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An unusual cause of chronic otitis media with effusion

Published online by Cambridge University Press:  30 January 2014

L Cooper*
Affiliation:
Otorhinolaryngology Department, The Royal London Hospital, London, UK
K Ford
Affiliation:
Cardiothoracic Department, King's College Hospital, London, UK
R Talwar
Affiliation:
Otorhinolaryngology Department, The Royal London Hospital, London, UK
M Wareing
Affiliation:
Otorhinolaryngology Department, The Royal London Hospital, London, UK
*
Address for correspondence: Ms Lilli Cooper, Otorhinolaryngology Department, The Royal London Hospital, Whitechapel Rd, London E1 1BB, UK Fax: +44 (0)20 3594 1206 E-mail: lillicooper@doctors.org.uk
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Abstract

Objective:

To describe an unusual cause for hearing loss in an adult.

Case report:

A 37-year-old man presented with a year's history of right-sided hearing loss. He had no history of trauma, or local or systemic infection. He was otherwise well, took no medication and had no allergies. He had a two-year history of low back pain. On examination, he had a retracted right tympanic membrane with no perforation, and a middle-ear effusion. Nasendoscopy was normal. Examination of other systems was unremarkable. Computed tomography of the temporal bones with contrast demonstrated a large, right, intra-cerebral internal carotid artery aneurysm compressing the eustachian tube. After a balloon occlusion test, he underwent endovascular occlusion of the parent vessel. He made a good post-operative recovery. A subsequent abdominal ultrasound excluded an abdominal aneurysm as a cause of his low back pain. His hearing had not improved three days post-operatively, and was to be formally assessed and monitored in the clinic.

Discussion:

A carotid aneurysm is a rare cause of eustachian tube compression but must be considered in the differential diagnosis of conductive hearing loss. Aneurysms may have systemic causes, and their presence in other systems should be excluded as they may be multiple.

Type
Clinical Records
Copyright
Copyright © JLO (1984) Limited 2014 

Introduction

Conductive hearing loss may be secondary to eustachian tube dysfunction. Anatomically, the middle ear is a box linked by the eustachian tube to the nasopharynx. Blockage of the eustachian tube prevents drainage and pressure equalisation of the middle ear. When the eustachian tube is blocked, negative pressure may develop within the middle ear as the nitrogen and oxygen contained within it is absorbed. The negative pressure causes transudate to collect from the surrounding mucosa, creating an effusion. This may cause symptoms of conductive hearing loss, and potentially otorrhoea, should secondary infection and perforation of the tympanic membrane occur.

The eustachian tube may become blocked from within its lumen, within its wall, or due to extrinsic pressure from outside. The commonest causes in adults are mucosal inflammation associated with infection, smoking, reflux, paranasal sinus disease and barotrauma.Reference Finkelstein, Ophir, Talmi, Shabtai, Strauss and Zohar1 Though relatively rare, nasopharyngeal malignancy must be excluded as a cause of eustachian tube pathology in adults.Reference Mair, Schroder and Kearney2 Recommended investigations in adults with eustachian tube dysfunction include nasendoscopy, audiometry, computed tomography (CT) of the temporal bone and magnetic resonance imaging, if intratemporal or intracranial complications are suspected.Reference Finkelstein, Ophir, Talmi, Shabtai, Strauss and Zohar1

A rare cause of eustachian tube compression is an aneurysm of the petrous or cavernous segment of the extradural internal carotid artery. Such aneurysms may present with otological manifestations such as hearing loss and tinnitus, or with devastating haemorrhage from the nose or ear.Reference Moonis, Hwang, Ahmed, Weigele and Hurst3, Reference Davies, Dale and Renowden4 Congenital, mycotic, iatrogenic and traumatic causes have all been implicated in aneurysm formation.Reference Lau and Chow5, Reference Mori, Murayama, Irie, Takao, Ebara and Ishibashi6 Congenital carotid aneurysms may be associated with underlying connective tissue disorders,Reference Finney, Roberts and Anderson7 and possibly also aneurysms elsewhere, such as in the abdominal aorta, if atherosclerosis is the causative factor.Reference Johnsen, Forsdahl, Solberg, Singh and Jacobsen8 Aneurysms of the petrous or cavernous segment of the internal carotid artery are difficult to access, so endovascular embolisation may be used as a treatment strategy,Reference Abe, Takemoto, Higashi and Inoue9 as may proximal surgical ligation.Reference Singh, Thomas, Hoe and Sethi10

Case report

A 37-year-old man presented to a tertiary teaching hospital in the UK with one year's history of right-sided deafness and recent serous otorrhoea. He had no history of trauma to the ear, no symptoms of tinnitus or dizziness, and no otalgia. He had been unsuccessfully treated for unilateral chronic otitis media with effusion by his general practitioner, using oral antibiotics and ear drops. He was otherwise healthy, with no recent weight loss, pyrexia, or past medical or relevant family history. He was a non-smoker, took no regular medications and had no allergies. He incidentally complained of low back pain for the last two years, which did not respond to analgesia and for which no cause had been identified on blood tests or plain lumbar X-ray.

On examination, the patient appeared comfortable. He had a retracted tympanic membrane on the right side, described as Sadé grade two (i.e. in contact with the incus or stapes).Reference Sadé11 An effusion was evident in the middle ear and there was no tympanic membrane perforation. He had no mastoid tenderness or skin changes around the ear, and was afebrile. His cranial nerves were grossly intact. The rest of his examination, with nasendoscopy, was unremarkable.

Pure tone audiometry demonstrated a right-sided conductive deafness, with an air–bone gap of 40 dB. On the left side, he displayed normal thresholds.

The patient's CT scan demonstrated a large, expansile mass, most likely a giant aneurysm of the petrocavernous segment of the right internal carotid artery.

When further investigated with an arterial contrast study (see Figures 1 and 2), an aneurysm was seen, described as follows.

There is a marked, predominantly fusiform aneurysmal dilatation from the level of just below the skull base and entry point into the carotid canal up to the carotid siphon. However, the segment of the right internal carotid artery related to the carotid canal exhibits frank fusiform aneurysmal change with non-enhancing peripheral thrombus related to the aneurysmal ‘sac’. As a result of the expansile nature of the aneurysm related to the carotid canal segment of the internal carotid artery, there is compromise of the eustachian tube with secondary opacification of the right middle-ear cavity and mastoid air cells. Medially, as a result of the expansile nature of the aneurysm related to the right carotid canal, there is pressure erosion of the lateral aspect of the right side of the osseous basisphenoid. The petrocavernous junction of the aneurysm is indenting the posterolateral wall of the sphenoid sinus with thinning and pressure erosion of this part of the sphenoid sinus and radiologically, this is a concerning potential site of rupture into the sphenoid sinus for the aneurysm.

Fig. 1 Coronal computed tomography angiogram showing the intracranial internal carotid artery aneurysm. F=feet; A=anterior.

Fig. 2 Axial computed tomography angiogram showing the intracranial internal carotid artery aneurysm. P=posterior.

The patient had a successful balloon occlusion test and proceeded to interventional radiological parent vessel occlusion in the upper cervical segment. Several days post-operatively, his hearing had not yet been restored; however, the procedure would be expected to alleviate the risk of a life-threatening haemorrhage caused by the carotid eroding through the sphenoid sinus. Abdominal ultrasonography showed no evidence of an abdominal aortic aneurysm.

  • Intracranial internal carotid artery aneurysms may present with symptoms of compression of local structures, e.g. the eustachian tube, causing otitis media with effusion

  • Patients should be screened for underlying causes of or pre-dispositions to aneurysms

  • Management of giant intracerebral aneurysms depends on collateral cerebral blood supply, and may be interventional or surgical

Discussion

This patient presented with a rare complication of what was probably a congenital intracranial internal carotid artery aneurysm. Whilst this is a rare differential for the common condition of otitis media with effusion, it is an important one to bear in mind. Each of the causes of aneurysm may have systemic associations; for example, a patient with a congenital or acquired predisposition to aneurysms may have aneurysms elsewhere, as may a patient with aneurysms due to mycotic disease. It is also important to exclude aneurysms as underlying causes of symptoms in other systems.

References

1Finkelstein, Y, Ophir, D, Talmi, YP, Shabtai, A, Strauss, M, Zohar, Y. Adult-onset otitis media with effusion. Arch Otolaryngol Head Neck Surg 1994;120:517–27CrossRefGoogle ScholarPubMed
2Mair, IWS, Schroder, KE, Kearney, MS. Chronic serous otitis media in the adult. J Laryngol Otol 1979;93:135–42CrossRefGoogle ScholarPubMed
3Moonis, G, Hwang, CJ, Ahmed, T, Weigele, JB, Hurst, RW. Otologic manifestations of petrous carotid aneurysms. AJNR Am J Neuroradiol 2005;26:1324–7Google Scholar
4Davies, A, Dale, O, Renowden, S. Spontaneous rupture of an intra-cavernous internal carotid artery aneurysm presenting with massive epistaxis. J Laryngol Otol 2011;125:1070–2CrossRefGoogle ScholarPubMed
5Lau, WY, Chow, CK. Radiation-induced petrous internal carotid artery aneurysm. Ann Otol Rhinol Laryngol 2005;114:939–40Google Scholar
6Mori, R, Murayama, Y, Irie, K, Takao, H, Ebara, M, Ishibashi, T et al. Endovascular treatment of large petrous internal carotid artery aneurysm associated with chronic otitis media: case report [in Japanese]. No Shinkei Geka 2006;34:415–19Google Scholar
7Finney, LH, Roberts, TS, Anderson, RE. Giant intracranial aneurysm associated with Marfan's syndrome: a case report. J Neurosurg 1976;45:342–7CrossRefGoogle Scholar
8Johnsen, SH, Forsdahl, SH, Solberg, S, Singh, K, Jacobsen, BK. Carotid atherosclerosis and relation to growth of infrarenal aortic diameter and follow-up diameter: the Tromso Study. Eur J Vasc Endovasc Surg 2013;45:135–40CrossRefGoogle ScholarPubMed
9Abe, H, Takemoto, K, Higashi, T, Inoue, T. Surgical treatment for aneurysms in the cavernous-petrous portion of the internal carotid artery. Acta Neurochir Suppl (Wien) 2011;112:7783CrossRefGoogle ScholarPubMed
10Singh, H, Thomas, J, Hoe, WL, Sethi, DS. Giant petrous carotid aneurysm: persistent epistaxis despite internal carotid artery ligation. J Laryngol Otol 2008;122:e18Google Scholar
11Sadé, J. Treatment of cholesteatoma and retraction pockets. Eur Arch Otorhinolaryngol 1998;250:193–9Google Scholar
Figure 0

Fig. 1 Coronal computed tomography angiogram showing the intracranial internal carotid artery aneurysm. F=feet; A=anterior.

Figure 1

Fig. 2 Axial computed tomography angiogram showing the intracranial internal carotid artery aneurysm. P=posterior.