| 41. |
- Velikyan, Irina, 1966-, et al.
(författare)
-
Diagnostic HER2-binding radiopharmaceutical, [Ga-68]Ga-ABY-025, for routine clinical use in breast cancer patients
- 2019
-
Ingår i: American Journal of Nuclear Medicine and Molecular Imaging. - : E-CENTURY PUBLISHING CORP. - 2160-8407. ; 9:1, s. 12-23
-
Tidskriftsartikel (refereegranskat)abstract
- [Ga-68]Ga-ABY-025/PET-CT targeting human epidermal growth factor receptor type 2 (HER2) has demonstrated its potential clinical value for the detection and quantification of HER2 in a phase I clinical study with breast cancer patients. Previously, the radiopharmaceutical was prepared manually, however larger scale of multicenter clinical trials and routine healthcare requires automation of the production process to limit the operator radiation dose, improve tracer manufacturing robustness, and provide on-line documentation for good manufacturing practice (GMP) compliance. The production of [Ga-68]Ga-ABY-025 was implemented on the Modular-Lab PharmTrace synthesis platform (Eckert & Ziegler) and disposable cassettes were developed. Pharmaceutical grade Ge-68/Ga-68 generator (GalliaPharm (R)) was used in the study. The active pharmaceutical ingredient starting material ABY-025 (GMP grade) was provided by Affibody AB. The patient examinations were conducted using a Discovery MI PET/CT scanner (20 cm FOV, GE Healthcare). Reproducible and GMP compliant fully automated production of [Ga-68]Ga-ABY-025 was developed. The radiochemical purity of the product was 98.7 +/- 0.6% with total peptide content of 315 +/- 15 mu g (n = 3). Radionuclidic purity, sterility, endotoxin content, residual solvent content, and sterile filter integrity were controlled and met acceptance criteria. The product was stable at ambient temperature for at least 2 h. The primary tumor and metastasis were detected with SUVmax values of 8.3 and 16.0, respectively. Automated production of [Ga-68]Ga-ABY-025 was established and the process was validated enabling standardized multicenter phase II and III clinical trials and routine clinical use. Patient examinations conformed to the radiopharmaceutical biodistribution observed in the previous phase I study.
|
|
| 42. |
- Velikyan, Irina, 1966-, et al.
(författare)
-
Feasibility of Multiple Examinations Using Ga-68-Labelled Collagelin Analogues : Organ Distribution in Rat for Extrapolation to Human Organ and Whole-Body Radiation Dosimetry
- 2016
-
Ingår i: Pharmaceuticals. - : MDPI AG. - 1424-8247. ; 9:2
-
Tidskriftsartikel (refereegranskat)abstract
- Objectives: Fibrosis is involved in many chronic diseases. It affects the functionality of vital organs, such as liver, lung, heart and kidney. Two novel imaging agents for positron emission tomography (PET) imaging of fibrosis have previously pre-clinically demonstrated promising target binding and organ distribution characteristics. However, the relevant disease monitoring in the clinical setup would require multiple repetitive examinations per year. Thus, it is of paramount importance to investigate the absorbed doses and total effective doses and thus, the potential maximum number of examinations per year. Methods: Two cyclic peptide (c[CPGRVMHGLHLGDDEGPC]) analogues coupled via an ethylene glycol linker (EG(2)) to either 2-(4,7-bis(2-(tert-butoxy)-2-oxoethyl)-1,4,7-triazonan-1-yl)acetic acid (NO2A-Col) or 4-(4,7-bis(2-(tert-butoxy)-2-oxoethyl)-1,4,7-triazacyclononan-1-yl)-5-(tert-butoxy)-5-oxopentanoic acid (NODAGA-Col) were labelled with Ga-68. The resulting agents, [Ga-68]Ga-NO2A-Col and [Ga-68]Ga-NODAGA-Col, were administered in the tail vein of male and female Sprague-Dawley rats (N = 24). An ex vivo organ distribution study was performed at the 5-, 10-, 20-, 40-, 60- and 120-min time points. The resulting data were extrapolated for the estimation of human organ and total body absorbed and total effective doses using Organ Level Internal Dose Assessment Code software (OLINDA/EXM 1.1) assuming a similar organ distribution pattern between the species. Time-integrated radioactivity in each organ was calculated by trapezoidal integration followed by a single-exponential fit to the data points extrapolated to infinity. The resulting values were used for the residence time calculation. Results: Ex vivo organ distribution data revealed fast blood clearance and washout from most of the organs. Although the highest organ absorbed dose was found for kidneys (0.1 mGy/MBq), this organ was not the dose-limiting one and would allow for the administration of over 1460 MBq per year for both [Ga-68]Ga-NO2A-Col and [Ga-68]Ga-NODAGA-Col. The total effective dose was the limiting parameter with 0.0155/0.0156 (female/male) mSv/MBq and 0.0164/0.0158 (female/male) mSv/MBq, respectively, for [Ga-68]Ga-NO2A-Col and [Ga-68]Ga-NODAGA-Col. This corresponded to the total amount of radioactivity that could be administered per year of 643 and 621 MBq before reaching the annual limit of 10 mSv. Thus, up to six examinations would be possible. The residence time and organ absorbed doses in liver and spleen were higher for [Ga-68]Ga-NODAGA-Col as compared to [Ga-68]Ga-NO2A-Col. Conclusion: The limiting parameter for the administered dose was the total effective dose that would allow for at least six examinations per year that might be sufficient for adequate disease monitoring in longitudinal studies and a routine clinical setup.
|
|
| 43. |
- Velikyan, Irina, 1966-, et al.
(författare)
-
First-in-class positron emission tomography tracer for the glucagon receptor
- 2019
-
Ingår i: EJNMMI Research. - : Springer Science and Business Media LLC. - 2191-219X. ; 9
-
Tidskriftsartikel (refereegranskat)abstract
- The glucagon receptor (GCGR) is emerging as an important target in anti-diabetic therapy, especially as part of the pharmacology of dual glucagon-like peptide-1/glucagon (GLP-1/GCG) receptor agonists. However, currently, there are no suitable biomarkers that reliably demonstrate GCG receptor target engagement.Methods: Two potent GCG receptor peptide agonists, S01-GCG and S02-GCG, were labeled with positron emission tomography (PET) radionuclide gallium-68. The GCG receptor binding affinity and specificity of the resulting radiopharmaceuticals [68Ga]Ga-DO3A-S01-GCG and [68Ga]Ga-DO3A-S02-GCG were evaluated in HEK-293 cells overexpressing the human GCG receptor and on frozen hepatic sections from human, non-human primate, and rat. In in vivo biodistribution, binding specificity and dosimetry were assessed in rat.Results: [68Ga]Ga-DO3A-S01-GCG in particular demonstrated GCG receptor-mediated binding in cells and liver tissue with affinity in the nanomolar range required for imaging. [68Ga]Ga-DO3A-S01-GCG binding was not blocked by co-incubation of a GLP-1 agonist. In vivo binding in rat liver was GCG receptor specific with low non-specific binding throughout the body. Moreover, the extrapolated human effective doses, predicted from rat biodistribution data, allow for repeated PET imaging potentially also in combination with GLP-1R radiopharmaceuticals.Conclusion: [68Ga]Ga-DO3A-S01-GCG thus constitutes a first-in-class PET tracer targeting the GCG receptor, with suitable properties for clinical development. This tool has potential to provide direct quantitative evidence of GCG receptor occupancy in humans.
|
|
| 44. |
- Velikyan, Irina, 1966-, et al.
(författare)
-
Fully automated GMP production of [Ga-68]Ga-DO3A-VS-Cys(40)-Exendin-4 for clinical use
- 2017
-
Ingår i: American Journal of Nuclear Medicine and Molecular Imaging. - 2160-8407. ; 7:3, s. 111-125
-
Tidskriftsartikel (refereegranskat)abstract
- [Ga-68]Ga-DO3A-VS-Cys(40)-Exendin-4/PET-CT targeting glucagon like peptide-1 receptor (GLP-1R) has previously demonstrated its potential clinical value for the detection of insulinomas. The production and accessibility of this radiopharmaceutical is one of the critical factors in realization of clinical trials and routine clinical examinations. Previously, the radiopharmaceutical was prepared manually, however larger scale of clinical trials and healthcare requires automation of the production process in order to limit the operator radiation dose as well as improve tracer manufacturing robustness and on-line documentation for enhanced good manufacturing practice (GMP) compliance. A method for Ga-68-labelling of DO3A-VS-Cys(40)-Exendin-4 on a commercially available synthesis platform was developed. Equipment such as Ge-68/Ga-68 generator, synthesis platform, and disposable cassettes for Ga-68-labelling used in the study was purchased from Eckert & Ziegler. DO3A-VS-Cys(40)-Exendin-4 was synthesized in-house. The parameters such as time, temperature, precursor concentration, radical scavenger, buffer concentration, pH, product purification step were investigated and optimised. Reproducible and GMP compliant automated production of [Ga-68]Ga-DO3A-VS-Cys(40)-Exendin-4 was developed. Exendin-4 comprising methionine amino acid residue was prone to oxidation which was strongly influenced by the elevated temperature, radioactivity amount, and precursor concentration. The suppression of the oxidative radiolysis was achieved by addition of ethanol, dihydroxybenzoic acid and ascorbic acid to the reaction buffer as well as by optimizing heating temperature. The non-decay corrected radiochemical yield was 43 +/- 2% with radiochemical purity of over 90% wherein the individual impurity signals in HPLC chromatogram did not exceed 5%. Automated production and quality control methods were established for paving the pathway for broader clinical use of [Ga-68]Ga-DO3A-VS-Cys(40)-Exendin-4.
|
|
| 45. |
- Velikyan, Irina, 1966-, et al.
(författare)
-
GMP production of [Ga-68]Ga-BOT5035 for imaging of liver fibrosis in microdosing phase 0 study
- 2020
-
Ingår i: Nuclear Medicine and Biology. - : ELSEVIER SCIENCE INC. - 0969-8051 .- 1872-9614. ; 88-89, s. 73-85
-
Tidskriftsartikel (refereegranskat)abstract
- Introduction: Early detection of liver fibrosis and monitoring response to treatment crucial for the management of patients are currently not feasible in clinical practice. Platelet derived growth factor receptor beta (PDGER-beta) expression is regarded as a potential biomarker to determine the stages of fibrotic diseases including liver fibrosis. [Ga-68]Ga-BOT5035 comprising a bicyclic peptide was developed for specific targeting of ppGrR-beta overexpressed in pathological fibrosis. The realization of microdosing phase 0 study using [Ga-68]Ga-BOT5035 positron emission tomography required automated good manufacturing practice (GMP) compliant production of [Ga-68]Ga-BOT5035 presented herein. Moreover, the investigation of radiation dosimetry was conducted to ensure possibility of multiple annual examinations for disease monitoring in clinical setup.Methods: The active pharmaceutical ingredient starting material BOT5035 (GMP grade) was provided by BiOrion Technologies BV. The Ga-68-labelling process was developed and automated using synthesis platform (ModularLab PharmTrace, Eckert & Ziegler), disposable cassettes for Ga-68-labelling, and pharmaceutical grade Ge-68/Ga-68 generator (GalliaPharm (R)) purchased from Eckert & Ziegler. Radiolysis sensitive BOT5035 required development and systematic optimization of the labelling synthesis parameters such as time, temperature, precursor concentration, radical scavenger, buffer concentration and pH. The validation process was conducted with regard to the product quality and quantity, as well as production reproducibility. Human organ equivalent doses and total body effective doses were calculated using Organ Level Internal Dose Assessment Code software (OLINDA/EXM 1.1), based on ex vivo organ distribution in Sprague-Dawley rats.Results: The GMP compliant automated production of [Ga-68]Ga-BOT5035 with on-line documentation demonstrated high reproducibility. The time for the labelling synthesis and quality control was approximately 60 min. The non-decay corrected radiochemical yield and radiochemical purity of the radiopharmaceutical were 43.7 +/- 7.6% (n = 3, process validation) and 97.7 +/- 0.4% (n = 3, process validation), respectively. Predefined acceptance criteria were met for the sterility, endotoxins level, radionuclidic purity and residual solvent content. The stability at ambient temperature was controlled for 120 min with approved results. Ex vivo organ distribution data revealed fast blood clearance and washout from most of the organs. The dose-limiting organs were kidney and bone marrow. The total effective dose as limiting parameter would allow for up to 3-4 PET scans per annum.Conclusion: The fully automated and GMP compliant production of [Ga-68]Ga-BOT5035 was developed and thoroughly validated. The radiopharmaceutical was approved by Swedish Medicinal Products Agency and the Ethical Review Authority for the Phase 0 clinical study of the quantitative imaging of liver fibrosis. Human dosimetry calculations extrapolated from animal experiment indicated possibility of 3-4 PET examinations per year.
|
|
| 46. |
- Velikyan, Irina, 1966-, et al.
(författare)
-
Imaging of the Glucose-Dependent Insulinotropic Polypeptide Receptor Using a Novel Radiolabeled Peptide Rationally Designed Based on Endogenous GIP and Synthetic Exendin-4 Sequences
- 2023
-
Ingår i: Pharmaceuticals. - : MDPI. - 1424-8247. ; 16:1
-
Tidskriftsartikel (refereegranskat)abstract
- Imaging and radiotherapy targeting the glucose-dependent insulinotropic polypeptide receptor (GIPR) could potentially benefit the management of neuroendocrine neoplasms (NENs), complementing clinically established radiopharmaceuticals. The aim of this study was to evaluate a GIPR-targeting positron emission tomography (PET) radioligand with receptor-specific binding, fast blood clearance, and low liver background uptake. The peptide DOTA-bioconjugate, C803-GIP, was developed based on the sequence of the endogenous GIP(1-30) and synthetic exendin-4 peptides with selective amino acid mutations to combine their specificity for the GIPR and in vivo stability, respectively. The Ga-68-labeled bioconjugate was evaluated in vitro in terms of binding affinity, specificity, and internalization in HEK293 cells transfected with the human GIPR, GLP1, or GCG receptors and in sections of human insulinoma and NENs. In vivo binding specificity, biodistribution, and tissue background were investigated in mice bearing huGIPR-HEK293 xenografts and in a pig. Ex vivo organ distribution, pharmacokinetics, and dosimetry were studied in normal rats. [Ga-68]Ga-C803-GIP was stable and demonstrated a high affinity to the huGIPR-HEK293 cells. Binding specificity was demonstrated in vitro in frozen sections of NENs and huGIPR-HEK293 cells. No specific uptake was observed in the negative controls of huGLP1R and huGCGR cells. A novel rationally designed PET radioligand, [Ga-68]Ga-C803-GIP, demonstrated promising binding characteristics and specificity towards the GIPR.
|
|
| 47. |
- Velikyan, Irina, 1966-, et al.
(författare)
-
Improved Radiolytic Stability of a 68Ga-labelled Collagelin Analogue for the Imaging of Fibrosis
- 2021
-
Ingår i: Pharmaceuticals. - : MDPI. - 1424-8247. ; 14:10
-
Tidskriftsartikel (refereegranskat)abstract
- There is an unmet medical need for non-invasive, sensitive, and quantitative methods for the assessment of fibrosis. Herein, an improved collagelin analogue labelled with gallium-68 for use with positron emission tomography (PET) is presented. A cyclic peptide, c[CPGRVNleHGLHLGDDEGPC], was synthesized by solid-phase peptide synthesis, conjugated to 2-(4,7-bis(2-(tert-butoxy)-2-oxoethyl)-1,4,7-triazonan-1-yl)acetic acid, and labelled with gallium-68. High performance liquid chromatography (HPLC) was used for the quality and stability assessment of the collagelin analogue. Non-specific organ distribution, blood clearance, and excretion rates were investigated in healthy mice and rats using ex vivo organ distribution analysis and dynamic in vivo PET/CT. Mice with carbon tetrachloride (CCl4) induced liver fibrosis were used for the investigation of specific binding via in vitro frozen section autoradiography, ex vivo organ distribution, and in vivo PET/CT. A non-decay corrected radiochemical yield (48 ± 6%) of [68Ga]Ga-NOTA-PEG2-c[CPGRVNleHGLHLGDDEGPC] ([68Ga]Ga-NO2A-[Nle13]-Col) with a radiochemical purity of 98 ± 2% was achieved without radical scavengers. The 68Ga-labelling was regioselective and stable at ambient temperature for at least 3 h. The autoradiography of the cryosections of fibrotic mouse liver tissue demonstrated a distinct heterogeneous radioactivity uptake that correlated with the fibrosis scores estimated after Sirius Red staining. The blood clearance and tissue washout from the [68Ga]Ga-NO2A-[Nle13]-Col was fast in both normal and diseased mice. Dosimetry investigation in rats indicated the possibility for 4–5 PET/CT examinations per year. Radiolytic stability of the collagelin analogue was achieved by the substitution of methionine with norleucine amino acid residue without a deterioration of its binding capability. [68Ga]Ga-NO2A-[Nle13]-Col demonstrated a safe dosimetry profile suitable for repeated scanning.
|
|
| 48. |
- Velikyan, Irina, 1966-, et al.
(författare)
-
Preparation and evaluation of a Ga-68-labeled RGD-containing octapeptide for noninvasive imaging of angiogenesis : biodistribution in non-human primate
- 2018
-
Ingår i: American Journal of Nuclear Medicine and Molecular Imaging. - 2160-8407. ; 8:1, s. 15-31
-
Tidskriftsartikel (refereegranskat)abstract
- Monitoring general disease marker such as angiogenesis may contribute to the development of personalized medicine and improve therapy outcome. Readily availability of positron emitter based imaging agents providing quantification would expand clinical positron emission tomography (PET) applications. Generator produced Ga-68 provides PET images of high resolution and the half-life time frame is compatible with the pharmacokinetics of small peptides comprising arginine-glycine-aspartic acid (RGD) sequence specific to alpha(v)beta(3) integrin receptors. The main objective of this study was to develop a method for Ga-68-labeling of RGD containing bicyclic octapeptide ([Ga-68]Ga-DOTA-RGD) with high specific radioactivity and preclinically assess its imaging potential. DOTA-RGD was labeled using generator eluate preconcentration technique and microwave heating. The binding and organ distribution properties of [Ga-68]Ga-DOTA-RGD were tested in vitro by autoradiography of frozen tumor sections, and in vivo in mice carrying a Lewis Lung carcinoma graft (LL2), and in non-human primate (NHP). Another peptide with aspartic acid-glycine-phenylalanine sequence was used as a negative control. The full Ga-68 radioactivity eluted from two generators was quantitatively incorporated into 3-8 nanomoles of the peptide conjugates. The target binding specificity was confirmed by blocking experiments. The specific uptake in the LL2 mice model was observed in vivo and confirmed in the corresponding ex vivo biodistribution experiments. Increased accumulation of the radioactivity was detected in the wall of the uterus of the female NHP probably indicating neovascularization. [Ga-68]Ga-DOTA-RGD demonstrated potential for the imaging of angiogenesis.
|
|
| 49. |
- Velikyan, Irina, 1966-
(författare)
-
Prospective of Ga-68 Radionuclide Contribution to the Development of Imaging Agents for Infection and Inflammation
- 2018
-
Ingår i: Contrast Media & Molecular Imaging. - : WILEY-HINDAWI. - 1555-4309 .- 1555-4317.
-
Forskningsöversikt (refereegranskat)abstract
- During the last decade, the utilization of Ga-68 for the development of imaging agents has increased considerably with the leading position in the oncology. The imaging of infection and inflammation is lagging despite strong unmet medical needs. This review presents the potential routes for the development of Ga-68-based agents for the imaging and quantification of infection and inflammation in various diseases and connection of the diagnosis to the treatment for the individualized patient management.
|
|
| 50. |
- Velikyan, Irina, 1966-
(författare)
-
(Radio)Theranostic Patient Management in Oncology Exemplified by Neuroendocrine Neoplasms, Prostate Cancer, and Breast Cancer
- 2020
-
Ingår i: Pharmaceuticals. - : MDPI. - 1424-8247. ; 13:3
-
Forskningsöversikt (refereegranskat)abstract
- The role of nuclear medicine in the management of oncological patients has expanded during last two decades. The number of radiopharmaceuticals contributing to the realization of theranostics/radiotheranostics in the context of personalized medicine is increasing. This review is focused on the examples of targeted (radio)pharmaceuticals for the imaging and therapy of neuroendocrine neoplasms (NENs), prostate cancer, and breast cancer. These examples strongly demonstrate the tendency of nuclear medicine development towards personalized medicine.
|
|
