Use of <SUP>123</SUP>I for Thyroid Uptake and Scintigraphy
スポンサーリンク
概要
- 論文の詳細を見る
<I>Cyclotron-produced</I> <SUP>123</SUP>I <I>has short half-life (13.3 h) and an optimum gamma ray energy for scintigraphy (159 keV) . It makes radiation dose to the thyroid as low as nearly one hundredth of</I> <SUP>131</SUP>I. <I>The purpose of this study is to evaluate</I> <SUP>123</SUP>I <I>for clinical use in place of</I> <SUP>131</SUP>I. <I>Thyroid uptake measurements were performed with the standard techniques at 3 and 24 hours after oral administration of radioiodine, and the thyroid scintigraphy were made by a rectilinear scanner or a scintillation camera. Thyroid uptakes of</I> <SUP>123</SUP>I <I>did not coincide so well with</I> <SUP>131</SUP>I <I>when the measurements were performed one after another, but they coincided very well when patients were given both radioiodine simultaneously and measured by the double tracer technique. Thyroid scintigrams of</I> <SUP>123</SUP>I <I>were as excellent as those of</I> <SUP>131</SUP>I <I>except a few cases showed slight increment of the background density. The radioactivity of</I> <SUP>123</SUP>I <I>in the thyroid at 3 hours decays one third in 24 hours. Of 64 patients studied, 59 or 92% showed higher count rate in the thyroid region at 3 hours than 24 hours. The thyroid scintigram using</I> <SUP>123</SUP>I, <I>therefore, is better to be made in 3 to 6 hours while the radioactivity well remains in the thyroid tissue. Iodine-123, instead of</I> I-131, <I> will soon be in use for the thyroid studies in our country</I>.
- 社団法人 日本アイソトープ協会の論文
社団法人 日本アイソトープ協会 | 論文
- Distortion of Pulse Height Spectra Due to Absorbers in the Measurement of Low-energy .BETA.-rays with a Silicon Detector.
- タイトル無し
- Estimation of Angular Distributions of the Low-Energy .BETA.-Ray Emission from a Sealed Source.
- Comparison of SPECT images with four kinds of 99nTc collimators.
- Cross Talks on to 201Tl- and 123I-Photopeak Windows with Simultaneous Administration of Them, Using of a Gamma Camera.