The use of single-timepoint images to link administered radioiodine activity (MBq) to a prescribed lesion radiation-absorbed dose (cGy): a regression-based prediction interval tool for the management of well-differentiated thyroid cancer patients.
1/5 보강
PICO 자동 추출 (휴리스틱, conf 3/4)
유사 논문P · Population 대상 환자/모집단
21 patients) with SUV > 1 underwent quantitative PET scans at 24, 48, 72, and 120 h post-administration of 222 MBq of theranostic NaI-I to determine the individual lesion radiation-absorbed dose.
I · Intervention 중재 / 시술
I therapy, individual lesion cGy varied over 3 logs with a median of 22,000 cGy, confirming wide heterogeneity of lesion radiation dose
C · Comparison 대조 / 비교
추출되지 않음
O · Outcome 결과 / 결론
[TRIAL REGISTRATION] NCT04462471, Registered July 8, 2020. NCT03647358, Registered Aug 27, 2018.
[PURPOSE] To introduce a biomarker-based dosimetry method for the rational selection of a treatment activity for patients undergoing radioactive iodine I therapy (RAI) for metastatic differentiated th
APA
Mauguen A, Grewal RK, et al. (2023). The use of single-timepoint images to link administered radioiodine activity (MBq) to a prescribed lesion radiation-absorbed dose (cGy): a regression-based prediction interval tool for the management of well-differentiated thyroid cancer patients.. European journal of nuclear medicine and molecular imaging, 50(10), 2971-2983. https://doi.org/10.1007/s00259-023-06240-1
MLA
Mauguen A, et al.. "The use of single-timepoint images to link administered radioiodine activity (MBq) to a prescribed lesion radiation-absorbed dose (cGy): a regression-based prediction interval tool for the management of well-differentiated thyroid cancer patients.." European journal of nuclear medicine and molecular imaging, vol. 50, no. 10, 2023, pp. 2971-2983.
PMID
37171634 ↗
Abstract 한글 요약
[PURPOSE] To introduce a biomarker-based dosimetry method for the rational selection of a treatment activity for patients undergoing radioactive iodine I therapy (RAI) for metastatic differentiated thyroid cancer (mDTC) based on single-timepoint imaging of individual lesion uptake by I PET.
[METHODS] Patients referred for RAI therapy of mDTC were enrolled in institutionally approved protocols. A total of 208 mDTC lesions (in 21 patients) with SUV > 1 underwent quantitative PET scans at 24, 48, 72, and 120 h post-administration of 222 MBq of theranostic NaI-I to determine the individual lesion radiation-absorbed dose. Using a general estimating equation, a prediction curve for biomarker development was generated in the form of a best-fit regression line and 95% prediction interval, correlating individual predicted lesion radiation dose metrics, with candidate biomarkers ("predictors") such as SUV and activity in microcurie per gram, from a single imaging timepoint.
[RESULTS] In the 169 lesions (in 15 patients) that received I therapy, individual lesion cGy varied over 3 logs with a median of 22,000 cGy, confirming wide heterogeneity of lesion radiation dose. Initial findings from the prediction curve on all 208 lesions confirmed that a 48-h SUV was the best predictor of lesion radiation dose and permitted calculation of the I activity required to achieve a lesional threshold radiation dose (2000 cGy) within defined confidence intervals.
[CONCLUSIONS] Based on MIRD lesion-absorbed dose estimates and regression statistics, we report on the feasibility of a new single-timepoint I-PET-based dosimetry biomarker for RAI in patients with mDTC. The approach provides clinicians with a tool to select personalized (precision) therapeutic administration of radioactivity (MBq) to achieve a desired target lesion-absorbed dose (cGy) for selected index lesions based on a single 48-h measurement I-PET image, provided the selected activity does not exceed the maximum tolerated activity (MTA) of < 2 Gy to blood, as is standard of care at Memorial Sloan Kettering Cancer Center.
[TRIAL REGISTRATION] NCT04462471, Registered July 8, 2020. NCT03647358, Registered Aug 27, 2018.
[METHODS] Patients referred for RAI therapy of mDTC were enrolled in institutionally approved protocols. A total of 208 mDTC lesions (in 21 patients) with SUV > 1 underwent quantitative PET scans at 24, 48, 72, and 120 h post-administration of 222 MBq of theranostic NaI-I to determine the individual lesion radiation-absorbed dose. Using a general estimating equation, a prediction curve for biomarker development was generated in the form of a best-fit regression line and 95% prediction interval, correlating individual predicted lesion radiation dose metrics, with candidate biomarkers ("predictors") such as SUV and activity in microcurie per gram, from a single imaging timepoint.
[RESULTS] In the 169 lesions (in 15 patients) that received I therapy, individual lesion cGy varied over 3 logs with a median of 22,000 cGy, confirming wide heterogeneity of lesion radiation dose. Initial findings from the prediction curve on all 208 lesions confirmed that a 48-h SUV was the best predictor of lesion radiation dose and permitted calculation of the I activity required to achieve a lesional threshold radiation dose (2000 cGy) within defined confidence intervals.
[CONCLUSIONS] Based on MIRD lesion-absorbed dose estimates and regression statistics, we report on the feasibility of a new single-timepoint I-PET-based dosimetry biomarker for RAI in patients with mDTC. The approach provides clinicians with a tool to select personalized (precision) therapeutic administration of radioactivity (MBq) to achieve a desired target lesion-absorbed dose (cGy) for selected index lesions based on a single 48-h measurement I-PET image, provided the selected activity does not exceed the maximum tolerated activity (MTA) of < 2 Gy to blood, as is standard of care at Memorial Sloan Kettering Cancer Center.
[TRIAL REGISTRATION] NCT04462471, Registered July 8, 2020. NCT03647358, Registered Aug 27, 2018.
🏷️ 키워드 / MeSH 📖 같은 키워드 OA만
🏷️ 같은 키워드 · 무료전문 — 이 논문 MeSH/keyword 기반
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