Thoracoscopic approach in the treatment of ectopic thymic parathyroid adenoma.

Primary hyperparathyroidism is overproduction of parathyroid hormone, causing hypercalcemia. Parathyroid adenomas have been found to be the etiology for 80% of cases of primary hyperparathyroidism, while almost a quarter of them are ectopic. We present a case of ectopic thymic parathyroid adenoma, treated by the thoracoscopic approach. Preoperative computed tomogram and technetium-99-sestamibi imaging showed an adenoma, located in the front mid-mediastinum, approximately 8 × 10 mm in size. Resection of the tumor was indicated according to the persistent hypercalcemia after unsuccessful surgical treatment performed 3 years ago. It was decided to perform a parathyroidectomy during thoracoscopy. The diagnosis of parathyroid adenoma was established on postoperative histopathology staining. The patient was discharged from hospital 5 days after the surgery. We found this minimally invasive operation to be an effective and well-tolerated treatment option, determined by the experience of the surgeon.

Introduction

Primary hyperparathyroidism is overproduction of parathyroid hormone, causing hypercalcemia. It is the third most common endocrine disease and usually affects postmenopausal women [1-4]. Parathyroid adenomas have been found to be the etiology for 80% of primary hyperparathyroidism cases, while almost a quarter of them are ectopic [5, 6]. Mostly, abnormal parathyroid glands are found in the superior mediastinum within the thymus [4]. Primary hyperparathyroidism usually causes no symptoms and it is diagnosed incidentally because of hypercalcemia, found on routine laboratory evaluation and with elevated levels of parathyroid hormone. The challenge of differentiating hypercalcemia, associated with hyperfunction of the parathyroid gland, from hypercalcemia caused by metastatic cancer, multiple myeloma, sarcoidosis, other granulomatous diseases, ingestion of calcium or vitamin D, is a part of the diagnostic process [7]. Imaging modalities, such as cervical ultrasound, computed tomography and magnetic resonance imaging, are used for the diagnosis and localization of parathyroid adenoma. Therefore, the gold standard for localization, especially to identify mediastinal adenomas, is technetium-99m sestamibi scanning [8, 9]. For a mild disease it is possible to try medical management with bisphosphonates, hormone replacement therapy and calcimimetics. However, more frequently, primary hyperparathyroidism is cured by surgical removal of an adenoma [3]. An ectopic parathyroid adenoma, located in the mediastinum, as described in this case, is traditionally treated by median sternotomy, manubriotomy or open thoracotomy [6, 10–12]. Recently, advances in minimally invasive thoracic surgery techniques have decreased the need for a conventional approach to remove these ectopic parathyroid glands [13].

We present a patient with hyperparathyroidism due to ectopic thymic parathyroid adenoma, who underwent total resection via a thoracoscopic approach.

Case report

A 50-year-old female patient presented to our clinic for resection of an ectopic parathyroid gland. The patient had no severe complaints before hospitalization. According to the anamnesis, thyroidectomy was performed 15 years ago, because of compression syndrome (neck surface deformation, pressure in the neck, difficult swallowing) and symptoms of hyperthyroidism (palpitation, tachycardia, emotional lability) caused by a toxic multinodular goiter. The surgery was performed successfully, and no signs of laryngeal recurrent nerve lesion or hypocalcemia were observed. Three years ago the patient was hospitalized repeatedly because of hypercalcemia which was diagnosed via laboratory tests (ionized calcium concentration in the venous blood was 1.45 mmol/l and parathyroid hormone (PTH) concentration was 49.63 pmol/l). Simultaneously, osteopenia was diagnosed via performing a DEXA scan. In addition, neck ultrasound and scintigraphy tests were performed; there were insufficient data for parathyroid gland adenoma. It was decided to perform left superior parathyroidectomy and resection of residual thyroid tissue. The left superior parathyroid gland was enlarged twice; it was round and visually similar to adenoma. Other parathyroid glands were revised during the procedure. The left inferior and right superior parathyroid glands were without visible pathological changes. The right inferior parathyroid gland was not found. Resection of the thymus gland on both sides was performed. Ectopic parathyroid glands were not found in the resected thymus tissue. Below the manubrium on the trachea, a thyroid gland of approximately 3 cm in diameter was found, which was removed. An urgent histological examination was performed during the surgery, which revealed that the removed tissues were a thyroid fragment and a parathyroid gland without pathohistological changes. The PTH concentration in the blood prior to the removal of the parathyroid gland was 10 pmol/l, and after elimination 54 pmol/l. During the operation, all neck areas were revised, but the adenoma of the parathyroid gland was not found. The PTH concentration during the first postoperative day was 32.9 pmol/l.

Half a year ago the patient underwent chest computed tomography scan and technetium-99m sestamibi scanning (Photos 1–4). Imaging findings: in the front mid-mediastinum there was observed a formation, approximately 8 × 10 mm in size and with unclear boundaries – a potential ectopic parathyroid gland. The case was discussed in an interdisciplinary patient discussion involving endocrinologists and surgeons. It was decided to perform a parathyroidectomy during thoracoscopy.

Photo 1

Technetium-99m sestamibi scanning showing focal uptake in the mediastinum

Photo 4

Preoperative computed tomographic (CT) scan

On June 5, 2017 the patient presented for a planned operation. The serum PTH concentration at that time was 31.3 pmol/l, the serum Ca concentration was 2.81 mmol/l. Thoracoscopy and removal of the adenoma of the right ectopic parathyroid gland were performed. The patient’s position was semi-turned on the left side. After preparation of the surgical field, two 10 mm trocars and one 5 mm trocar were inserted into the chest through intercostal spaces II, IV and VII (Figure 1). During the examination of the thymus gland, the adenocarcinoma was not visible or palpated. The mediastinal pleura was cut with an ultrasound scalpel in the corner of the vena cava inferior and pericardium. The thymus was separated from the right and left brachiocephalic veins in a cranial direction along the right phrenic nerve. The thymic veins were pressed with metal clips (Photos 5, 6). The thymus was separated from the aortic arc and the thymus gland was examined by an endoscopic ultrasound sensor. Nearly at the right edge of the thymus, an approximately 10 mm hypoechogenic formation was observed: a suspected adenoma of the parathyroid gland. The thymus with adenoma of ectopic parathyroid gland was removed. The size of the removed adenoma was 10 × 10 × 8 mm, and the weight was 750 mg (Photo 7). The overall operative time was 95 min. Histological examination of the removed tissue was performed: the final diagnosis of the pathology was ectopic parathyroid gland.

Figure 1

Positioning of trocars: A – 10 mm, B – 10 mm, C – 5 mm

Photo 5

Perioperative videothoracoscopic image. The thymus was separated and thymic veins were pressed with metal clips

Photo 6

Perioperative videothoracoscopic image. Thymus gland was examined by an endoscopic ultrasound sensor

Photo 7

The thymus with adenoma of ectopic parathyroid gland after operation

The serum PTH concentration during the first postoperative day was 4.3 pmol/l, and the serum Ca concentration was 2.02 mmol/l. The postoperative period was smooth, and no complications were observed in the early period. On the fifth postoperative day, in a satisfactory condition, the patient was discharged from the hospital (Photo 8).

Photo 8

Patient on the fifth postoperative day

Currently, half a year after the surgery, the patient is asymptomatic, without any evidence of recurrence.

Discussion

Primary hyperparathyroidism is overproduction of parathyroid hormone, causing hypercalcemia. This is a relatively common disease and can occur at any age, but mostly it affects postmenopausal women [1-3].

Parathyroid hormone (PTH) is a polypeptide which regulates calcium ion concentration in blood and extracellular fluid, where it is metabolized, and only 1% causes an increased calcium level in blood by participating in reactions with bone and kidney cell-surface PTH receptors [14]. Hypercalcemia can be caused by hyperfunction of the parathyroid gland, by metastatic cancer, multiple myeloma, sarcoidosis, other granulomatous diseases, ingestion of calcium or vitamin D and some other rarer diseases [7]. However, PTH hypersecretion and elevated levels of this hormone in the serum allow us to differentiate primary hyperparathyroidism from other causes of hypercalcemia.

Parathyroid adenomas have been found to be the etiology for 80–85% of primary hyperparathyroidism cases, while only 2% are carcinomas and parathyroid hyperplasia [5, 6, 14, 15]. Almost a quarter of parathyroid adenomas are ectopic, and the most likely to be in an abnormal anatomical localization is the inferior parathyroid gland, mainly being located in the superior mediastinum within the thymus. Other possible positions are the deep anterior mediastinum, the aortopulmonary window, the posterior mediastinum, or within the substance of the thyroid gland [4–6, 16–18]. The inferior parathyroid glands are extremely variable because of being derived from the third branchial pouch along with the thymus. When it descends into the chest in the 5th week of embryonic development, it is accompanied by the lower parathyroid glands. Occasionally, they move to the chest, along with the thymus [12, 19, 20]. The incidence of normal inferior parathyroid glands located within the thymus varies from 12% to 39% [18, 21, 22].

Most patients with hyperparathyroidism are asymptomatic and primary hyperparathyroidism is diagnosed incidentally because of hypercalcemia – the serum calcium level more than 2.6 mmol/l, elevated levels of parathyroid hormone, creatinine clearance reduced to < 60 ml/min and bone mineral density less than 1.0 [1, 7, 8]. Hypercalcemia can sometimes cause nausea, vomiting, excessive thirst, constipation, polyuria, lethargy, and cardiac anomalies. Kidney stones, osteoporosis and pathologic fractures may also occur. The level of hypercalcemia correlates with the severity of symptoms [19].

The first successful parathyroidectomy was described in Journal of the American Medical Association in 1929. Over the next 40 years the incidence of primary hyperparathyroidism remained largely unchanged, because it was diagnosed with symptoms of nephrolithiasis, osteitis fibrosa cystica, peptic ulcer disease, psychosis or pancreatitis. In the 1960s the automated chemistry analyzer began to be used, so the disease could be diagnosed much earlier in its course. Nowadays, imaging modalities such as cervical ultrasound, computed tomography and magnetic resonance imaging are used for the diagnosis and localization of parathyroid adenoma. Sometimes it is necessary to perform a reoperation when neck exploration alone is not enough for accurate diagnosis because of an ectopic parathyroid gland [8]. The gold standard for localization of ectopic parathyroid adenoma is technetium-99m sestamibi scanning [8, 9, 23]. More recently, simultaneous positron emission tomography and magnetic resonance imaging is a new hybrid method of imaging that provides excellent soft-tissue contrast and high imaging quality of ectopic mediastinal parathyroid adenomas [24]. However, preoperative localization can be very challenging and sometimes only combinations of technetium-99m sestamibi scanning, neck ultrasound, computed tomography and magnetic resonance imaging increase the yield in localizing ectopic parathyroid adenoma [12, 25]. Successful preoperative localization of ectopic glands is more likely when the fine needle-aspiration cytology of a suspicious lesion is performed and parathyroid hormone is measured in the aspirated material [18]. Parathyroid adenomas and parathyroid carcinomas can be difficult to differentiate on the basis of preoperative clinical characteristics [26]. The histopathological criteria for parathyroid carcinomas as defined by Schantz and Castleman include thick fibrous bands, mitotic activity, trabecular growth pattern and capsular, vascular and adjacent soft-tissue invasion [15].

Parathyroidectomy has a success rate of more than 95% for cure of primary hyperparathyroidism [23]. Indications for surgical resection are symptomatic parathyroid adenoma, asymptomatic patients with complications from hypercalcemia or patients who are unable to participate in appropriate follow-ups [8, 11]. In this case surgery was indicated due to the manifestation of persistent hypercalcemia and the osteopenia detected performing the DEXA scan. Both minimally invasive parathyroidectomy and bilateral neck exploration are appropriate operations that achieve high cure rates, depending on the experience of the surgeon [11, 27]. Over the last half century, the surgical approach to parathyroidectomy has evolved to targeted parathyroidectomy that is directed by preoperative imaging studies and guided by intraoperative parathormone monitoring [10, 12], especially for patients in whom the localization studies have identified single gland adenoma or unilateral disease [7]. However, ectopic parathyroid adenomas are the most frequent reason for a failed cervical exploration [28]. Median sternotomy and lateral thoracotomy are the traditional methods for cases of adenoma of the upper mediastinum, and cervicotomy is also a popular option [6, 28]. These surgical approaches are associated with higher risk of injury of the phrenic or recurrent laryngeal nerve, laceration of the brachiocephalic vein, delayed wound healing, wound infection, mediastinitis and even death [29]. Recently, some centers have been implementing minimally invasive surgery for the treatment of ectopic parathyroid adenomas, focused on reducing the size of the incision and minimizing surgical dissection [13, 19, 28]. The reported advantages of thoracoscopic surgery include better visualization of the adenoma, a shorter operative time, reduced soft tissue dissection, shorter tube dwell time and shorter hospital stay, with a superior cosmetic result compared to sternotomy and thoracotomy scars [13, 30]. In the present case, we used a thoracoscopic approach, because the lesion was located in an appropriate place on the computed tomography scan for a thoracoscopic procedure.

Postoperative observation includes hematoma, evaluation for hypocalcemia or symptoms of hypocalcemia and patients should be followed up to reach normocalcemia at more than 6 months. Calcium supplementation may be indicated postoperatively [11].

To sum up, we found that the thoracoscopic approach for resection of ectopic mediastinal parathyroid adenoma is a safe and successful approach and should be considered as the procedure of choice. Despite the fact that the minimally invasive treatment of ectopic parathyroid adenomas is a challenge for the surgeon, it should be considered because of the obvious advantages, such as shorter operative and hospital stay time, reduced recovery time and better cosmetic result.

Conclusions

An ectopic parathyroid adenoma, located in the front mid-mediastinum, can be successfully resected through the thoracoscopic approach. We have found this minimally invasive operation to be an effective and well-tolerated treatment option, determined by the experience of the surgeon.

Conflict of interest

The authors declare no conflict of interest.