20 1. Indications for thyroid surgery fall into three categories: Suspected or proven malignancy Graves’ disease (named after the Irish physician Robert James Graves, who described a case of goitre with exophthalmos in 1835. In Europe the condition is named after Karl von Basedow). 2. All thyroid surgery carries significant potential morbidity. Carefully investigate patients about to undergo surgery and involve the multidisciplinary team to avoid inappropriate or unnecessary surgery. Thyroid surgery is a significant potential source of litigation. As well as counselling your patient, provide clear documentation, especially with regard to potential damage to the recurrent laryngeal nerve and the parathyroid glands. 3. Thyroid surgery is increasingly performed in specialist centres by surgeons with a special interest in thyroid disorders. Closely liaise with endocrinologists and oncologists to achieve satisfactory outcomes. Joint or combined clinics are advocated, particularly for patients with complex disease. 4. It is mandatory to have access to and attend an appropriate multidisciplinary team meeting (MDT) if you regularly undertake malignant thyroid surgery. Familiarize yourself with local arrangements. 5. Be willing to work jointly with other surgical specialists, such as cardiothoracic surgeons, when treating retrosternal extensions. 6. Re-operation in the neck carries significantly increased morbidity. As a result, partial or subtotal thyroidectomy is now less frequently performed in favour of either hemi- or total thyroidectomy. The aim is to leave behind as little thyroid tissue as possible. 7. Audit your results personally, locally and nationally. In the UK results are submitted to the British Association of Endocrine and Thyroid Surgeons (BAETS).1 The Association publishes audit results and guidelines for managing thyroid disease. Familiarize yourself with the website www.baets.org.uk. 8. Assessment (see Table 20.1). Table 20.1 Biochemical evaluation is mandatory in patients with thyroid disease. Familiarize yourself with and check thyroid function tests (tri-iodothyronine (T3), thyroxine (T4) and thyroid stimulating hormone: TSH), as well as calcium and albumin assays, prior to considering surgery. Undiagnosed or unrecognized thyrotoxicosis can lead to serious consequences during general anaesthesia. Vitamin D levels may be assayed in areas where deficiency is endemic and corrected prior to surgery. Thyroid auto-antibodies may also be requested to screen for the presence of Hashimoto’s thyroiditis (first described by Japanese physician Hashimoto Hakaru in Germany in 1912). Fine needle aspiration cytology (FNAC) is an efficient and cost-effective method of evaluating thyroid nodules. Diagnostic accuracy is dependent on the experience of the operator, the position and type of nodule and the experience of the cytologist. Increasingly, FNAC is performed under ultrasound guidance which can be particularly beneficial in complex cysts and nodules deep within the gland. Having access to a cytologist and radiologist in the thyroid clinic (‘one-stop’ clinic), can lead to increased diagnostic accuracy (Box 20.1). Ultrasound scanning (USS) is the radiological investigation of choice for the thyroid nodule. It can be used in isolation or in conjunction with FNAC. It is increasingly used in the diagnosis and follow-up of thyroid nodules and can give important prognostic information. Computed tomography (CT) is of particular use in staging of patients with proven malignant disease as well as patients with benign disease with obstructive symptoms. CT can accurately assess tracheal compression, retrosternal extension and aid in the planning of access surgery that may require a thoracotomy. Barium swallow enables you to assess the extent to which a patient’s dysphagia can be attributed to extrinsic compression of the oesophagus by a goitre. Pulmonary function tests may give information regarding breathlessness related to tracheal compression. Positron emission tomography (PET) scanning can be useful in the management of suspected recurrent malignant disease. Anatomic detail is improved when used in conjunction with CT (PET-CT). 10. Indications for surgery in nodular thyroid disease: Clinical suspicion of malignancy regardless of FNAC Repeatedly non-diagnostic cytology (Thy 1) Indeterminate or follicular cytology (Thy 3) Likely or definitive malignancy (Thy 4/5) 11. Your decision to recommend surgery should be based on clinical assessment in conjunction with the FNAC result and findings on imaging studies. It is essential to warn the patient about the risks of surgery: 1. Laryngeal nerve damage. Recurrent laryngeal nerve damage leads to a weak breathy voice and poor cough, typically described as bovine. Discuss with the patient the risk of temporary (5%) and permanent (0.5–1%) damage to the recurrent laryngeal nerve. Neuraopraxias may take several months to resolve. Referral to a voice therapist may be indicated. For patients with permanent damage, vocal cord medialization procedures may be indicated. Damage to the external branch of the superior laryngeal nerve may lead to subtle changes in voice (typically loss of high-pitched phonation). This is most evident to professional voice users and singers. Always record vocal cord function and occupation preoperatively. 2. Hypocalcaemia. Temporary hypocalcaemia occurs in up to 25% of patients following total thyroidectomy. It may be higher in patients with Graves’ disease or those with vitamin D deficiency. Permanent hypocalcaemia (requiring replacement with vitamin D and calcium) occurs in 2–5% of cases. 3. Haematoma. Haematoma rate is approximately 1%. It is higher in recurrent surgery. 4. Wound infection. Occurs in less than 1%. 5. Poor cosmesis. Hypertrophic or keloid scar formation can lead to an unsightly scar. Patients with a history of keloid formation should be counselled appropriately. You should consider using steroid injections and meticulous closure to minimize the risk. 1. Nodules within the thyroid gland are common, especially in women. Most are benign colloid nodules and/or cysts. The most common neoplasm of the thyroid gland is the thyroid adenoma. Importantly, follicular adenomas cannot be distinguished from carcinomas on the basis of cytology and as such require further diagnostic evaluation.3
Thyroid
Appraise
Ask yourself:
History
Examination
Is the patient euthyroid?
Intolerance to heat and cold, weight loss, altered bowel habit, anxiety/depression
Tachycardia, tremor,
Graves’ eye signs, skin changes
What kind of goitre is this?
Physiologic, toxic
Diffuse, solitary nodule, multinodular
Is a malignant process likely?
Neck pain, hoarseness, family history of thyroid cancer, previous exposure to radiation
Lymph nodal masses,
recurrent laryngeal nerve palsy, fixation, Berry’s sign (loss of carotid pulsation indicating invasion by tumour)
Does the patient have obstruction?
Dysphagia,
shortness of breath,
inability to lay flat
Stridor, venous engorgement, Pemberton’s sign (Hugh Pemberton, 1946) – facial flushing on raising both arms indicating SVC obstruction
Can the goitre be delivered through the neck?
Longstanding goitre,
significant obstructive symptoms
Retrosternal extension
Prepare
MANAGEMENT OF THE SOLITARY THYROID NODULE AND THE DOMINANT NODULE WITHIN A MULTINODULAR GOITRE