Self-stunning in thyroid ablation: evidence from comparative studies of diagnostic 131I and 123I

Hilditch, T. E.; Dempsey, Mary F.; Bolster, Alison; McMenemin, R.; Reed, Nicholas

doi:10.1007/s00259-002-0785-6

Cited by 92 publications

(64 citation statements)

References 3 publications

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“…Therefore, it is not surprising that radiation-induced loss of iodide transport develops gradually and rather slowly after the NIS gene transcription is significantly suppressed. Moreover, these in vitro findings support the many clinical reports of a delay in detection of stunning until several days after the administration of radioiodine for diagnostic purposes (1)(2)(3)(4)(5)(6)(7)36,37).…”

Section: Discussionsupporting

confidence: 72%

“…To avoid this problem, 123 I has been proposed to replace 131 I for diagnostic uptake measurements. Stunning has nevertheless occurred in thyroid remnants and metastases after administration of 123 I within a rather wide range of diagnostic activities (50-200 MBq) (7,12,13). However, whether 123 I irradiation triggers cellular changes leading to loss of NIS expression and reduced iodide uptake has not been experimentally investigated.…”

mentioning

confidence: 99%

“…The reason for this effect is not fully understood, although several mechanisms have been proposed. One explanation, rejecting an effect from the diagnostic 131 I, is that a low 131 I content measured in treated tumors reflects a rapid loss of viable tissues and that dying cells damaged by irradiation are incapable of keeping accumulated iodide (7,8). In this case, thyroid stunning would be regarded as an artifact due to an early therapeutic effect of the ablative 131 I and hence not a clinical problem.…”

mentioning

confidence: 99%

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Radiation-Induced Thyroid Stunning: Differential Effects of ¹²³I, ¹³¹I, ^99mTc, and ²¹¹At on Iodide Transport and NIS mRNA Expression in Cultured Thyroid Cells

Lundh

Lindencrona²,

Postgård³

et al. 2009

J Nucl Med

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Recent clinical and experimental data demonstrate that thyroid stunning is caused by previous irradiation and may influence the efficacy of 131 I radiation therapy of thyroid cancer and possibly hyperthyroidism. To avoid stunning, many clinics have exchanged 131 I for 123 I for pretherapeutic diagnostic imaging and dose planning. Furthermore, recent in vitro studies indicate that 131 I irradiation reduces iodide uptake by downregulating the expression of the sodium iodide symporter (NIS). The rationale for this study was therefore to study effects on iodide transport and NIS messenger RNA (mRNA) expression in thyrocytes exposed to both 123 I and 131 I in addition to some other potentially interesting radionuclides. Methods: Thyrotropin-stimulated thyroid cell monolayers were exposed to 0.5 Gy of 123 I, 131 I, 99m Tc, or 211 At, all being radionuclides transported via NIS, in the culture medium for 6 h, or to various absorbed doses of 123 I or 131 I for 48 h. NIS mRNA expression was analyzed using quantitative reverse-transcriptase polymerase chain reaction. Results: Iodide transport and NIS mRNA expression were reduced by all radionuclides. At the same absorbed dose, iodide transport was reduced the most by 211 At, followed by 123 I and 99m Tc (equally potent), whereas 131 I was least effective. The onset of NIS downregulation was rapid (,1 d after irradiation) in cells exposed to 123 I or 211 At and was delayed in cells irradiated with 131 I or 99m Tc. Iodide transport and NIS expression were recovered only for 211 At. 123 I reduced the iodine transport and the NIS mRNA expression more efficiently than did 131 I at an equivalent absorbed dose, with a relative biological effectiveness of about 5. Conclusion: The stunning effect per unit absorbed dose is more severe for 123 I than for 131 I. Despite the lower absorbed dose per unit activity for 123 I than for 131 I, stunning by 123 I cannot be excluded in patients. The degree to which iodide transport capacity and NIS mRNA expression are reduced seems to be related to the biological effectiveness of the type of radiation delivering the absorbed dose to the target, with 211 At (which has the highest relative biological effectiveness) causing the highest degree of stunning per unit absorbed dose in the present study.

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Section: Discussionsupporting

confidence: 72%

mentioning

confidence: 99%

mentioning

confidence: 99%

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Radiation-Induced Thyroid Stunning: Differential Effects of ¹²³I, ¹³¹I, ^99mTc, and ²¹¹At on Iodide Transport and NIS mRNA Expression in Cultured Thyroid Cells

Lundh

Lindencrona²,

Postgård³

et al. 2009

J Nucl Med

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“…They concluded that I-131 ablation has the same outcome whether (2 mCi) 74 MBq of I-131 used as a diagnostic agent or (400 µCi) 14.8 MBq of I-123 used for imaging prior to I-131 ablation. Although these conflicting results could be attributed to the fact that iodide transport and NIS messenger RNA (NIS mRNA) expression were reduced by both I-131 and I-123 (29) , the stunning observed following I-123 could not be explained by errors in the estimation of relative uptake due to different tissue absorption of the I-131 and I-123 photons, nor by the radiation dose delivered by the I-123 (30) . The resultant radiation dose to the thyroid remnant, as the therapeutic radioiodine is being taken up, may be sufficient to inhibit the uptake process, thus leading to a reduction in maximum uptake when compared with that of a diagnostic activity of radioiodine (30) .A unique advantage of this study is that it is one of a few studies that compared outcome of I-131 ablation in age-, gender-, histopathology-matched patient groups following either post-thyroidectomy I-123 or I-131WBS.…”

Section: Discussionmentioning

confidence: 86%

Impact of Post-Thyroidectomy I-123 Versus I-131 Whole Body Scan on the Outcome of Radioactive Iodine (I-131) Ablation for Differentiated Thyroid Carcinoma

2014

The Egyptian Journal Nuclear Medicine

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“…In cases of therapy of the thyroid and its tumors, it is of course very important to keep in mind that pre-therapeutic contamination with (non-radioactive) iodine leads to diminished uptake of the radioiodine not only by competitive inhibition of the iodine transporter (similarly to a blockade of a receptor), but also through a specifi c arrest of thyreocytes (phenomenon referred to as Wolff-Chaikoff-effect) [26]. An issue of changing the maximal uptake and/or effective half time by irradiation of the target tissue (even during the dosimetry measures) is controversial, but also exists [27][28][29]. These observations may lead to avoiding errors in radionuclide therapy and to its further optimization.…”

Section: Effective Half Timementioning

confidence: 99%

Calculations in nuclear medicine — application of free online software

Świętaszczyk¹,

Pilecki²

2013

Nucl. Med. Rev.

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Modern nuclear medicine frequently needs to be supported by software for calculations. A self-designed free-accessible online tool named "Calculator" is presented. It can be used from the web-site www.nuk.bieganski.org, option "Calculator". The programs offer: calculations of quantity of a radionuclide after a time (equation of simple radioactive decay), quantity of the second and third nuclide in the decay chain (successive radioactive decay, computation with Bateman equations and their limits), converting of activity units as well as of activity of a radioactive substance into its mass and vice versa, and calculations related to radionuclide therapy (radionuclide uptake, effective half time and activity needed for therapy). Mathematical and historical backgrounds of the algorithms used are shortly discussed in this work.

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Self-stunning in thyroid ablation: evidence from comparative studies of diagnostic 131I and 123I

Cited by 92 publications

References 3 publications

Radiation-Induced Thyroid Stunning: Differential Effects of ¹²³I, ¹³¹I, ^99mTc, and ²¹¹At on Iodide Transport and NIS mRNA Expression in Cultured Thyroid Cells

Radiation-Induced Thyroid Stunning: Differential Effects of ¹²³I, ¹³¹I, ^99mTc, and ²¹¹At on Iodide Transport and NIS mRNA Expression in Cultured Thyroid Cells

Impact of Post-Thyroidectomy I-123 Versus I-131 Whole Body Scan on the Outcome of Radioactive Iodine (I-131) Ablation for Differentiated Thyroid Carcinoma

Calculations in nuclear medicine — application of free online software

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Self-stunning in thyroid ablation: evidence from comparative studies of diagnostic 131I and 123I

Cited by 92 publications

References 3 publications

Radiation-Induced Thyroid Stunning: Differential Effects of 123I, 131I, 99mTc, and 211At on Iodide Transport and NIS mRNA Expression in Cultured Thyroid Cells

Radiation-Induced Thyroid Stunning: Differential Effects of 123I, 131I, 99mTc, and 211At on Iodide Transport and NIS mRNA Expression in Cultured Thyroid Cells

Impact of Post-Thyroidectomy I-123 Versus I-131 Whole Body Scan on the Outcome of Radioactive Iodine (I-131) Ablation for Differentiated Thyroid Carcinoma

Calculations in nuclear medicine — application of free online software

Contact Info

Product

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Radiation-Induced Thyroid Stunning: Differential Effects of ¹²³I, ¹³¹I, ^99mTc, and ²¹¹At on Iodide Transport and NIS mRNA Expression in Cultured Thyroid Cells

Radiation-Induced Thyroid Stunning: Differential Effects of ¹²³I, ¹³¹I, ^99mTc, and ²¹¹At on Iodide Transport and NIS mRNA Expression in Cultured Thyroid Cells