in 6 of the remaining 10 progressive cases, there was concurrent or prior involvement of ipsilateral olfactory cortex by tumor, supporting the hypothesis of direct tumor progression through parenchymal glial tracts.

The sole case of primary glioma arising from the olfactory bulbs in our series was a pilocytic astrocytoma, which mimicked a meningioma on imaging as well as during surgical resection. While often seen in the setting of meningiomas, dural enhancement and thickening (also known as the dural tail sign) are nonspecific and have been reported with a variety of peripherally located parenchymal lesions.⁹ More specifically, supratentorial pilocytic astrocytomas adjacent to the cerebral convexity and anterior clinoid process have been reported to mimic meningiomas.^10,11

To our knowledge, this is the first time that a primary glial neoplasm has been reported to arise from the olfactory tract. Although a case report has previously reported olfactory groove involvement by a large pleomorphic xanthoastrocytoma, it is unclear whether the lesion originated from the inferior frontal lobe parenchyma or olfactory tracts on the basis of imaging and intraoperative findings.¹² Primary ganglioglioma, which contains both glial and neuronal cells, has previously been reported to involve the olfactory cortex and olfactory nerve.¹³ Primary tumors arising from olfactory ensheathing cells have also been previously described.¹⁴ These tumors can histologically resemble olfactory groove schwannomas, which are entities of unclear origin because Schwann cells are not found in the olfactory system, though various developmental and nondevelopmental theories have been proposed to explain the origin of these tumors.^15-17 These lesions can all appear similar radiologically as enhancing olfactory groove masses, which may remodel but not erode the skull base.

In all our cases, olfactory nerve involvement was detected on imaging follow-up of the patients’ known gliomas or work-up for an unrelated symptom/laboratory findings without a related symptom. In at least 3 of the progressive glioma cases, abnormal signal intensity could be seen in the olfactory nerve on retrospective review of examinations performed when the finding was first reported. This highlights the importance of including the olfactory nerves in one’s search pattern, because our study suggests that most patients would not present with new olfactory-related symptoms.

One of the limitations of this study is the lack of pathologic confirmation for most cases in which there was suspected involvement of the olfactory nerve by progressive glioma. In most of these cases, the ipsilateral olfactory nerve was involved or progressive disease was evident in other parts of the brain parenchyma. Thus, treatment strategies were altered on the basis of a combination of clinical and radiologic evidence of disease progression because pathologic confirmation would have demanded invasive procedures, which were not favored in risk-benefit analyses. In the single case in which a biopsy was obtained to confirm progressive disease (case 10), olfactory involvement represented the sole site of suspected recurrence and was located contralateral to the site of the previously resected tumor, thus presenting a diagnostic dilemma, which required pathologic confirmation.