Ectopic lingual goiter treated by transoral robotic surgery.

Multinodular goiter in lingual thyroid is quite rare. Surgical removal is indicated in symptomatic patients and when cancer is suspected. An external approach is most often used, but is associated with morbidity and sequelae. In this study, we present for the first time the technique of transoral robotic surgery (TORS) for removal of a massive lingual goiter. Prospective patient data were collected, including demographics, medical history, symptoms, comorbidities and drugs prescribed. The da Vinci Surgical System was used for a transoral approach to the oropharynx. The technique was validated in a 31-year-old woman with signs and symptoms of multinodular goiter presenting since childhood. The procedure required 115 min, with intervals as follows: tracheotomy, 25 min; robot setting time, 20 min; and console time, 70 min. TOR S is feasible in cases of multinodular goiter in a lingual thyroid. The procedure appears to be safe, with quick recovery of swallowing and speech.

Introduction

Lingual thyroid results from the failure of descent of the thyroid gland from the foramen cecum to a definitive position in the anterior neck. Normally, migration of the gland starts during the fourth embryonic week. The gland initially is attached to the foramen cecum by the thyroglossal duct, which atrophies beginning in the seventh embryological week. The pathogenesis of the migration defect is unclear; some Authors postulate that maternal anti-thyroid antibody inhibits growth and migration of the embryonic thyroid.

The lingual thyroid, first described by Hickman in 1869, is the most common location for thyroid ectopias, with 400 previously reported cases , and a reported prevalence of about 1 in 200,000, with a female predilection. Lingual thyroid is usually asymptomatic, and its malignant transformation is no more common than that of a normally placed thyroid gland , with an estimated incidence of 1% . Multinodular goiter in a lingual thyroid is quite rare, with very few cases described in the literature . In about 70% of cases, lingual thyroid is the only functioning thyroid tissue that shows symptomatic enlargement or inflammation. Diagnosis is based on physical examination and imaging . The management of lingual thyroid includes observation, suppressive therapy, radioactive iodine treatment and surgery.

Surgery is indicated in symptomatic patients presenting with dyspnoea, dysphagia, speech impairment, throat fullness, or obstructive sleep apnoea. In most cases, a transcervical or transmandibular approach is required, with consequent morbidity related to the splitting of the lip, tongue and mandible. A minimally-invasive endoscopically guided technique for lingual thyroidectomy has been proposed by Terris , but no case of large ectopic multinodular lingual goiter treated with a transoral approach has been reported in the literature. We present the first case of ectopic lingual goiter treated by transoral robotic surgery (TORS).

Clinical techniques and technologies

Prospective patient data were collected, including demographic information, medical history, symptoms, comorbidities and drugs prescribed. Preoperative assessment included physical examination, transnasal video endoscopy, blood tests for thyroid function assessment and head and neck magnetic resonance imaging. The local ethics committee approved the use of transoral robotic-assisted surgery for oropharyngeal tumours. The da Vinci Surgical System (Intuitive Surgical Inc, Sunnyvale, California) was used for a transoral approach to the oropharynx. Surgery was performed by a trained attending surgeon experienced in endoscopic and robotic surgery. The feasibility of the technique was validated in a 31-year-old woman who presented with the following symptoms from childhood: croaky voice, sensation of a foreign body in the throat and dysphagia. She had been on suppressive therapy (100 mcg of levothyroxine daily) since the age of 20 years. Thyroid function test results were normal, and no comorbidities were reported. Fibre-optic nasal endoscopy revealed a mass arising from the base of the tongue. MRI showed a 5.6 × 5.4 × 4.6 cm mass localized in the base of the tongue with areas of necrosis and heterogeneous contrast enhancement (as seen in large goiters) completely occluding the oropharynx (Figs. 1, 2). No thyroid tissue was present in the anterior neck.

Fig. 1.

Contrast-enhanced axial T1-weighted magnetic resonance imaging showing a 5.6 × 5.4 × 4.6 cm smooth mass with a defined boundary at the base of the tongue.

Fig. 2.

Contrast-enhanced sagittal T1-weighted magnetic resonance imaging showing a 5.6 × 5.4 × 4.6 cm smooth mass with a defined boundary at the base of the tongue.

The patient was placed on the operating table in a supine position. A tracheotomy under local anaesthesia was performed to secure the airways during conventional intubation. A cuffed tracheostomy tube was positioned using the da Vinci Surgical System. The surgeon was seated at the console and a second surgeon worked at the head of the patient. Access to the pharynx was achieved with a suspended 645001 FK retractor (Olympus®).

Three 5-mm robotic arms were employed, with a 30-degree stereoscopic high-definition video camera on the central arm, Maryland forceps to grasp and retract on the left, and a spatula cautery for dissection and coagulation on the right. The incision of the mucosal layer started from the cranial aspect of the mass at the level of foramen cecum (Fig. 3), and the goiter was progressively detached from the lingual muscles using cautery dissection. Lateral retraction of the partially detached mass allowed visualization and dissection of the lateral border of the goiter. The procedure was completed upon reaching the glossoepiglottic vallecula, with removal of the specimen in one block (Fig. 3). Adequate haemostasis was performed with an estimated blood loss of 130 ml. No reconstruction was performed, leaving the surgical bed to heal by secondary intention. The procedure required 115 min, with intervals as follows: tracheotomy, 25 min; robot setting time, 20 min; and console time, 70 min. The FK retractor was removed with no signs of tongue damage. A nasogastric feeding tube was installed, and short-term antibiotics and analgesics were delivered. The tracheostomy tube was removed 48 hours after surgery. The postoperative period was uneventful, and the nasogastric feeding tube was removed on the third postoperative day when the patient was started on a soft diet. The patient was discharged on the fourth postoperative day, and complete healing of the surgical bed was accomplished within 3 weeks. The final pathology report confirmed the diagnosis of ectopic lingual multinodular goiter.

Fig. 3.

TORS resection of ectopic lingual goiter.

The specimen was completely removed en bloc.

Discussion

Degeneration of goiter in an ectopic lingual thyroid is a rare event. Surgery is the common option for large masses, and several external approaches to the pharynx have been proposed, including transcervical or transmandibular with or without splitting the lip and tongue -. These procedures allow wide exposure for safe removal of the lesion, but lead to substantial functional and aesthetic sequelae and, in most cases, prolonged hospitalization.

A transoral approach has been proposed by some authors. Visual access was provided, in most cases by endoscopic viewing, and dissection was performed using traditional instruments, CO2 laser , or harmonic shears . TORS is presently used for different otorhinolaryngologic areas . To the best of our knowledge, TORS for the treatment of ectopic lingual thyroid has not yet been described. As reported by Terris , a transoral approach for removal of the ectopic lingual thyroid reduces hospitalization times, bleeding and morbidity related to the procedure, in comparison to external approaches. In addition to being minimally invasive, TORS provides the following advantages:

better view of the surgical field due to high magnification, three-dimensional visualization and optical orientation;

four-handed surgery (including the assistant), which allows tissue manipulation and retraction comparable with open surgery; and

six degrees of motion due to wristed instruments that allow the surgeon to reach, under direct vision, areas around the corner.

The absolute local contraindication is related to the difficult exposition of the oropharynx, due to a limited opening of the mouth or the patient's habitus. TORS for treatment of ectopic lingual goiter is feasible, requires a short learning curve, and appears to be safe. Temporary tracheotomy can be useful for airway management at the induction of anesthesia, avoiding the use of a nasotracheal tube in the pharynx during surgery. TORS can be considered an effective treatment for surgical removal of ectopic lingual goiter.