Your search keyword '"Löffler, Jessica"' showing total 5 results

1. Evaluation of the EPR Effect in the CAM-Model by Molecular Imaging with MRI and PET Using 89 Zr-Labeled HSA.

Author

Hilbrig, Colmar, Löffler, Jessica, Fischer, Gabriel, Scheidhauer, Ellen, Solbach, Christoph, Huber-Lang, Markus, Beer, Ambros J., Rasche, Volker, and Winter, Gordon

Subjects

*BIOLOGICAL models, *MOLECULAR diagnosis, *STAINS & staining (Microscopy), *XENOGRAFTS, *ANIMAL experimentation, *MAGNETIC resonance imaging, *DIAGNOSTIC imaging, *METALS, *SERUM albumin, *POSITRON emission tomography, *RESEARCH funding, *RADIOISOTOPES in medical diagnosis, *MICE

Abstract

Simple Summary: The CAM model is a promising alternative to murine models in terms of the 3Rs principles. However, its value for the noninvasive assessment of the biodistribution and accumulation of radiolabeled macromolecules by PET and MR imaging needs further evaluation. Thus, we analyzed the biodistribution and nonspecific tumor accumulation based on the EPR effect of 89Zr-labeled human serum albumin by PET and MRI in the xenograft CAM model. The results were correlated to in vivo results from the xenografted mouse model as the standard of reference. In both models, the xenografted TZM-bl and PC-3 tumors were visualized by PET imaging after 24 h. Furthermore, no significant differences were detected concerning the influx kinetics of 89Zr-labeled albumin into the two tumors. Therefore, the chicken model is a potential alternative to the animal model for initial PET studies on the characteristics of EPR-dependent target accumulation of radiolabeled macromolecules. Mouse models are commonly used to study the biodistribution of novel radioligands, but alternative models corresponding to the 3Rs principles, such as the chorioallantoic membrane (CAM) model, are highly required. While there are promising data from the CAM model regarding target-specific radiolabeled compounds, its utility for assessing macromolecule biodistribution and analyzing the EPR effect remains to demonstrated. Using 89Zr-labeled human serum albumin, the accumulation of nontarget-specific macromolecules in CAM and mouse xenograft models was studied using PET and MRI. Therefore, the radioligand [89Zr]Zr-DFO-HSA was analyzed in both chicken embryos (n = 5) and SCID mice (n = 4), each with TZM-bl and PC-3 tumor entities. Dynamic PET and anatomical MRI, as well as ex vivo biodistribution analyses, were performed to assess ligand distribution over 24 h. Histological staining and autoradiography verified the intratumoral accumulation. The tumors were successfully visualized for CAM and mouse models by PET, and the albumin influx from the blood into the respective tumors did not differ significantly. The accumulation and retention of HSA in tumors due to the EPR effect was demonstrated for both models. These results highlight that the CAM model is a potential alternative to the mouse model for initial studies with novel radiolabeled macromolecules with respect to the 3Rs principles. [ABSTRACT FROM AUTHOR]

Published

2023

2. Comparison of Quantification of Target-Specific Accumulation of [18F]F-siPSMA-14 in the HET-CAM Model and in Mice Using PET/MRI

Author

Löffler, Jessica, Hamp, Carmen, Scheidhauer, Ellen, Di Carlo, Daniel, Solbach, Christoph, Abaei, Alireza, Hao, Li, Glatting, Gerhard, Beer, Ambros J., Rasche, Volker, and Winter, Gordon

Subjects

3Rs principles, animal structures, Prostate Cancer, fluoride ligand, Kernspintomografie, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, Article, PET, DDC 570 / Life sciences, Chickens Embryos, in ovo, ddc:570, HET-CAM, In vivo, PSMA, ddc:610, chick embryo, Multiparametric Magnetic Resonance Imaging, DDC 610 / Medicine & health, RC254-282, MRI

Abstract

Assessment of biodistribution and specific tumor accumulation is essential for the development of new radiopharmaceuticals and requires animal experiments. The HET-CAM (hens-egg test���chorioallantoic membrane) model can be used in combination with the non-invasive imaging modalities PET and MRI for pre-selection during radiopharmaceutical development to reduce the number of animal experiments required. Critical to the acceptance of this model is the demonstration of the quantifiability and reproducibility of these data compared to the standard animal model. Tumor accumulation and biodistribution of the PSMA-specific radiotracer [18F]F-siPSMA-14 was analyzed in the chick embryo and in an immunodeficient mouse model. Evaluation was based on MRI and PET data in both models. ��-counter measurements and histopathological analyses complemented these data. PSMA-specific accumulation of [18F]F-siPSMA-14 was successfully demonstrated in the HET-CAM model, similar to the results obtained by mouse model studies. The combination of MR and PET imaging allowed precise quantification of peptide accumulation, initial assessment of biodistribution, and accurate determination of tumor volume. Thus, the use of the HET-CAM model is suitable for the pre-selection of new radiopharmaceuticals and potentially reduces animal testing in line with the 3Rs principles of animal welfare., publishedVersion

Published

2021

3. Blocking Studies to Evaluate Receptor-Specific Radioligand Binding in the CAM Model by PET and MR Imaging.

Author

Löffler, Jessica, Herrmann, Hendrik, Scheidhauer, Ellen, Wirth, Mareike, Wasserloos, Anne, Solbach, Christoph, Glatting, Gerhard, Beer, Ambros J., Rasche, Volker, and Winter, Gordon

Subjects

*EMBRYOS, *MAGNETIC resonance imaging, *POSITRON emission tomography, *CELL lines, *LIGANDS (Biochemistry)

Abstract

Simple Summary: In the development of new targeted radiopharmaceuticals, it is mandatory to demonstrate their target-specific binding. Rodents are still primarily used for these experiments. With respect to the 3Rs principles, the demand for alternative methods to reduce the number of animal experiments is continuously increasing. In the present study, we investigated whether radiotracer uptake specificity can be evaluated by blocking studies in the CAM model. PET and MR imaging were used to visualize and quantify ligand accumulation. It was demonstrated that the CAM model could be used to evaluate the target-specific binding of a radiopharmaceutical. Due to intrinsic limitations of the CAM model, animal testing will still be required at more advanced stages of compound development. Still, the CAM model could significantly reduce the number of experiments through early compound pre-selection. Inhibition studies in small animals are the standard for evaluating the specificity of newly developed drugs, including radiopharmaceuticals. Recently, it has been reported that the tumor accumulation of radiotracers can be assessed in the chorioallantoic membrane (CAM) model with similar results to experiments in mice, such contributing to the 3Rs principles (reduction, replacement, and refinement). However, inhibition studies to prove receptor-specific binding have not yet been performed in the CAM model. Thus, in the present work, we analyzed the feasibility of inhibition studies in ovo by PET and MRI using the PSMA-specific ligand [18F]siPSMA-14 and the corresponding inhibitor 2-PMPA. A dose-dependent blockade of [18F]siPSMA-14 uptake was successfully demonstrated by pre-dosing with different inhibitor concentrations. Based on these data, we conclude that the CAM model is suitable for performing inhibition studies to detect receptor-specific binding. While in the later stages of development of novel radiopharmaceuticals, testing in rodents will still be necessary for biodistribution analysis, the CAM model is a promising alternative to mouse experiments in the early phases of compound evaluation. Thus, using the CAM model and PET and MR imaging for early pre-selection of promising radiolabeled compounds could significantly reduce the number of animal experiments. [ABSTRACT FROM AUTHOR]

Published

2022

4. Comparison of Quantification of Target-Specific Accumulation of [ 18 F]F-siPSMA-14 in the HET-CAM Model and in Mice Using PET/MRI.

Author

Löffler, Jessica, Hamp, Carmen, Scheidhauer, Ellen, Di Carlo, Daniel, Solbach, Christoph, Abaei, Alireza, Hao, Li, Glatting, Gerhard, Beer, Ambros J., Rasche, Volker, and Winter, Gordon

Subjects

*EGGS, *LABORATORY animals, *POULTRY, *ANIMAL experimentation, *HUMAN anatomical models, *RADIOISOTOPES, *MAGNETIC resonance imaging, *FLUORINE isotopes, *CANCER patients, *PROSTATE tumors, *MICE, RESEARCH evaluation

Abstract

Simple Summary: Animal studies are essential for the development of new radiopharmaceuticals to determine specific accumulation and biodistribution. Alternative models, such as the HET-CAM model, offer the possibility of reducing animal experiments in accordance with the 3Rs principles. Accurate quantification of tumor accumulation of a PSMA-specific ligand in the HET-CAM model and comparison with corresponding animal experiments was performed using the imaging modalities PET and MRI. It was demonstrated that the HET-CAM model leads to comparable results and is suitable as an alternative to animal experiments for the initial assessment of target-specific binding of novel radiopharmaceuticals. However, as evaluation of biodistribution in ovo is still limited, further animal experiments with promising compounds are mandatory. Assessment of biodistribution and specific tumor accumulation is essential for the development of new radiopharmaceuticals and requires animal experiments. The HET-CAM (hens-egg test—chorioallantoic membrane) model can be used in combination with the non-invasive imaging modalities PET and MRI for pre-selection during radiopharmaceutical development to reduce the number of animal experiments required. Critical to the acceptance of this model is the demonstration of the quantifiability and reproducibility of these data compared to the standard animal model. Tumor accumulation and biodistribution of the PSMA-specific radiotracer [18F]F-siPSMA-14 was analyzed in the chick embryo and in an immunodeficient mouse model. Evaluation was based on MRI and PET data in both models. γ-counter measurements and histopathological analyses complemented these data. PSMA-specific accumulation of [18F]F-siPSMA-14 was successfully demonstrated in the HET-CAM model, similar to the results obtained by mouse model studies. The combination of MR and PET imaging allowed precise quantification of peptide accumulation, initial assessment of biodistribution, and accurate determination of tumor volume. Thus, the use of the HET-CAM model is suitable for the pre-selection of new radiopharmaceuticals and potentially reduces animal testing in line with the 3Rs principles of animal welfare. [ABSTRACT FROM AUTHOR]

Published

2021

5. Multi-Modal PET and MR Imaging in the Hen's Egg Test-Chorioallantoic Membrane (HET-CAM) Model for Initial In Vivo Testing of Target-Specific Radioligands.

Author

Winter, Gordon, Koch, Andrea B. F., Löffler, Jessica, Lindén, Mika, Solbach, Christoph, Abaei, Alireza, Li, Hao, Glatting, Gerhard, Beer, Ambros J., and Rasche, Volker

Subjects

ANIMAL experimentation, CELL receptors, FETAL membranes, LIGANDS (Biochemistry), MAGNETIC resonance imaging, RADIOPHARMACEUTICALS, POSITRON emission tomography, XENOGRAFTS, PROSTATE-specific membrane antigen, EMBRYOS, IN vivo studies

Abstract

The validation of novel target-specific radioligands requires animal experiments mostly using mice with xenografts. A pre-selection based on a simpler in vivo model would allow to reduce the number of animal experiments, in accordance with the 3Rs principles (reduction, replacement, refinement). In this respect, the chick embryo or hen's egg test–chorioallantoic membrane (HET-CAM) model is of special interest, as it is not considered an animal until day 17. Thus, we evaluated the feasibility of quantitative analysis of target-specific radiotracer accumulation in xenografts using the HET-CAM model and combined positron emission tomography (PET) and magnetic resonance imaging (MRI). For proof-of-principle we used established prostate-specific membrane antigen (PSMA)-positive and PSMA-negative prostate cancer xenografts and the clinically widely used PSMA-specific PET-tracer [68Ga]Ga-PSMA-11. Tracer accumulation was quantified by PET and tumor volumes measured with MRI (n = 42). Moreover, gamma-counter analysis of radiotracer accumulation was done ex-vivo. A three- to five-fold higher ligand accumulation in the PSMA-positive tumors compared to the PSMA-negative tumors was demonstrated. This proof-of-principle study shows the general feasibility of the HET-CAM xenograft model for target-specific imaging with PET and MRI. The ultimate value for characterization of novel target-specific radioligands now has to be validated in comparison to mouse xenograft experiments. [ABSTRACT FROM AUTHOR]

Published

2020