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Iodine Tests & Measurements

Fluorescent Scanning

• Abraham
• Aubert, Schlumberger, Tubiana
• Gollnick
• Imamura, Fujii
• Jonckheer
• Okerlund, Palmer
• Patton
• Pavoni
• Puttemans
• Reiners
• Tadros
• Thrall, Gillin, Wartofsky

Thrall, Gillin, Wartofsky

Discordant imaging of a thyroid nodule with 131I and 99mTc: concordance of 131I and fluorescent scans.

Thrall JH, Burman KD, Wartofsky L, Corcoran RJ, Johnson MC, Gillin MT.

Radiology. 1978 Sep;128(3):705-6.

[abstract only]

"A thyroid nodule, "hot" by 99mTc and "cold" by 131I scanning, was reimaged with a fluorescent scanner. The fluorescent scan was qualitatively similar to the 131I scan and demonstrated low iodine content in the nodule. This combination of scan patterns is compatible with an organification defect in the nodular tissue."

Quantitative thyroid fluorescent scanning: technique and clinical experience.

Thrall JH, Gillen MT, Johnson MC, Corcoran RJ, Wartofsky L.

AJR Am J Roentgenol. 1978 Mar;130(3):517-22.

[abstract only]

"A method for quantifying thyroid gland iodine content using a modified fluorescence scanning system is described. The technique does not require a computer. Two single channel analyzers and digital scalers are used to determine net counts from iodine k-alpha x-rays and system response in counts per milligram is calibrated from studies of known quantities of iodine placed in thyroid phantoms. Fluorescence quantification of thyroid gland iodine content was performed in 250 patients with a wide variety of thyroid disorders. Thirty euthyroid patients judged to have no evidence of thyroid disease averaged 10.1 +/- 3.9 mg glandular iodine. Results for several major diagnostic categories were: untreated Graves' disease, 28 patients, 24.4 +/- 9.9 mg; diffuse euthyroid goiter, 14 patients, 16.1 +/- 7.4 mg; primary hypothyroidism, seven patients, 0.5 mg; and nontoxic multinodular goiter, 28 patients, 7.3 +/- 4.1 mg. Follow-up studies on patients treated for Graves' disease both medically and with 131I generally revealed elevated iodine contents in persistently hyperthyroid patients, lower than normal average amounts in euthyroid patients, and only trace amounts in hypothyroid patients. Although the clinical role of fluorescence iodine quantification remains to be fully established, the technique provides information not otherwise available on an important parameter of thyroid status."

Solitary autonomous thyroid nodules: comparison of fluorescent and pertechnetate imaging.

Thrall JH, Burman KD, Gillin MT, Corcoran RJ, Johnson MC, Wartofsky L.

J Nucl Med. 1977 Nov;18(11):1064-8.

"Twelve patients with solitary autonomous thyroid nodules were scanned with [99mTc] pertechnetate and by fluorescent imaging. Nodular dimensions were essentially identical on the two types of scans, but the relative scan densities in the nodular versus extranodular areas demonstrated striking differences. In 11 of the 12 patients, the ratio of nodular-to-extranodular radiotracer accumulation was significantly higher than the ratio of nodular-to-extranodular iodine content. In two patients with no demonstrable extranodular radiotracer accumulation by initial pertechnetate scan, extra-nodular tissue was demonstrated by fluorescent imaging. In such cases, fluorescent scanning may eliminate the need for a second radionuclide scan following TSH stimulation to visualize the extranodular tissue. Fluorescent scanning offers a unique new method for aiding the evaluation of patients with suspected autonomous nodules, and can facilitate the diagnosis in some cases. The maintenance of relatively uniform iodine concentration between nodular and extranodular tissues is an intriguing finding that bears further investigation."

Evaluation of a thyroid fluorescent scanning system of concentric source-detector design.

Gillin MT, Thrall JH, Corcoran RJ, Johnson MC.

J Nucl Med. 1977 Feb;18(2):163-7.

"A concentric source-detector system for thyroid fluorescent scanning is described, including fundamental parameters of system response and adaptation of a conventional rectilinear scanner for use with it. The basic system consists of twenty 1-Ci sources of 241Am, a 500-mm2 Si(Li) detector, and associated pulse-height electronics. The image-forming equipment of the rectilinear scanner is retained. We have developed a clinical imaging technique that provides a photon density of 600-800 counts/cm2 over the thyroid gland in subjects with normal iodine pools. Comparisons are made between the outrigger design for fluorescent scanning and conventional emission scanning."

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