TY - JOUR A1 - Soares Machado, J. A1 - Tran-Gia, J. A1 - Schlögl, S. A1 - Buck, A. K. A1 - Lassmann, M. T1 - Biokinetics, dosimetry, and radiation risk in infants after \(^{99m}\)Tc-MAG3 scans JF - EJNMMI Research N2 - Background: Renal scans are among the most frequent exams performed on infants and toddlers. Due to the young age, this patient group can be classified as a high-risk group with a higher probability for developing stochastic radiation effects compared to adults. As there are only limited data on biokinetics and dosimetry in this patient group, the aim of this study was to reassess the dosimetry and the associated radiation risk for infants undergoing \(^{99m}\)Tc-MAG3 renal scans based on a retrospective analysis of existing patient data. Consecutive data were collected from 20 patients younger than 20 months (14 males; 6 females) with normal renal function undergoing \(^{99m}\)Tc-MAG3 scans. To estimate the patient-specific organ activity, a retrospective calibration was performed based on a set of two 3D-printed infant kidneys filled with known activities. Both phantoms were scanned at different positions along the anteroposterior axis inside a water phantom, providing depth- and size-dependent attenuation correction factors for planar imaging. Time-activity curves were determined by drawing kidney, bladder, and whole-body regions-of-interest for each patient, and subsequently applying the calibration factor for conversion of counts to activity. Patient-specific time-integrated activity coefficients were obtained by integrating the organ-specific time-activity curves. Absorbed and effective dose coefficients for each patient were assessed with OLINDA/EXM for the provided newborn and 1-year-old model. The risk estimation was performed individually for each of the 20 patients with the NCI Radiation Risk Assessment Tool. Results: The mean age of the patients was 7.0 ± 4.5 months, with a weight between 5 and 12 kg and a body size between 60 and 89 cm. The injected activities ranged from 12 to 24 MBq of \(^{99m}\)Tc-MAG3. The patients' organ-specific mean absorbed dose coefficients were 0.04 ± 0.03 mGy/MBq for the kidneys and 0.27 ± 0.24 mGy/MBq for the bladder. The mean effective dose coefficient was 0.02 ± 0.02 mSv/MBq. Based on the dosimetry results, an evaluation of the excess lifetime risk for the development of radiation-induced cancer showed that the group of newborns has a risk of 16.8 per 100,000 persons, which is about 12% higher in comparison with the 1-year-old group with 14.7 per 100,000 persons (all values are given as mean plus/minus one standard deviation except otherwise specified). Conclusion: In this study, we retrospectively derived new data on biokinetics and dosimetry for infants with normal kidney function after undergoing renal scans with \(^{99m}\)Tc-MAG3. In addition, we analyzed the associated age- and gender-specific excess lifetime risk due to ionizing radiation. The radiation-associated stochastic risk increases with the organ doses, taking age- and gender-specific influences into account. Overall, the lifetime radiation risk associated with the \(^{99m}\)Tc-MAG3 scans is very low in comparison to the general population risk for developing cancer. KW - \(^{99m}\)Tc-MAG3 KW - absorbed dose KW - biokinetics KW - dosimetry KW - pediatric patients KW - risk assessment Y1 - 2018 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-175582 VL - 8 IS - 10 ER - TY - THES A1 - Beykan, Seval T1 - Implementation and Optimization of Dosimetry for Theranostics in Radiopeptide Therapies T1 - Implementierung und Optimierung der Dosimetrie für die Theranostik in Radiopeptidtherapien N2 - Peptide receptor radionuclide therapy (PRRT) is a molecular targeted radiation therapy involving the systemic administration of radiolabeled somatostatin receptor binding peptides designed to target with high affinity and specificity receptors overexpressed on tumors. Peptides are applied which either target as agonist (with internalization) or antagonist (little to no internalization). Recently, two novel antagonistic agents have been developed for clinical use: OPS202 and OPS201. 68Ga-labelled OPS202 is used for diagnostic purposes with positron emission tomography and 177Lu-labelled OPS201 is used for the therapy in patients with neuroendocrine tumors (NETs). Both agents are presently under clinical evaluation. Despite the very low internalization rate, the use of somatostatin receptor antagonists which target more binding sites on receptors are expected to result in higher specificity, more favorable pharmacokinetics and higher tumor retention and better visualization than the agonists. The main goal of this thesis was analyzing the biodistribution, biokinetics and internal dosimetry of the recently developed somatostatin receptor antagonists (OPS201 and OPS202) for therapeutic and diagnostic purposes in different species (mice, pigs and patients). In addition, an analysis of the influence of image quantification and the integration of time activity curves on kidney dosimetry in a pig model was carried out. Furthermore, extrapolation methods, which are used for predicting organ absorbed doses for humans based on preclinical animal models, were systematically compared for blood, liver, and kidneys of OPS201 injected species. Based on the OPS202 injected patients’ investigations, 68Ga-OPS202 shows promising biodistribution and imaging properties with tumor contrast which is optimal one hour after injection of the radiotracer. OPS202 is well tolerated and delivers absorbed doses to organs that are lower than those by 18F-FDG and similar to other 68Ga-labeled somatostatin receptor ligands. As a result of 68Ga OPS202 injection, the highest absorbed doses were observed in the urinary bladder (0.10 mGy/MBq) and kidneys (0.84 mGy/MBq). The calculated mean effective dose coefficient of 68Ga-OPS202 injected patients was 0.024 mSv/MBq (3.6 mSv for 150 MBq 68Ga-OPS202 injection) which is similar to other 68Ga-labeled compounds. Based on the OPS201 biokinetics and dosimetry investigations, after the injection of 177Lu-OPS201, a fast blood clearance of the compound is observed in the first phase (half-life: 1.83 h) for each species. 10 min after injection, less than 5% of the injected activity per milliliter of blood circulates in pigs and humans. The analysis of the mice, pig and preliminary patient data provides evidence that, patients enrolled in a phase 1 177Lu-OPS201 trial would not be at risk of overexposure. Based on our results, for 177Lu labelled studies, late time points after 72 h have a great impact on absorbed dose calculations. That is why follow-up times especially at late time points (more than 72 h) are required for the time-integrated activity coefficient (TIAC) calculations in order to represent the area under the curve appropriately and to analyze both biokinetics and dosimetry accurately. In addition, to find the most adequate extrapolation methods that minimize the interspecies differences of dosimetry data, several extrapolation methods from animal to human have been tested. For OPS201 time scaling or combination of relative mass and time scaling results in most similar TIAC values, if the organ mass ratios between the species are high. In time scaling, the scan/sampling time is scaled by using the ratio of the whole body masses of the respective species. In relative mass scaling, the TIACs are scaled based on the ratio of the whole body and organ mass of respective species. Other methods tested showed higher deviations. For the study on the influence of image quantification and the choice of the optimal scanning time points, a study in a pig model, which was performed in collaboration with Aalborg University and Octreopharm Sciences GmbH, was reanalyzed. As kidneys are organs-at-risk in PRRT with 177Lu labelled peptides, several quantification methods, based on 2D and 3D quantitative imaging were chosen. For this purpose, a 3D printed pig kidney phantom was prepared and measured with/without background activities representing the activities in the pig SPECT/CT scans. The phantom dosimetry data based on multiple SPECT/CT images and based on multiple planar images in combination with one SPECT/CT scan (MP1S Imaging) were compared to the pig dosimetry. The calculated TIACs of the phantom with background based on multiple SPECT/CT and MP1S imaging were quite similar to the multiple SPECT/CT based pig TIAC. In addition, in order to investigate the effect of late time points on dosimetry and absorbed dose values in 177Lu therapies, the difference, associated with eliminating the late two scan time points, on the TIACs was analyzed. When the TIACs (including all time points) of the pig based on multiple SPECT/CT and MP1S imaging were investigated, the use of MP1S imaging results in considerably lower TIAC values to the kidney (by a factor of 1.4). With eliminating late time points from the created time activity curve, the factor increases up to 2.4 times with a corresponding increase in TIAC uncertainties. As a consequence, further evaluation of 68Ga-OPS202 for PET/CT imaging and 177Lu-OPS201 for the treatments of NET patients is necessary. In particular, a head-to-head comparison of agonists and OPS peptides with respect to biokinetics, biodistribution and dosimetry would be helpful. In addition, the influence of the late scan time points on dosimetry needs further attention in particular for kidney dosimetry N2 - Die Peptidrezeptor-Radionuklidtherapie (PRRT) beinhaltet die systemische Verabreichung von radioaktiv markierten Somatostatinrezeptor-bindende Peptiden. Sie zielt darauf ab, Rezeptoren, die in Tumoren überexprimiert sind, mit hoher Affinität und Spezifität anzusprechen. Es werden Peptide eingesetzt, die entweder als Agonist (mit Internalisierung) oder Antagonist (wenig bis gar keine Internalisierung) wirken. Vor kurzem wurden zwei neue antagonistische Wirkstoffe für den klinischen Einsatz entwickelt: OPS202 und OPS201. 68Ga markiertes OPS202 wird für diagnostische Zwecke mit der Positronen-Emissions-Tomographie und 177Lu markiertes OPS201 für die Therapie von Patienten mit neuroendokrinen Tumoren (NETs) verwendet. Beide Wirkstoffe befinden sich derzeit in der klinischen Erprobung. Trotz der sehr niedrigen Internalisierungsrate wird erwartet, dass der Einsatz von Somatostatinrezeptor-Antagonisten, die mehr Bindungsstellen an Rezeptoren ansprechen, zu einer höheren Spezifität, einer günstigeren Pharmakokinetik und einer höheren Tumorretention und besseren Visualisierung als die Agonisten führt. Das Hauptziel dieser Arbeit war die Analyse der Biodistribution, Biokinetik und der internen Dosimetrie der neu entwickelten Somatostatinrezeptor-Antagonisten (OPS201 und OPS202) für therapeutische und diagnostische Zwecke in verschiedenen Spezies (Mäuse, Schweine und Patienten). Darüber hinaus wurde eine Analyse des Einflusses der Bildquantifizierung und der Integration von Zeitaktivitätskurven auf die Nierendosimetrie in einem Schweinemodell durchgeführt. Zudem wurden Extrapolationsmethoden, die zur Vorhersage der Energiedosen für das Blut, die Leber und die Nieren für den Menschen auf der Grundlage präklinischer Tiermodelle, die mit OPS201 injiziert wurden, systematisch verglichen. Basierend auf den Patientenuntersuchungen mit OPS202 zeigt 68Ga-OPS202 vielversprechende Biodistributions- und Abbildungseigenschaften mit einem Tumorkontrast, der eine Stunde nach Injektion des Radiotracers optimal ist. OPS202 ist gut verträglich; die Energiedosen in den Organen sind niedriger als die von 18F-FDG und ähnlich wie andere 68Ga-markierte Somatostatinrezeptorliganden. Nach einer Injektion von OPS202, das mit 68Ga markiert wurde, wurden die höchsten Energiedosen in der Harnblase (0.10 mGy/MBq) und den Nieren (0.84 mGy/MBq) beobachtet. Der berechnete mittlere effektive Dosiskoeffizienten von Patienten, die mit 68Ga-OPS202 injiziert wurden, betrug 0.024 mSv/MBq (3.6 mSv für 150 MBq 68Ga-OPS202), ähnlich wie bei anderen 68Ga-markierten Verbindungen. Basierend auf den biokinetischen und dosimetrischen Untersuchungen von OPS201 wird nach der Injektion von 177Lu-OPS201 in der ersten Phase (Halbwertszeit: 1.83 h) für jede Spezies eine schnelle Ausscheidung der Verbindung beobachtet. 10 Minuten nach der Injektion zirkulieren weniger als 5% der injizierten Aktivität pro Milliliter Blut bei Schweinen und Menschen. Die Analyse der Daten von Mäusen, Schweinen und vorläufigen Patienten liefert Hinweise darauf, dass Patienten, die in eine 177Lu-OPS201-Studie aufgenommen werden, nicht dem Risiko für eine Überexposition ausgesetzt wären. Basierend auf unseren Ergebnissen werden für 177Lu markierte Studien Nachbeobachtungszeiten insbesondere zu späten Zeitpunkten (mehr als 72 h) für die Berechnungen des zeitintegrierten Aktivitätskoeffizienten (TIAC) benötigt, um die Fläche unter der Kurve angemessen darzustellen und sowohl die Biokinetik als auch die Dosimetrie genau zu analysieren. Späte Zeitpunkte (nach 72 h) haben einen großen Einfluss auf die Berechnung der Energiedosis. Darüber hinaus wurden mehrere Extrapolationsmethoden vom Tier auf den Menschen getestet, um die geeignetsten Extrapolationsmethoden zu finden, die die Unterschiede zwischen den verschiedenen Spezies von Dosimetrie-Daten minimieren. Für OPS201 ergibt die Zeitskalierung oder die Kombination von relativer Masse und Zeitskalierung die ähnlichsten TIAC-Werte, wenn die Organmassenverhältnisse zwischen den Spezies hoch sind. Bei der Zeitskalierung wird die Scan-/Samplingzeit durch das Verhältnis der Ganzkörpermassen der jeweiligen Spezies skaliert. Bei der relativen Massenskalierung werden die TIACs basierend auf dem Verhältnis der Ganzkörper- und Organmasse der jeweiligen Spezies skaliert. Andere getestete Methoden zeigten höhere Abweichungen. Um den Einfluss der Bildquantifizierung und die Wahl der optimalen Scanzeitpunkte zu untersuchen, wurde eine Studie in einem Schweinemodell, die in Zusammenarbeit mit der Universität Aalborg und der Octreopharm Sciences GmbH durchgeführt wurde, neu analysiert. Da die Nieren bei PRRT mit 177Lu markierten Peptiden Risikoorgane sind, wurden mehrere Quantifizierungsmethoden ausgewählt, die auf 2D- und 3D-Bildgebung basieren. Zu diesem Zweck wurde ein 3D gedrucktes Schweine-Nierenphantom vorbereitet und, mit und ohne Hintergrundaktivitäten, die den Aktivitäten in den Schweinescans entsprechen, gemessen und quantifiziert,. Dosimetrie-Daten, die aus dem Schweinescan basierend auf mehreren 3D-Bildern und basierend auf mehreren 2D-Planarbildern in Kombination mit einem SPECT/CT-Bild („MP1S-Imaging“) gewonnen wurden, wurden mit den Ergebnissen der Phantomscans verglichen. Die so ermittelten TIACs des Phantoms mit Hintergrund, basierend auf beiden Bildgebungstechniken, entsprachen in etwa den Ergebnissen derjenigen Schweinedaten, die auf mehrfachen SPECT/CT-Aufnahmen basierten. Um die Auswirkungen der späten Zeitpunkte auf die Dosimetrie und die Werte der Energiedosen in 177Lu Therapien zu untersuchen, wurde außerdem der Unterschied, der mit der Eliminierung der späten zwei Scanzeitpunkte verbunden ist, auf die TIACs analysiert. Wenn auf mehreren SPECT/CT- und Hybrid-Bildern basierten TIACs des Schweins untersucht wurden, war die berechnete TIAC (einschließlich aller Zeitpunkte) basierend auf mehreren SPECT/CT-Bildern im Vergleich zur Hybrid Imaging um den Faktor 1.4 höher. Durch die Eliminierung von späten Zeitpunkten aus der erstellten Zeitaktivitätskurve erhöht sich der TIAC um den Faktor 2.4 mit entsprechend höheren TIAC Unsicherheiten. Daher ist zu folgern, dass eine weitere Evaluierung von 68Ga-OPS202 für die PET/CT-Bildgebung und 177Lu-OPS201 für die Behandlung von NET-Patienten erforderlich ist. Insbesondere wäre ein direkter Vergleich von Agonisten und OPS-Peptiden in Bezug auf Biokinetik, Biodistribution und Dosimetrie hilfreich. Darüber hinaus bedarf der Einfluss der späten Zeitpunkte bei Dosimetrie-Scans weiterer Aufmerksamkeit, insbesondere bei der Nierendosimetrie. KW - biodistribution KW - biokinetics KW - internal dosimetry KW - somatostatin receptor antagonists KW - 177Lu-OPS201 KW - therapy KW - 68Ga-OPS202 KW - diagnostics Y1 - 2021 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-199553 ER - TY - JOUR A1 - Beykan, Seval A1 - Fani, Melpomeni A1 - Jensen, Svend Borup A1 - Nicolas, Guillaume A1 - Wild, Damian A1 - Kaufmann, Jens A1 - Lassmann, Michael T1 - In vivo biokinetics of \(^{177}\)Lu-OPS201 in Mice and Pigs as a Model for Predicting Human Dosimetry JF - Contrast Media & Molecular Imaging N2 - Introduction. \(^{177}\)Lu-OPS201 is a high-affinity somatostatin receptor subtype 2 antagonist for PRRT in patients with neuroendocrine tumors. The aim is to find the optimal scaling for dosimetry and to compare the biokinetics of \(^{177}\)Lu-OPS201 in animals and humans. Methods. Data on biokinetics of \(^{177}\)Lu-OPS201 were analyzed in athymic nude Foxn1\(^{nu}\) mice (28 F, weight: 26 ± 1 g), Danish Landrace pigs (3 F-1 M, weight: 28 ± 2 kg), and patients (3 F-1 M, weight: 61 ± 17 kg) with administered activities of 0.19–0.27 MBq (mice), 97–113 MBq (pigs), and 850–1086 MBq (patients). After euthanizing mice (up to 168 h), the organ-specific activity contents (including blood) were measured. Multiple planar and SPECT/CT scans were performed until 250 h (pigs) and 72 h (patients) to quantify the uptake in the kidneys and liver. Blood samples were taken up to 23 h (patients) and 300 h (pigs). In pigs and patients, kidney protection was applied. Time-dependent uptake data sets were created for each species and organ/tissue. Biexponential fits were applied to compare the biokinetics in the kidneys, liver, and blood of each species. The time-integrated activity coefficients (TIACs) were calculated by using NUKFIT. To determine the optimal scaling, several methods (relative mass scaling, time scaling, combined mass and time scaling, and allometric scaling) were compared. Results. A fast blood clearance of the compound was observed in the first phase (<56 h) for all species. In comparison with patients, pigs showed higher liver retention. Based on the direct comparison of the TIACs, an underestimation in mice (liver and kidneys) and an overestimation in pigs’ kidneys compared to the patient data (kidney TIAC: mice = 1.4 h, pigs = 7.7 h, and patients = 5.8 h; liver TIAC: mice = 0.7 h, pigs = 4.1 h, and patients = 5.3 h) were observed. Most similar TIACs were obtained by applying time scaling (mice) and combined scaling (pigs) (kidney TIAC: mice = 3.9 h, pigs = 4.8 h, and patients = 5.8 h; liver TIAC: mice = 0.9 h, pigs = 4.7 h, and patients = 5.3 h). Conclusion. If the organ mass ratios between the species are high, the combined mass and time scaling method is optimal to minimize the interspecies differences. The analysis of the fit functions and the TIACs shows that pigs are better mimicking human biokinetics. KW - medicine KW - neuroendocrine tumors KW - biokinetics KW - \(^{177}\)Lu-OPS201 KW - dosimetry Y1 - 2019 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-177382 VL - 2019 ER - TY - JOUR A1 - Hänscheid, Heribert A1 - Hartrampf, Philipp E. A1 - Schirbel, Andreas A1 - Buck, Andreas K. A1 - Lapa, Constantin T1 - Intraindividual comparison of [\(^{177}\)Lu]Lu-DOTA-EB-TATE and [\(^{177}\)Lu]Lu-DOTA-TOC JF - European Journal of Nuclear Medicine and Molecular Imaging N2 - Purpose The radiolabelled somatostatin analogue [\(^{177}\)Lu]Lu-DOTA-EB-TATE binds to albumin via Evans blue, thereby increasing the residence time in the blood and potentially allowing more therapeutic agent to be absorbed into the target tissue during peptide receptor radionuclide therapy. It was tested in selected patients whether the substance is superior to [\(^{177}\)Lu]Lu-DOTA-TOC. Methods Activity kinetics in organs and tumours after [\(^{177}\)Lu]Lu-DOTA-EB-TATE and [\(^{177}\)Lu]Lu-DOTA-TOC were compared intraindividually in five patients with progressive somatostatin receptor-positive disease scheduled for radionuclide therapy. Resuluts In comparison to [\(^{177}\)Lu]Lu-DOTA-TOC, tumour doses per administered activity were higher for [\(^{177}\)Lu]Lu-DOTA-EB-TATE in 4 of 5 patients (median ratio: 1.7; range: 0.9 to 3.9), kidney doses (median ratio: 3.2; range: 1.6 to 9.8) as well as spleen doses (median ratio: 4.7; range 1.2 to 6.2) in all patients, and liver doses in 3 of 4 evaluable patients (median ratio: 4.0; range: 0.7 to 4.9). The tumour to critical organs absorbed dose ratios were higher after [\(^{177}\)Lu]Lu-DOTA-TOC in 4 of 5 patients. Conclusions Prior to a treatment with [\(^{177}\)Lu]Lu-DOTA-EB-TATE, it should be assessed individually whether the compound is superior to established substances. KW - intraindividual comparison KW - DOTA-EB-TATE KW - somatostatin receptor KW - evans blue KW - biokinetics Y1 - 2021 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-265470 SN - 1619-7089 VL - 48 IS - 8 ER - TY - JOUR A1 - Schumann, S. A1 - Eberlein, U. A1 - Lapa, C. A1 - Müller, J. A1 - Serfling, S. A1 - Lassmann, M. A1 - Scherthan, H. T1 - α-Particle-induced DNA damage tracks in peripheral blood mononuclear cells of [\(^{223}\)Ra]RaCl\(_{2}\)-treated prostate cancer patients JF - European Journal of Nuclear Medicine and Molecular Imaging N2 - Purpose One therapy option for prostate cancer patients with bone metastases is the use of [\(^{223}\)Ra]RaCl\(_{2}\). The α-emitter \(^{223}\)Ra creates DNA damage tracks along α-particle trajectories (α-tracks) in exposed cells that can be revealed by immunofluorescent staining of γ-H2AX+53BP1 DNA double-strand break markers. We investigated the time- and absorbed dose-dependency of the number of α-tracks in peripheral blood mononuclear cells (PBMCs) of patients undergoing their first therapy with [\(^{223}\)Ra]RaCl\(_{2}\). Methods Multiple blood samples from nine prostate cancer patients were collected before and after administration of [\(^{223}\)Ra]RaCl\(_{2}\), up to 4 weeks after treatment. γ-H2AX- and 53BP1-positive α-tracks were microscopically quantified in isolated and immuno-stained PBMCs. Results The absorbed doses to the blood were less than 6 mGy up to 4 h after administration and maximally 16 mGy in total. Up to 4 h after administration, the α-track frequency was significantly increased relative to baseline and correlated with the absorbed dose to the blood in the dose range < 3 mGy. In most of the late samples (24 h - 4 weeks after administration), the α-track frequency remained elevated. Conclusion The γ-H2AX+53BP1 assay is a potent method for detection of α-particle-induced DNA damages during treatment with or after accidental incorporation of radionuclides even at low absorbed doses. It may serve as a biomarker discriminating α- from β-emitters based on damage geometry. KW - γ-H2AX KW - DNA damage KW - nuclear medicine KW - dosimetry KW - α-Emitter KW - biokinetics KW - prostate cancer KW - [\(^{223}\)Ra]RaCl\(_{2}\) KW - 53BP1 Y1 - 2021 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-265462 SN - 1619-7089 VL - 48 IS - 9 ER -