• Journal of the Korean Society of Radiology
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• v.5 no.6
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• pp.309-313
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• 2011

It is necessary for patients to wait twice for the thyroid examination of thyroid uptake measurement and thyroid scan by using $^{99m}Tc$-pertechnetate. In the study, a method of simultaneous examination of thyroid uptake measurement and thyroid scan by one intravenous injection of $^{99m}Tc$-pertechnetate was suggested by using attenuation filter. As a result, there was a significant correlation between control group and experimental group according to existence of attenuation filter. Consequently, the simultaneous examination of thyroid uptake measurement and thyroid scan by one intravenous injection can be applied clinically.

• 대한핵의학회:학술대회논문집
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• 1987.05a
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• pp.113.1-113.1
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• 1987

• Progress in Medical Physics
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• v.18 no.4
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• pp.187-193
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• 2007

In an effort to assess the internal absorbed dose of radionuclides that is suitable to Koreans' physiological characteristics, we asked 28 male Koreans to take $^{131}|$ orally, determined the thyroidal uptake and daily urination ratio, and assessed the absorbed dose by organ. As a result, first, 24 hours after administering, the average thyroidal uptake and the daily urination ratio registered 19.70% and 71.12%, respectively. Second, the whole body effective dose according to the thyroidal uptake calculated herein and the existing ICRP-suggested thyroidal uptake of 30% offered 1.464E-08 Sv and 2.189E-08 Sv, respectively, showing a 1.5 times difference. To evaluate the quantity of the absorbed dose of radioactive iodine, we can better reduce the error in assessing the body exposure dose by conducting measurement according to human races rather than depending on the existing ICRP data.

• The Korean Journal of Nuclear Medicine Technology
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• v.21 no.1
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• pp.70-75
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• 2017

Purpose Radioactive iodine thyroid uptake (RAIU) rate is an examination which determines and seeks about general functions of thyroid gland. The size of thyroid gland is normally different between each person, also patients having thyroid diseases have had a variety of size of thyroid gland compared with others. The purpose of this study will investigate about the counting rate which is effected by the geometric factors through the length and volume changes of the source in RAIU rate. Materials and Methods I-131 185 kBq ($5{\mu}Ci$) were placed in a cylindrical phantom of 0.5 cm, 1 cm, 1.5 cm, and 3 cm in diameter, respectively, and saline was added to gradually increase the length by 1 cm in the horizontal and vertical directions to give a change in volume. The source was measured 20 times for 20 seconds from a distance of 25 cm to $364.4keV{\pm}20%$ energy ROI with Captus 3000 thyroid uptake system (Capintec, NJ, USA). Results When the source was located in the transverse direction of the detector, the consequence of one-way ANOVA is that even though the length of source is increased each diameter, there is mostly no significant difference. When the source was located in the longitudinal direction and the counting rate of length 1 cm at all diameter is set to 100%, the average is 92.57% for length 2 cm, 86.1% for 3 cm, 80.69% for 4 cm, 74.82% for 5 cm, and 69.68% at 6 cm. Conclusion According to this study, it is expected that the gap of RAIU rate has been depended on the thickness of thyroid gland as well as the diameter of the beaker. We know that the change of the volume with the increase of the length of the source had less effect on the change of the counting rate. Thus, in order to reduce the error in the measurement of the counting rate with the thyroid uptake rate equipment, an accurate counting rate can be relatively measured if the counting rate which is measured is corrected by thickness or the distance between the thyroid and the thyroid uptake rate equipment is changed.

• The Korean Journal of Nuclear Medicine Technology
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• v.17 no.1
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• pp.53-61
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• 2013

Objectives: It is certain that Radioactive iodine thyroid uptake(RAIU) rate should be measured with the standard counts considering the thyroid gland depth in enlarged thyroid patients for the variation from geometric factors. The purpose of this paper is to consider the effects of geometric factors according to detector to source distance and the effective thyroid depth on RAIU rate with experiment test. Materials and Methods: I-131 370 kBq ($10{\mu}Ci$) point source was measured by Captus-3000 thyroid uptake system (Capintec, NJ, USA) with a change Detector-Source Distance from 20 cm to 30 cm at an interval of 1 cm. And we changed the Neck phantom surface-Source Depth in the phantom with 1 cm, 2 cm, 5 cm using the neck phantom in order to reproduce the effective thyroid depth. Results: Every experimental group follows power curve as inverse square curve ($$R2{\geq_-}0.915$$). The average count rates in the case not using a phantom and the every case applied the effective thyroid depth using a phantom was not identical each other. There was significant fluctuations upon the effective thyroid depths applied the effective thyroid depth above 1 cm in $364.4 keV{\pm}10%$ energy ROI (p<0.01). There was not significant difference between the count rates of 1 cm and 2 cm in $364.4keV{\pm}20%$ and $637.1keV{\pm}6.2%$ (p=0.354, p=0.397). In assumed RAIU rate from regression equation, $364.4keV{\pm}20%$ was lower difference than $364.4keV{\pm}10%$ as 6.42% and 5.09% per 1 cm. Every change of count rate upon depth appears decreased line on Linear Regression, but the case of $284.3keV{\pm}10%$ increased only. And also, The graphs of coefficient of variation upon depth increased as straight line on every experimental group. Conclusion: The result appears that application of $364.4keV{\pm}20%$ energy ROI is more suitable for reducing error from the effective thyroid depth. And also, we can estimate the error of 20 cm should be highly reduced than 30 cm for Inverse Square Law. Therefore, If there is not information of the thyroid depth, it is considered that the error from thyroid depth can reduce through set up energy ROIs for $364.4keV{\pm}20%$, and increase Detector-Source Distances.

• 대한핵의학회:학술대회논문집
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• 1973.11a
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• pp.51.2-51.2
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• 1973

• 대한핵의학회:학술대회논문집
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• 1971.11a
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• pp.77.2-78
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• 1971

• Journal of The Korean Radiological Technologist Association
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• v.28 no.1
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• pp.366-366
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• 2002

• 대한핵의학회:학술대회논문집
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• 1969.12a
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• pp.2.1-2.1
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• 1969

• The Korean Journal of Nuclear Medicine
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• v.28 no.3
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• pp.343-349
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• 1994

The study was taken to analyze the laboratory findings of the 161 patients with autoimmune thyroiditis treated at Kyungpook University Hospital from January 1992 to July 1993. They were all female and mean age was 33 years ranging from 10 to 73 years. Mean radioactive iodine uptake(RAIU) of the thyroid was $30.90{\pm}21.80(mean{\pm}SD)%$ at 6 hours and $37.97{\pm}23.25%$ at 24 hours. Mean serum levels of thyroid hormones were $1.41{\pm}0.48$(ng/ml) of T3, $7.26{\pm}3.23$(ug/dl) of T4, and $1.11{\pm}0.66$(ng/dl) of free T4, while mean serum level of TSH was $17.99{\pm}30.72$(uIU/ml). Mean levels of serum autoantibodies were 24. $43{\pm}31.91$(U/ml) of antithyroglobulin antibody and $55.32{\pm}41.97$(U/ml) of antimicrosomal antibody. The correlation between RAIU and serum thyroid hormone levels was significantly negative, but the positive correlation between RAIU and serum TSH was noted. The correlation between thyroid hormones and TSH was significantly negative, but the positive correlation between RAIU and serum TSH was noted. The correlation between thyroid hormones and TSH was significantly negative, while antimicrosomal antibody titer revealed significantly positive correlation with TSH. The RAIU and free T4 showed negatively correlated with the increasing age. The Initial clinical findings of the patients with autoimmune thyroiditis revealed euthyroidism in 83.2%, hypothyroidism in 14.9%, and hyperthyroidism in 1.9%. The incidence of abnormally increased serum thyroglobulin, antithyroglobulin antibody, and antimicrosomal antibody were 21.3%, 97.5%, and 87.6%, respectively and these abnormalities were more frequent in the patients with documented clinical thyroid functional disturbances.