Thyroid nodule medical therapy
Thyroid nodule Microchapters |
Diagnosis |
---|
Treatment |
Case Studies |
Thyroid nodule medical therapy On the Web |
American Roentgen Ray Society Images of Thyroid nodule medical therapy |
Risk calculators and risk factors for Thyroid nodule medical therapy |
Editor-In-Chief: C. Michael Gibson, M.S., M.D. [1]
Overview
Medical Therapy
Thyroid nodule | |||||||||||||||||||||||||||||||||||||||||||||||||||||||||
Malignant | Benign | ||||||||||||||||||||||||||||||||||||||||||||||||||||||||
Radioiodine therapy | Hyrperthyroidism evaluation | ||||||||||||||||||||||||||||||||||||||||||||||||||||||||
Hyperthyroidism | Euthyroid | ||||||||||||||||||||||||||||||||||||||||||||||||||||||||
Antithyroid drugs | No medical treatment required Monitor nodule | ||||||||||||||||||||||||||||||||||||||||||||||||||||||||
In case of active hot thyroid nodule that produce thyroid hormones, antithyroid drugs should be administered. The table below summarize the treatment options in case of thyroid nodules presence:
Treatment | Mechanism | Route of administration | Advantages | Disadvantages | Special considerations |
---|---|---|---|---|---|
Beta-blockers |
|
Oral | Ameliorates sweating, anxiety, tremulousness, palpitations, and tachycardia |
|
|
Antithyroid drugs (methimazole,
carbimazole, and propylthiouracil) |
|
Given as either a single, high fixed dose (e.g., 10–30 mg of methimazole or 200–600 mg of propylthiouracil daily)
and adjusted as euthyroidism is achieved or combined with thyroxine to prevent hypothyroidism (“block–replace” regimen) |
|
|
Major side effect usually within first 3 months of therapy
|
Radioactive iodine
(iodine-131) |
|
Oral; activity either fixed (e.g., 15 mCi [555 MBq]) or calculated on the basis of goiter size and uptake and turnover investigations |
|
|
|
Thyroidectomy | Most or all thyroid tissue is removed surgically | ----- |
|
|
|
Medical therapy goals in thyroid malignancies and differentiated thyroid cancers (DTC) include:
- To remove:
- To remove primary tumor
- To eliminate the disease that has extended beyond the thyroid capsule
- To remove involved cervical lymph nodes
- To minimize treatment-related morbidity
- To permit accurate staging of the disease
- To facilitate postoperative treatment with radioactive iodine, where appropriate
- To permit accurate long-term surveillance for disease recurrence
- To minimize the risk of disease recurrence and metastatic spread
A complete surgical resection of involved lymph nodes is one of the most important determinants of prognosis. Presence of lymph node involvement after the resection surgery represent a metastatic disease. The primary tumor in this case is mainly in the site of involved lymph node.[1][2][3]
Both RAI whole-body scanning (WBS) and measurement of serum Tg are affected by residual normal thyroid tissue. Where these approaches are utilized for long-term monitoring, near-total or totalthyroidectomy is required[4]
Adequate surgery is the most important treatment variable influencing prognosis, while radioactive iodine treatment, TSH suppression, and external beam irradiation each play adjunctive roles in at least some patients[5]
There is a high risk of complication in thyroid nodule surgery. The most important factors determining surgical complications are:[6]
- The extent of surgery
- The experience of the surgeon
Removal of all thyroid tissue (both normal and nodular) in patients undergoing radioactive iodine remnant ablation or radioactive iodine treatment of residual or metastatic disease, is an important element of initial surgery. It has been recommended to perform a near total or total thyroidectomy, as evidences show it may reduce the risk for neoplasia recurrence within the contralateral lobe. [7][8]
Some experts recommend thyroid hormone administration in the case of benign thyroid nodule in iodine insufficient areas as a treatment. Thyroid hormone administration in larger than needed doses that decrease the serum TSH to subnormal levels, may lead to a decrease in nodule size and may be beneficial in regions of the world with borderline low iodine intake, as it may prevent new nodule formation. However, in iodine sufficient areas, there are insufficient evidences that administrating thyroid hormone may have a beneficial effect on benign thyroid nodules.
If findings of FNA is suspicious for or diagnostic of PTC in a pregnant woman, LT4 therapy should be considered as a primary therapy in order to keep the TSH in the normal range to avoid thyroid related problems in newborn.[9][10]
postoperative RAI remnant ablation
If after complete thyroidectomy, still thyroid tissue is found, ablation of the remaining lobe with radioactive iodine can be considered as an alternative way to complete the resection of tissue.[11]
Recombinant human TSH–mediated therapy
Indications of recombinant human TSH–mediated therapy:
- Patients with concurrent co-morbid illnesses that are more prone to adverse effects of iatrogenic hypothyroidism
- Patients with pituitary related disorders that can not produce TSH due to their underlying pituitary problem
- Patients in whom a delay in therapy might be associated with high morbidities
It is better to give a higher dosage of recombinant human TSH to these patients to avoid possible adverse effects.[12]
Metastases treatment:
Treatment of endocrine metastases should be based on:
- Metastatic lesions size
- Avidity for RAI therapy
- Response to prior RAI therapy
- Absence of metastatic lesions
Metastases | Treatment | |
---|---|---|
pulmonary metastases | Micrometastases |
|
macronodular metastases |
| |
brain metastases |
| |
bone metastases |
|
Complications
Radioactive iodine therapy: 24751702
Early complications:
- Gastrointestinal symptoms
- Radiation thyroiditis
- Sialadenitis/xerostomia
- Bone marrow suppression
- Gonadal damage
- Dry eye
- Nasolacrimal duct obstruction.
Late complications:
- Secondary cancers
- Pulmonary fibrosis
- Pulmonary pneumonitis (rare)
- Permanent bone marrow suppression
- Genetic effects
References
- ↑ Wang TS, Dubner S, Sznyter LA, Heller KS (2004). "Incidence of metastatic well-differentiated thyroid cancer in cervical lymph nodes". Arch. Otolaryngol. Head Neck Surg. 130 (1): 110–3. doi:10.1001/archotol.130.1.110. PMID 14732779.
- ↑ Hay ID, Bergstralh EJ, Goellner JR, Ebersold JR, Grant CS (1993). "Predicting outcome in papillary thyroid carcinoma: development of a reliable prognostic scoring system in a cohort of 1779 patients surgically treated at one institution during 1940 through 1989". Surgery. 114 (6): 1050–7, discussion 1057–8. PMID 8256208.
- ↑ Ito Y, Miyauchi A (2010). "Thyroidectomy and lymph node dissection in papillary thyroid carcinoma". J Thyroid Res. 2011: 634170. doi:10.4061/2011/634170. PMC 2989453. PMID 21113383.
- ↑ Mazzaferri EL (1999). "An overview of the management of papillary and follicular thyroid carcinoma". Thyroid. 9 (5): 421–7. doi:10.1089/thy.1999.9.421. PMID 10365671.
- ↑ Kim TH, Yang DS, Jung KY, Kim CY, Choi MS (2003). "Value of external irradiation for locally advanced papillary thyroid cancer". Int. J. Radiat. Oncol. Biol. Phys. 55 (4): 1006–12. PMID 12605980.
- ↑ Sosa JA, Bowman HM, Tielsch JM, Powe NR, Gordon TA, Udelsman R (1998). "The importance of surgeon experience for clinical and economic outcomes from thyroidectomy". Ann. Surg. 228 (3): 320–30. PMC 1191485. PMID 9742915.
- ↑ Lin JD, Chao TC, Huang MJ, Weng HF, Tzen KY (1998). "Use of radioactive iodine for thyroid remnant ablation in well-differentiated thyroid carcinoma to replace thyroid reoperation". Am. J. Clin. Oncol. 21 (1): 77–81. PMID 9499265.
- ↑ Esnaola NF, Cantor SB, Sherman SI, Lee JE, Evans DB (2001). "Optimal treatment strategy in patients with papillary thyroid cancer: a decision analysis". Surgery. 130 (6): 921–30. doi:10.1067/msy.2001.118370. PMID 11742318.
- ↑ Kuy S, Roman SA, Desai R, Sosa JA (2009). "Outcomes following thyroid and parathyroid surgery in pregnant women". Arch Surg. 144 (5): 399–406, discussion 406. doi:10.1001/archsurg.2009.48. PMID 19451480.
- ↑ Rosen IB, Korman M, Walfish PG (1997). "Thyroid nodular disease in pregnancy: current diagnosis and management". Clin Obstet Gynecol. 40 (1): 81–9. PMID 9103951.
- ↑ Randolph GW, Daniels GH (2002). "Radioactive iodine lobe ablation as an alternative to completion thyroidectomy for follicular carcinoma of the thyroid". Thyroid. 12 (11): 989–96. doi:10.1089/105072502320908321. PMID 12490076.
- ↑ Braga M, Ringel MD, Cooper DS (2001). "Sudden enlargement of local recurrent thyroid tumor after recombinant human TSH administration". J. Clin. Endocrinol. Metab. 86 (11): 5148–51. doi:10.1210/jcem.86.11.8055. PMID 11701668.