Asymmetric Meckel Cave Enlargement: A Potential Marker of PHACES Syndrome

Discussion

A subset of patients with large or segmental head and neck hemangiomas will have associated morphologic abnormalities that have fallen under the rubric of PHACES, a neurocutaneous syndrome of uncertain etiology. In our series, 29% of patients referred for MR imaging evaluation for suspicion of PHACES were ultimately diagnosed with PHACES or possible PHACES per consensus guidelines, in line with the overall prevalence reported in prior studies.^1,6

Thorough and accurate neuroimaging evaluation is one of the mainstays of complete evaluation for such patients, with MR imaging of the brain and MRA of the head and neck recommended in all cases. In addition to evaluating the distribution and extent of proliferative phase infantile hemangiomas, these studies may reveal abnormalities of the posterior fossa, cervicocranial arteries, globes, or aortic arch and great vessels. These findings are important for optimal risk assessment before initiation of β blocker therapy for hemangiomas,^2,3 as well as to cue neurodevelopmental surveillance for possible associated speech and language delays related to posterior fossa anomalies.^4,5

In this study, we have demonstrated that the finding of asymmetric Meckel cave enlargement ipsilateral to the facial hemangioma is a common feature of PHACES, present in 76% of patients. This imaging finding can serve as a useful and conspicuous marker for the syndrome. When applied as an independent diagnostic criterion to our full patient cohort, the finding demonstrated a sensitivity of 76%, a specificity of 100%, a positive predictive value of 100%, a negative predictive value of 91%, and an accuracy of 93% in predicting a clinical diagnosis of PHACES or possible PHACES syndrome.

In no case was asymmetric Meckel cave enlargement an isolated intracranial finding of PHACES. However, greater than one-third of our patients with Meckel cave enlargement had additional subtle stigmata of PHACES that were missed on the initial evaluation. These may have been more easily or accurately identified with a heightened pretest probability for PHACES associated with asymmetric Meckel cave enlargement. Thus, recognition of this finding could increase the diagnostic sensitivity of neuroimaging for PHACES syndrome. If these additional intracranial findings had been prospectively made in the setting of asymmetric Meckel cave enlargement, the diagnostic sensitivity of MR imaging/MRA for PHACES would have increased by 24% in our cohort.

Meckel cave enlargement as a finding in PHACES syndrome has only rarely been described in the literature to date, to our knowledge, and is not an abnormality that is currently included in the consensus criteria for PHACES. Given the incidence of the finding in our cohort, this omission likely reflects under-reporting. Oza et al⁸ described the finding of unilateral Meckel cave prominence in 3 of the 16 patients in their series. The finding was subsequently described in 2 additional case reports.^9,10 Unilateral Meckel cave enlargement is also demonstrated in Figs 6 and 7 in the text Vascular Lesions of the Head and Neck: Diagnosis and Management by Persky et al,¹¹ Figs 1 and 2 from the article by Judd et al,¹² and Fig 5 from the article by Meltzer et al.¹³ Furthermore, some authors have described an association of arachnoid cysts and PHACES,^{1,2,6,8,12,14} and an asymmetric Meckel cave could conceivably be confused with a middle cranial fossa arachnoid cyst, as was the case in one of our patients (patient 21).

The etiology of unilateral Meckel cave enlargement ipsilateral to the facial hemangioma and posterior fossa anomalies in PHACES syndrome is not definitely known. One plausible explanation derives from the theory that PHACES is caused by aberrant or deficient migration of the cephalic neural crest in a metameric distribution.¹⁵ Neural crest cells and paraxial mesoderm derived from the rhombencephalic metamere contribute to the formation of the skull base; trigeminal nerve ganglia; and facial bones, soft tissues, and blood vessels. Meckel cave enlargement may therefore represent a component of skull base dysplasia secondary to a postzygotic mutation or early prenatal insult in this territory. A similar theory was advanced to explain the relatively high incidence of enlarged IACs seen in PHACES syndrome observed by Meltzer et al.¹³

Alternatively, unilateral enlargement of Meckel cave may be the result of direct expansion secondary to an extant or previously involuted Meckel cave hemangioma. Judd et al¹² reported on the association between PHACES and intracranial hemangiomas. Most commonly described in the cerebellopontine angle or IAC, hemangiomas centered in or extending to Meckel cave both have been described in the literature^12,13 and noted in our series. One of the patients described by Judd et al demonstrated an enlarged Meckel cave containing a hemangioma on initial imaging (Fig 2C in Judd et al), which then progressed to isolated Meckel cave enlargement following hemangioma involution (Fig 2E in Judd et al), supporting a mechanical etiology of the enlargement.

Metzler et al¹³ similarly raised the possibility of a causal association between IAC hemangioma and IAC enlargement. This was based on the increased prevalence of IAC hemangiomas within the enlarged IACs in children when imaged at younger than 1 year of age, compared with children older than 1 year of age at initial imaging, in whom the hemangiomas were presumed to have previously involuted. Given that Meckel cave hemangioma was present in only 1 of 19 patients with Meckel cave enlargement in our cohort, with a median age of 4 months at imaging, it is unlikely that mechanical enlargement can adequately explain the etiology of this finding in all patients in our cohort.

Limitations of our study included the retrospective nature of the analysis and the relatively small sample size. Also, a subset of patients with PHACES may possibly present without obvious cutaneous stigmata. These patients would likely have been missed by our diagnostic algorithm, and any data regarding the prevalence of asymmetric Meckel cave enlargement may not be applicable to this population of patients.