The Effect of Total Tumor Volume on the Biologically Effective Dose to Tumor and Kidneys for <sup>177</sup>Lu-Labeled PSMA Peptides

Begum, Nusrat; Thieme, Anne; Eberhardt, Nina; Tauber, Robert; D’Alessandria, Calogero; Beer, Ambros J.; Glatting, Gerhard; Eiber, Matthias; Kletting, Peter

doi:10.2967/jnumed.117.203505

Cited by 59 publications

(94 citation statements)

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“…The presented treatment‐planning workflow can also be used for other therapies using radiolabeled ligands (eg, radioimmunotherapy and PSMA‐radioligand therapy) . Moreover, because of its PBPK‐model basis, the described algorithm can additionally include the optimization of the administration schedule which may also consider modulation of the biokinetics using biokinetics‐favoring substances (eg, preload) …”

Section: Discussionmentioning

confidence: 99%

Treatment planning algorithm for peptide receptor radionuclide therapy considering multiple tumor lesions and organs at risk

et al. 2018

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Section: Discussionmentioning

confidence: 99%

Treatment planning algorithm for peptide receptor radionuclide therapy considering multiple tumor lesions and organs at risk

et al. 2018

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“…The used patient cohort is described in detail elsewhere . In brief, 13 patients [age: (70 ± 6) yr] with mCRPC [median (range) total tumor volume: 236 ml (12, 5800 ml)] underwent 177 Lu‐PSMA I&T therapy [activity: (7.3 ± 0.3) GBq, peptide amount: (91 ± 5) nmol].…”

Section: Methodsmentioning

confidence: 99%

“…Virtual patients (P 1 –P 13 ) were created by fitting a whole‐body physiologically based pharmacokinetic (PBPK) model to the biokinetic data. The PBPK model is described elsewhere . The virtual patients were then used to simulate TACs of the kidneys (Fig.…”

Section: Methodsmentioning

confidence: 99%

“…The used patient cohort is described in detail elsewhere. 1,16,17 In brief, 13 patients [age: (70 AE 6) yr] with mCRPC [median (range) total tumor volume: 236 ml (12, 5800 ml)] underwent 177 Lu-PSMA I&T therapy [activity: (7.3 AE 0.3) GBq, peptide amount: (91 AE 5) nmol]. The individual biokinetics were measured with planar whole-body scans at 30-120 min, 24 h, and 7 days post injection (p.i.).…”

Section: A Virtual Patientsmentioning

confidence: 99%

“…The PBPK model is described elsewhere. [16][17][18] The virtual patients were then used to simulate TACs of the kidneys (Fig. 1), which were used as ground truth.…”

Section: A Virtual Patientsmentioning

confidence: 99%

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Technical Note: Optimal sampling schedules for kidney dosimetry based on the hybrid planar/SPECT method in ¹⁷⁷Lu‐PSMA therapy

et al. 2019

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Purpose Accurate and precise renal dosimetry during 177Lu‐labeled prostate‐specific membrane antigen (PSMA) radioligand therapy is crucial for therapy decisions. Sampling schedules for estimating the necessary time‐integrated activity coefficients (TIACs) are not optimized and standardized for clinical practice. Therefore, a simulation study to determine optimal sampling schedules (OSSs) was performed on 13 virtual 177Lu‐PSMA I&T therapy patients. Method A total of 880 clinically feasible sampling schedules for planar imaging (three time points) were investigated. To simulate the hybrid planar/SPECT method, an additional quantitative SPECT/CT measurement following one planar image was considered. For each sampling schedule and patient, the activity values were generated separately. Measurement noise was modeled by drawing random numbers of log‐normal distributions. The used fractional standard deviations (FSD) differed depending on the imaging modality. For activity values assigned to planar imaging, systematic noise between 25% and 75% of the total noise was simulated. After fitting with a mono‐exponential function, the root‐mean‐squared errors of the deviations of the simulated TIACs from the ground truth for 1000 replications were used to determine the OSS. The uncertainties of the TIACs and renal dose coefficients were estimated. Results For the hybrid planar/SPECT method, OSSs were determined to be (3–4, 72–76, 124–144)  h post injection (p.i.) with the quantitative SPECT/CT scan shortly after the second measurement. The accuracy and precision of the determined TIACs were in the range of (−3.0 ± 6.2)% and (−1.0  ±  6.5)%. This precision was improved by a factor 2–3 compared to dosimetry based on planar images only. Similar results were obtained for the renal dose coefficients. The virtual patients' renal dose coefficients were (0.68  ± 0.24)  Gy/GBq indicating that a population‐based method yields an uncertainty of 35%. Conclusions Dosimetry based on the hybrid planar/SPECT method with OSS outperforms dosimetry based on planar images. The high variability in dose coefficients between the virtual patients demonstrates the need for individualized dosimetry.

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Important pharmacokinetic parameters for individualization of ¹⁷⁷Lu‐PSMA therapy: A global sensitivity analysis for a physiologically‐based pharmacokinetic model

et al. 2020

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The knowledge of the contribution of anatomical and physiological parameters to interindividual pharmacokinetic differences could potentially be used to improve individualized treatment planning for radionuclide therapy. The aim of this study was therefore to identify the physiologically based pharmacokinetic (PBPK) model parameters that determine the interindividual variability of absorbed doses (ADs) to kidneys and tumor lesions in therapy with 177 Lu-labeled PSMA-targeting radioligands. Methods: A global sensitivity analysis (GSA) with the extended Fourier Amplitude Sensitivity Test (eFAST) algorithm was performed. The whole-body PBPK model for PSMA-targeting radioligand therapy from our previous studies was used in this study. The model parameters of interest (input of the GSA) were the organ receptor densities [R 0 ], the organ blood flows f, and the organ release rates λ. These parameters were systematically sampled NE times according to their distribution in the patient population. The corresponding pharmacokinetics were simulated and the ADs (model output) to kidneys and tumor lesions were collected. The main effect S i and total effect S Ti were calculated using the eFAST algorithm based on the variability of the model output: The main effect S i of input parameter i represents the reduction in variance of the output if the "true" value of parameter i would be known. The total effect S Ti of an input parameter i represents the proportion of variance remaining if the "true" values of all other input parameters except for i are known. The numbers of samples NE were increased up to 8193 to check the stability (i.e., convergence) of the calculated main effects S i and total effects S Ti. Results: From the simulations, the relative interindividual variability of ADs in the kidneys (coefficient of variation CV = 31%) was lower than that of ADs in the tumors (CV up to 59%). Based on the GSA, the most important parameters that determine the ADs to the kidneys were kidneys flow (S i = 0.36, S Ti = 0.43) and kidneys receptor density (S i = 0.25, S Ti = 0.30). Tumor receptor density was identified as the most important parameter determining the ADs to tumors (S i and S Ti up to 0.72). Conclusions: The results suggest that an accurate measurement of receptor density and flow before therapy could be a promising approach for developing an individualized treatment with 177 Lu-labeled PSMA-targeting radioligands.

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The Effect of Total Tumor Volume on the Biologically Effective Dose to Tumor and Kidneys for ¹⁷⁷Lu-Labeled PSMA Peptides

Cited by 59 publications

References 23 publications

Treatment planning algorithm for peptide receptor radionuclide therapy considering multiple tumor lesions and organs at risk

Treatment planning algorithm for peptide receptor radionuclide therapy considering multiple tumor lesions and organs at risk

Technical Note: Optimal sampling schedules for kidney dosimetry based on the hybrid planar/SPECT method in ¹⁷⁷Lu‐PSMA therapy

Important pharmacokinetic parameters for individualization of ¹⁷⁷Lu‐PSMA therapy: A global sensitivity analysis for a physiologically‐based pharmacokinetic model

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The Effect of Total Tumor Volume on the Biologically Effective Dose to Tumor and Kidneys for 177Lu-Labeled PSMA Peptides

Cited by 59 publications

References 23 publications

Treatment planning algorithm for peptide receptor radionuclide therapy considering multiple tumor lesions and organs at risk

Treatment planning algorithm for peptide receptor radionuclide therapy considering multiple tumor lesions and organs at risk

Technical Note: Optimal sampling schedules for kidney dosimetry based on the hybrid planar/SPECT method in 177Lu‐PSMA therapy

Important pharmacokinetic parameters for individualization of 177Lu‐PSMA therapy: A global sensitivity analysis for a physiologically‐based pharmacokinetic model

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The Effect of Total Tumor Volume on the Biologically Effective Dose to Tumor and Kidneys for ¹⁷⁷Lu-Labeled PSMA Peptides

Technical Note: Optimal sampling schedules for kidney dosimetry based on the hybrid planar/SPECT method in ¹⁷⁷Lu‐PSMA therapy

Important pharmacokinetic parameters for individualization of ¹⁷⁷Lu‐PSMA therapy: A global sensitivity analysis for a physiologically‐based pharmacokinetic model