Your search keyword '"Mark W. Konijnenberg"' showing total 42 results

1. Accuracy of holmium-166 SPECT/CT quantification over a large range of activities

Author

Lovisa E. L. Westlund Gotby, Daphne Lobeek, Joey Roosen, Maarten de Bakker, Mark W. Konijnenberg, and J. Frank W. Nijsen

Subjects

SPECT quantification, Holmium-166, Conversion factor, Absolute quantification, Recovered activity, Medical physics. Medical radiology. Nuclear medicine, R895-920

Abstract

Abstract Background Quantitative imaging is a crucial step for dosimetry in radionuclide therapies. Traditionally, SPECT/CT imaging is quantified based on scanner-specific conversion factors or self-calibration, but recently absolute quantification methods have been introduced in commercial SPECT reconstruction software (Broad Quantification, Siemens Healthineers). In this phantom study we investigate the accuracy of three quantification methods for holmium-166 SPECT/CT imaging, and provide recommendations for clinical dosimetry. Methods One cylindrical phantom, filled with a homogeneous holmium-166-chloride activity concentration solution, was imaged at one time point to determine a scanner-specific conversion factor, and to characterize the spatial dependency of the activity concentration recovery. One Jaszczak phantom with six fillable spheres, 10:1 sphere-to-background ratio, was imaged over a large range of holmium-166 activities (61-3130 MBq). The images were reconstructed with either an ordered subset expectation maximization (OSEM, Flash3D-reconstruction; scanner-specific quantification or self-calibration quantification) or an ordered subset conjugate gradient (OSCG, xSPECT-reconstruction; Broad Quantification) algorithm. These three quantification methods were compared for the data of the Jaszczak phantom and evaluated based on whole phantom recovered activity, activity concentration recovery coefficients (ACRC), and recovery curves. Results The activity recovery in the Jaszczak phantom was 28–115% for the scanner-specific, and 57–97% for the Broad Quantification quantification methods, respectively. The self-calibration-based activity recovery is inherently always 100%. The ACRC for the largest sphere (Ø60 mm, ~ 113 mL) ranged over (depending on the activity level) 0.22–0.89, 0.76–0.86, 0.39–0.72 for scanner-specific, self-calibration and Broad Quantification, respectively. Conclusion Of the three investigated quantification methods, the self-calibration technique produces quantitative SPECT images with the highest accuracy in the investigated holmium-166 activity range.

Published

2024

2. Bone marrow dosimetry in low volume mHSPC patients receiving Lu-177-PSMA therapy using SPECT/CT

Author

Dagmar Grob, Bastiaan M. Privé, Constantijn H. J. Muselaers, Niven Mehra, James Nagarajah, Mark W. Konijnenberg, and Steffie M. B. Peters

Subjects

Bone marrow dosimetry, Absorbed dose, Radionuclide therapy, 177-Lu-PSMA, Medical physics. Medical radiology. Nuclear medicine, R895-920

Abstract

Abstract Background Bone marrow toxicity in advanced prostate cancer patients who receive [177Lu]Lu-PSMA-617 is a well-known concern. In early stage patients; e.g. low volume metastatic hormone sensitive prostate cancer (mHSPC) patients, prevention of late bone marrow toxicity is even more crucial due to longer life expectancy. To date, bone marrow dosimetry is primarily performed using blood sampling. This method is time consuming and does not account for possible active bone marrow uptake. Therefore other methodologies are investigated. We calculated the bone marrow absorbed dose for [177Lu]Lu-PSMA-617 in mHSPC patients using SPECT/CT imaging and compared it to the blood sampling method as reference. Methods Eight mHSPC patients underwent two cycles (3 and 6 GBq) of [177Lu]Lu-PSMA-617 therapy. After each cycle, five time point (1 h, 1 day, 2 days, 3 days, 7 days) SPECT/CT was performed at kidney level. Bone marrow dosimetry was performed using commercial software by drawing ten 1.5 cm diameter spheres in the lowest ten vertebrae to determine the time-integrated activity. Simplified protocols using only 2 imaging time points and 3 vertebrae were also compared. Blood-based dosimetry was based on the blood sampling method according to the EANM guideline. Results Mean bone marrow absorbed dose was significantly different (p

Published

2024

3. Treatment of [99mTc]Tc‐hydroxy‐diphosphonate ([99mTc]Tc‐HDP) extravasation using hyaluronidase

Author

Kevin R. Doornhof, Quido de Lussanet de la Sablonière, Stijn L. W. Koolen, and Mark W. Konijnenberg

Subjects

bone scintigraphy, extravasation, radiology [99mTc]Tc‐HDP, Therapeutics. Pharmacology, RM1-950

Abstract

Abstract Extravasation of 99mTc‐labeled radiopharmaceuticals is generally considered to require no specific intervention. In the presented case, the use of hyaluronidase could have minimized the adverse effects resulting from such an extravasation. Currently, no guidelines exist regarding the use of hyaluronidase after extravasation of [99mTc]Tc‐HDP. Considering the low risk of administering hyaluronidase, it should be considered to limit the risk of injury after extravasation of [99mTc]Tc‐HDP.

Published

2024

4. Potential of PSMA-targeting radioligand therapy for malignant primary and secondary brain tumours using super-selective intra-arterial administration: a single centre, open label, non-randomised prospective imaging studyResearch in context

Author

Ilanah J. Pruis, Pieter Jan van Doormaal, Rutger K. Balvers, Martin J. van den Bent, Anita A. Harteveld, Linda C. de Jong, Mark W. Konijnenberg, Marcel Segbers, Roelf Valkema, Frederik A. Verburg, Marion Smits, and Sophie E.M. Veldhuijzen van Zanten

Subjects

Malignant brain tumours, Prostate-specific membrane antigen, Theranostics, Radioligand therapy, Super-selective intra-arterial administration, Medicine, Medicine (General), R5-920

Abstract

Summary: Background: The aim of this study was to provide quantitative evidence for the potential of PSMA-targeting radioligand therapy (RLT) as treatment approach for malignant brain tumours, and to explore whether tumour uptake could be enhanced by super-selective intra-arterial (ssIA)-administration. Methods: Ten patients (n = 5 high-grade glioma, n = 5 brain metastasis) received 1.5 MBq/kg [68Ga]Ga-PSMA-11 intravenously and, within 7 days, intra-arterially (i.e., selectively in tumour-feeding arteries), followed twice by PET-MRI at 90, 165 and 240 min post-injection. Patient safety was monitored for each procedure. Standardised uptake values (SUVs) were obtained for tumour, healthy-brain, salivary glands and liver. Tumour-to-salivary-gland (T/SG) and tumour-to-liver (T/L) uptake-ratios were calculated. Findings: No adverse events requiring study termination occurred. All patients showed uptake of [68Ga]Ga-PSMA-11 at the tumour site. Uptake was a median 15-fold higher following ssIA-administration (SUVmax median: 142.8, IQR: 102.8–245.9) compared to IV-administration (10.5, IQR:7.5–13.0). According to the bootstrap analysis, mean SUVmax after ssIA (168.8, 95% CI: 110.6–227.0) was well beyond the 95% confidence-interval of IV administration (10.5, 95% CI: 8.4–12.7). Uptake in healthy-brain was negligible, independent of administration route (SUVmean

Published

2024

5. Replacing Lu-177 with Tb-161 in DOTA-TATE and PSMA-617 therapy: potential dosimetric implications for activity selection

Author

Frederik A. Verburg, Erik de Blois, Stijn Koolen, and Mark W. Konijnenberg

Subjects

[177Lu]Lu-DOTA-TATE, [177Lu]Lu-PSMA-617, Radionuclide therapy, Dosimetry, Terbium-161, Medical physics. Medical radiology. Nuclear medicine, R895-920

Abstract

Abstract Aim To explore the dosimetric effect of substituting Lu-177 with Tb-161 in targeted radionuclide therapy (TRT) using the registered tracers DOTA-TATE and PSMA-617. Methods Using established kinetic data for [177Lu]Lu-DOTA-TATE and [177Lu]Lu-PSMA-617, radiation absorbed doses to typical tumour lesion as well as non-target tissues ([177Lu]Lu-DOTA-TATE: kidneys, spleen and liver, [177Lu]Lu-PSMA-617: kidneys, liver and salivary glands) were calculated for Lu-177 and Tb-161. Results For both DOTA-TATE and PSMA-617, the substitution of Lu-177 with Tb-161 results in an increase in the delivered dose per unit of activity to tumour tissue by 40%. If an equivalent non-target delivered dose is strived for in order not to increase toxicity, based on kidney absorbed dose, 7400 MBq Lu-177 per cycle should be substituted with 5400 MBq Tb-161 for DOTA-TATE and 5300 MBq of Tb-161 for PSMA-617. Conclusion When substituting Lu-177 with Tb-161, activity conversion is necessary in order not to exceed non-target dose limits.

Published

2023

6. Optimization of the radiation dosimetry protocol in Lutetium-177-PSMA therapy: toward clinical implementation

Author

Steffie M. B. Peters, Maaike C. T. Mink, Bastiaan M. Privé, Maarten de Bakker, Frank de Lange, Constantijn H. J. Muselaers, Niven Mehra, J. Alfred Witjes, Martin Gotthardt, James Nagarajah, and Mark W. Konijnenberg

Subjects

[177Lu]Lu-PSMA, Dosimetry, Radionuclide therapy, Prostate cancer, mHSPC, Medical physics. Medical radiology. Nuclear medicine, R895-920

Abstract

Abstract Background Dosimetry in [177Lu]Lu-PSMA therapy is a valuable tool to assess treatment efficacy and toxicity. This study aims to develop a clinically implementable protocol to determine the absorbed dose in organs and tumor lesions after [177Lu]Lu-PSMA-617 therapy, by reducing the imaging time points and utilizing population-based kinetics with a single scan, with evaluation of its influence on the uncertainty in absorbed dose. Methods Ten patients with metastatic hormone-sensitive prostate cancer received two cycles of [177Lu]Lu-PSMA-617. Post-treatment imaging was performed at 1 h, 24 h, 48 h, 72 h and 168 h, consisting of three-bed positions SPECT/CT and a whole-body planar scan. Five-time point SPECT dosimetry was performed for lesions and organs with physiological uptake (kidneys, liver and salivary glands) and used as the reference standard. Absorbed dose values for various simplified protocols were compared to the reference standard. Results Accurate lesion dosimetry is possible using one-time point SPECT imaging at 168 h, with an increase in uncertainty (20% vs. 14% for the reference standard). By including a second time point, uncertainty was comparable to the reference standard (13%). Organ dosimetry can be performed using a single SPECT at 24 h or 48 h. Dosimetry based on planar scans did not provide accurate dose estimations. Conclusion Accurate lesion dosimetry in [177Lu]Lu-PSMA therapy can be performed using a one- or two-time point protocol, making dosimetry assessments more suitable for routine clinical implementation, although dosimetry based om multiple time points is more accurate. Clinical trial registration This study was approved by the Medical Review Ethics Committee Region Arnhem-Nijmegen on January 23, 2018 and was registered on clinicaltrials.gov (NCT03828838).

Published

2023

7. Exploring the translational challenge for medical applications of ionising radiation and corresponding radiation protection research

Author

Sophie Bockhold, Shane J. Foley, Louise A. Rainford, Riccardo Corridori, Annika Eberstein, Christoph Hoeschen, Mark W. Konijnenberg, Susan Molyneux-Hodgson, Graciano Paulo, Joana Santos, and Jonathan P. McNulty

Subjects

Translational medical research, Delphi study, Ionising radiation, Radiation protection, Medicine

Abstract

Abstract Background Medical applications of ionising radiation and associated radiation protection research often encounter long delays and inconsistent implementation when translated into clinical practice. A coordinated effort is needed to analyse the research needs for innovation transfer in radiation-based high-quality healthcare across Europe which can inform the development of an innovation transfer framework tailored for equitable implementation of radiation research at scale. Methods Between March and September 2021 a Delphi methodology was employed to gain consensus on key translational challenges from a range of professional stakeholders. A total of three Delphi rounds were conducted using a series of electronic surveys comprised of open-ended and closed-type questions. The surveys were disseminated via the EURAMED Rocc-n-Roll consortium network and prominent medical societies in the field. Approximately 350 professionals were invited to participate. Participants’ level of agreement with each generated statement was captured using a 6-point Likert scale. Consensus was defined as median ≥ 4 with ≥ 60% of responses in the upper tertile of the scale. Additionally, the stability of responses across rounds was assessed. Results In the first Delphi round a multidisciplinary panel of 20 generated 127 unique statements. The second and third Delphi rounds recruited a broader sample of 130 individuals to rate the extent to which they agreed with each statement as a key translational challenge. A total of 60 consensus statements resulted from the iterative Delphi process of which 55 demonstrated good stability. Ten statements were identified as high priority challenges with ≥ 80% of statement ratings either ‘Agree’ or ‘Strongly Agree’. Conclusion A lack of interoperability between systems, insufficient resources, unsatisfactory education and training, and the need for greater public awareness surrounding the benefits, risks, and applications of ionising radiation were identified as principal translational challenges. These findings will help to inform a tailored innovation transfer framework for medical radiation research.

Published

2022

8. [212Pb]Pb-eSOMA-01: A Promising Radioligand for Targeted Alpha Therapy of Neuroendocrine Tumors

Author

Dylan Chapeau, Sofia Koustoulidou, Maryana Handula, Savanne Beekman, Corrina de Ridder, Debra Stuurman, Erik de Blois, Yulia Buchatskaya, Karlijn van der Schilden, Marion de Jong, Mark W. Konijnenberg, and Yann Seimbille

Subjects

NETs, SSTR2, targeted alpha therapy, 203Pb, 212Pb, Medicine, Pharmacy and materia medica, RS1-441

Abstract

Peptide receptor radionuclide therapy (PRRT) has been applied to the treatment of neuroendocrine tumors (NETs) for over two decades. However, improvement is still needed, and targeted alpha therapy (TAT) with alpha emitters such as lead-212 (212Pb) represents a promising avenue. A series of ligands based on octreotate was developed. Lead-203 was used as an imaging surrogate for the selection of the best candidate for the studies with lead-212. 203/212Pb radiolabeling and in vitro assays were carried out, followed by SPECT/CT imaging and ex vivo biodistribution in NCI-H69 tumor-bearing mice. High radiochemical yields (≥99%) and purity (≥96%) were obtained for all ligands. [203Pb]Pb-eSOMA-01 and [203Pb]Pb-eSOMA-02 showed high stability in PBS and mouse serum up to 24 h, whereas [203Pb]Pb-eSOMA-03 was unstable in those conditions. All compounds exhibited a nanomolar affinity (2.5–3.1 nM) for SSTR2. SPECT/CT images revealed high tumor uptake at 1, 4, and 24 h post-injection of [203Pb]Pb-eSOMA-01/02. Ex vivo biodistribution studies confirmed that the highest uptake in tumors was observed with [212Pb]Pb-eSOMA-01. [212Pb]Pb-eESOMA-01 displayed the highest absorbed dose in the tumor (35.49 Gy/MBq) and the lowest absorbed dose in the kidneys (121.73 Gy/MBq) among the three tested radioligands. [212Pb]Pb-eSOMA-01 is a promising candidate for targeted alpha therapy of NETs. Further investigations are required to confirm its potential.

Published

2023

9. Correction to: Variability in lutetium-177 SPECT quantification between different state-of-the-art SPECT/CT systems

Author

Steffie M. B. Peters, Sebastiaan L. Meyer Viol, Niels R. van der Werf, Nick de Jong, Floris H. P. van Velden, Antoi Meeuwis, Mark W. Konijnenberg, Martin Gotthardt, Hugo W. A. M. de Jong, and Marcel Segbers

Subjects

Medical physics. Medical radiology. Nuclear medicine, R895-920

Published

2021

10. Variability in lutetium-177 SPECT quantification between different state-of-the-art SPECT/CT systems

Author

Steffie M. B. Peters, Sebastiaan L. Meyer Viol, Niels R. van der Werf, Nick de Jong, Floris H. P. van Velden, Antoi Meeuwis, Mark W. Konijnenberg, Martin Gotthardt, Hugo W. A. M. de Jong, and Marcel Segbers

Subjects

Medical physics. Medical radiology. Nuclear medicine, R895-920

Abstract

Abstract Background Quantitative SPECT imaging in targeted radionuclide therapy with lutetium-177 holds great potential for individualized treatment based on dose assessment. The establishment of dose-effect relations requires a standardized method for SPECT quantification. The purpose of this multi-center study is to evaluate quantitative accuracy and inter-system variations of different SPECT/CT systems with corresponding commercially available quantitative reconstruction algorithms. This is an important step towards a vendor-independent standard for quantitative lutetium-177 SPECT. Methods Four state-of-the-art SPECT/CT systems were included: Discovery™ NM/CT 670Pro (GE Healthcare), Symbia Intevo™, and two Symbia™ T16 (Siemens Healthineers). Quantitative accuracy and inter-system variations were evaluated by repeatedly scanning a cylindrical phantom with 6 spherical inserts (0.5 – 113 ml). A sphere-to-background activity concentration ratio of 10:1 was used. Acquisition settings were standardized: medium energy collimator, body contour trajectory, photon energy window of 208 keV (± 10%), adjacent 20% lower scatter window, 2 × 64 projections, 128 × 128 matrix size, and 40 s projection time. Reconstructions were performed using GE Evolution with Q.Metrix™, Siemens xSPECT Quant™, Siemens Broad Quantification™ or Siemens Flash3D™ algorithms using vendor recommended settings. In addition, projection data were reconstructed using Hermes SUV SPECT™ with standardized reconstruction settings to obtain a vendor-neutral quantitative reconstruction for all systems. Volumes of interest (VOI) for the spheres were obtained by applying a 50% threshold of the sphere maximum voxel value corrected for background activity. For each sphere, the mean and maximum recovery coefficient (RCmean and RCmax) of three repeated measurements was calculated, defined as the imaged activity concentration divided by the actual activity concentration. Inter-system variations were defined as the range of RC over all systems. Results RC decreased with decreasing sphere volume. Inter-system variations with vendor-specific reconstructions were between 0.06 and 0.41 for RCmean depending on sphere size (maximum 118% quantification difference), and improved to 0.02–0.19 with vendor-neutral reconstructions (maximum 38% quantification difference). Conclusion This study shows that eliminating sources of possible variation drastically reduces inter-system variation in quantification. This means that absolute SPECT quantification for 177Lu is feasible in a multi-center and multi-vendor setting; however, close agreement between vendors and sites is key for multi-center dosimetry and quantitative biomarker studies.

Published

2020

11. Cellular dosimetry of [177Lu]Lu-DOTA-[Tyr3]octreotate radionuclide therapy: the impact of modeling assumptions on the correlation with in vitro cytotoxicity

Author

Giulia Tamborino, Marijke De Saint-Hubert, Lara Struelens, Dayana C. Seoane, Eline A. M. Ruigrok, An Aerts, Wiggert A. van Cappellen, Marion de Jong, Mark W. Konijnenberg, and Julie Nonnekens

Subjects

Cellular dosimetry, [177Lu]Lu-DOTA-[Tyr3]octreotate, Polygonal mesh, S values, in vitro cytotoxicity correlation, Medical physics. Medical radiology. Nuclear medicine, R895-920

Abstract

Abstract Background Survival and linear-quadratic model fitting parameters implemented in treatment planning for targeted radionuclide therapy depend on accurate cellular dosimetry. Therefore, we have built a refined cellular dosimetry model for [177Lu]Lu-DOTA-[Tyr3]octreotate (177Lu-DOTATATE) in vitro experiments, accounting for specific cell morphologies and sub-cellular radioactivity distributions. Methods Time activity curves were measured and modeled for medium, membrane-bound, and internalized activity fractions over 6 days. Clonogenic survival assays were performed at various added activities (0.1–2.5 MBq/ml). 3D microscopy images (stained for cytoplasm, nucleus, and Golgi) were used as reference for developing polygonal meshes (PM) in 3DsMax to accurately render the cellular and organelle geometry. Absorbed doses to the nucleus per decay (S values) were calculated for 3 cellular morphologies: spheres (MIRDcell), truncated cone-shaped constructive solid geometry (CSG within MCNP6.1), and realistic PM models, using Geant4-10.03. The geometrical set-up of the clonogenic survival assays was modeled, including dynamic changes in proliferation, proximity variations, and cell death. The absorbed dose to the nucleus by the radioactive source cell (self-dose) and surrounding source cells (cross-dose) was calculated applying the MIRD formalism. Finally, the correlation between absorbed dose and survival fraction was fitted using a linear dose-response curve (high α/β or fast sub-lethal damage repair half-life) for different assumptions, related to cellular shape and localization of the internalized fraction of activity. Results The cross-dose, depending on cell proximity and colony formation, is a minor (15%) contributor to the total absorbed dose. Cellular volume (inverse exponential trend), shape modeling (up to 65%), and internalized source localization (up to + 149% comparing cytoplasm to Golgi) significantly influence the self-dose to nucleus. The absorbed dose delivered to the nucleus during a clonogenic survival assay is 3-fold higher with MIRDcell compared to the polygonal mesh structures. Our cellular dosimetry model indicates that 177Lu-DOTATATE treatment might be more effective than suggested by average spherical cell dosimetry, predicting a lower absorbed dose for the same cellular survival. Dose-rate effects and heterogeneous dose delivery might account for differences in dose-response compared to x-ray irradiation. Conclusion Our results demonstrate that modeling of cellular and organelle geometry is crucial to perform accurate in vitro dosimetry.

Published

2020

12. Towards standardization of absolute SPECT/CT quantification: a multi-center and multi-vendor phantom study

Author

Steffie M. B. Peters, Niels R. van der Werf, Marcel Segbers, Floris H. P. van Velden, Roel Wierts, Koos (J.) A. K. Blokland, Mark W. Konijnenberg, Sergiy V. Lazarenko, Eric P. Visser, and Martin Gotthardt

Subjects

SPECT/CT, absolute quantification, recovery coefficient, performance evaluation, Medical physics. Medical radiology. Nuclear medicine, R895-920

Abstract

Abstract Absolute quantification of radiotracer distribution using SPECT/CT imaging is of great importance for dosimetry aimed at personalized radionuclide precision treatment. However, its accuracy depends on many factors. Using phantom measurements, this multi-vendor and multi-center study evaluates the quantitative accuracy and inter-system variability of various SPECT/CT systems as well as the effect of patient size, processing software and reconstruction algorithms on recovery coefficients (RC). Methods Five SPECT/CT systems were included: Discovery™ NM/CT 670 Pro (GE Healthcare), Precedence™ 6 (Philips Healthcare), Symbia Intevo™, and Symbia™ T16 (twice) (Siemens Healthineers). Three phantoms were used based on the NEMA IEC body phantom without lung insert simulating body mass indexes (BMI) of 25, 28, and 47 kg/m2. Six spheres (0.5–26.5 mL) and background were filled with 0.1 and 0.01 MBq/mL 99mTc-pertechnetate, respectively. Volumes of interest (VOI) of spheres were obtained by a region growing technique using a 50% threshold of the maximum voxel value corrected for background activity. RC, defined as imaged activity concentration divided by actual activity concentration, were determined for maximum (RCmax) and mean voxel value (RCmean) in the VOI for each sphere diameter. Inter-system variability was expressed as median absolute deviation (MAD) of RC. Acquisition settings were standardized. Images were reconstructed using vendor-specific 3D iterative reconstruction algorithms with institute-specific settings used in clinical practice and processed using a standardized, in-house developed processing tool based on the SimpleITK framework. Additionally, all data were reconstructed with a vendor-neutral reconstruction algorithm (Hybrid Recon™; Hermes Medical Solutions). Results RC decreased with decreasing sphere diameter for each system. Inter-system variability (MAD) was 16 and 17% for RCmean and RCmax, respectively. Standardized reconstruction decreased this variability to 4 and 5%. High BMI hampers quantification of small lesions (

Published

2019

13. Experimental Therapy of HER2-Expressing Xenografts Using the Second-Generation HER2-Targeting Affibody Molecule 188Re-ZHER2:41071

Author

Yongsheng Liu, Anzhelika Vorobyeva, Anna Orlova, Mark W. Konijnenberg, Tianqi Xu, Olga Bragina, Annika Loftenius, Erica Rosander, Fredrik Y. Frejd, and Vladimir Tolmachev

Subjects

HER2, radionuclide therapy, affibody molecule, rhenium-188, second-generation scaffold, Pharmacy and materia medica, RS1-441

Abstract

HER2-targeted radionuclide therapy might be helpful for the treatment of breast, gastric, and ovarian cancers which have developed resistance to antibody and antibody-drug conjugate-based therapies despite preserved high HER2-expression. Affibody molecules are small targeting proteins based on a non-immunoglobulin scaffold. The goal of this study was to test in an animal model a hypothesis that the second-generation HER2-targeting Affibody molecule 188Re-ZHER2:41071 might be useful for treatment of HER2-expressing malignant tumors. ZHER2:41071 was efficiently labeled with a beta-emitting radionuclide rhenium-188 (188Re). 188Re-ZHER2:41071 demonstrated preserved specificity and high affinity (KD = 5 ± 3 pM) of binding to HER2-expressing cells. In vivo studies demonstrated rapid washout of 188Re from kidneys. The uptake in HER2-expressing SKOV-3 xenografts was HER2-specific and significantly exceeded the renal uptake 4 h after injection and later. The median survival of mice, which were treated by three injections of 16 MBq 188Re-ZHER2:41071 was 68 days, which was significantly longer (188Re-ZHER2:41071 enabled enhancement of survival of mice with human tumors without toxicity to the kidneys, which is the critical organ.

Published

2022

14. Optimizing labelling conditions of 213Bi-DOTATATE for preclinical applications of peptide receptor targeted alpha therapy

Author

Ho Sze Chan, Erik de Blois, Mark W. Konijnenberg, Alfred Morgenstern, Frank Bruchertseifer, Jeffrey P. Norenberg, Fred J. Verzijlbergen, Marion de Jong, and Wouter A. P. Breeman

Subjects

Somatostatin, 213Bismuth, Targeted alpha therapy, Radiochemical purity, Ascorbic acid, Absorbed dose, Medical physics. Medical radiology. Nuclear medicine, R895-920, Therapeutics. Pharmacology, RM1-950

Abstract

Abstract Background 213Bismuth (213Bi, T1/2 = 45.6 min) is one of the most frequently used α-emitters in cancer research. High specific activity radioligands are required for peptide receptor radionuclide therapy. The use of generators containing less than 222 MBq 225Ac (actinium), due to limited availability and the high cost to produce large-scale 225Ac/213Bi generators, might complicate in vitro and in vivo applications though. Here we present optimized labelling conditions of a DOTA-peptide with an 225Ac/213Bi generator (< 222 MBq) for preclinical applications using DOTA-Tyr3-octreotate (DOTATATE), a somatostatin analogue. The following labelling conditions of DOTATATE with 213Bi were investigated; peptide mass was varied from 1.7 to 7.0 nmol, concentration of TRIS buffer from 0.15 mol.L-1 to 0.34 mol.L-1, and ascorbic acid from 0 to 71 mmol.L-1 in 800 μL. All reactions were performed at 95 °C for 5 min. After incubation, DTPA (50 nmol) was added to stop the labelling reaction. Besides optimizing the labelling conditions, incorporation yield was determined by ITLC-SG and radiochemical purity (RCP) was monitored by RP-HPLC up to 120 min after labelling. Dosimetry studies in the reaction vial were performed using Monte Carlo and in vitro clonogenic assay was performed with a rat pancreatic tumour cell line, CA20948. Results At least 3.5 nmol DOTATATE was required to obtain incorporation ≥ 99 % with 100 MBq 213Bi (at optimized pH conditions, pH 8.3 with 0.15 mol.L-1 TRIS) in a reaction volume of 800 μL. The cumulative absorbed dose in the reaction vial was 230 Gy/100 MBq in 30 min. A minimal final concentration of 0.9 mmol.L-1 ascorbic acid was required for ~100 MBq (t = 0) to minimize radiation damage of DOTATATE. The osmolarity was decreased to 0.45 Osmol/L. Under optimized labelling conditions, 213Bi-DOTATATE remained stable up to 2 h after labelling, RCP was ≥ 85 %. In vitro showed a negative correlation between ascorbic acid concentration and cell survival. Conclusion 213Bismuth-DOTA-peptide labelling conditions including peptide amount, quencher and pH were optimized to meet the requirements needed for preclinical applications in peptide receptor radionuclide therapy.

Published

2016

15. In vitro dose effect relationships of actinium-225- and lutetium-177-labeled PSMA-I&T

Author

Eline A. M. Ruigrok, Giulia Tamborino, Erik de Blois, Stefan J. Roobol, Nicole Verkaik, Marijke De Saint-Hubert, Mark W. Konijnenberg, Wytske M. van Weerden, Marion de Jong, Julie Nonnekens, Radiology & Nuclear Medicine, Molecular Genetics, and Urology

Subjects

Actinium, Male, Radioisotopes, DNA, Dipeptides, General Medicine, Lutetium, Prostate-Specific Antigen, urologic and male genital diseases, Heterocyclic Compounds, 1-Ring, Prostatic Neoplasms, Castration-Resistant, SDG 3 - Good Health and Well-being, Cell Line, Tumor, Humans, Radiology, Nuclear Medicine and imaging

Abstract

Purpose Targeting the prostate-specific membrane antigen (PSMA) using lutetium-177-labeled PSMA-specific tracers has become a very promising novel therapy option for prostate cancer (PCa). The efficacy of this therapy might be further improved by replacing the β-emitting lutetium-177 with the α-emitting actinium-225. Actinium-225 is thought to have a higher therapeutic efficacy due to the high linear energy transfer (LET) of the emitted α-particles, which can increase the amount and complexity of the therapy induced DNA double strand breaks (DSBs). Here we evaluated the relative biological effectiveness of [225Ac]Ac-PSMA-I&T and [177Lu]Lu-PSMA-I&T by assessing in vitro binding characteristics, dosimetry, and therapeutic efficacy. Methods and results The PSMA-expressing PCa cell line PC3-PIP was used for all in vitro assays. First, binding and displacement assays were performed, which revealed similar binding characteristics between [225Ac]Ac-PSMA-I&T and [177Lu]Lu-PSMA-I&T. Next, the assessment of the number of 53BP1 foci, a marker for the number of DNA double strand breaks (DSBs), showed that cells treated with [225Ac]Ac-PSMA-I&T had slower DSB repair kinetics compared to cells treated with [177Lu]Lu-PSMA-I&T. Additionally, clonogenic survival assays showed that specific targeting with [225Ac]Ac-PSMA-I&T and [177Lu]Lu-PSMA-I&T caused a dose-dependent decrease in survival. Lastly, after dosimetric assessment, the relative biological effectiveness (RBE) of [225Ac]Ac-PSMA-I&T was found to be 4.2 times higher compared to [177Lu]Lu-PSMA-I&T. Conclusion We found that labeling of PSMA-I&T with lutetium-177 or actinium-225 resulted in similar in vitro binding characteristics, indicating that the distinct biological effects observed in this study are not caused by a difference in uptake of the two tracers. The slower repair kinetics of [225Ac]Ac-PSMA-I&T compared to [177Lu]Lu-PSMA-I&T correlates to the assumption that irradiation with actinium-225 causes more complex, more difficult to repair DSBs compared to lutetium-177 irradiation. Furthermore, the higher RBE of [225Ac]Ac-PSMA-I&T compared to [177Lu]Lu-PSMA-I&T underlines the therapeutic potential for the treatment of PCa.

Published

2022

16. [212Pb]Pb-eSOMA-01: A Promising Radioligand for Targeted Alpha Therapy of Neuroendocrine Tumors

Author

Seimbille, Dylan Chapeau, Sofia Koustoulidou, Maryana Handula, Savanne Beekman, Corrina de Ridder, Debra Stuurman, Erik de Blois, Yulia Buchatskaya, Karlijn van der Schilden, Marion de Jong, Mark W. Konijnenberg, and Yann

Subjects

NETs, SSTR2, targeted alpha therapy, 203Pb, 212Pb

Abstract

Peptide receptor radionuclide therapy (PRRT) has been applied to the treatment of neuroendocrine tumors (NETs) for over two decades. However, improvement is still needed, and targeted alpha therapy (TAT) with alpha emitters such as lead-212 (212Pb) represents a promising avenue. A series of ligands based on octreotate was developed. Lead-203 was used as an imaging surrogate for the selection of the best candidate for the studies with lead-212. 203/212Pb radiolabeling and in vitro assays were carried out, followed by SPECT/CT imaging and ex vivo biodistribution in NCI-H69 tumor-bearing mice. High radiochemical yields (≥99%) and purity (≥96%) were obtained for all ligands. [203Pb]Pb-eSOMA-01 and [203Pb]Pb-eSOMA-02 showed high stability in PBS and mouse serum up to 24 h, whereas [203Pb]Pb-eSOMA-03 was unstable in those conditions. All compounds exhibited a nanomolar affinity (2.5–3.1 nM) for SSTR2. SPECT/CT images revealed high tumor uptake at 1, 4, and 24 h post-injection of [203Pb]Pb-eSOMA-01/02. Ex vivo biodistribution studies confirmed that the highest uptake in tumors was observed with [212Pb]Pb-eSOMA-01. [212Pb]Pb-eESOMA-01 displayed the highest absorbed dose in the tumor (35.49 Gy/MBq) and the lowest absorbed dose in the kidneys (121.73 Gy/MBq) among the three tested radioligands. [212Pb]Pb-eSOMA-01 is a promising candidate for targeted alpha therapy of NETs. Further investigations are required to confirm its potential.

Published

2023

17. Safety of [177Lu]Lu-NeoB treatment: a preclinical study characterizing absorbed dose and acute, early, and late organ toxicity

Author

Eline A. M. Ruigrok, Marjolein Verhoeven, Mark W. Konijnenberg, Erik de Blois, Corrina M. A. de Ridder, Debra C. Stuurman, Luisa Bertarione, Katia Rolfo, Marion de Jong, Simone U. Dalm, Radiology & Nuclear Medicine, and Urology

Subjects

Radiology, Nuclear Medicine and imaging, General Medicine

Abstract

Purpose The radiolabeled gastrin-releasing peptide receptor (GRPR)-targeting antagonist NeoB is a promising radioligand for imaging and therapy of GRPR-expressing malignancies. In the current study, we aimed to discover the target organs of toxicity and the radiotoxic effects to these organs, when repeated dosages of [177Lu]Lu-NeoB are administered to healthy female and male mice. Methods Animals received either 3 injections, with a 7-day interval, of vehicle (control group 1), 1200 pmol [175Lu]Lu-NeoB (control group 2) or 40 MBq/400 pmol, 80 MBq/800 pmol, and 120 MBq/1200 pmol [177Lu]Lu-NeoB (treatment groups 1, 2, and 3, respectively). At week 5, 19, and 43 after the first injection acute, early, and late organ toxicity, respectively, was determined. For this, histopathological and blood analyses were performed. To correlate the observed toxicity to absorbed dose, we also performed extensive biodistribution and dosimetry studies. Results The biodistribution study showed the highest absorbed doses in GRPR-expressing pancreas, the liver, and the kidneys (the main organs of excretion). Both control groups and almost all animals of treatment group 1 did not show any treatment-related toxicological effects. Despite the high absorbed doses, no clear microscopic signs of toxicity were found in the pancreas and the liver. Histological analysis indicated kidney damage in the form of hydronephrosis and nephropathy in treatment groups 2 and 3 that were sacrificed at the early and late time point. In the same groups, increased blood urea nitrogen levels were found. Conclusion In general, repeated administration of [177Lu]Lu-NeoB was tolerated. The most significant radiotoxic effects were found in the kidneys, similar to other clinically applied radioligands. The results of this study underline the potential of [177Lu]Lu-NeoB as a promising option for clinical therapy.

Published

2022

18. Intraprocedural MRI-based dosimetry during transarterial radioembolization of liver tumours with holmium-166 microspheres (EMERITUS-1): a phase I trial towards adaptive, image-controlled treatment delivery

Author

Joey Roosen, Lovisa E. L. Westlund Gotby, Mark J. Arntz, Jurgen J. Fütterer, Marcel J. R. Janssen, Mark W. Konijnenberg, Meike W. M. van Wijk, Christiaan G. Overduin, J. Frank W. Nijsen, and Radiology & Nuclear Medicine

Subjects

Tumours of the digestive tract Radboud Institute for Health Sciences [Radboudumc 14], Holmium, SDG 3 - Good Health and Well-being, Urological cancers Radboud Institute for Health Sciences [Radboudumc 15], Other Research Radboud Institute for Health Sciences [Radboudumc 0], Liver Neoplasms, Humans, Yttrium Radioisotopes, Radiology, Nuclear Medicine and imaging, General Medicine, Embolization, Therapeutic, Magnetic Resonance Imaging, Microspheres

Abstract

Purpose Transarterial radioembolization (TARE) is a treatment for liver tumours based on injection of radioactive microspheres in the hepatic arterial system. It is crucial to achieve a maximum tumour dose for an optimal treatment response, while minimizing healthy liver dose to prevent toxicity. There is, however, no intraprocedural feedback on the dose distribution, as nuclear imaging can only be performed after treatment. As holmium-166 (166Ho) microspheres can be quantified with MRI, we investigate the feasibility and safety of performing 166Ho TARE within an MRI scanner and explore the potential of intraprocedural MRI-based dosimetry. Methods Six patients were treated with 166Ho TARE in a hybrid operating room. Per injection position, a microcatheter was placed under angiography guidance, after which patients were transported to an adjacent 3-T MRI system. After MRI confirmation of unchanged catheter location, 166Ho microspheres were injected in four fractions, consisting of 10%, 30%, 30% and 30% of the planned activity, alternated with holmium-sensitive MRI acquisition to assess the microsphere distribution. After the procedures, MRI-based dose maps were calculated from each intraprocedural image series using a dedicated dosimetry software package for 166Ho TARE. Results Administration of 166Ho microspheres within the MRI scanner was feasible in 9/11 (82%) injection positions. Intraprocedural holmium-sensitive MRI allowed for tumour dosimetry in 18/19 (95%) of treated tumours. Two CTCAE grade 3–4 toxicities were observed, and no adverse events were attributed to treatment in the MRI. Towards the last fraction, 4/18 tumours exhibited signs of saturation, while in 14/18 tumours, the microsphere uptake patterns did not deviate from the linear trend. Conclusion This study demonstrated feasibility and preliminary safety of a first in-human application of TARE within a clinical MRI system. Intraprocedural MRI-based dosimetry enabled dynamic insight in the microsphere distribution during TARE. This proof of concept yields unique possibilities to better understand microsphere distribution in vivo and to potentially optimize treatment efficacy through treatment personalization. Registration Clinicaltrials.gov, identifier NCT04269499, registered on February 13, 2020 (retrospectively registered).

Published

2022

19. Kidney absorbed radiation doses for [177Lu]Lu-PSMA-617 and [177Lu]Lu-PSMA-I&T determined by 3D clinical dosimetry

Author

Maike J M, Uijen, Bastiaan M, Privé, Carla M L, van Herpen, Harm, Westdorp, Willemijn A, van Gemert, Maarten, de Bakker, Martin, Gotthardt, Mark W, Konijnenberg, Steffie M B, Peters, James, Nagarajah, Radiotherapy, and Radiology & Nuclear Medicine

Subjects

All institutes and research themes of the Radboud University Medical Center, SDG 3 - Good Health and Well-being, Other Research Radboud Institute for Health Sciences [Radboudumc 0], Urological cancers Radboud Institute for Molecular Life Sciences [Radboudumc 15], Tumours of the digestive tract Radboud Institute for Molecular Life Sciences [Radboudumc 14], Radiology, Nuclear Medicine and imaging, General Medicine, Rare cancers Radboud Institute for Health Sciences [Radboudumc 9]

Abstract

Purpose For prostate-specific membrane antigen-directed radioligand therapy (PSMA-RLT), [177Lu]Lu-PSMA-617 and [177Lu]Lu-PSMA-I&T are the currently preferred compounds. Recent preclinical studies suggested ∼30x higher kidney absorbed dose for [177Lu]Lu-PSMA-I&T compared to [177Lu]Lu-PSMA-617, which may lead to an increased risk of kidney toxicity. We performed two single-centre, prospective dosimetry studies with either [177Lu]Lu-PSMA-617 or [177Lu]Lu-PSMA-I&T, using an identical dosimetry protocol. We evaluated the absorbed doses of both 177Lu-labelled radioligands in human kidneys. Methods 3D SPECT/computed tomography (CT) imaging of the kidneys was performed after PSMA-RLT in cancer patients with PSMA-positive disease and an adequate glomerular filtration rate (≥50 mL/min). Ten metastatic hormone-sensitive prostate cancer patients (mHSPC) were treated with [177Lu]Lu-PSMA-617 and 10 advanced salivary gland cancer (SGC) patients were treated with [177Lu]Lu-PSMA-I&T. SPECT/CT imaging was performed at five timepoints (1 h, 24 h, 48 h, 72 h, and 168 h post-injection). In mHSPC patients, SPECT/CT imaging was performed after cycles 1 and 2 (cumulative activity: 9 GBq) and in SGC patients only after cycle 1 (activity: 7.4 GBq). Kidney absorbed dose was calculated using organ-based dosimetry. Results The median kidney absorbed dose was 0.49 Gy/GBq (range: 0.34-0.66) and 0.73 Gy/GBq (range: 0.42-1.31) for [177Lu]Lu-PSMA-617 and [177Lu]Lu-PSMA-I&T, respectively (independent samples t test; P = 0.010). Conclusion This study shows that the kidney absorbed dose for [177Lu]Lu-PSMA-617 and [177Lu]Lu-PSMA-I&T differs, with a ∼1.5x higher median kidney absorbed dose for [177Lu]Lu-PSMA-I&T. This difference in the clinical setting is considerably smaller than observed in preclinical studies and may not hamper treatments with [177Lu]Lu-PSMA-I&T.

Published

2023

20. Data from Lutetium-177-PSMA-617 in Low-Volume Hormone-Sensitive Metastatic Prostate Cancer: A Prospective Pilot Study

Author

James Nagarajah, J. Alfred Witjes, Martin Gotthardt, Jelle O. Barentsz, Sandra Heskamp, Jean-Paul A. van Basten, Diederik M. Somford, Robert J. Smeenk, Linda G.W. Kerkmeijer, Niven Mehra, Winald R. Gerritsen, J. Fred Verzijlbergen, Tom W.J. Scheenen, Annemarie Eek, Melline G.M. Schilham, Maike J.M. Uijen, Patrik Zámecnik, Mark W. Konijnenberg, J.P. Michiel Sedelaar, Marcel J.R. Janssen, Inge M. van Oort, Constantijn H.J. Muselaers, Steffie M.B. Peters, and Bastiaan M. Privé

Abstract

Purpose:[177Lu]Lu-PSMA-617 radioligand therapy (177Lu-PSMA) is a novel treatment for metastatic castration-resistant prostate cancer (mCRPC), which could also be applied to patients with metastatic hormone-sensitive prostate cancer (mHSPC) with PSMA expression. In this prospective study (NCT03828838), we analyzed toxicity, radiation doses, and treatment effect of 177Lu-PSMA in pateints with low-volume mHSPC.Patients and Methods:Ten progressive patients with mHSPC following local treatment, with a maximum of ten metastatic lesions on [68Ga]Ga-PSMA-11 PET/diagnostic-CT imaging (PSMA-PET) and serum PSA doubling time 177Lu-PSMA. Whole-body single-photon emission CT/CT (SPECT/CT) and blood dosimetry was performed to calculate doses to the tumors and organs at risk (OAR). Adverse events (AE), laboratory values (monitoring response and toxicity), and quality of life were monitored until week 24 after cycle 2, the end of study (EOS). All patients underwent PSMA-PET at screening, 8 weeks after cycle 1, 12 weeks after cycle 2, and at EOS.Results:All patients received two cycles of 177Lu-PSMA without complications. No treatment-related grade III–IV adverse events were observed. According to dosimetry, none of the OAR reached threshold doses for radiation-related toxicity. Moreover, all target lesions received a higher radiation dose than the OAR. All 10 patients showed altered PSA kinetics, postponed androgen deprivation therapy, and maintained good quality of life. Half of the patients showed a PSA response of more than 50%. One patient had a complete response on PSMA-PET imaging until EOS and two others had only minimal residual disease.Conclusions:177Lu-PSMA appeared to be a feasible and safe treatment modality in patients with low-volume mHSPC.

Published

2023

21. Supplementary Data from Lutetium-177-PSMA-617 in Low-Volume Hormone-Sensitive Metastatic Prostate Cancer: A Prospective Pilot Study

Author

James Nagarajah, J. Alfred Witjes, Martin Gotthardt, Jelle O. Barentsz, Sandra Heskamp, Jean-Paul A. van Basten, Diederik M. Somford, Robert J. Smeenk, Linda G.W. Kerkmeijer, Niven Mehra, Winald R. Gerritsen, J. Fred Verzijlbergen, Tom W.J. Scheenen, Annemarie Eek, Melline G.M. Schilham, Maike J.M. Uijen, Patrik Zámecnik, Mark W. Konijnenberg, J.P. Michiel Sedelaar, Marcel J.R. Janssen, Inge M. van Oort, Constantijn H.J. Muselaers, Steffie M.B. Peters, and Bastiaan M. Privé

Abstract

Supplementary Data

Published

2023

22. Efficacy and safety of peptide receptor radionuclide therapy with [177Lu]Lu-DOTA-TATE in 15 patients with progressive treatment-refractory meningioma

Author

Noémie S. Minczeles, Eelke M. Bos, Reinoud C. de Leeuw, Johan M. Kros, Mark W. Konijnenberg, Jacoline E. C. Bromberg, Wouter W. de Herder, Clemens M. F. Dirven, Johannes Hofland, Tessa Brabander, Radiology & Nuclear Medicine, Internal Medicine, Neurosurgery, Pathology, and Neurology

Subjects

Radiology, Nuclear Medicine and imaging, General Medicine

Abstract

Purpose: There is no evidence-based systemic therapy for patients with progressive meningiomas for whom surgery or external radiotherapy is no longer an option. In this study, the efficacy and safety of peptide receptor radionuclide therapy (PRRT) in patients with progressive, treatment-refractory meningiomas were evaluated. Methods: Retrospective analysis of all meningioma patients treated with [177Lu]Lu-DOTA-TATE from 2000 to 2020 in our centre. Primary outcomes were response according to RANO bidimensional and volumetric criteria and progression-free survival (PFS). Overall survival (OS) and tumour growth rate (TGR) were secondary endpoints. TGR was calculated as the percentage change in surface or volume per month. Results: Fifteen meningioma patients received [177Lu]Lu-DOTA-TATE (7.5–29.6 GBq). Prior to PRRT, all patients had received external radiotherapy, and 14 patients had undergone surgery. All WHO grades were included WHO 1 (n=3), WHO 2 (n=5), and WHO 3 (n=6). After PRRT, stable disease was observed in six (40%) patients. The median PFS was 7.8 months with a 6-month PFS rate of 60%. The median OS was 13.6 months with a 12-month OS rate of 60%. All patients had progressive disease prior to PRRT, with an average TGR of 4.6% increase in surface and 14.8% increase in volume per month. After PRRT, TGR declined to 3.1% in surface (p=0.016) and 5.0% in volume (p=0.013) per month. Conclusion: In this cohort of meningioma patients with exhaustion of surgical and radiotherapeutic options and progressive disease, it was shown that PRRT plays a role in controlling tumour growth.

Published

2023

23. Dose-Limiting Bone Marrow Toxicities After Peptide Receptor Radionuclide Therapy Are More Prevalent in Women Than in Men

Author

Noémie S. Minczeles, Wouter W. de Herder, Mark W. Konijnenberg, Richard A. Feelders, Tessa Brabander, Johannes Hofland, Radiology & Nuclear Medicine, and Internal Medicine

Subjects

Male, Radioisotopes, Receptors, Peptide, General Medicine, Octreotide, Thrombocytopenia, Neuroendocrine Tumors, Bone Marrow, Positron-Emission Tomography, Organometallic Compounds, Humans, Radiology, Nuclear Medicine and imaging, Female, Sex Distribution, Radionuclide Imaging

Abstract

Purpose Peptide receptor radionuclide therapy (PRRT) can cause dose-limiting toxicities (DLTs) of the bone marrow, liver, and kidneys. It is yet unknown whether women and men are equally at risk of these DLTs.Methods Neuroendocrine tumor patients treated with 177Lu-DOTATATE between 2000 and 2015 in our phase II trial with available laboratory data were included. For all DLTs, the highest Common Terminology Criteria for Adverse Events (version 4.03) grades that occurred from the start of PRRT until 3 months after the last cycle were scored.Results At baseline, women (n = 439) had a significantly lower body mass index, Karnofsky Performance Score, hemoglobin level, and creatinine clearance and a significantly higher platelet level than men (n = 534). Both groups received a median activity of 29.6 GBq (800 mCi). After the start of PRRT, women more frequently developed grade ≥2 thrombocytopenia compared with men (25% vs 18%, P = 0.004) due to a significant increase in grade ≥3 thrombocytopenia (11% vs 6%, P = 0.008). Furthermore, the incidence of grade ≥3 anemia was higher in women (7% vs 3%, P = 0.002). In the multivariable regression model, female sex (odds ratio, 2.50; 95% confidence interval, 1.67–3.74) was confirmed to be an independent risk factor for grade ≥2 thrombocytopenia, among baseline platelet count, bone metastases, uptake on 111In-DTPA-octreotide scan, Karnofsky Performance Score, alkaline phosphatase, lymphocytes, albumin, and renal function.Conclusions Female neuroendocrine tumor patients more often experienced PRRT-induced toxicities of platelets and hemoglobin than males, but this did not lead to a lower cumulative activity.

Published

2022

24. Efficacy and safety of peptide receptor radionuclide therapy with [

Author

Noémie S, Minczeles, Eelke M, Bos, Reinoud C, de Leeuw, Johan M, Kros, Mark W, Konijnenberg, Jacoline E C, Bromberg, Wouter W, de Herder, Clemens M F, Dirven, Johannes, Hofland, and Tessa, Brabander

Abstract

There is no evidence-based systemic therapy for patients with progressive meningiomas for whom surgery or external radiotherapy is no longer an option. In this study, the efficacy and safety of peptide receptor radionuclide therapy (PRRT) in patients with progressive, treatment-refractory meningiomas were evaluated.Retrospective analysis of all meningioma patients treated with [Fifteen meningioma patients received [In this cohort of meningioma patients with exhaustion of surgical and radiotherapeutic options and progressive disease, it was shown that PRRT plays a role in controlling tumour growth.

Published

2022

25. Safety of [

Author

Eline A M, Ruigrok, Marjolein, Verhoeven, Mark W, Konijnenberg, Erik, de Blois, Corrina M A, de Ridder, Debra C, Stuurman, Luisa, Bertarione, Katia, Rolfo, Marion, de Jong, and Simone U, Dalm

Subjects

Male, Receptors, Bombesin, Mice, Animals, Female, Tissue Distribution, Lutetium, Radiometry, Kidney

Abstract

The radiolabeled gastrin-releasing peptide receptor (GRPR)-targeting antagonist NeoB is a promising radioligand for imaging and therapy of GRPR-expressing malignancies. In the current study, we aimed to discover the target organs of toxicity and the radiotoxic effects to these organs, when repeated dosages of [Animals received either 3 injections, with a 7-day interval, of vehicle (control group 1), 1200 pmol [The biodistribution study showed the highest absorbed doses in GRPR-expressing pancreas, the liver, and the kidneys (the main organs of excretion). Both control groups and almost all animals of treatment group 1 did not show any treatment-related toxicological effects. Despite the high absorbed doses, no clear microscopic signs of toxicity were found in the pancreas and the liver. Histological analysis indicated kidney damage in the form of hydronephrosis and nephropathy in treatment groups 2 and 3 that were sacrificed at the early and late time point. In the same groups, increased blood urea nitrogen levels were found.In general, repeated administration of [

Published

2022

26. Thoughts on 'Tumor Sink Effect in

Author

Bastiaan M, Privé, Steffie M B, Peters, Maike J M, Uijen, Marcel J R, Janssen, Willemijn A M, van Gemert, Michael C, Kreissl, Samer, Ezzidin, Mark W, Konijnenberg, and James, Nagarajah

Subjects

Neoplasms, Positron Emission Tomography Computed Tomography, Humans, Gallium Radioisotopes, Edetic Acid, Gallium Isotopes

Published

2022

27. Thoughts on 'Tumor Sink Effect in (68)Ga-PSMA-11 PET: Myth or Reality?'

Author

Bastiaan M. Privé, Steffie M.B. Peters, Maike J.M. Uijen, Marcel J.R. Janssen, Willemijn A.M. van Gemert, Michael C. Kreissl, Samer Ezzidin, Mark W. Konijnenberg, and James Nagarajah

Subjects

Tumours of the digestive tract Radboud Institute for Health Sciences [Radboudumc 14], Urological cancers Radboud Institute for Health Sciences [Radboudumc 15], Other Research Radboud Institute for Health Sciences [Radboudumc 0], Tumours of the digestive tract Radboud Institute for Molecular Life Sciences [Radboudumc 14], Radiology, Nuclear Medicine and imaging

Abstract

Contains fulltext : 283322.pdf (Publisher’s version ) (Closed access)

Published

2022

28. Combining Targeted Radionuclide Therapy and Immune Checkpoint Inhibition for Cancer Treatment

Author

Simone C. Kleinendorst, Egbert Oosterwijk, Johan Bussink, Harm Westdorp, Mark W. Konijnenberg, and Sandra Heskamp

Subjects

Radioisotopes, Cancer Research, Mice, Oncology, Neoplasms, Cancer development and immune defence Radboud Institute for Molecular Life Sciences [Radboudumc 2], Urological cancers Radboud Institute for Molecular Life Sciences [Radboudumc 15], Animals, Immunotherapy, Rare cancers Radboud Institute for Molecular Life Sciences [Radboudumc 9], Combined Modality Therapy, Immune Checkpoint Inhibitors, Rare cancers Radboud Institute for Health Sciences [Radboudumc 9]

Abstract

Contains fulltext : 282352.pdf (Publisher’s version ) (Open Access) The development of immunotherapy, in particular immune checkpoint inhibitors (ICI), has revolutionized cancer treatment in the past decades. However, its efficacy is still limited to subgroups of patients with cancer. Therefore, effective treatment combination strategies are needed. Here, radiotherapy is highly promising, as it can induce immunogenic cell death, triggering the release of pro-inflammatory cytokines, thereby creating an immunogenic phenotype and sensitizing tumors to ICI. Recently, targeted radionuclide therapy (TRT) has attained significant interest for cancer treatment. In this approach, a tumor-targeting radiopharmaceutical is used to specifically deliver a therapeutic radiation dose to all tumor cells, including distant metastatic lesions, while limiting radiation exposure to healthy tissue. However, fundamental differences between TRT and conventional radiotherapy make it impossible to directly extrapolate the biological effects from conventional radiotherapy to TRT. In this review, we present a comprehensive overview of studies investigating the immunomodulatory effects of TRT and the efficacy of combined TRT-ICI treatment. Preclinical studies have evaluated a variety of murine cancer models in which α- or β-emitting radionuclides were directed to a diverse set of targets. In addition, clinical trials are ongoing to assess safety and efficacy of combined TRT-ICI in patients with cancer. Taken together, research indicates that combining TRT and ICI might improve therapeutic response in patients with cancer. Future research has to disclose what the optimal conditions are in terms of dose and treatment schedule to maximize the efficacy of this combined approach.

Published

2022

29. (89)Zr-labeled PSMA ligands for pharmacokinetic PET imaging and dosimetry of PSMA-617 and PSMA-I&T: a preclinical evaluation and first in man

Author

Bastiaan M. Privé, Yvonne H. W. Derks, Florian Rosar, Gerben M. Franssen, Steffie M. B. Peters, Fadi Khreish, Mark Bartholomä, Stephan Maus, Martin Gotthardt, Peter Laverman, Mark W. Konijnenberg, Samer Ezziddin, James Nagarajah, and Sandra Heskamp

Subjects

Tumours of the digestive tract Radboud Institute for Health Sciences [Radboudumc 14], Other Research Radboud Institute for Health Sciences [Radboudumc 0], Tumours of the digestive tract Radboud Institute for Molecular Life Sciences [Radboudumc 14], Radiology, Nuclear Medicine and imaging, General Medicine, Rare cancers Radboud Institute for Molecular Life Sciences [Radboudumc 9], Nanomedicine Radboud Institute for Molecular Life Sciences [Radboudumc 19]

Abstract

Item does not contain fulltext RATIONALE: Prolonged in vivo evaluation of PSMA tracers could improve tumor imaging and patient selection for (177)Lu-PSMA-617 and (177)Lu-PSMA-I&T. In this study, we present the radiolabeling method of PSMA-617 and PSMA-I&T with the long-lived positron emitter (89)Zr to enable PET imaging up to 7 days post-injection. We compared the biodistribution of (89)Zr-PSMA-617 and (89)Zr-PSMA-I&T to those of (177)Lu-PSMA-617 and (177)Lu-PSMA-I&T, respectively, in a PSMA(+) xenograft model. Moreover, we provide the first human (89)Zr-PSMA-617 images. MATERIALS AND METHODS: PSMA ligands were labeled with 50-55 MBq [(89)Zr]ZrCl4 using a two-step labeling protocol. For biodistribution, BALB/c nude mice bearing PSMA(+) and PSMA(-) xenografts received 0.6 microg (0.6-1 MBq) of (89)Zr-PSMA-617, (89)Zr-PSMA-I&T, (177)Lu-PSMA-617, or (177)Lu-PSMA-I&T intravenously. Ex vivo biodistribution and PET/SPECT imaging were performed up to 168 h post-injection. Dosimetry was performed from the biodistribution data. The patient received 90.5 MBq (89)Zr-PSMA-617 followed by PET/CT imaging. RESULTS: (89)Zr-labeled PSMA ligands showed a comparable ex vivo biodistribution to its respective (177)Lu-labeled counterparts with high tumor accumulation in the PSMA(+) xenografts. However, using a dose estimation model for (177)Lu, absorbed radiation dose in bone and kidneys differed among the (177)Lu-PSMA and (89)Zr-PSMA tracers. (89)Zr-PSMA-617 PET in the first human patient showed high contrast of PSMA expressing tissues up to 48 h post-injection. CONCLUSION: PSMA-617 and PSMA-I&T were successfully labeled with (89)Zr and demonstrated high uptake in PSMA(+) xenografts, which enabled PET up to 168 h post-injection. The biodistribution of (89)Zr-PSMA-I&T and (89)Zr-PSMA-617 resembled that of (177)Lu-PSMA-I&T and (177)Lu-PSMA-617, respectively. The first patient (89)Zr-PSMA-617 PET images were of high quality warranting further clinical investigation.

Published

2022

30. The limits of the 'holy gray' in radioembolization and beyond : Beyond the 'holy Gray'

Author

Frederik A, Verburg, Mark W, Konijnenberg, and Julie, Nonnekens

Published

2021

31. Correction to: In vitro dose effect relationships of actinium‑225‑ and lutetium‑177‑labeled PSMA‑I&T

Author

Eline A. M. Ruigrok, Giulia Tamborino, Erik de Blois, Stefan J. Roobol, Nicole Verkaik, Marijke De Saint-Hubert, Mark W. Konijnenberg, Wytske M. van Weerden, Marion de Jong, and Julie Nonnekens

Subjects

Radiology, Nuclear Medicine and imaging, General Medicine

Published

2022

32. Dosimetric Analysis of the Short-Ranged Particle Emitter

Author

Peter, Bernhardt, Johanna, Svensson, Jens, Hemmingsson, Nicholas P, van der Meulen, Jan Rijn, Zeevaart, Mark W, Konijnenberg, Cristina, Müller, and Jon, Kindblom

Subjects

dosimetry, PSMA, 161Tb, prostate cancer, Article

Abstract

Simple Summary A tremendous effort and rapid development of the prostate-specific membrane antigen (PSMA)-targeting radio ligands for radionuclide therapy has resulted in encouraging response rates for advanced prostate cancer. Different radionuclides have been utilized or suggested as suitable candidates. In this study, a dynamic model of metastatic progress was developed and utilized to estimate a radiopharmaceutical’s potential of obtaining metastatic control of advanced prostate cancer. The simulations performed demonstrated the advantage of utilizing radionuclides with short-range particle emission, i.e., alpha-emitters and low-energy electrons. The recently-proposed beta-emitting radionuclide terbium-161 demonstrates great potential of being a future candidate towards targeted radionuclide therapy of advanced prostate cancer. This is in line with recent encouraging preclinical results and development of upscaling the product quality. Recently, the first in-human application with a [161Tb]Tb-DOTATOC also demonstrated good SPECT image quality, which can enable dosimetry calculations for new 161Tb-based radiopharmaceuticals. Abstract The aim of this study was to analyze the required absorbed doses to detectable metastases (Dreq) when using radionuclides with prostate specific membrane antigen (PSMA)-targeting radioligands to achieve a high probability for metastatic control. The Monte Carlo based analysis was performed for the clinically-used radionuclides yttrium-90, iodine-131, lutetium-177, and actinium-225, and the newly-proposed low-energy electron emitter terbium-161. It was demonstrated that metastatic formation rate highly influenced the metastatic distribution. Lower values generated few large detectable metastases, as in the case with oligo metastases, while high values generated a distribution of multiple small detectable metastases, as observed in patients with diffused visualized metastases. With equal number of detectable metastases, the total metastatic volume burden was 4–6 times higher in the oligo metastatic scenario compared to the diffusely visualized scenario. The Dreq was around 30% higher for the situations with 20 detectable metastases compared to one detectable metastasis. The Dreq for iodine-131 and yttrium-90 was high (920–3300 Gy). The Dreq for lutetium-177 was between 560 and 780 Gy and considerably lower Dreq were obtained for actinium-225 and terbium-161, with 240–330 Gy and 210–280 Gy, respectively. In conclusion, the simulations demonstrated that terbium-161 has the potential for being a more effective targeted radionuclide therapy for metastases using PSMA ligands.

Published

2021

33. To go where no one has gone before: the necessity of radiobiology studies for exploration beyond the limits of the 'Holy Gray' in radionuclide therapy

Author

Frederik A, Verburg, Julie, Nonnekens, Mark W, Konijnenberg, and Marion, de Jong

Subjects

Radioisotopes, Radiation Protection, Humans, Radiobiology

Published

2021

34. Cellular dosimetry of [

Author

Giulia, Tamborino, Marijke, De Saint-Hubert, Lara, Struelens, Dayana C, Seoane, Eline A M, Ruigrok, An, Aerts, Wiggert A, van Cappellen, Marion, de Jong, Mark W, Konijnenberg, and Julie, Nonnekens

Subjects

[177Lu]Lu-DOTA-[Tyr3]octreotate, Polygonal mesh, in vitro cytotoxicity correlation, S values, Cellular dosimetry, Original Research

Abstract

Background Survival and linear-quadratic model fitting parameters implemented in treatment planning for targeted radionuclide therapy depend on accurate cellular dosimetry. Therefore, we have built a refined cellular dosimetry model for [177Lu]Lu-DOTA-[Tyr3]octreotate (177Lu-DOTATATE) in vitro experiments, accounting for specific cell morphologies and sub-cellular radioactivity distributions. Methods Time activity curves were measured and modeled for medium, membrane-bound, and internalized activity fractions over 6 days. Clonogenic survival assays were performed at various added activities (0.1–2.5 MBq/ml). 3D microscopy images (stained for cytoplasm, nucleus, and Golgi) were used as reference for developing polygonal meshes (PM) in 3DsMax to accurately render the cellular and organelle geometry. Absorbed doses to the nucleus per decay (S values) were calculated for 3 cellular morphologies: spheres (MIRDcell), truncated cone-shaped constructive solid geometry (CSG within MCNP6.1), and realistic PM models, using Geant4-10.03. The geometrical set-up of the clonogenic survival assays was modeled, including dynamic changes in proliferation, proximity variations, and cell death. The absorbed dose to the nucleus by the radioactive source cell (self-dose) and surrounding source cells (cross-dose) was calculated applying the MIRD formalism. Finally, the correlation between absorbed dose and survival fraction was fitted using a linear dose-response curve (high α/β or fast sub-lethal damage repair half-life) for different assumptions, related to cellular shape and localization of the internalized fraction of activity. Results The cross-dose, depending on cell proximity and colony formation, is a minor (15%) contributor to the total absorbed dose. Cellular volume (inverse exponential trend), shape modeling (up to 65%), and internalized source localization (up to + 149% comparing cytoplasm to Golgi) significantly influence the self-dose to nucleus. The absorbed dose delivered to the nucleus during a clonogenic survival assay is 3-fold higher with MIRDcell compared to the polygonal mesh structures. Our cellular dosimetry model indicates that 177Lu-DOTATATE treatment might be more effective than suggested by average spherical cell dosimetry, predicting a lower absorbed dose for the same cellular survival. Dose-rate effects and heterogeneous dose delivery might account for differences in dose-response compared to x-ray irradiation. Conclusion Our results demonstrate that modeling of cellular and organelle geometry is crucial to perform accurate in vitro dosimetry.

Published

2019

35. Improved safety and efficacy of

Author

Ho Sze, Chan, Mark W, Konijnenberg, Tamara, Daniels, Monique, Nysus, Mehran, Makvandi, Erik, de Blois, Wouter A, Breeman, Robert W, Atcher, Marion, de Jong, and Jeffrey P, Norenberg

Subjects

213Bi-DOTATATE, l-lysine, Targeted alpha therapy, Maximum tolerated dose, Nephrotoxicity, Original Research

Abstract

Background Targeted alpha therapy (TAT) offers advantages over current β-emitting conjugates for peptide receptor radionuclide therapy (PRRT) of neuroendocrine tumors. PRRT with 177Lu-DOTATATE or 90Y-DOTATOC has shown dose-limiting nephrotoxicity due to radiopeptide retention in the proximal tubules. Pharmacological protection can reduce renal uptake of radiopeptides, e.g., positively charged amino acids, to saturate in the proximal tubules, thereby enabling higher radioactivity to be safely administered. The aim of this preclinical study was to evaluate the therapeutic effect of 213Bi-DOTATATE with and without renal protection using L-lysine in mice. Tumor uptake and kinetics as a function of injected mass of peptide (range 0.03–3 nmol) were investigated using 111In-DOTATATE. These results allowed estimation of the mean radiation absorbed tumor dose for 213Bi-DOTATATE. Pharmacokinetics and dosimetry of 213Bi-DOTATATE was determined in mice, in combination with renal protection. A dose escalation study with 213Bi-DOTATATE was performed to determine the maximum tolerated dose (MTD) with and without pre-administration of l-lysine as for renal protection. Neutrophil gelatinase-associated lipocalin (NGAL) served as renal biomarker to determine kidney injury. Results The maximum mean radiation absorbed tumor dose occurred at 0.03 nmol and the minimum at 3 nmol. Similar mean radiation absorbed tumor doses were determined for 0.1 and 0.3 nmol with a mean radiation absorbed dose of approximately 0.5 Gy/MBq 213Bi-DOTATATE. The optimal mass of injected peptide was found to be 0.3 nmol. Tumor uptake was similar for 111In-DOTATATE and 213Bi-DOTATATE at 0.3 nmol peptide. Lysine reduced the renal uptake of 213Bi-DOTATATE by 50% with no effect on the tumor uptake. The MTD was

Published

2016

36. Accurate assessment of whole-body retention for PRRT with (177)Lu using paired measurements with external detectors

Author

Boxue, Liu, Erik, de Blois, Wouter A P, Breeman, Mark W, Konijnenberg, Hubert T, Wolterbeek, and Peter, Bode

Subjects

Radioisotopes, Time Factors, Receptors, Peptide, Organometallic Compounds, Humans, Reproducibility of Results, Tissue Distribution, Radiopharmaceuticals, Octreotide

Abstract

The aim of this study was to assess the accuracy of the results of whole-body measurements by comparison with the urine collection method in the PRRT with (177)Lu and furthermore to develop a more accurate method of paired measurements. Excreted samples were collected at given intervals and activities were measured by a dose calibrator. Traditionally, whole-body activities during subsequent measurements are normalized individually to the administered activity. In order to correct for the effects of the activity in the bladder during the baseline measurement before the first voiding and activity redistributions in the patient body during subsequent measurements, a series of paired measurements before and after each voiding were carried out. Time-dependent detector responses at given times were derived and time-activity retentions were then determined. Compared to the results of the urine collection, whole-body activities by traditional whole-body measurements were overestimated by ca. 14% at 1 h after administration and randomly varied from -29% to 49% at 24 h. Measurement uncertainties of whole-body activities were from ± 4% (the coverage factor k=2) at 1 h to± 20% at 24 h by the urine collection and ± 7% by paired measurements, respectively. Whole-body activities at 1 h by paired measurements were validated using the results by measurements of the collected first urine. The new method of paired measurements has an equivalent measurement accuracy and even better during the later measurements with respect to the urine collection method and therefore can replace urine approach for assessing the time-activity remaining in the patient body.

Published

2014

37. Effect of time and exercise on the clearance rate of (201)Tl in normal and ischemic myocardium

Author

Barbra E, Backus, Rachel E L, Hezemans, Frederik A, Verburg, Ruth G M, Keijsersa, Mark W, Konijnenberg, and J Fred, Verzijlbergen

Subjects

Male, Observer Variation, Tomography, Emission-Computed, Single-Photon, Time Factors, Metabolic Clearance Rate, Rest, Myocardial Ischemia, Myocardial Perfusion Imaging, Middle Aged, Case-Control Studies, Humans, Female, Thallium, Exercise

Abstract

Simultaneous dual isotope (SDI) acquisition of (201)Tl rest/(99m)Tc-sestamibi stress-myocardial perfusion single photon emission computed tomography is a desirable new procedure in nuclear cardiology. In this protocol (201)Tl is injected at rest but imaging is performed not earlier than after exercise. Therefore, one must be convinced that throughout exercise (201)Tl remains distributed in an identical pattern as at rest. Before SDI can be applied clinically, (201)Tl rest MPS before and after exercise test needs to be compared for equality. The aim of this study was to assess the effect of time and exercise on the clearance of preinjected (201)Tl in normal and ischemic myocardium.In 122 patients rest (201)Tl and delayed (n =20) or poststress (n= 102) (201)Tl imaging was performed. Quantitative analysis of mean counts-per-pixel was performed for each segment in a 17-segment model. Differences between rest and delayed or poststress (201)Tl MPS were calculated. Patients with a poststress (201)Tl image were divided into normal (N= 66) and ischemic (N= 36) groups. Visual analysis was performed by two independent observers scoring the 17 segments on a scale of 0-4.The overall difference between rest (201)Tl and poststress (201)Tl MPS was - 15.4%. Normal and ischemic patients showed 16.2 and 14.0% (P =0.17) washout, respectively. Visual assessment by two independent observers revealed no regional differences between rest (201)Tl and delayed or poststress (201)Tl MPS.(201)Tl poststress MPS shows significant washout of thallium. This washout is not segmental, but global over the myocardium. No significant differences are found between normal and ischemic myocardium. The poststress (201)Tl MPS is a reliable reflection of rest perfusion. SDI acquisition of (201)Tl rest/(99m)Tc-sestamibi stress-MPS is clinically applicable.

Published

2010

38. Bone marrow dosimetry and safety of high 131I activities given after recombinant human thyroid-stimulating hormone to treat metastatic differentiated thyroid cancer

Author

Bart, de Keizer, Anne, Hoekstra, Mark W, Konijnenberg, Filip, de Vos, Bieke, Lambert, Peter P, van Rijk, Cees J M, Lips, and John M H, de Klerk

Subjects

Aged, 80 and over, Male, Platelet Count, Administration, Oral, Thyrotropin, Radiotherapy Dosage, Middle Aged, Injections, Intramuscular, Risk Assessment, Recombinant Proteins, Iodine Radioisotopes, Radiation Protection, Treatment Outcome, Bone Marrow, Chemotherapy, Adjuvant, Body Burden, Humans, Thyroid Neoplasms, Radiopharmaceuticals, Radiation Injuries, Radiometry, Radionuclide Imaging, Aged

Abstract

Recombinant human thyroid-stimulating hormone (rhTSH) recently was introduced as a radioiodine administration adjunct that avoids levothyroxine (LT-4) withdrawal and resultant hypothyroidism. The pharmacokinetics of 131I after rhTSH administration are known to differ from those after LT-4 withdrawal but are largely nondelineated in the radioiodine therapy setting. We therefore sought to calculate the red marrow absorbed dose of high therapeutic activities of 131I given after rhTSH administration to patients with metastatic or inoperable locally recurrent differentiated thyroid cancer. We also sought to evaluate the clinical and laboratory effects of this therapy on the bone marrow.Fourteen consecutive patients received in total 17 131I treatments (7.4 GBq). Blood and urine samples were obtained at fixed intervals, and their activities were measured in a well counter. Based on blood activity, renal clearance of the activity, and residence times in red marrow and the remainder of the body, the red marrow absorbed dose was calculated using the MIRD schema. Additionally, we monitored for potential hematologic toxicity and compared platelet counts before and 3 mo after treatment.The mean +/- SD absorbed dose per unit of administered (131)I in the red marrow was 0.16 +/- 0.07 mGy/MBq. The corresponding total red marrow absorbed dose was 1.15 +/- 0.52 Gy (range, 0.28-1.91 Gy). In none of the patients was hematologic toxicity observed. The mean +/- SD platelet count (n = 13 treatments) was 243 +/- 62 x 10(9)/L before treatment and 233 +/- 87 x 10(9)/L 3 mo later, a slight and statistically insignificant decrease. After rhTSH-aided administration of high activities of 131I, the bone marrow absorbed dose remained under 2 Gy, the level long considered the safety threshold for all radioiodine therapy.Our specific findings imply that when clinically warranted, rhTSH should allow an increase in the therapeutic radioiodine activity. Such an increase might improve efficacy while preserving safety and tolerability; this possibility should be assessed in further studies.

Published

2004

39. A stylized computational model of the rat for organ dosimetry in support of preclinical evaluations of peptide receptor radionuclide therapy with (90)Y, (111)In, or (177)Lu

Author

Mark W, Konijnenberg, Magda, Bijster, Eric P, Krenning, and Marion, De Jong

Subjects

Radioisotopes, Metabolic Clearance Rate, Femoral Neoplasms, Indium Radioisotopes, Drug Evaluation, Preclinical, Reproducibility of Results, Radiotherapy Dosage, Lutetium, Octreotide, Radiation Dosage, Models, Biological, Sensitivity and Specificity, Rats, Organ Specificity, Animals, Body Burden, Computer Simulation, Tissue Distribution, Yttrium Radioisotopes, Radiopharmaceuticals, Rats, Wistar, Radiometry, Relative Biological Effectiveness

Abstract

The therapeutic effects of peptide receptor-based radionuclide therapy are extensively being investigated in rats bearing tumors. Both the dose to the tumor and the therapy-limiting dose to normal tissues, such as kidneys and bone marrow, are of interest for these preclinical studies. The aim of this work was to develop a generalized computational model for internal dosimetry in rats.Mature rats were dissected and the relative positions, dimensions, and weights of all of their major organs were measured. A mathematic model was set up for the rat body and its internal organs to enable Monte Carlo radiation transport calculations to determine estimates for both tumor and organ self-doses as cross-organ doses for (90)Y, (111)In, and (177)Lu. The organs and body were mostly of ellipsoid shape with the axes given as the measured length, width, and height normalized to values that, together with the measured weights, are consistent with the recommended soft-tissue and bone densities. A spheric tumor of 0.25 g was positioned on the right femur. Calculations were performed with the Monte Carlo neutral particle transport code MCNP for the beta-emitters (maximum energy, 2.28 MeV) and (177)Lu (maximum energy, 0.497 MeV) and for the gamma-emissions from (177)Lu and from (111)In. The presented absorbed dose S values are used to calculate the absorbed dose estimates for the rat organs in a study on the biodistribution of (177)Lu-DOTA-Tyr(3)-octreotate (DOTA is 1,4,7,10-tetraazadodecane-N,N',N",N"'-tetraacetic acid). Three activity distributions were considered in the kidney: uniform in the whole kidney, in the cortex, or in the outer 1-mm-thick rim of the cortex. Isodose curves and dose volume histograms were calculated for the dose distribution to the kidneys.Depending on the activity distribution in the kidneys, the renal dose for (177)Lu-DOTA-Tyr(3)-octreotate is 0.13-0.17 mGy/MBq.The renal dose of 70-95 Gy for an injected activity of 555 MBq will likely cause radiation damage, although the higher amount of peptide with this activity may influence the dosimetry by partial receptor saturation. Dose volume histograms show that (111)In and (177)Lu are likely to have a higher threshold for renal damage than (90)Y.

Published

2004

40. Pediatric dosimetry for intrapleural lung injections of 32P chromic phosphate.

Author

Mark W Konijnenberg and Arthur Olch

Subjects

*RADIATION dosimetry, *PHOSPHATES, *PEDIATRICS, *PLEURA, *LUNG tumors, *SARCOMA, *MONTE Carlo method, *THERAPEUTICS

Abstract

Intracavitary injections of 32P chromic phosphate are used in the therapy of pleuropulmonary blastoma and pulmonary sarcomas in children. The lung dose, however, has never been calculated despite the potential risk of lung toxicity from treatment. In this work the dosimetry has been calculated in target tissue and lung for pediatric phantoms. Pleural cavities were modeled in the Monte Carlo code MCNP within the pediatric MIRD phantoms. Both the depth-dose curves in the pleural lining and into the lung as well as 3D dose distributions were calculated for either homogeneous or inhomogeneous 32P activity distributions. Dose-volume histograms for the lung tissue and isodose graphs were generated. The results for the 2D depth-dose curve to the pleural lining and tumor around the pleural cavity correspond well with the point kernel model-based recommendations. With a 2 mm thick pleural lining, one-third of the lung parenchyma volume gets a dose more than 30 Gy (V30) for 340 MBq 32P in a 10 year old. This is close to lung tolerance. Younger children will receive a larger dose to the lung when the lung density remains equal to the adult value; the V30 relative lung volume for a 5 year old is 35% at an activity of 256 MBq and for a 1 year old 165 MBq yields a V30 of 43%. At higher densities of the lung tissue V30 stays below 32%. All activities yield a therapeutic dose of at least 225 Gy in the pleural lining. With a more normal pleural lining thickness (0.5 mm instead of 2 mm) the injected activities will have to be reduced by a factor 5 to obtain tolerable lung doses in pediatric patients. Previous dosimetry recommendations for the adult apply well down to lung surface areas of 400 cm2. Monte Carlo dosimetry quantitates the three-dimensional dose distribution, providing a better insight into the maximum tolerable activity for this therapy. [ABSTRACT FROM AUTHOR]

Published

2010

41. Tyr3-Octreotide and Tyr3-Octreotate Radiolabeled with 177Lu or 90Y: Peptide Receptor Radionuclide Therapy Results In Vitro.

Author

Astrid Capello, Eric P. Krenning, Wout A.P. Breeman, Bert F. Bernard, Mark W. Konijnenberg, and Marion de Jong

Published

2003

42. Is the Renal Dosimetry for [90Y-DOTA0, Tyr3]Octreotide Accurate Enough to Predict Thresholds for Individual Patients?

Author

Mark W. Konijnenberg

Subjects

*RADIOISOTOPES, *RADIOTHERAPY, *KIDNEYS, *DRUG dosage

Abstract

The accuracy in the dosimetry for radionuclide therapy shows a great contrast to that obtained in external beam radiotherapy. The dosimetry for [90Y-DOTA0, Tyr3] octreotide is evaluated in patients to see whether the accuracy of the dosimetry is high enough to distinguish the probability for radiation nephropathy. The 5% threshold for late end-point nephropathy at 23 Gy with external beam radiotherapy becomes with 90Y therapy at least 30-35 Gy, when it is given in three or more fractions. More accurate linearquadratic (LQ) model parameters are, however, needed to predict a more precise threshold for renal damage in this dose rate region. The average MIRD-based dose to the kidneys was 27 ± 4 Gy (N = 52) with no evidence for renal damage. The variance in the dose is only caused by the high variability in renal uptake kinetics of the compound. Using the actual kidney volumes instead of the phantom values lowered the kidney dose considerably, but the variance in the dose greatly increased. As the peptide specifically localizes in the kidney cortex, the dose to the cortex increased up to a factor 1.5 compared to the MIRD whole kidney dose. Both the sum of uncertainties of ? 40% in the actual dose to the kidneys and the unknown maximum tolerable kidney dose for internal therapy make that a fixed injected activity of 13.32 GBq together with a patient-averaged dosimetry is as good as patient-kinetics specific dosimetry using the MIRD method. [ABSTRACT FROM AUTHOR]

Published

2003