Abstract
SUMMARY: A 36-year-old woman presented with glossopharyngeal and vagus nerve palsy, which proved to be herpes zoster based on the high titers of Varicella zoster virus antibody in her serum. Thin-section T1-weighted images with contrast media demonstrated swelling and distinct contrast enhancement of the glossopharyngeal and vagus complex, mimicking a tumor. Following MR imaging, the size of the nerve complex returned to normal; however, the contrast enhancement remained longer than the symptoms.
Varicella zoster virus has a high affinity for the ganglion and causes various neuropathies including Ramsay Hunt syndrome. I was able to detect and follow abnormalities in the glossopharyngeal and vagus nerve (cranial nerves IX and X) complex in a patient with herpes zoster by using thin-section MR imaging with contrast media. Although many reports have documented the MR imaging findings of Ramsay Hunt syndrome,1–7 only a few have described abnormalities of cranial nerves IX and X. I present a series of MR images of abnormalities in the cranial nerve IX and X complex and discuss the association between these findings and the patient's symptoms.
Case Report
A 36-year-old woman had a sore throat on December 17, 2006. She consulted an otorhinologist and was prescribed drugs (600-mg ibuprofen and 1000-mg ampicillin daily). By December 19, her sore throat had worsened, and she noticed swelling of the neck lymph nodes. The following day she had trouble swallowing, and on the day after that, she had not only a slight fever and sore throat but also hoarseness. On December 25, a few blisters on the left aryepiglottic fold and paresis of the left soft palate were noticed. She was prescribed an antiherpetic drug (3000-mg valacyclovir hydrochloride daily) for 7 days (from December 25 to 31). On December 30, the fever, sore throat, and blisters on the aryepiglottic fold disappeared, and the paresis of the left soft palate and left vocal cord improved. By January 19, 2007, the swallowing disturbance and hoarseness had improved. By February 16, the paresis of the left vocal cord, hoarseness, and swallowing disturbance had disappeared completely.
Biochemical examination of blood obtained on December 19, 2006, revealed the following values: white blood cell count, 5700/μL; red blood cell count, 4,730,000/μL; lactate dehydrogenase, 208 IU/L; and C-reactive protein, <0.1 mg/dL. In serum from blood obtained on December 25, 2006, and January 12, 2007, the titers of antibodies to Varicella zoster virus, immunoglobulin G, and immunoglobulin M were significantly elevated.
To examine abnormalities of cranial nerves IX and X, I obtained MR images including T1-weighted images (TR, 520 ms; TE, 15 ms; FOV, 24 × 24 cm; section thickness, 7 mm; section gap, 2 mm; matrix, 512 × 256; NEX, 2); T2-weighted images (TR, 4000 ms; TE, 102 ms; FOV, 24 × 24 cm; section thickness, 7 mm; section gap, 2 mm; matrix, 512 × 256; NEX, 2; echo-train length, 12); routine T1-weighted images with contrast media (intravenous administration of 0.1 mmol/Kg of gadopentetate dimeglumine, Magnevist; Bayer-Schering Pharma, Osaka, Japan); and thin-section T1-weighted images (1-mm-thick) with contrast media reformed by using 3D Fourier transformation spoiled gradient-recalled-echo (SPGR) images (TR, 30 ms; TE, 4.3 ms; flip angle, 35°; FOV, 18 × 18 cm; slab thickness, 64 mm; matrix, 256 × 256 × 80; NEX, 1) on December 26, 2006 and January 19, February 16, and March 13, 2007, respectively. The MR imaging study was performed by using a 1.5T superconducting system (Signa Excite; GE Healthcare, Milwaukee, Wis) with an 8-channel neurovascular phased-array coil.
Although no abnormalities in the brain were detected on routine T1-weighted images, T2-weighted or T1-weighted images with contrast media, thin-section T1-weighted images with contrast media revealed abnormalities of cranial nerves IX and X. The nerve complex from the cisternal to the ganglionic region had thickened and had a distinct contrast enhancement resembling a tumor, such as a schwannoma (Fig 1). As time passed, the mass effect diminished and the contrast enhancement faded out; however, the enhancement remained longer than the symptoms (Figs 2–⇓4). Abnormal contrast enhancement of the facial nerve or acoustic nerve was not seen in any MR imaging examination.
Discussion
Facial nerve palsy is well known as Ramsay Hunt syndrome and is caused by reactivation of the Varicella zoster virus. Patients with Ramsay Hunt syndrome typically present with a peripheral facial nerve palsy associated with sensorineural hearing loss, tinnitus, vertigo with nystagmus, and painful vesicular eruption. However, numerous articles have recently reported various cranial neuropathies, other than those of the facial and acoustic nerves.1,8–15 In particular, there have been many case reports of patients with glossopharyngeal and vagus nerve palsy caused by Varicella zoster virus infection, as in the present case.1,9–12,14,15 However, only a few have described the MR imaging findings of glossopharyngeal and vagus nerve palsy.1,15 Fortunately, I had the chance to depict and follow the abnormalities in the cranial nerve IX and X complex by using thin-section MR imaging with contrast media in a patient with Varicella zoster virus infection.
Reports of Ramsay Hunt syndrome have noted that the facial nerve under contrast enhancement might swell and resemble a small tumor.4–7 In the present case, when the symptoms were acute, the nerve complex also showed severe swelling. Previous histologic examination4 has revealed inflammatory infiltrates of lymphocytes and plasma cells in the geniculate ganglion of the facial nerve. In addition, intraneural edema in the neuronal nerve sheaths caused by breakdown of the blood–peripheral nerve barrier and by venous congestion in the epineural and perineural venous plexus was presumed.6,7 These inflammatory cells and edema most likely caused the swelling of the infected cranial nerves in the present patient.
In normal cranial nerves, contrast enhancement is not seen because of the blood-nerve barrier; however, in the first MR imaging study, cranial nerves IX and X had thickened, resembling a tumor (eg, a schwannoma) and had distinct contrast enhancement. As the mass effect of the nerve complex regressed, the symptoms improved; this change suggested some relationship between the swelling of the nerves and the symptoms. However, the contrast enhancement remained on the MR images obtained on February 16 and March 13, when the symptoms had already disappeared. A similar phenomenon of prolongation of contrast enhancement has previously been documented in cases of Ramsay Hunt syndrome and Bell palsy.7 The authors of that article suggested that no relationship could be established between the intensity of the enhancement and the prognosis for the facial palsy and that the long-lasting contrast enhancement was associated with a 2-phase breakdown in the blood-brain-nerve barrier consisting of breakdown of the endoneural barrier followed by breakdown of the perineurium.7 Therefore, swelling of the cranial nerves, not contrast enhancement, may be an indicator of the prognosis in neuropathies due to herpes zoster.
To the best of my knowledge, 2 case reports demonstrated the abnormalities of cranial nerves IX and X in patients with herpes zoster with MR imaging using contrast media.1,15 One depicted the liner and small nodular enhancement in cranial nerves IX and X and the ganglionic region,1 and the other report revealed a nodular lesion with contrast enhancement at the medial side of the left jugular foramen.15 These findings were somewhat similar to those of the present case when the symptoms were intense; however, unfortunately they did not offer a series of MR images following the abnormalities. The present case is very important for investigating the relationship between the MR imaging findings and symptoms.
Conclusions
I obtained a series of thin-section (1-mm-thick) T1-weighted images with contrast media following abnormalities in the glossopharyngeal and vagus nerve complex from infection by Varicella zoster virus. It may be that the natural course of reactivation of Varicella zoster virus is cranial nerve swelling when the symptoms are intense and prolonged contrast enhancement lasts longer than the symptoms.
References
- Received February 15, 2008.
- Accepted after revision March 3, 2008.
- Copyright © American Society of Neuroradiology