The most rational approach to treat most well-differentiated thyroid cancers and their metastases is the “triple” treatment of total thyroidectomy + 131 iodine therapy + oral thyroid hormone.
Why is the “three-in-one” treatment plan the most reasonable approach?
As with most malignant tumors, the first choice of treatment for thyroid cancer is surgery. However, the extent of thyroidectomy for differentiated thyroid cancer has long been the focus of surgical debate due to the high recurrence rate (median 35%) after surgery. The actual practice varies greatly due to different views. The overall treatment options are subtotal thyroidectomy and total thyroidectomy, but there are at least four options for subtotal thyroidectomy:
(1) partial excision of a single lobe of the gland;
② excision of one lobe and isthmus;
(3) partial excision of one lobe and isthmus + contralateral lobe;
④Sub-total resection of one lobe, isthmus and contralateral lobe.
Therefore, it is difficult to determine the best plan for complex lesions, and the specific implementation is also very difficult, and one wrong move will have a great impact on clinical treatment.
In 1988, WHO proposed the definition of thyroid micro-carcinoma (TMC): thyroid carcinoma with a maximum diameter of ≤1 cm, regardless of the presence of regional lymph nodes or distant lymph node metastasis, is called TMC. TMC is more common in well-differentiated papillary carcinoma. In the literature, the incidence of papillary thyroid microfocal carcinoma in autopsy thyroid specimens is 5.6%, accounting for 4.2% of thyroid surgeries in the same period and 47.9% of differentiated thyroid carcinomas, and 3.0% in those with clinically inaccessible thyroid masses. TMC is difficult to be detected early and more difficult to be diagnosed preoperatively because of its small diameter, very few spontaneous symptoms and slow clinical progression. There are even metastatic lesions at the cellular level that are inaccessible to the naked eye (studies have reported that microscopic detection of metastases in the contralateral gland of differentiated thyroid cancer can reach 38% to 87%), so it is also difficult to diagnose intraoperatively. It is speculated that TMC is likely the main reason for the high recurrence rate after conventional surgery for this disease.
Since it is difficult to determine the early diagnosis of TMC and the presence of TMC in the thyroid gland seen intraoperatively with bare eyes, clinical studies have shifted the focus to the exploration of new treatment methods. It has been shown that 131I therapy given after surgical treatment of thyroid cancer can effectively remove TMC from residual thyroid tissue and at the cellular level and prevent tumor recurrence. It has been reported in the literature that the recurrence rate of thyroid cancer is 35% after surgical resection, and it can be reduced to 1%-2.5% if postoperative nuclear hormone therapy is combined with a larger dose of thyroid hormone replacement therapy. It has also been reported that the recurrence rate of nail cancer is as high as 32.0% with surgery alone; 11% with surgery + oral thyroid hormone; and only 2.7% with surgery + 131I therapy + oral thyroid hormone. Foreign data reported that surgery followed by 131I treatment reduced the mortality rate by 3.8 ~ 5.2 times and the recurrence rate by 4 times compared to patients who had surgery alone. We call this method a “three-in-one” treatment plan for thyroid cancer. At present, many scholars at home and abroad have developed a more comprehensive plan for the treatment and follow-up of differentiated thyroid cancer.
Although the “three-in-one” treatment plan for thyroid cancer has been increasingly accepted by the industry, different scholars still have different opinions on the extent of resection for different lesions. Most physicians advocate near-total thyroidectomy, removing as much of the thyroid as possible, but only if the parathyroid glands and the laryngeal nerve are protected. In fact, total thyroidectomy is associated with high complications and is extremely unnecessary, as high doses of radioactive iodine are effective in removing residual functional thyroid tissue from the neck after surgery. Another consideration in favor of subtotal thyroidectomy is that 131I is more effective in removing postoperative residual thyroid because the number of residual thyroid glands is small and the dose of 131I required is small. In addition, proximal total gland excision causes hypothyroidism and increased TSH, allowing for a more sensitive determination of early functional metastases.
The conventional approach recognizes the significance of thyroid hormone therapy
(i) Maintenance of normal thyroid function;
② suppress the secretion of thyroid stimulating hormone from the pituitary gland, because thyroid stimulating hormone may cause tumor recurrence, and using thyroid hormone can prevent or reduce recurrence. Therefore, thyroid hormone replacement therapy is applied whether the thyroid gland is completely resected or partially resected; it may be that 131I is rarely used in postoperative treatment because of the lack of understanding of the significance of 131I in removing residual thyroid tissue. Since thyroid hormone does not completely inhibit the growth of possible TMC and microscopically accessible metastases, there has long been a high recurrence rate after conventional surgery.
It is now recognized that the principle of surgery is to remove as much cancerous tissue as possible and to remove the lymph nodes in the neck where metastases may have occurred. In order not to damage the parathyroid glands and the recurrent laryngeal nerve, it is difficult to completely remove the thyroid gland by surgery (cancer cells are found to exist in the residual thyroid gland under microscope). Therefore, after surgical removal of the thyroid gland, the residual thyroid tissue should be removed promptly using 131I and then thyroid hormone replacement therapy should be given to reduce the recurrence rate.
There are at least 4 options for subtotal resection:
① Unilateral partial excision of the lobe of the gland;
② excision of one lobe and isthmus;
(3) partial resection of one lobe and isthmus + contralateral lobe;
(3) partial excision of one lobe, isthmus and contralateral lobe; (4) subtotal excision of one lobe, isthmus and contralateral lobe. Regardless of the type, it is impossible to see whether there are metastatic cancer cells in the left thyroid tissue with the naked eye!
At present, most of the surgical treatment for thyroid cancer adopts the ③④ option. The thyroid hormone produced by the left behind thyroid tissue cannot possibly meet the metabolic needs of the body! From the physiological point of view, it is meaningless! But it leaves the hidden danger of possible recurrence! Therefore, complete removal of the thyroid gland is the best treatment method!