Johan Blakkisrud1, Ayca Løndalen2, Anne C T Martinsen1,3, Jostein Dahle4, Jon E Holtedahl1, Tore Bach-Gansmo2, Harald Holte5, Arne Kolstad5, Caroline Stokke6,7. 1. Department of Diagnostic Physics, Oslo University Hospital, Oslo, Norway. 2. Department of Radiology and Nuclear Medicine, Oslo University Hospital, Oslo, Norway. 3. The Department of Physics, University of Oslo, Oslo, Norway. 4. Nordic Nanovector ASA, Oslo, Norway. 5. Department of Oncology, The Norwegian Radium Hospital, Oslo University Hospital, Oslo, Norway; and. 6. Department of Diagnostic Physics, Oslo University Hospital, Oslo, Norway carsto@ous-hf.no. 7. Department of Life Science and Health, Oslo and Akershus University College of Applied Sciences, Oslo, Norway.
Abstract
177Lu-lilotomab satetraxetan is a novel antibody radionuclide conjugate currently tested in a phase 1/2a first-in-human dosage escalation trial for patients with relapsed CD37+ indolent non-Hodgkin lymphoma. The aim of this work was to develop dosimetric methods and calculate tumor-absorbed radiation doses for patients treated with 177Lu-lilotomab satetraxetan. METHODS: Patients were treated at escalating injected activities (10, 15 and 20 MBq/kg) of 177Lu-lilotomab satetraxetan and with different predosing, with or without 40 mg of unlabeled lilotomab. Eight patients were included for the tumor dosimetry study. Tumor radioactivity concentrations were calculated from SPECT acquisitions at multiple time points, and tumor masses were delineated from corresponding CT scans. Tumor-absorbed doses were then calculated using the OLINDA sphere model. To perform voxel dosimetry, the SPECT/CT data and an in-house-developed MATLAB program were combined to investigate the dose rate homogeneity. RESULTS: Twenty-six tumors in 8 patients were ascribed a mean tumor-absorbed dose. Absorbed doses ranged from 75 to 794 cGy, with a median of 264 cGy across different dosage levels and different predosing. A significant correlation between the dosage level and tumor-absorbed dose was found. Twenty-one tumors were included for voxel dosimetry and parameters describing dose-volume coverage calculated. The investigation of intratumor voxel doses indicates that mean tumor dose is correlated to these parameters. CONCLUSION: Tumor-absorbed doses for patients treated with 177Lu-lilotomab satetraxetan are comparable to doses reported for other radioimmunotherapy compounds. Although the intertumor variability was considerable, a correlation between tumor dose and patient dosage level was found. Our results indicate that mean dose may be used as the sole dosimetric parameter on the lesion level.
177Lu-lilotomab satetraxetan is a novel antibody radionuclide conjugate currently tested in a phase 1/2a first-in-human dosage escalation trial for patients with relapsed CD37+ indolent non-Hodgkin lymphoma. The aim of this work was to develop dosimetric methods and calculate tumor-absorbed radiation doses for patients treated with 177Lu-lilotomab satetraxetan. METHODS:Patients were treated at escalating injected activities (10, 15 and 20 MBq/kg) of 177Lu-lilotomab satetraxetan and with different predosing, with or without 40 mg of unlabeled lilotomab. Eight patients were included for the tumor dosimetry study. Tumor radioactivity concentrations were calculated from SPECT acquisitions at multiple time points, and tumor masses were delineated from corresponding CT scans. Tumor-absorbed doses were then calculated using the OLINDA sphere model. To perform voxel dosimetry, the SPECT/CT data and an in-house-developed MATLAB program were combined to investigate the dose rate homogeneity. RESULTS: Twenty-six tumors in 8 patients were ascribed a mean tumor-absorbed dose. Absorbed doses ranged from 75 to 794 cGy, with a median of 264 cGy across different dosage levels and different predosing. A significant correlation between the dosage level and tumor-absorbed dose was found. Twenty-one tumors were included for voxel dosimetry and parameters describing dose-volume coverage calculated. The investigation of intratumor voxel doses indicates that mean tumor dose is correlated to these parameters. CONCLUSION:Tumor-absorbed doses for patients treated with 177Lu-lilotomab satetraxetan are comparable to doses reported for other radioimmunotherapy compounds. Although the intertumor variability was considerable, a correlation between tumor dose and patient dosage level was found. Our results indicate that mean dose may be used as the sole dosimetric parameter on the lesion level.
Authors: Arne Kolstad; Tim Illidge; Nils Bolstad; Signe Spetalen; Ulf Madsbu; Caroline Stokke; Johan Blakkisrud; Ayca Løndalen; Noelle O'Rourke; Matthew Beasley; Wojciech Jurczak; Unn-Merete Fagerli; Michal Kaščák; Mike Bayne; Aleš Obr; Jostein Dahle; Lisa Rojkjaer; Veronique Pascal; Harald Holte Journal: Blood Adv Date: 2020-09-08
Authors: Caroline Stokke; Johan Blakkisrud; Ayca Løndalen; Jostein Dahle; Anne C T Martinsen; Harald Holte; Arne Kolstad Journal: Eur J Nucl Med Mol Imaging Date: 2018-02-22 Impact factor: 9.236