AbstractAcute laryngitis and acute inflammatory diseases of either infectious or non-infectious causes have similarities with herpes zoster of the vagus nerve (VHZ). We present a case which was initially diagnosis wtih acute laryngitis but finally diagnosed as VHZ. A 41-year-old male presented with an ongoing fever, throat pain and right otalgia lasting for two days with worsening symptoms despite nonsteroidal anti-inflammatory drug medication. Initially, he was treated conservatively as acute laryngitis was suspected. However, VHZ was subsequently diagnosed in this patient after considering unilateral auricular and laryngeal vesicles which were followed by ipsilateral vocal fold paresis. An antiherpetic agent and prednisolone were administered upon the presentation of vocal fold paresis. Axonotmesis was discovered by laryngeal electromyography one week after the appearance of vocal fold paresis. All symptoms subsided after one month. These results highlight the importance of understanding vagus nerve function in developing a differential diagnosis for laryngitis and VHZ.
IntroductionAcute laryngitis is an acute inflammatory condition of the larynx with either infectious or non-infectious etiology [1]. Although acute laryngitis is clinically diagnosed and usually self-limiting disease, attention should be given to diagnosis and treatment in atypical cases [2]. Branch of the vagus nerve innervates each side of the larynx providing sensory function. Therefore, acute laryngitis can be clinically similar to herpes zoster infection of the larynx when varicella zoster virus (VZV) affects the vagus nerve [3]. A significant diagnostic finding of herpes zoster of the vagus nerve (VHZ) is unilateral vesicular eruption of the larynx as observed by laryngoscopy. However, VHZ is not typically suspected because of its rare occurrence [4]. Thus, understanding vagus nerve function and the manifestations of VHZ are important for proper diagnosis. Herein, we report a case of VHZ that initially presented with acute laryngitis followed by vocal fold paresis.
CaseA 41-year-old male presented with ongoing fever, throat pain and right otalgia lasting for two days with worsening symptoms despite nonsteroidal anti-inflammatory drug (NSAID) medication (talniflumate 370 mg, three times/day). There was no underlying disease other than well controlled type II diabetes mellitus. The patient presented with laryngeal swelling limited to the right aryepiglottic fold, which was discovered during laryngoscopy. However, no definite lesions were identified on the tympanic membrane, external auditory canal, or auricle. The patient was hospitalized with severe throat pain and dehydration.
Leukocytosis was observed on laboratory examination indicating possible bacterial laryngitis. Therefore, antibiotics and an NSAID were administered. However, skin vesicles on the right auricle (cavum area) and ipsilateral laryngeal ulcers on the right side of the epiglottis and the aryepiglottic fold occurred one day after admission (Fig. 1A and B). VHZ was suspected because these areas are innervated by sensory branches of the vagus nerve. VZV polymerase chain reaction (PCR) and a Tzank smear were performed. Although results of Tzank test were negative, typical vesicles were present on the auricle and larynx. Therefore, the patient was treated with an antiherpetic agent (famciclovir 750 mg/day).
The day after vesicular eruption of auricle and the larynx, the patient suddenly complained of hoarseness. Impairment of right vocal fold mobility was observed by laryngoscopy (Fig. 1C and D). Movements of tongue, uvula, and shoulder were normal. In addition, there was no facial palsy or nystagmus, and Rinne and Weber tests were also normal. Contrast computed tomography of the neck was performed for differential diagnosis of other diseases causing impairment of vocal fold mobility. There was no pathological lesion except dilatation of the right pyriform sinus. Prednisolone (40 mg/day) was given for five days while monitoring blood glucose to minimize additional nerve damage and prevent postherpetic neuralgia. Fever and pain subsided four days after hospitalization, which was a week after the onset of symptoms. VZV DNA PCR and IgM serologic test results were negative upon disappearance of symptoms.
Laryngeal electromyography (EMG) was performed on both the cricothyroid and thyroarytenoid muscles one week after right vocal fold paresis appeared. Positive sharp waves (PSW) were detected on the right cricothyroid muscle in the resting state, and motor unit action potential of the right cricothyroid muscle (size and number of muscle fibers) was reduced during phonation. This may have been due to nerve damage (Fig. 2). However, EMG evaluation of the thyroarytenoid muscle failed despite several attempts because of severe pain during needle insertion and muscularity of the patient’s neck. Improvement in laryngeal ulcers and auricular skin vesicles was observed within two weeks after the appearance of symptoms, and vocal fold mobility completely recovered after one month.
DiscussionThe vagus nerve originates at the medulla oblongata of the brainstem and controls the autonomic nervous system, sensory action of various organs, and motor function of some skeletal muscles [3]. Since the main manifestation of herpes zoster (HZ) infection is a skin or mucosal lesion appearing in an area that is innervated by an infected nerve, the location of vesicles indicates which nerve is affected by VZV infection [5,6]. Thus, VHZ was suspected in this patient because of the observation of vesicular lesions in the ipsilateral auricle and larynx. In addition, accompanying ipsilateral vocal fold paresis made VHZ more likely based on the function of the vagus nerve. Although specific serum antibody titers and VZV PCR exhibit high sensitivity and specificity in the diagnosis of HZ, it is important to consider that false negatives may be seen in the acute phase of HZ infection or in immunocompromised patients [7]. In the literature review, VZV infection of cranial nerve generally present as multiple cranial neuropathies, and isolated vagus nerve involvement of HZ has been reported only a few cases [5,8]. Thus, understanding the functions of the vagus nerve is critical for differential diagnosis of VHZ or acute laryngitis.
Attention should be given to patients infected with HZ to minimize the risk of permanent nerve dysfunction, postherpetic neuralgia, and motor nerve palsy. Injury of the infected nerve is the pathogenic cause of neuropathy upon VZV reactivation. This injury is due to inflammation or impairment of vascular circulation followed by permanent scarring. Antiherpetic agents are known to reduce acute pain, duration of viral shedding, and risk of postherpetic neuralgia in HZ infection [9]. In addition, steroid therapy is an important option for treatment HZ infection and is also widely used in patients with Ramsay Hunt syndrome [10]. Although the use of steroids for the recovery of vocal fold mobility in general idiopathic vocal fold palsy is controversial, steroid use may be helpful for reducing postherpetic pain and improving the prognosis of VHZ by minimizing further nerve injury [11].
Although vocal fold paresis can be simply diagnosed by laryngoscopy, electrophysiologic tests such as electroneurography or EMG are performed for the diagnosis and prognosis of injury to motor nerves [12,13]. Nerve damage is generally classified into three types: neurapraxia, axonotmesis, and neurotmesis, which are considered first-, second-, and third-degree injuries, respectively. Neuraparaxia is predominantly caused by blunt trauma and causes a temporary conduction block with demyelination. Axonotmesis is axonal loss associated with preservation of connective tissue layers. Neurotmesis is the disruption of the nerve and nerve sheath with only partial recovery. This classification system is helpful for understanding the degree of nerve injury and prediction of motor function recovery. The timing of EMG implementation is recommended 2-3 months after nerve injury since there is minimal risk of further degradation of nerve function and relatively accurate prediction of recovery at that time [14]. PSW (spontaneous action potential from denervated muscle fiber) was detected one week after vocal fold paresis in the case described herein. Since PSW is generally detected within 1-2 weeks after neuropathies, this finding indicated that recovery of nerve conduction was likely due to the preservation of the connective tissue layer. In the current case, we observed diagnostically relevant PSW and predicted recovery of vocal fold mobility shortly after injury. However, we were able to detect PSW in only cricothyroid muscle, but not in thyroarytenoid muscle. EMG evaluation of thyroarytenoid muscle was impossible despite several attempts in this patient because of severe pain upon needle insertion. Thus, we should keep in mind that EMG of the thyroarytenoid muscle may not be possible in obese or uncooperative patient [15].
A thorough understanding of vagus nerve function is important for the differential diagnosis of laryngitis and VHZ. Careful physical examination including laryngoscopy is an essential procedure. In addition, early EMG also may help to estimate the degree of nerve injury and predict recovery of vocal fold mobility.
NotesAuthor Contribution Conceptualization: Bo Hae Kim, Seok-Won Park. Data curation: Sang Woo Kim. Formal analysis: Bo Hae Kim. Methodology: Bo Hae Kim. Supervision: Bo Hae Kim. Visualization: Sang Woo Kim, Jung-Woo Shin. Writing—original draft: Jung-Woo Shin. Writing—review & editing: Jung-Woo Shin, Bo Hae Kim. REFERENCES1. Chandler M, Mintz ML. Laryngitis and hoarseness. In: Mintz ML, ed. Disorders of the Respiratory Tract: Common Challenges in Primary Care. Totowa, NJ: Humana Press; 2006. p. 89-99.
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