Cost-effective management of thyroid nodules and nodular thyroid goiters. (Featured CME Topic: Thyroid Dysfunction/Disease).THE PREVALENCE OF THYROID NODULES in the general population has been estimated to be about 5%. Ultrasound and autopsy studies have estimated the prevalence to be as high as 50%, especially in the elderly. Most nodules Nodules A small mass of tissue in the form of a protuberance or a knot that is solid and can be detected by touch. Mentioned in: Leprosy are impalpable impalpable /im·pal·pa·ble/ (im-pal´pah-b'l) not detectable by touch. impalpable not detectable by touch. and benign. Only about 10% of nodules are clinically apparent. The prevalence of thyroid cancer in thyroid nodules is approximately 4% to 6%. Previous studies have indicated a higher prevalence (10% to 30%), probably due to selection bias. A study of surgically resected thyroid tissue indicated the prevalence of occult thyroid cancer to be between 1.5% and 10.0%. (1) Moreover, thyroid cancer accounts for only 0.4% of all cancer deaths. (2) Studies suggest that initially avoiding expensive radiologic studies, combined with early referral to an endocrinologist, is a cost-effective approach. (3) In this review, we discuss an approach that may be adopted in the primary care setting to man age thyroid nodules and multinodular goiters. CLINICAL EVALUATION OF THYROID NODULES AND NODULAR nodular marked with, or resembling, nodules. nodular dermatofibrosis see dermatofibrosis. nodular episcleritis see nodular fasciitis (below). nodular fasciitis a firm painless nodular swelling, 0. THYROID GOITER goiter: see thyroid gland. The clinical assessment of thyroid nodules should include assessment of local symptoms (eg, hoarseness), symptoms of thyroid dysfunction, medical history of thyroid problems/intervention, and family history of thyroid problems. The traditional assumption that growth of nodules suggests cancer has been questioned. A sudden increase in size of a previously noted nodule nodule: see concretion. nodule In geology, a rounded mineral concretion that is distinct from, and may be separated from, the formation in which it occurs. over a period of a day or more may indicate hemorrhage, whereas cancerous growth is usually progressive over several weeks to months. A history of head and neck irradiation is especially important to ascertain, since this increases the risk of thyroid cancer. In the 1950s and 1960s, low-dose radiation was given for enlarged tonsils tonsils, name commonly referring to the palatine tonsils, two ovoid masses of lymphoid tissue situated on either side of the throat at the back of the tongue. and adenoids adenoids (ăd`ənoidz'), common name for the pharyngeal tonsils, spongy masses of lymphoid tissue that occupy the nasopharynx, the space between the back of the nose and the throat. , tinea capitis, and thymic thymic /thy·mic/ (thi´mik) pertaining to the thymus. thy·mic adj. Of or relating to the thymus. thymic pertaining to the thymus. enlargement; the incidence of thyroid cancer may approach 50% in these individuals. (4) Interestingly, a high rate of thyroid cancer has been reported in Belarus and the Ukraine because of the Chenobyl nuclear accident. The clinical findings that denote increased risk of malignancy in thyroid nodules are shown in Table 1. During the clinical evaluation, it is important to consider neck masses arising from nonthyroidal sites. Table 2 lists intrathyroidal and extrathyroidal masses that are included in the differential diagnosis of neck masses. Some masses, such as thyrogiossal cysts, can sometimes be detected by clinical examination (eg, tongue protrusion protrusion /pro·tru·sion/ (-troo´zhun) 1. extension beyond the usual limits, or above a plane surface. 2. the state of being thrust forward or laterally, as in masticatory movements of the mandible. may make a midline mid·line n. A medial line, especially the medial line or plane of the body. midline, n the line equidistant from bilateral features of the head. thyroglossal cyst elevate). While physical examination is an important part of the overall evaluation, its usefulness in detecting malignancy in the early stages is limited. Palpation palpation /pal·pa·tion/ (pal-pa´shun) the act of feeling with the hand; the application of the fingers with light pressure to the surface of the body for the purpose of determining the condition of the parts beneath in physical diagnosis. detects nodules larger than 1 cm and is neither sensitive for detecting thyroid nodules nor a good method for distinguishing benign from malignant nodules. MULTINODULAR GOITER AND SOLITARY NODULES Since iodized salt was introduced, the incidence of multinodular goiter has decreased in the United States. In relatively iodine-deficient areas, nodular thyroid disease is widespread. The presence of compressive com·pres·sive adj. Serving to or able to compress. com·pres  sive·ly adv. symptoms from a large multinodular
goiter needs investigation, as outlined in the Figure. The risk of
cancer in multinodular goiters has traditionally been assumed to be low.
Among nodules identified by ultrasonography ultrasonography /ul·tra·so·nog·ra·phy/ (-so-nog´rah-fe) the imaging of deep structures of the body by recording the echoes of pulses of ultrasonic waves directed into the tissues and reflected by tissue planes where there is a change in , malignancy was noted in
4.7% of solitary nodules and 2.7% of multinodular goiters. (5) A
dominant nodule within a multinodular goiter should be evaluated like a
solitary nodule. The prevalence of malignancy in cold thyroid nodules of
a multinodular goiter may not differ significandy from that of a
solitary nodule. (6)
DIAGNOSTIC TESTS IN EVALUATION OF THYROID NODULES AND NODULAR THYROID GOITER Laboratory Tests Thyroid function tests Thyroid Function Tests Definition Thyroid function tests are blood tests used to evaluate how effectively the thyroid gland is working. These tests include the thyroid-stimulating hormone test (TSH), the thyroxine test (T4), the triiodothyronine test should be obtained, though the results of these are usually normal. The thyroid-stimulating hormone (TSH TSH thyroid-stimulating hormone; see thyrotropin. TSH abbr. thyroid-stimulating hormone Thyroid-stimulating hormone (TSH) ) level is an important determinant of the next step in the investigation, as indicated in the Figure. Thyroid antibody tests may be helpful in the evaluation. Some studies suggest that serum calcitonin calcitonin /cal·ci·to·nin/ (-to´nin) a polypeptide hormone secreted by C cells of the thyroid gland, and sometimes of the thymus and parathyroids, which lowers calcium and phosphate concentration in plasma and inhibits bone resorption. levels be obtained. We recommend that this be reserved for patients with higher risk of medullary thyroid cancer Medullary thyroid cancer (MTC) A slow-growing tumor associated with MEN. Mentioned in: Multiple Endocrine Neoplasia Syndromes . A serum thyroglobulin thyroglobulin /thy·ro·glob·u·lin/ (thi?ro-glob´u-lin) an iodine-containing glycoprotein of high molecular weight, occurring in the colloid of the follicles of the thyroid gland; the iodinated tyrosine moieties of thyroglobulin form the level can be elevated in both benign and malignant thyroid disease, and is usually of no diagnostic value. It may be useful, however, when the diagnosis of thyroid cancer has been confirmed. Radiology A chest film should be obtained. A comparison of the various imaging tests available is given in Table 3. Imaging studies are generally expensive and are not usually not useful in differentiating benign from cancerous lesions. Thyroid Ultrasonography High resolution ultrasonography is the imaging method of choice in the evaluation of thyroid gland morphology because it is noninvasive, safe, reliable, portable, relatively inexpensive, and more sensitive than physical examination or other imaging techniques. Thyroid ultrasonography is capable of detecting solid lesions as small as 3 mm in diameter and cystic lesions of approximately i mm in diameter and is able to differentiate between solid (70% of nodules), cystic, or complex nodules. Occult nodules can, therefore, often be detected using this procedure. These are generally benign, and the need for a fine-needle aspiration (FNA FNA Fine needle aspiration, see there ) may need to be individualized. High-resolution thyroid ultrasonography shows nodule prevalence of 19% to 46% in the general population (single nodules in about 19.6% and multiple nodules in about 21.5%). (7) Ultrasonography may also have a role in reducing unnecessary further investigation. In one study, thyroid ultrasonography revealed different findings from that of the physica l examination in 63% of patients. (8) Thus, no additional workup work·up n. Abbr. w/u A thorough medical examination for diagnostic purposes. may be indicated in the absence of ultrasonographic abnormality Ultrasonography in patients with an apparent solitary thyroid nodule solitary thyroid nodule A discrete enlargement of an otherwise normal thyroid gland Epidemiology ♀:♂ 4:1; most are incidental findings during autopsy or surgical exploration for other reasons DiffDx Colloid–adenomatous nodule–42-77% of STNs, may reveal multiple nodules in 20% to 50% of patients. (9) Although high-resolution ultrasonography defines thyroid morphology in extensive anatomic detail, in most cases it cannot be used to differentiate benign from malignant disease. Ultrasound-guided FNA is necessary for evaluation of occult thyroid nodules with indeterminate or suspicious ultrasonographic findings. High-resolution ultrasonography may have an added role in patients who refuse FNA or who are on anticoagulants Anticoagulants Drugs that suppress, delay, or prevent blood clots. Anticoagulants are used to treat embolisms. Mentioned in: Embolism, Heart Valve Replacement . Moreover, screening ultrasonography in patients with a history of head and neck irradiation is probably justifiable. Thyroid ultrasonography excels in differentiating solid from cystic masses. High-resolution ultrasonography provides better anatomic delineation, compared with scintigraphic studies of the thyroid. Fifteen percent of solid nodules on ultrasonography may be malignant, whereas in cystic nodules the incidence of malignancy may be closer to 5%. Prevalence of malignancy in cysts measuring less than 4 cm and without solid components is less than 1%, compared with 15% in complex cysts. The ability to follow changes serially (eg, for cystic degeneration) is also a useful feature. Generally, benign nodules are hyperechoic and have a significant cystic component, a peripheral, eggshell-like calcification calcification /cal·ci·fi·ca·tion/ (kal?si-fi-ka´shun) the deposit of calcium salts in a tissue. dystrophic calcification , a sonolucent rim, and well-defined margins; whereas malignant nodules are usually hypoechoic, have poorly defined margins, and may contain microcalcifications. Microcalcification within thyroid nodules may be associated with a higher risk of malignancy. The presence of finely stippled stippled /stip·pled/ (stip´'ld) marked by small spots or flecks. stippled covered with many small dots. stippled cells see basophilic stippling. calcifications (psammoma bodies) is highly suggestive of papillary papillary /pap·il·lary/ (pap´i-lar?e) pertaining to or resembling a papilla, or nipple. papillary, adj similar to a small, nipple-shaped elevation or projection. thyroid cancer. Patchy calcifications can also be seen in degenerating adenomas and cysts. Thyroid Scintigraphy scintigraphy /scin·tig·ra·phy/ (sin-tig´rah-fe) the production of two-dimensional images of the distribution of radioactivity in tissues after the internal administration of a radiopharmaceutical imaging agent, the images being obtained Thyroid scintigraphy is generally more expensive than ultrasonography. Its role in identifying hot nodules and areas of autonomous thyroid function is well established. Hot nodules generally account for less than 10% of clinically evident thyroid nodules. Most hypofunctional cold nodules are benign. Since most thyroid cancers are hypofunctional, scintigraphy is neither sensitive nor specific in differentiating between benign and malignant nodules. Radionuclide radionuclide /ra·dio·nu·clide/ (-noo´klid) a nuclide that disintegrates with the emission of corpuscular or electromagnetic radiations. ra·di·o·nu·clide n. studies are generally indicated in the presence of a suppressed TSH level. The study is done with iodine radioisotopes or technetium technetium (tĕknē`shēəm) [Gr. technetos=artificial], artificially produced radioactive chemical element; symbol Tc; at. no. 43; mass no. of most stable isotope 98; m.p. 2,200°C;; b.p. 4,877°C;; sp. gr. 11. 99m pertechnetate. Compared with radioiodine radioiodine /ra·dio·io·dine/ (-i´o-din) any radioactive isotope of iodine, particularly 123I, 125I, and 131I; used in diagnosis and treatment of thyroid disease and in scintiscanning. , which is taken up and stored as thyroglobulin, pertechnetate is taken up but does not undergo organification and storage. It is, therefore, preferable to perform radioiodine scanning as the initial procedure. Functioning nodules on pertechnetate scans should generally be rescanned using radioiodine. Some clinicians consider using suppression scanning to investigate indetermina te nodules. The TSH level is checked after thyroxine administration. In the presence of a suppressed level of TSH, the persistence of uptake indicates autonomous tissue. An anatomic match of this uptake with the localization Customizing software and documentation for a particular country. It includes the translation of menus and messages into the native spoken language as well as changes in the user interface to accommodate different alphabets and culture. See internationalization and l10n. of the nodule may be regarded. as evidence of a benign process. Suppression scanning is not advisable in patients with cardiac disease or in the elderly. Magnetic Resonance Imaging magnetic resonance imaging (MRI), noninvasive diagnostic technique that uses nuclear magnetic resonance to produce cross-sectional images of organs and other internal body structures. and Computed Tomography Magnetic resonance imaging (MRI 1. (application) MRI - Magnetic Resonance Imaging. 2. MRI - Measurement Requirements and Interface. ) is superior to ultrasonography in evaluating substernal goiters. Magnetic resonance imaging involves no ionizing radiation; it is noninvasive and easily tolerated but is relatively expensive. Unlike contrast media used with computed tomography (CT), contrast material used in MRI does not influence thyroid function. Computed tomography gives structural information about the thyroid and its relationship to adjacent structures. The high iodine content of the thyroid gives it higher attenuation Loss of signal power in a transmission. Attenuation The reduction in level of a transmitted quantity as a function of a parameter, usually distance. It is applied mainly to acoustic or electromagnetic waves and is expressed as the ratio of power densities. than the surrounding soft tissue, which is detected by CT and makes CT useful in identifying thyroid extension into the mediastinum mediastinum /me·di·as·ti·num/ (me?de-ah-sti´num) pl. mediasti´na [L.] 1. a median septum or partition. 2. . Both MRI and CT have limited roles in thyroid evaluation due to their inability to distinguish benign from malignant thyroid lesions and their relatively high costs. Fine-needle Aspiration Fine-needle aspiration of thyroid nodules has emerged as the default diagnostic test. Many have suggested that FNA is a cost-effective initial approach. It has been shown to be superior to ultrasonography in the initial management of thyroid nodules. Fine-needle aspiration of the thyroid is an accurate method to determine the need for surgery in most situations. About 85% of thyroid FNA procedures result in sufficient cellular material for diagnosis. (10) For aspirates considered to be sufficient for diagnosis, the sensitivity and specificity levels are 93% and 96%, respectively, with false-positive and false-negative rates of less than 4%. Fine-needle aspiration results indicate that approximately 60 of thyroid nodules are benign, with 29.5% indeterminate, and 3.4% malignant. (11) To obtain optimal results with FNA, both clinician and cytopathologist experienced in the technique are required. Several passes during the course of the ENA ENA Ecole Nationale d'Administration (French) ENA Emergency Nurses Association ENA Energy Networks Association (Australia) ENA Ethiopian News Agency ENA Energetic Neutral Atom are usually required. A reasonable number of FNAs need to be done annuall y to maintain expertise. There has been no evidence of needle track implantation with the use of FNA. Ultrasound-guided FNA is an option for occult lesions and is reserved for high-risk groups (those with worrisome imaging, clinical findings, or suspicious history). Transformation of benign nodules into malignant lesions is rare. Although tiny cysts are generally benign, ultrasound-guided FNA can be done in lesions smaller than 1 cm in patients needing diagnostic reassurance. Cyst cyst, abnormal sac in the body, filled with a fluid or semisolid and enclosed in a membrane. Cysts can be congenital but are usually acquired, the most common locations being the skin and the ovaries. fluid should always be submitted for cytology cytology (sītŏl`əjē), in biology, the study of the structure of all normal and abnormal components of cells and the changes, movements, and transformations of such components. . Malignancy is rare in cysts that do not recur after aspiration. In most patients with occult thyroid nodules, the risk of occult carcinoma is low It may not be advisable to systematically perform ultrasound-guided FNA on all occult nodules unless there is a high index of clinical suspicion. Ultrasound-guided FNA is also useful in evaluating solid hypo-echoic nodules> 1 cm in diameter. (12) Difficulty may arise in distinguishing benign versus malignant lesions in FNA specimens in the setting of degenerative cysts, follicular fol·lic·u·lar adj. 1. Relating to, having, or resembling a follicle or follicles. 2. Affecting or growing out of a follicle or follicles. , Hurthle cell, and lymphocytic lesions. Fine-needle aspriration of hot nodules, which are generally benign and represent follicular adenomas, may result in indeterminate cytologic cytological, cytologic pertaining to cytology. cytological examination examination of material for purposes of cytology. Carried out on cerebrospinal fluid, joint fluid, aspirates of body cavities and cystic lesions. findings. This indeterminate category, sometimes referred to as follicular neoplasms, may be reclassified as cancer based on vascular or capsular cap·su·lar adj. Of, relating to, or resembling a capsule. Adj. 1. capsular - resembling a capsule; "the capsular ligament is a sac surrounding the articular cavity of a freely movable joint and attached to the bones" invasion of tissue obtained at surgery. About 10% to 20% of these lesions turn out to be follicular carcinomas after excision. Cellular and immune markers may prove to be useful in differentiating follicular adenomas from carcinomas. (13,14) Fine-needle aspiration samples can be used for molecular studies to determine the presence of RET oncogenes oncogenes 1. genes carried by tumor viruses that are directly and solely responsible for the neoplastic transformation of host cells. Many oncogenes function after integration into the DNA of the host cell and some up-regulate normal downstream host cell genes to cause neoplasia. in inherited thyroid carcinoma. (15) In any event, patients with clinical findings denoting a high likelihood of malignancy may proceed to surgery, independent of the FNA findings. TREATMENT OF THYROID NODULES AND NODULAR THYROID GOITER Thyroxine Suppression The efficacy of thyroxine ([T.sub.4]) in suppressing palpable thyroid nodules has been controversial. Patients with occult thyroid nodules should not be treated with T., suppression therapy unless there is a history of head or neck irradiation. Rapid shrinkage of a nodule after ([T.sub.4]) suppression therapy is generally reassuring; however, shrinkage of a thyroid nodule is not proof of an underlying benign process, since some thyroid cancers also respond by shrinking. (16) A conservative approach may be considered if shrinkage of thyroid nodules is noted after treatment of hypothyroidism hypothyroidism: see thyroid gland. . The evidence suggests that T suppressive sup·pres·sive adj. Tending or serving to suppress. Adj. 1. suppressive - tending to suppress; "the government used suppressive measures to control the protest" therapy fails to shrink most nodules, since only 10% to 20% of nodules responded to this treatment. (17) Routine ([T.sub.4]) suppressive therapy is no longer recommended for cytologically benign nodules. Thyroxine suppression can cause or aggravate osteoporosis, especially in postmenopausal post·men·o·paus·al adj. Of or occurring in the time following menopause. postmenopausal Change of life Gynecology adjective Referring to the time in ♀ when menstrual periods stop for ≥ 1 yr women. (18) In elderly patients, suppressive therapy may precipitate thyrotoxicosis thyrotoxicosis /thy·ro·tox·i·co·sis/ (thi?ro-tok?si-ko´sis) a morbid condition due to overactivity of the thyroid gland; see Graves' disease. thy·ro·tox·i·co·sis n. . Patents with nodular glands should have their thyroid function monitored for the development of thyrotoxicosis. (19) Use of Scierosing Agents Ethanol and tetracycline tetracycline (tĕ'trəsī`klēn), any of a group of antibiotics produced by bacteria of the genus Streptomyces. They are effective against a wide range of Gram positive and Gram negative bacteria, interfering with protein have been used to treat nodules and cysts. While a reduction in nodule size has been documented using these treatments, they have been less popular in the US due to the potential complications, such as dysphonia dysphonia /dys·pho·nia/ (-fo´ne-ah) a voice impairment or speech disorder.dysphon´ic dys·pho·ni·a n. Difficulty in speaking, usually evidenced by hoarseness. , local tissue damage, and fever related to extravasation extravasation /ex·trav·a·sa·tion/ (ek-strav?ah-za´shun) 1. a discharge or escape, as of blood, from a vessel into the tissues; blood or other substance so discharged. 2. the process of being extravasated. of these agents. Radioactive Iodine Treatment Iodine 131 can be considered for treatment of hot nodules and toxic multinodular goiters. This modality may also have a role in the treatment of compressive symptoms from retrostemal goiters if the patient is not medically fit for surgery. The potential efficacy may be estimated by the extent of uptake on thyroid scintigraphy. Surgery Patients with lesions confirmed to be malignant should generally be referred for surgery. Surgery may also be needed if the goiter causes mechanical compression of neck tissues. Endocrinology follow-up with TSH suppression therapy and additional ablation with (131) I may also be needed in cases of differentiated thyroid cancer. Depending on the underlying pathology (eg, lymphoma), there may be a role for chemotherapy and/or radiation. In general, suspicious lesions should also be subjected to surgery. Many controversies still exist in the management of thyroid nodules. In cases of doubt, endocrinology consultation is advisable.
TABLE 1.
Findings That May Increase Risk of Malignancy in Thyroid Nodules
Solitary, hypoechoic nodule
Cold nodule (hypofunctioning by radioiodine scan)
Cyst >4 cm in diameter or complex cyst
Rapidly enlarging, one nodule is markedly larger
than the others, or one nodule increasing in
size despite thyroid hormone treatment
Ipsilateral adenopathy
Irregular, firm, fixed to underlying tissue, poorly
define margins
Invasion of the capsule or blood vessels, or metastasis
Microcalcifications
Hoarseness with vocal cord paralysis
Age <40 years
Male sex
Female of reproductive age (hormonal factors:
pregnancy, increased parity)
History of radiation therapy (young age at exposure,
low-dose radiation, first-degree relative with
radiation-related tumor)
Inherited tumor syndrome (adenomatous polyposis
coli, multiple endocrine neopalsia type 2),
Cowden's disease
TABLE 2
Possible Etiologies of a Thyroid Mass
Extrathyroidal
Epidermoid cyst
Lymphadenopathy
Laryngocele, bronchocele
Aneurysm
Branchial cyst
Cystic hygroma
Parathyroid adenoma/cyst/carcinoma
Thyroglossal cyst
Intrathyroidal
Thyroid adenoma
Colloid cyst
Multinodular goiter
Thyroiditis
Thyroid carcinoma
Thyroid hemiagenesis
Previous surgery
Previous [I.sup.151] therapy/Marine-Lenhart
syndrome (tumor recurrence after radioiodine therapy)
Fibrosis
Tuberculoma
Lymphoma
Metastatic disease
Amyloidosis
Hydatid disease
TABLE 3
Comparsion of Diagnostic Tools
Cost($) Test Benefits
<250 FNA Enables definite
diagnosis of malignancy
Diagnostic accuracy >90%
<250 Thyroid Guidance for FNA
ultrasound Follow size of thyroid
nodule
Differentiates texture
(homogeneous vs
heterogeneous, cystic vs
solid)
Less expensive than other
imaging tests
250-750 Thyroid scan Short half-life (6 hr)
([mTc.sup.99]) Low radiation dose
Widely available
Not stored or organified
in thyroid
250-750 Thyroid scan Less radiation than
([I.sup.123]) [I.sup.131]
Short half-life (13 hr)
Retrosternal
visualization
Determine foci
susceptible to
[I.sup.131]
250-750 Thyroid scan Retrosternal
(I.sup.131]) visualization
8-day half-life allows
rescanning days later
751-950 CT or Noncontrast study good
SPECT for multinodular goiter
3-dimensional, good for
compressive symptoms
Tissue iodine attenuation
helps detect deeply
positioned metastatic
lesions
<950 MRI As good as CT
Good for substernal
goiter
Gadolinium contrast does
not affact thyroid
function
Nonionizing radiation
Noninvasive
Cost($) Disadvantages
<250 Minor local discomfort
Less reliable for cystic
lesions
Needs experienced surgeon
and cytopathologist
<250 Operator-dependent
Very sensitive for
nodules
Not good for
retrosternal,
intrathoracic goiters
Does not clearly
delineate anatomy
between thyroid and
adjacent structures
Cannot diagnose
malignancy
250-750 Radiation exposure
Costly
Difficult with lesions
in the periphery or
isthmus
Normal tissue over
nonfunctioning nodule
may mask findings
Cannot diagnose
malignancy
250-750 Radiation exposure
Costly
Reduced diagnostic value
(lower percentage uptake
of labeled iodine related
to high dietary
iodine intake from
widespread use of iodine
in food preservation)
Difficult with lesions in
the periphery or isthmus
Normal tissue over
nonfunctioning nodule
may mask findings
Cannot diagnose
malignancy
250-750 High energy gamma
radiation (image
quality less than
that of
[I.sup.123]
or [mTc.sup.99])
Costly
Reduced diagnostic value
(lower percentage uptake
of labeled iodine related
to high dietary iodine
widespread use of iodine
in food preservation)
Difficult with lesions in
the periphery or isthmus
Normal tissue over
nonfunctioning nodule may
mask findings
Cannot diagnose
malignancy
751-950 Costly
Cannot diagnose
malignancy
<950 Expensive
Cannot diagnose
malignancy
FNA = Fine-needle aspiration,
CT = comupted tomography,
SPECT = single photon emission computed tomography.
Acknowledgments. We thank Patsy Ellis and Nancy Milligan of the Mountain Home Veterans Affairs Medical Center Library Service. References (1.) Burguera B, Charib H: Thyroid incidentalomas. prevalence, diagnosis, significance, and management. Endocrinol Metab Clin North Am 2000; 29:187-203 (2.) Landis SH, Murray T, Bolden S, et al: Cancer statistics, 1999. CA Cancer J Clin 1999; 49:8-31 (3.) Ortiz R, Hupart KH, DeFesi CR, et al: Effect of early referral to an endocrinologist on efficiency and cost of evaluation and development of treatment plan in patients with thyroid nodules. J Clin Endocrinol Metab 1998; 83:3803-3807 (4.) Ron E, Lubin JH, Shore RE, et al: Thyroid cancer after exposure to external radiation: a pooled analysis of seven studies. Radiat Res 1995; 141:259-277 (5.) Papini E, Gugliemi R, Rinaldi R, et al: Differentiated cancer in thyroid incidentalomas: a controlled study of one hundred consecutive hypoechoic nodules. Programs and Abstracts of the 80th Annual Meeting of the Endocrinology Society, New Orleans, 1998, p 2. (6.) Sachmechi I. Miller E, Varatharajah R, et al: Thyroid carcinoma in single cold nodules and in cold nodules of multinodular goiters. Endocr Pract 2000; 6:5-7. (7.) Bruneton JN, Balu-Maestro C, Marcy PY, et al: Very high frequency (13 MHz (MegaHertZ) One million cycles per second. It is used to measure the transmission speed of electronic devices, including channels, buses and the computer's internal clock. A one-megahertz clock (1 MHz) means some number of bits (16, 32, 64, etc. ) ultrasonographic examination of the normal neck: detection of normal lymph nodes and thyroid nodules. J Lilirasound Med 1994; 13:87 (8.) Marqusee E, Benson CB, Frates MC, et al: Usefulness of ultrasonography in the management of nodular thyroid disease. Ann Intern Med 2000; 133:696-700 (9.) Tan GH, Gharib H: Thyroid incidentalomas: management approaches to nonpalpable nodules discovered incidentally on thyroid imaging. Ann Intern Med 1997; 126:226-231 (10.) Tangpricha V, Chen BJ, Swan NC, et al: Twenty-one-gauge needles provide more cellular samples than twenty-five-gauge needles in fine-needle aspiration biopsy of the thyroid hut may not provide increased diagnostic accuracy. Thyroid 2001; 11:973-976 (11.) Amrikachi M, Ramzy I, Rubenfeld S, et al: Accuracy of fine-needle aspiration of thyroid. Arch Pathol Lab Med 2001; 125:484-488 (12.) Gharib H: Changing concepts in the diagnosis and management of thyroid nodules. Endocrinol Metab Clin North Am 1997; 26:777-800 (13.) Gasbarri A, Martegani MP, Del Prete F, et al: Galectin-3 and CD44v6 isoforms in the preoperative pre·op·er·a·tive adj. Preceding a surgical operation. preoperative preceding an operation. preoperative care the preparation of a patient before operation. evaluation of thyroid nodules.] Clin Oncol 1999; 17:3494-3502 (14.) Christensen L, Blichert-Toft M, Brandt M, et al: Thyro-peroxidase (TPO (Twisted Pair Only) Refers to the use of twisted pair wire when other options are available. For example, a TPO suffix at the end of 3com Ethernet adapter model numbers indicates the card has only an RJ45 connector. ) immunostaining of the solitary cold thyroid nodule. Clin Endocrinol (Oxf) 2000; 53:161-169 (15.) Wells SA Jr, Chi DD, Toshima K, et al: Predictive DNA testing and prophylactic thyroidectomy Thyroidectomy Definition Thyroidectomy is a surgical procedure in which all or part of the thyroid gland is removed. The thyroid gland is located in the forward part of the neck (anterior) just under the skin and in front of the Adam's apple. in patients at risk for multiple endocrine neoplasia Multiple endocrine neoplasia Abnormal tissue growth on one or more of the endocrine (hormone-secreting) glands. Mentioned in: Follicle-Stimulating Hormone Test multiple endocrine neoplasia See MEN. type 2A. Ann Surg 1994; 220:237-250 (16.) Wemeau JL, Cousty C, Vlaeminck V: Suppressive hormone therapy for thyroid nodules. prospective evaluation, preliminary results [in French]. Ann Endocrinol (Paris) 2000; 61:119124 (17.) Gharib H, Mazzaferri EL: Thyroxine suppressive therapy in patients with nodular thyroid disease. Ann Intern Med 1998; 128:386-394 (18.) Gharib H: Changing concepts in the diagnosis and management of thyroid nodules. Endocrinol Metab Clin North Am 1997; 26:777-800. (19.) Mack E: Management of patients with substernal goiters. Surg Clin North Am 1995; 75:377 From the Mountain Home Veterans Affairs Medical Center and the Department of Medicine, East Tennessee State University East Tennessee State University (ETSU) is an accredited American university, founded October 21911 and located in Johnson City, Tennessee. It is part of the Tennessee Board of Regents system of colleges and universities. , Johnson City. Reprint requests to Alan N. Peiris, MD, PhD, East Tennessee State University, Department of Medicine, P0 Box 70622, Johnson City, TN 37614. |
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