What does this research mean for the field?

Routine reductions in radioactive iodine activity for hemodialyzed patients with thyroid cancer are unnecessary, as standard doses remain below bone marrow toxicity thresholds and yield favorable oncologic outcomes. Novelty: ClaimNovelty.CONTRADICTORY. Consensus alignment: ConsensusAlignment.CHALLENGES_CONSENSUS.

What question did this study set out to answer?

The study aims to improve management strategies for hemodialyzed patients treated with radioactive iodine for thyroid cancer.

May 16, 2026

Management of Hemodialyzed Patients Treated with Radioactive Iodine for Thyroid Cancer: How Could We Improve It? Tracks from the Lille Experience

Key Points

The study aims to improve management strategies for hemodialyzed patients treated with radioactive iodine for thyroid cancer.
Included all hemodialyzed patients requiring radioactive iodine for thyroid cancer at a tertiary referral center.
Evaluated oncologic results and toxicity risk while estimating blood marrow absorbed doses based on different models.
Reviewed dialysis parameters and the impact of two recombinant human thyrotropin administration schemas.
Total of 16 patients included; 15 managed with recombinant human thyrotropin.
Median radioactive iodine activity was 2913 MBq, with good tolerance observed.
Median blood marrow absorbed doses were statistically different among three models, with no patient exceeding the 2-Gy threshold.

Abstract

The use of radioactive iodine (RAI) for patients with thyroid cancer (TC) who are also treated with hemodialysis for end-stage renal disease (HD-ESRD) remains challenging, with several issues still unresolved. We report our tertiary referral center experience and provide suggestions for management improvement. Methods: We included all HD-ESRD patients that required RAI for TC in our institution. Oncologic results and toxicity risk were evaluated. Blood marrow (BM) absorbed dose was estimated on the basis of current guidelines and compared with 2 alternative models that adapt to the inability of using biexponential models for hemodialyzed patients. We emulated the impact of high RAI activity on the BM absorbed dose. Dialysis parameters were reviewed to correlate with kinetics of RAI activity. The impact of 2 different schema of recombinant human thyrotropin stimulating hormone was also studied. Results: In total, 16 patients were included. Fifteen patients were prepared with recombinant human thyrotropin stimulating hormone (5 with 1 injection on day 2, 10 with 2 injections on days 10 and 2). Median RAI activity was 2913 MBq, and immediate and late tolerance was good. The median BM absorbed dose was 0.72, 0.81, and 0.67 Gy with models 1, 2, and 3, respectively, statistically different among all calculation methods. There was no significant correlation between total blood activity decrease and total purified blood volume. No patient crossed the 2-Gy threshold with a delivered activity of 3700 MBq. Conclusion: On the basis of the largest series of HD-ESRD patients treated with RAI for TC, we present findings that could enhance their management. With our hemodialysis protocol, we suggest that routine reductions in RAI activity may be overly cautious and unnecessary. Oncologic outcomes were favorable, without significant hematologic toxicity. A 65–70 L of purified blood volume per session target results in over 90% reduction in radioactivity after 2 dialysis sessions.

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Management of Hemodialyzed Patients Treated with Radioactive Iodine for Thyroid Cancer: How Could We Improve It? Tracks from the Lille Experience

Key Points

Abstract

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