Absence of Meckel Cave: A Rare Cause of Trigeminal Neuralgia

DISCUSSION

Absence of a Meckel cave is an uncommon imaging finding associated with TN. A few reported cases of this entity have been shown in patients with TN, including 1 case report and a series of 3 cases.^4⇓-6 Our case series presents 7 patients with absence of a Meckel cave, in which all subjects had atrophy of the ipsilateral trigeminal nerve and ipsilateral TN. No patients with an absent Meckel cave were asymptomatic. Recognition of this entity as a potential cause of TN may have important diagnostic and treatment considerations.

The Meckel cave is a CSF-filled space approximately 4 × 9 mm wide at its opening and 15 mm in length, located in the middle cranial fossa, serving as a channel for the trigeminal nerve between the prepontine cistern and the cavernous sinus, housing the Gasserian ganglion.⁷ Neuroimaging of the Meckel cave is frequently performed to identify a potential cause of trigeminal neuropathy. The Meckel cave is involved in a variety of congenital, infectious, inflammatory, vascular, and neoplastic pathologies.^7,8

Absence of a Meckel cave is poorly understood and rarely reported. Before our series, few reported cases of an absent Meckel cave have been associated with ipsilateral TN without any prior surgical intervention on the cave.^4⇓-6 A hypoplastic or absent Meckel cave has been occasionally described in the setting of congenital hypoplasia or aplasia of the trigeminal nerve; however, these cases have some key differences from our patients.^9,10 In contrast to our cohort, patients in these prior reports had symptoms that typically presented in early life and manifested as trigeminal neuropathy rather than neuralgia—commonly anesthesia in the trigeminal distribution and resulting neurotrophic keratitis.^9,10 Additionally, 1 patient in our cohort had progressive symptoms correlated with progressive atrophy of the trigeminal nerve, which suggest a potentially acquired etiology. In our institutional records, we found no descriptions of Meckel cave absence or its descriptive equivalents—such as total collapse or aplasia—in subjects without TN or contralateral TN. The evidence thus far, however scant, points to an etiologic implication of this entity in TN. Additionally, the otherwise normal structure and function of the trigeminal nerve and lack of other associated orofacial developmental abnormalities strongly suggest that absence or marked diminution of a Meckel cave is either an acquired contraction or a primary failure of establishment of the subarachnoid space in the cave. None of our patients had a history of craniofacial herpes zoster, meningitis, or other diagnosed inflammatory process. Additionally, only 1 patient had a history of prior intracranial surgery—unfortunately, lack of available preoperative imaging makes it uncertain whether absence of Meckel cave was present before surgery. Most important, the operative note reports that there was an atrophic nerve with no evidence of neurovascular compression. Patients were all also naïve to any direct procedure on the trigeminal nerve or ganglion for TN relief. The onset of TN was also insidious, as typically seen in TN secondary to vascular impingement.

Regarding the alternative possibility of primary failure of development of the CSF space in the cave, the onset of TN late in life may be due to changes in dural compliance and thickness, leading to progressive compression of the ganglion with aging.¹¹ Experimental constriction of the peripheral nerves has been shown to result in cytokine-mediated sensitization of the dorsal root ganglion by up-regulation of voltage-gated sodium channels. A similar mechanism has been suspected in compressive radiculopathy by herniated discs.¹² The arachnoid membrane continues from the posterior fossa into the Meckel cave, forming a CSF compartment within the cave, and extends along the nerve rootlets anteriorly to the Gasserian ganglion. The presence of surrounding CSF appears to play a critical role in the physiology and health of the sensory ganglia. Dorsal root ganglia of the spinal cord are also surrounded by a thin layer of CSF carried along the perineural sheath, and transport of intrathecal India ink particles and gene vector particles to the dorsal root ganglia is well-established.¹³

Schwann cell damage, loss of peripheral myelin, and endothelial and smooth muscle degeneration with increased collagen in the wall of the trigeminal arterioles have all been reported in patients with TN.¹⁴ Loss of surrounding CSF could lead to impairment of normal myelin and vascular repair mechanisms in the ganglia. CSF may be a normal pathway for clearance of proinflammatory cytokines such as tumor necrosis factor-α, which are known to upregulate voltage-gated sodium channels leading to the increased or ectopic firing of ganglionic neurons.¹⁵ Collapse of a Meckel cave is known to occur in spontaneous intracranial hypotension secondary to CSF hypovolemia. Facial pain and dysesthesia commonly accompany headache in spontaneous intracranial hypotension. It is entirely conceivable that the loss of CSF in a Meckel cave could play a similar role in developing trigeminal nerve hypersensitivity in spontaneous intracranial hypotension.

Our cohort had a mean age of 46.6 years, and all were women. This is in agreement with the previous reported mean ages of patients with classic TN (53 years) and secondary TN (43 years).^16,17 Likewise, the incidence of TN is higher in women.^18,19 The clinical presentation was similar to the more common etiologies. All patients presented with the classic electric shock-like pain along the nerve distribution and had various stimuli beyond the region of pain triggering their episodes. Most interesting, 1 patient presented with symptoms of trigeminal neuropathy with facial numbness along the V2 and V3 distributions 6 years before development of TN. On imaging, this patient had progressive trigeminal nerve atrophy across the time course of developing TN symptoms.

TN in these cases appeared to be mostly refractory to medical and procedural treatment. Microvascular decompression was not helpful in alleviating TN, and a better symptomatic response was observed after balloon compression or stereotactic radiosurgery. It is conceivable that inflation of the balloon might restore the CSF space in a Meckel cave.

Several limitations are noteworthy. The small number of patients and retrospective nature of the study limit the ability to determine causation of the absence of a Meckel cave with TN, though 100% of patients did have TN. Additionally, few surgical interventions were performed with no randomization or blinding. Thus, appropriate management of these patients cannot be completely determined, and future studies will be needed to better understand treatment outcomes. There were also limitations with imaging, such as lack of standardized protocol with 1 patient not having high-resolution CISS-like sequence or the equivalent.