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4. [Medicines: what has the last decade given us and what can we expect in the coming 10 years?]

Author

Lafeber, M., Schoffelen, R., Verheggen, R.J.H.M., Herwaarden, N. van, Oever, J. ten, and Kramers, K.

Subjects
Vascular damage Radboud Institute for Health Sciences [Radboudumc 16], lnfectious Diseases and Global Health Radboud Institute for Molecular Life Sciences [Radboudumc 4], Healthcare improvement science Radboud Institute for Health Sciences [Radboudumc 18]
Abstract

Item does not contain fulltext Recent years have seen important changes in pharmacology. New techniques have been developed which are increasingly aimed at smaller groups of patients or even individual patients. In the past, thousands of chemical molecules were tested on a potential molecular target and the most effective molecules were selected. Nowadays a growing number of drugs are designed to aim at a specific molecular target, an example being monoclonal antibodies. There are developments that go fundamentally further and enable patients to be treated in an increasingly targeted and individual manner. These new therapies (i.e., Advanced Therapy Medicinal Products) are based on different principles than those of classical pharmacotherapy, and require different risk assessments as well as a different regulatory system. In this paper we discuss a selection of the developments in pharmacotherapy that have taken place during the past decade. In addition, we look into what sort of developments can be expected in the future.

Published
2020

7. Drug-drug interactions with aprepitant in antiemetic prophylaxis for chemotherapy

Author

Schoffelen, R., Lankheet, A.G., Herpen, C.M.L. van, Hoeven, J.J.M. van der, Desar, I.M.E., and Kramers, C.

Subjects
Urological cancers Radboud Institute for Health Sciences [Radboudumc 15], Women's cancers Radboud Institute for Health Sciences [Radboudumc 17], Healthcare improvement science Radboud Institute for Health Sciences [Radboudumc 18], Rare cancers Radboud Institute for Health Sciences [Radboudumc 9]
Abstract

Item does not contain fulltext In the current guidelines to prevent hemotherapyinduced nausea and vomiting, multiple antiemetic drugs are administered simultaneously. In patients who receive highly emetogenic chemotherapy, aprepitant, an NK1-receptor antagonist, is combined with ondansetron and dexamethasone. Aprepitant can influence the pharmacokinetics of other drugs, as it is an inhibitor and inducer of CYP3A4. Some anticancer drugs and other co-medication frequently used in cancer patients are CYP3A4 or CYP29C substrates. We give an overview of the metabolism and current data on clinically relevant drug-drug interactions with aprepitant during chemotherapy. Physicians should be aware of the potential risk of drug-drug interactions with aprepitant, especially in regimens with curative intent. More research should be performed on drug-drug interactions with aprepitant and their clinical consequences to make evidence-based recommendations.

Published
2018

8. Tumor and red bone marrow dosimetry: comparison of methods for prospective treatment planning in pretargeted radioimmunotherapy

Author

Woliner-van der Weg, W., Schoffelen, R., Hobbs, R.F., Gotthardt, M., Goldenberg, D.M., Sharkey, R.M., Slump, C.H., Graaf, W.T.A. van der, Oyen, W.J.G., Boerman, O.C., Sgouros, G., Visser, E.P., Woliner-van der Weg, W., Schoffelen, R., Hobbs, R.F., Gotthardt, M., Goldenberg, D.M., Sharkey, R.M., Slump, C.H., Graaf, W.T.A. van der, Oyen, W.J.G., Boerman, O.C., Sgouros, G., and Visser, E.P.

Abstract

Contains fulltext : 154359.pdf (publisher's version ) (Open Access)

Published
2015

10. Pretargeted radioimmunodetection and -therapy in colorectal cancer

Author

Schoffelen, R., Boerman, O.C., Oyen, W.J.G., Graaf, W.T.A. van der, and Radboud University Nijmegen

Subjects
Translational research Immune Regulation [ONCOL 3], GeneralLiterature_REFERENCE(e.g.,dictionaries,encyclopedias,glossaries)
Abstract

Contains fulltext : 100896.pdf (Publisher’s version ) (Open Access) Radboud Universiteit Nijmegen, 26 november 2012 Promotores : Boerman, O.C., Oyen, W.J.G., Graaf, W.T.A. van der

Published
2012

11. Pretargeted immuno-PET of CEA-expressing intraperitoneal human colonic tumor xenografts: a new sensitive detection method

Author

Schoffelen, R., Graaf, W.T.A. van der, Sharkey, R.M., Franssen, G.M., McBride, W.J., Chang, C.H., Laverman, P., Goldenberg, D.M., Oyen, W.J.G., and Boerman, O.C.

Subjects
Translational research [ONCOL 3], Translational research Immune Regulation [ONCOL 3], Age-related aspects of cancer Quality of hospital and integrated care [ONCOL 2], Translational research Pathogenesis and modulation of inflammation [ONCOL 3]
Abstract

Contains fulltext : 109142.pdf (Publisher’s version ) (Open Access) ABSTRACT: BACKGROUND: In this study, pretargeted immuno-positron-emission tomography [PET] with a bispecific monoclonal anti-carcinoembryonic antigen [CEA] (CEACAM5) x anti-hapten antibody (bispecific monoclonal antibody [bsmAb]) and a small (1.5 kD) peptide labeled with 68Ga was compared to fludeoxyglucose [18F-FDG]-PET for detecting intraperitoneal [i.p.] CEA-expressing human colonic tumor xenografts in nude mice. METHODS: Two groups of female BALB/c nude mice were inoculated with LS174T human colonic tumor cells i.p. One group received 5 MBq 18F-FDG, and the other received intravenous injections of the bsmAb, followed 16 h later with 5 MBq of 68Ga-labeled peptide. One hour after the radiolabeled peptide or FDG was given, micro-PET/computed tomography images were acquired. Thereafter, the uptake of the 68Ga or 18F in dissected tissue was determined. RESULTS: Within 1 h, high uptake of the 68Ga-labeled peptide in the tumor lesions (23.4 +/- 7.2% ID/g) and low background activity levels were observed (e.g., tumor-to-intestine ratio, 58 +/- 22). This resulted in a clear visualization of all intra-abdominal tumor lesions >/= 10 muL and even some tumors as small as 5 muL (2 mm diameter). 18F-FDG efficiently localized in the tumors (8.7 +/- 3.1% ID/g) but also showed physiological uptake in various normal tissues (e.g., tumor-to-intestine ratio, 3.9 +/- 1.1). CONCLUSIONS: Pretargeted immuno-PET with bsmAb and a 68Ga-labeled peptide could be a very sensitive imaging method for imaging colonic cancer, disclosing occult lesions.

Published
2012

12. Predictive patient-specific dosimetry and individualized dosing of pretargeted radioimmunotherapy in patients with advanced colorectal cancer

Author

Schoffelen, R., Weg, W. van de, Visser, E.P., Goldenberg, D.M., Sharkey, R.M., McBride, W.J., Chang, C.-H., Rossi, E.A., Graaf, W.T.A. van der, Oyen, W.J.G., Boerman, O.C., Schoffelen, R., Weg, W. van de, Visser, E.P., Goldenberg, D.M., Sharkey, R.M., McBride, W.J., Chang, C.-H., Rossi, E.A., Graaf, W.T.A. van der, Oyen, W.J.G., and Boerman, O.C.

Abstract

Item does not contain fulltext, Pretargeted radioimmunotherapy (PRIT) with bispecific antibodies (bsMAb) and a radiolabeled peptide reduces the radiation dose to normal tissues. Here we report the accuracy of an (111)In-labeled pretherapy test dose for personalized dosing of (177)Lu-labeled IMP288 following pretargeting with the anti-CEA × anti-hapten bsMAb, TF2, in patients with metastatic colorectal cancer (CRC).In 20 patients bone marrow absorbed doses (BMD) and doses to the kidneys were predicted based on blood samples and scintigrams acquired after (111)In-IMP288 injection for individualized dosing of PRIT with (177)Lu-IMP288. Different dose schedules were studied, varying the interval between the bsMAb and peptide administration (5 days vs. 1 day), increasing the bsMAb dose (75 mg vs. 150 mg), and lowering the peptide dose (100 μg vs. 25 μg).TF2 and (111)In/(177)Lu-IMP288 clearance was highly variable. A strong correlation was observed between peptide residence times and individual TF2 blood concentrations at the time of peptide injection (Spearman's ρ = 0.94, P < 0.0001). PRIT with 7.4 GBq (177)Lu-IMP288 resulted in low radiation doses to normal tissues (BMD <0.5 Gy, kidney dose <3 Gy). Predicted (177)Lu-IMP288 BMD were in good agreement with the actual measured doses (mean ± SD difference -0.0026 ± 0.028 mGy/MBq). Hematological toxicity was mild in most patients, with only two (10 \%) having grade 3-4 thrombocytopenia. A correlation was found between platelet toxicity and BMD (Spearman's ρ = 0.58, P = 0.008). No nonhematological toxicity was observed.These results show that individual high activity doses in PRIT in patients with CEA-expressing CRC could be safely administered by predicting the radiation dose to red marrow and kidneys, based on dosimetric analysis of a test dose of TF2 and (111)In-IMP288.

Published
2014

13. Development of an imaging-guided CEA-pretargeted radionuclide treatment of advanced colorectal cancer: first clinical results

Author

Schoffelen, R., Boerman, O.C., Goldenberg, D.M., Sharkey, R.M., Herpen, C.M.L. van, Franssen, G.M., McBride, W.J., Chang, C.H., Rossi, E.A., Graaf, W.T.A. van der, Oyen, W.J.G., Schoffelen, R., Boerman, O.C., Goldenberg, D.M., Sharkey, R.M., Herpen, C.M.L. van, Franssen, G.M., McBride, W.J., Chang, C.H., Rossi, E.A., Graaf, W.T.A. van der, and Oyen, W.J.G.

Abstract

Item does not contain fulltext, Background:Radiolabelled antibody targeting of cancer is limited by slow blood clearance. Pretargeting with a non-radiolabelled bispecific monoclonal antibody (bsMAb) followed by a rapidly clearing radiolabelled hapten peptide improves tumour localisation. The primary goals of this first pretargeting study in patients with the anti-CEACAM5 x anti-hapten (HSG) bsMAb, TF2, and the radiolabelled hapten-peptide, IMP288, were to assess optimal pretargeting conditions and safety in patients with metastatic colorectal cancer (CRC).Methods:Different dose schedules were studied in four cohorts of five patients: (1) shortening the interval between the bsMAb and peptide administration (5 days vs 1 day), (2) escalating the TF2 dose (from 75 to 150 mg), and (3) reducing the peptide dose (from 100 to 25 mug). After confirmation of tumour targeting by (111)In-IMP288, patients were treated with a bsMAb/(177)Lu-IMP288 cycle.Results:Rapid and selective tumour targeting of the radiolabelled peptide was visualised within 1 h, with high tumour-to-tissue ratios (>20 at 24 h). Improved tumour targeting was achieved with a 1-day interval between the administration of the bsMAb and the peptide and with the 25-mug peptide dose. High (177)Lu-IMP288 doses (2.5-7.4 GBq) were well tolerated, with some manageable TF2 infusion reactions, and transient grades 3-4 thrombocytopaenia in 10% of the patients who received (177)Lu-IMP288.Conclusion:This phase I study demonstrates for the first time that pretargeting with bsMAb TF2 and radiolabelled IMP288 in patients with CEA-expressing CRC is feasible and safe. With this pretargeting method, tumours are specifically and rapidly targeted.

Published
2013

14. Pretargeted radioimmunodetection and -therapy in colorectal cancer

Author

Boerman, O.C., Oyen, W.J.G., Graaf, W.T.A. van der, Schoffelen, R., Boerman, O.C., Oyen, W.J.G., Graaf, W.T.A. van der, and Schoffelen, R.

Abstract

Radboud Universiteit Nijmegen, 26 november 2012, Promotores : Boerman, O.C., Oyen, W.J.G., Graaf, W.T.A. van der, Contains fulltext : 100896.pdf (publisher's version ) (Open Access)

Published
2012

15. Quantitative Immuno-SPECT Monitoring of Pretargeted Radioimmunotherapy with a Bispecific Antibody in an Intraperitoneal Nude Mouse Model of Human Colon Cancer

Author

Schoffelen, R., Graaf, W.T.A. van der, Sharkey, R.M., Franssen, G.M., McBride, W.J., Chang, C.H., Bos, D.L., Goldenberg, D.M., Oyen, W.J.G., Boerman, O.C., Schoffelen, R., Graaf, W.T.A. van der, Sharkey, R.M., Franssen, G.M., McBride, W.J., Chang, C.H., Bos, D.L., Goldenberg, D.M., Oyen, W.J.G., and Boerman, O.C.

Abstract

Item does not contain fulltext, The prospects for using pretargeted immuno-SPECT to monitor the response to pretargeted radioimmunotherapy were examined. In this study, a bispecific anticarcinoembryonic antigen (CEACAM5; CD66e) x antihapten monoclonal antibody, TF2, was used in combination with a small (1.5 kD) peptide, IMP288, labeled with (111)In and (177)Lu. METHODS: First, tumor uptake of (111)In-IMP288 and (177)Lu-IMP288, as determined by immuno-SPECT, was validated by ex vivo counting. Two groups of female BALB/c nude mice had LS174T tumors implanted in the peritoneal cavity. They received intravenous injections of TF2, followed by 10 MBq of (111)In-IMP288 or 90 MBq of (177)Lu-IMP288. A control group of non-tumor-bearing mice received TF2 and (111)In-IMP288. One hour after the radiolabeled IMP288 was given, small-animal SPECT/CT images were acquired, and subsequently animals were dissected. Furthermore, a survival study was performed in 3 groups of 10 mice with intraperitoneal tumors: mice received TF2 and (177)Lu-IMP288 (60 MBq), nonpretargeted (177)Lu-IMP288 (60 MBq), or phosphate-buffered saline. Immuno-SPECT scans were acquired directly after therapy and at 14 and 45 d after therapy. Tumor growth was analyzed in the successive scans in each animal. RESULTS: (111)In- and (177)Lu-labeled IMP288 had similar in vivo distribution. The activity measured in the pretargeted immuno-SPECT images correlated well with the uptake measured in the dissected tumors (Pearson r = 0.99, P < 0.05). In the therapy study, the SPECT images showed rapid and selective tumor targeting with high tumor-to-background contrast (30 +/- 12) as early as 1 h after injection. The successive images of the treated mice showed delayed tumor growth in the pretargeted radioimmunotherapy group, corresponding with their prolonged survival. CONCLUSION: Pretargeted immuno-SPECT with TF2 and (111)In- or (177)Lu-IMP288 can be used to predict and confirm tumor targeting and monitor the therapeutic effect of pretargeted radioimmunothe

Published
2012

17. Pretargeted 177Lu radioimmunotherapy of carcinoembryonic antigen-expressing human colonic tumors in mice.

Author

Schoffelen, R., Graaf, W.T.A. van der, Franssen, G.M., Sharkey, R.M., Goldenberg, D.M., McBride, W.J., Rossi, E.A., Eek, A., Oyen, W.J.G., Boerman, O.C., Schoffelen, R., Graaf, W.T.A. van der, Franssen, G.M., Sharkey, R.M., Goldenberg, D.M., McBride, W.J., Rossi, E.A., Eek, A., Oyen, W.J.G., and Boerman, O.C.

Abstract

1 november 2010, Contains fulltext : 89672.pdf (publisher's version ) (Closed access), Pretargeted radioimmunotherapy (PRIT) with bispecific antibodies in combination with a radiolabeled peptide reduces the radiation dose to normal tissues, especially the bone marrow. In this study, the optimization, therapeutic efficacy, and toxicity of PRIT of colon cancer with a (177)Lu-labeled peptide was determined in mice with carcinoembryonic antigen (CEA)-expressing human tumors. METHODS: To obtain the optimal therapeutic efficacy, several strategies were evaluated to increase the total amount of radioactivity targeted to subcutaneous LS174T colon cancer tumors in BALB/c nude mice. First, the maximum amount of bispecific anti-CEA and antihapten antibody TF2 and the peptide IMP288 that could be targeted was determined. Second, the tumor targeting of repeated administrations of radiolabeled IMP288 was investigated. Mice received 1 TF2 injection, followed by multiple IMP288 injections (3-h interval) or multiple cycles, with each IMP288 administration preceded by a new TF2 injection (72-h interval). PRIT was administered at maximum doses of TF2 and (177)Lu-labeled IMP288 in groups of 9 mice with subcutaneous LS174T tumors. Mice received 1, 2, or 3 successive cycles of treatment (26 MBq/mouse/cycle) or carrier only. The primary endpoint was survival; secondary endpoints were tumor growth, body weight, bone marrow, and renal toxicity. RESULTS: The highest amount of radioactivity delivered to a subcutaneous colon tumor was achieved by the administration of 5.0 nmol of TF2 and 0.28 nmol of IMP288 in 3 successive cycles, with each IMP288 preceded by a new TF2 injection (72-h interval). PRIT effectively delayed tumor growth and prolonged survival significantly. Higher activity doses, administered in successive cycles, correlated with longer survival: the median survival of untreated mice was 13 d (range, 6-20 d), whereas that of mice treated with 1, 2, or 3 cycles of PRIT was 24 (range, 24-31 d), 45 (range, 38 >/= 130 d), and 65 (range, 48 >/= 130 d) days, respectively.

Published
2010

18. Pretargeted immuno-positron emission tomography imaging of carcinoembryonic antigen-expressing tumors with a bispecific antibody and a 68Ga- and 18F-labeled hapten peptide in mice with human tumor xenografts.

Author

Schoffelen, R., Sharkey, R.M., Goldenberg, D.M., Franssen, G.M., McBride, W.J., Rossi, E.A., Chang, C.H., Laverman, P., Disselhorst, J.A., Eek, A., Graaf, W.T.A. van der, Oyen, W.J.G., Boerman, O.C., Schoffelen, R., Sharkey, R.M., Goldenberg, D.M., Franssen, G.M., McBride, W.J., Rossi, E.A., Chang, C.H., Laverman, P., Disselhorst, J.A., Eek, A., Graaf, W.T.A. van der, Oyen, W.J.G., and Boerman, O.C.

Abstract

01 april 2010, Contains fulltext : 89629.pdf (publisher's version ) (Closed access), (18)F-Fluorodeoxyglucose ((18)F-FDG) is the most common molecular imaging agent in oncology, with a high sensitivity and specificity for detecting several cancers. Antibodies could enhance specificity; therefore, procedures were developed for radiolabeling a small ( approximately 1451 Da) hapten peptide with (68)Ga or (18)F to compare their specificity with (18)F-FDG for detecting tumors using a pretargeting procedure. Mice were implanted with carcinoembryonic antigen (CEA; CEACAM5)-expressing LS174T human colonic tumors and a CEA-negative tumor, or an inflammation was induced in thigh muscle. A bispecific monoclonal anti-CEA x anti-hapten antibody was given to mice, and 16 hours later, 5 MBq of (68)Ga- or (18)F-labeled hapten peptides were administered intravenously. Within 1 hour, tissues showed high and specific targeting of (68)Ga-IMP-288, with 10.7 +/- 3.6% ID/g uptake in the tumor and very low uptake in normal tissues (e.g., tumor-to-blood ratio of 69.9 +/- 32.3), in a CEA-negative tumor (0.35 +/- 0.35% ID/g), and inflamed muscle (0.72 +/- 0.20% ID/g). (18)F-FDG localized efficiently in the tumor (7.42 +/- 0.20% ID/g) but also in the inflamed muscle (4.07 +/- 1.13% ID/g) and in several normal tissues; thus, pretargeted (68)Ga-IMP-288 provided better specificity and sensitivity. Positron emission tomography (PET)/computed tomography images reinforced the improved specificity of the pretargeting method. (18)F-labeled IMP-449 distributed similarly in the tumor and normal tissues as the (68)Ga-labeled IMP-288, indicating that either radiolabeled hapten peptide could be used. Thus, pretargeted immuno-PET does exceptionally well with short-lived radionuclides and is a highly sensitive procedure that is more specific than (18)F-FDG-PET. Mol Cancer Ther; 9(4); 1019-27. (c)2010 AACR.

Published
2010

22. Acoustic behavior of chimney pipes

Author

Kokkelmans, Servaas J. J. M. F., primary, Verge, Marc-Pierre, additional, Hirschberg, A., additional, Wijnands, A. P. J., additional, and Schoffelen, R. L. M., additional

Published
1999
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23. Dose finding of oncolytic combination therapy: Essential to secure the patient's quality of life.

Author

Wuyts SC, Schoffelen R, Westdorp H, and van Erp NP

Subjects
Combined Modality Therapy, Humans, Oncolytic Virotherapy, Quality of Life
Abstract

Competing Interests: Conflict of interest statement The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper.

Published
2022
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24. Drug-drug interactions with aprepitant in antiemetic prophylaxis for chemotherapy.

Author

Schoffelen R, Lankheet AG, van Herpen CML, van der Hoeven JJM, Desar IME, and Kramers C

Subjects
Analgesics pharmacokinetics, Analgesics pharmacology, Anticoagulants pharmacokinetics, Anticoagulants pharmacology, Antiemetics pharmacokinetics, Antineoplastic Agents pharmacokinetics, Antineoplastic Agents pharmacology, Antineoplastic Agents therapeutic use, Aprepitant pharmacokinetics, Chemoprevention, Dexamethasone pharmacokinetics, Dexamethasone pharmacology, Glucocorticoids pharmacokinetics, Glucocorticoids pharmacology, Humans, Neoplasms drug therapy, Neurokinin-1 Receptor Antagonists pharmacokinetics, Neurokinin-1 Receptor Antagonists pharmacology, Psychotropic Drugs pharmacokinetics, Psychotropic Drugs pharmacology, Vomiting chemically induced, Antiemetics pharmacology, Antineoplastic Agents adverse effects, Aprepitant pharmacology, Drug Interactions, Vomiting prevention & control
Abstract

In the current guidelines to prevent hemotherapyinduced nausea and vomiting, multiple antiemetic drugs are administered simultaneously. In patients who receive highly emetogenic chemotherapy, aprepitant, an NK1-receptor antagonist, is combined with ondansetron and dexamethasone. Aprepitant can influence the pharmacokinetics of other drugs, as it is an inhibitor and inducer of CYP3A4. Some anticancer drugs and other co-medication frequently used in cancer patients are CYP3A4 or CYP29C substrates. We give an overview of the metabolism and current data on clinically relevant drug-drug interactions with aprepitant during chemotherapy. Physicians should be aware of the potential risk of drug-drug interactions with aprepitant, especially in regimens with curative intent. More research should be performed on drug-drug interactions with aprepitant and their clinical consequences to make evidence-based recommendations.

Published
2018

25. Tumor and red bone marrow dosimetry: comparison of methods for prospective treatment planning in pretargeted radioimmunotherapy.

Author

Woliner-van der Weg W, Schoffelen R, Hobbs RF, Gotthardt M, Goldenberg DM, Sharkey RM, Slump CH, van der Graaf WT, Oyen WJ, Boerman OC, Sgouros G, and Visser EP

Abstract

Background: Red bone marrow (RBM) toxicity is dose-limiting in (pretargeted) radioimmunotherapy (RIT). Previous blood-based and two-dimensional (2D) image-based methods have failed to show a clear dose-response relationship. We developed a three-dimensional (3D) image-based RBM dosimetry approach using the Monte Carlo-based 3D radiobiological dosimetry (3D-RD) software and determined its additional value for predicting RBM toxicity., Methods: RBM doses were calculated for 13 colorectal cancer patients after pretargeted RIT with the two-step administration of an anti-CEA × anti-HSG bispecific monoclonal antibody and a (177)Lu-labeled di-HSG-peptide. 3D-RD RBM dosimetry was based on the lumbar vertebrae, delineated on single photon emission computed tomography (SPECT) scans acquired directly, 3, 24, and 72 h after (177)Lu administration. RBM doses were correlated to hematologic effects, according to NCI-CTC v3 and compared with conventional 2D cranium-based and blood-based dosimetry results. Tumor doses were calculated with 3D-RD, which has not been possible with 2D dosimetry. Tumor-to-RBM dose ratios were calculated and compared for (177)Lu-based pretargeted RIT and simulated pretargeted RIT with (90)Y., Results: 3D-RD RBM doses of all seven patients who developed thrombocytopenia were higher (range 0.43 to 0.97 Gy) than that of the six patients without thrombocytopenia (range 0.12 to 0.39 Gy), except in one patient (0.47 Gy) without thrombocytopenia but with grade 2 leucopenia. Blood and 2D image-based RBM doses for patients with grade 1 to 2 thrombocytopenia were in the same range as in patients without thrombocytopenia (0.14 to 0.29 and 0.11 to 0.26 Gy, respectively). Blood-based RBM doses for two grade 3 to 4 patients were higher (0.66 and 0.51 Gy, respectively) than the others, and the cranium-based dose of only the grade 4 patient was higher (0.34 Gy). Tumor-to-RBM dose ratios would increase by 25% on average when treating with (90)Y instead of (177)Lu., Conclusions: 3D dosimetry identifies patients at risk of developing any grade of RBM toxicity more accurately than blood- or 2D image-based methods. It has the added value to enable calculation of tumor-to-RBM dose ratios.

Published
2015
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26. Predictive patient-specific dosimetry and individualized dosing of pretargeted radioimmunotherapy in patients with advanced colorectal cancer.

Author

Schoffelen R, Woliner-van der Weg W, Visser EP, Goldenberg DM, Sharkey RM, McBride WJ, Chang CH, Rossi EA, van der Graaf WT, Oyen WJ, and Boerman OC

Subjects
Adult, Aged, Antibodies, Bispecific administration & dosage, Antibodies, Bispecific pharmacokinetics, Antibodies, Bispecific therapeutic use, Carcinoembryonic Antigen immunology, Colorectal Neoplasms diagnostic imaging, Female, Haptens immunology, Heterocyclic Compounds, 1-Ring administration & dosage, Heterocyclic Compounds, 1-Ring pharmacokinetics, Heterocyclic Compounds, 1-Ring therapeutic use, Humans, Indium Radioisotopes administration & dosage, Indium Radioisotopes pharmacokinetics, Indium Radioisotopes therapeutic use, Lutetium administration & dosage, Lutetium pharmacokinetics, Lutetium therapeutic use, Male, Middle Aged, Oligopeptides administration & dosage, Oligopeptides pharmacokinetics, Oligopeptides therapeutic use, Tomography, Emission-Computed, Single-Photon, Colorectal Neoplasms radiotherapy, Precision Medicine methods, Radiation Dosage, Radioimmunotherapy, Radiometry methods
Abstract

Purpose: Pretargeted radioimmunotherapy (PRIT) with bispecific antibodies (bsMAb) and a radiolabeled peptide reduces the radiation dose to normal tissues. Here we report the accuracy of an (111)In-labeled pretherapy test dose for personalized dosing of (177)Lu-labeled IMP288 following pretargeting with the anti-CEA × anti-hapten bsMAb, TF2, in patients with metastatic colorectal cancer (CRC)., Methods: In 20 patients bone marrow absorbed doses (BMD) and doses to the kidneys were predicted based on blood samples and scintigrams acquired after (111)In-IMP288 injection for individualized dosing of PRIT with (177)Lu-IMP288. Different dose schedules were studied, varying the interval between the bsMAb and peptide administration (5 days vs. 1 day), increasing the bsMAb dose (75 mg vs. 150 mg), and lowering the peptide dose (100 μg vs. 25 μg)., Results: TF2 and (111)In/(177)Lu-IMP288 clearance was highly variable. A strong correlation was observed between peptide residence times and individual TF2 blood concentrations at the time of peptide injection (Spearman's ρ = 0.94, P < 0.0001). PRIT with 7.4 GBq (177)Lu-IMP288 resulted in low radiation doses to normal tissues (BMD <0.5 Gy, kidney dose <3 Gy). Predicted (177)Lu-IMP288 BMD were in good agreement with the actual measured doses (mean ± SD difference -0.0026 ± 0.028 mGy/MBq). Hematological toxicity was mild in most patients, with only two (10 %) having grade 3-4 thrombocytopenia. A correlation was found between platelet toxicity and BMD (Spearman's ρ = 0.58, P = 0.008). No nonhematological toxicity was observed., Conclusion: These results show that individual high activity doses in PRIT in patients with CEA-expressing CRC could be safely administered by predicting the radiation dose to red marrow and kidneys, based on dosimetric analysis of a test dose of TF2 and (111)In-IMP288.

Published
2014
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27. Quantitative immuno-SPECT monitoring of pretargeted radioimmunotherapy with a bispecific antibody in an intraperitoneal nude mouse model of human colon cancer.

Author

Schoffelen R, van der Graaf WT, Sharkey RM, Franssen GM, McBride WJ, Chang CH, Bos DL, Goldenberg DM, Oyen WJ, and Boerman OC

Subjects
Animals, Cell Line, Tumor, Cell Proliferation radiation effects, Disease Models, Animal, Female, Humans, Mice, Mice, Nude, Peritoneal Neoplasms pathology, Treatment Outcome, Antibodies, Bispecific pharmacokinetics, Colonic Neoplasms pathology, Peritoneal Neoplasms diagnostic imaging, Peritoneal Neoplasms radiotherapy, Radioimmunodetection methods, Radioimmunotherapy, Tomography, Emission-Computed, Single-Photon methods
Abstract

Unlabelled: The prospects for using pretargeted immuno-SPECT to monitor the response to pretargeted radioimmunotherapy were examined. In this study, a bispecific anticarcinoembryonic antigen (CEACAM5; CD66e) × antihapten monoclonal antibody, TF2, was used in combination with a small (1.5 kD) peptide, IMP288, labeled with (111)In and (177)Lu., Methods: First, tumor uptake of (111)In-IMP288 and (177)Lu-IMP288, as determined by immuno-SPECT, was validated by ex vivo counting. Two groups of female BALB/c nude mice had LS174T tumors implanted in the peritoneal cavity. They received intravenous injections of TF2, followed by 10 MBq of (111)In-IMP288 or 90 MBq of (177)Lu-IMP288. A control group of non-tumor-bearing mice received TF2 and (111)In-IMP288. One hour after the radiolabeled IMP288 was given, small-animal SPECT/CT images were acquired, and subsequently animals were dissected. Furthermore, a survival study was performed in 3 groups of 10 mice with intraperitoneal tumors: mice received TF2 and (177)Lu-IMP288 (60 MBq), nonpretargeted (177)Lu-IMP288 (60 MBq), or phosphate-buffered saline. Immuno-SPECT scans were acquired directly after therapy and at 14 and 45 d after therapy. Tumor growth was analyzed in the successive scans in each animal., Results: (111)In- and (177)Lu-labeled IMP288 had similar in vivo distribution. The activity measured in the pretargeted immuno-SPECT images correlated well with the uptake measured in the dissected tumors (Pearson r = 0.99, P < 0.05). In the therapy study, the SPECT images showed rapid and selective tumor targeting with high tumor-to-background contrast (30 ± 12) as early as 1 h after injection. The successive images of the treated mice showed delayed tumor growth in the pretargeted radioimmunotherapy group, corresponding with their prolonged survival., Conclusion: Pretargeted immuno-SPECT with TF2 and (111)In- or (177)Lu-IMP288 can be used to predict and confirm tumor targeting and monitor the therapeutic effect of pretargeted radioimmunotherapy.

Published
2012
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28. Pretargeted immuno-PET of CEA-expressing intraperitoneal human colonic tumor xenografts: a new sensitive detection method.

Author

Schoffelen R, van der Graaf WT, Sharkey RM, Franssen GM, McBride WJ, Chang CH, Laverman P, Goldenberg DM, Oyen WJ, and Boerman OC

Abstract

Background: In this study, pretargeted immuno-positron-emission tomography [PET] with a bispecific monoclonal anti-carcinoembryonic antigen [CEA] (CEACAM5) × anti-hapten antibody (bispecific monoclonal antibody [bsmAb]) and a small (1.5 kD) peptide labeled with 68Ga was compared to fludeoxyglucose [18F-FDG]-PET for detecting intraperitoneal [i.p.] CEA-expressing human colonic tumor xenografts in nude mice., Methods: Two groups of female BALB/c nude mice were inoculated with LS174T human colonic tumor cells i.p. One group received 5 MBq 18F-FDG, and the other received intravenous injections of the bsmAb, followed 16 h later with 5 MBq of 68Ga-labeled peptide. One hour after the radiolabeled peptide or FDG was given, micro-PET/computed tomography images were acquired. Thereafter, the uptake of the 68Ga or 18F in dissected tissue was determined., Results: Within 1 h, high uptake of the 68Ga-labeled peptide in the tumor lesions (23.4 ± 7.2% ID/g) and low background activity levels were observed (e.g., tumor-to-intestine ratio, 58 ± 22). This resulted in a clear visualization of all intra-abdominal tumor lesions ≥ 10 μL and even some tumors as small as 5 μL (2 mm diameter). 18F-FDG efficiently localized in the tumors (8.7 ± 3.1% ID/g) but also showed physiological uptake in various normal tissues (e.g., tumor-to-intestine ratio, 3.9 ± 1.1)., Conclusions: Pretargeted immuno-PET with bsmAb and a 68Ga-labeled peptide could be a very sensitive imaging method for imaging colonic cancer, disclosing occult lesions.

Published
2012
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29. Androgen receptor-positive salivary duct carcinoma: a disease entity with promising new treatment options.

Author

Jaspers HC, Verbist BM, Schoffelen R, Mattijssen V, Slootweg PJ, van der Graaf WT, and van Herpen CM

Subjects
Antineoplastic Agents therapeutic use, Bone Neoplasms drug therapy, Bone Neoplasms secondary, Brain Neoplasms drug therapy, Brain Neoplasms secondary, Carcinoma, Ductal metabolism, Carcinoma, Ductal secondary, Humans, Lymphatic Metastasis pathology, Magnetic Resonance Imaging, Male, Middle Aged, Salivary Gland Neoplasms metabolism, Salivary Gland Neoplasms pathology, Anilides therapeutic use, Carcinoma, Ductal drug therapy, Nitriles therapeutic use, Receptors, Androgen metabolism, Salivary Ducts pathology, Salivary Gland Neoplasms drug therapy, Tosyl Compounds therapeutic use
Published
2011
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30. Pretargeted 177Lu radioimmunotherapy of carcinoembryonic antigen-expressing human colonic tumors in mice.

Author

Schoffelen R, van der Graaf WT, Franssen G, Sharkey RM, Goldenberg DM, McBride WJ, Rossi EA, Eek A, Oyen WJ, and Boerman OC

Subjects
Animals, Antibodies, Monoclonal immunology, Cell Line, Tumor, Colonic Neoplasms metabolism, Haptens chemistry, Haptens immunology, Humans, Male, Mice, Mice, Inbred BALB C, Peptides adverse effects, Peptides chemistry, Peptides pharmacokinetics, Peptides therapeutic use, Radioisotopes, Carcinoembryonic Antigen immunology, Carcinoembryonic Antigen metabolism, Colonic Neoplasms radiotherapy, Gene Expression Regulation, Neoplastic, Lutetium therapeutic use, Radioimmunotherapy methods
Abstract

Unlabelled: Pretargeted radioimmunotherapy (PRIT) with bispecific antibodies in combination with a radiolabeled peptide reduces the radiation dose to normal tissues, especially the bone marrow. In this study, the optimization, therapeutic efficacy, and toxicity of PRIT of colon cancer with a (177)Lu-labeled peptide was determined in mice with carcinoembryonic antigen (CEA)-expressing human tumors., Methods: To obtain the optimal therapeutic efficacy, several strategies were evaluated to increase the total amount of radioactivity targeted to subcutaneous LS174T colon cancer tumors in BALB/c nude mice. First, the maximum amount of bispecific anti-CEA and antihapten antibody TF2 and the peptide IMP288 that could be targeted was determined. Second, the tumor targeting of repeated administrations of radiolabeled IMP288 was investigated. Mice received 1 TF2 injection, followed by multiple IMP288 injections (3-h interval) or multiple cycles, with each IMP288 administration preceded by a new TF2 injection (72-h interval). PRIT was administered at maximum doses of TF2 and (177)Lu-labeled IMP288 in groups of 9 mice with subcutaneous LS174T tumors. Mice received 1, 2, or 3 successive cycles of treatment (26 MBq/mouse/cycle) or carrier only. The primary endpoint was survival; secondary endpoints were tumor growth, body weight, bone marrow, and renal toxicity., Results: The highest amount of radioactivity delivered to a subcutaneous colon tumor was achieved by the administration of 5.0 nmol of TF2 and 0.28 nmol of IMP288 in 3 successive cycles, with each IMP288 preceded by a new TF2 injection (72-h interval). PRIT effectively delayed tumor growth and prolonged survival significantly. Higher activity doses, administered in successive cycles, correlated with longer survival: the median survival of untreated mice was 13 d (range, 6-20 d), whereas that of mice treated with 1, 2, or 3 cycles of PRIT was 24 (range, 24-31 d), 45 (range, 38 ≥ 130 d), and 65 (range, 48 ≥ 130 d) days, respectively. Toxicity was limited: no significant changes in mean body weight were measured. Minimal changes in leukocyte counts were measured at 2 and 3 wk after injection, with full recovery within 7 wk after treatment. Platelet counts were unaffected. Serum creatinine levels were not increased significantly; thus, there was no indication of acute renal toxicity., Conclusion: This study indicates that PRIT in mice is an effective treatment modality against colon cancer, with limited toxicity.

Published
2010
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31. Pretargeted immuno-positron emission tomography imaging of carcinoembryonic antigen-expressing tumors with a bispecific antibody and a 68Ga- and 18F-labeled hapten peptide in mice with human tumor xenografts.

Author

Schoffelen R, Sharkey RM, Goldenberg DM, Franssen G, McBride WJ, Rossi EA, Chang CH, Laverman P, Disselhorst JA, Eek A, van der Graaf WT, Oyen WJ, and Boerman OC

Subjects
Animals, Dose-Response Relationship, Drug, Fluorine Radioisotopes, Fluorodeoxyglucose F18 pharmacokinetics, Gallium Radioisotopes, Humans, Mice, Mice, Inbred BALB C, Tissue Distribution drug effects, Tomography, X-Ray Computed, Xenograft Model Antitumor Assays, Antibodies, Bispecific, Carcinoembryonic Antigen metabolism, Haptens immunology, Heterocyclic Compounds, 1-Ring chemistry, Heterocyclic Compounds, 1-Ring pharmacokinetics, Heterocyclic Compounds, 1-Ring pharmacology, Neoplasms diagnostic imaging, Neoplasms immunology, Oligopeptides chemistry, Oligopeptides pharmacokinetics, Oligopeptides pharmacology, Positron-Emission Tomography
Abstract

(18)F-Fluorodeoxyglucose ((18)F-FDG) is the most common molecular imaging agent in oncology, with a high sensitivity and specificity for detecting several cancers. Antibodies could enhance specificity; therefore, procedures were developed for radiolabeling a small ( approximately 1451 Da) hapten peptide with (68)Ga or (18)F to compare their specificity with (18)F-FDG for detecting tumors using a pretargeting procedure. Mice were implanted with carcinoembryonic antigen (CEA; CEACAM5)-expressing LS174T human colonic tumors and a CEA-negative tumor, or an inflammation was induced in thigh muscle. A bispecific monoclonal anti-CEA x anti-hapten antibody was given to mice, and 16 hours later, 5 MBq of (68)Ga- or (18)F-labeled hapten peptides were administered intravenously. Within 1 hour, tissues showed high and specific targeting of (68)Ga-IMP-288, with 10.7 +/- 3.6% ID/g uptake in the tumor and very low uptake in normal tissues (e.g., tumor-to-blood ratio of 69.9 +/- 32.3), in a CEA-negative tumor (0.35 +/- 0.35% ID/g), and inflamed muscle (0.72 +/- 0.20% ID/g). (18)F-FDG localized efficiently in the tumor (7.42 +/- 0.20% ID/g) but also in the inflamed muscle (4.07 +/- 1.13% ID/g) and in several normal tissues; thus, pretargeted (68)Ga-IMP-288 provided better specificity and sensitivity. Positron emission tomography (PET)/computed tomography images reinforced the improved specificity of the pretargeting method. (18)F-labeled IMP-449 distributed similarly in the tumor and normal tissues as the (68)Ga-labeled IMP-288, indicating that either radiolabeled hapten peptide could be used. Thus, pretargeted immuno-PET does exceptionally well with short-lived radionuclides and is a highly sensitive procedure that is more specific than (18)F-FDG-PET. Mol Cancer Ther; 9(4); 1019-27. (c)2010 AACR.

Published
2010
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