Your search keyword '"Ramkumar Selvaraju"' showing total 6 results

1. 68Ga- and 177Lu-radiolabelling chemistry of DO3A-VS-Cys40-Exendin-4 and differences of the tracer pancreatic uptake in various species

Author

Irina Velikyan, Ramkumar Selvaraju, Ulrika Rosenström, Barbro Eriksson, and Olof Eriksson

Subjects

Cancer Research, Chemistry, TRACER, Radiochemistry, Molecular Medicine, Radiology, Nuclear Medicine and imaging

Published

2019

2. 5-Fluoro-[β-11C]-L-tryptophan is a functional analogue of 5-hydroxy-[β-11C]-L-tryptophan in vitro but not in vivo

Author

Gunnar Antoni, Beatrice Borg, Ramkumar Selvaraju, Sergio Estrada, Veronika Asplund, and Olof Eriksson

Subjects

Cancer Research, Biodistribution, Radiosynthesis, Pharmacology, Biology, In vitro, Imaging agent, Biological pathway, chemistry.chemical_compound, Biochemistry, chemistry, In vivo, Molecular Medicine, Radiology, Nuclear Medicine and imaging, Serotonin, 5-Hydroxytryptophan

Abstract

Introduction 5-Hydroxy-[β- 11 C]-L-tryptophan ([ 11 C]HTP) is an established positron emission tomography (PET) imaging agent for neuroendocrine tumors (NETs). It has also been used for other clinical research purposes in neurology and diabetes. However, its widespread use is limited by the short physical half-life of the radionuclide and a difficult radiosynthesis. Therefore, a Fluorine-18 labeled analogue, 5-[ 18 F]Fluoro-L-tryptophan ([ 18 F]FTRP), has been proposed as a functional analogue. There is no published method for the synthesis of L-[ 18 F]FTRP. We have therefore developed a synthesis of 5-fluoro-[β- 11 C]-L-tryptophan ([ 11 C]FTRP), based on the existing chemo-enzymatic method for [ 11 C]HTP and evaluated the potential usefulness of radiolabeled FTRP as a substitute for [ 11 C]HTP. Methods The in vitro and in vivo behavior of [ 11 C]FTRP, including the dependence of key enzymes in the serotonergic metabolic pathway, was investigated in NET cell lines, NET xenograft carrying immunodeficient mice, normal rats and in non-human primate. [ 11 C]HTP was used for direct comparison. Results Uptake of [ 11 C]FTRP in NET cell lines in vitro was mediated by enzymes involved in serotonin synthesis and metabolism, similar to [ 11 C]HTP. In vivo biodistribution, either in rodent or non-human primate, was not affected by selectively inhibiting enzymatic steps in the serotonergic metabolic pathway. Conclusion [ 11 C]FTRP has in vitro biological function similar to that of [ 11 C]HTP. However, this function is not retained in vivo as shown by biodistribution and PET/CT studies. Radiolabeled FTRP is thus not likely to provide an advantage over [ 11 C]HTP in PET imaging in oncology, neurology or diabetes.

Published

2013

3. Quantification of β-Cell Mass in Intramuscular Islet Grafts Using Radiolabeled Exendin-4

Author

Olof Eriksson, Irina Velikyan, Martin Krajcovic, Ramkumar Selvaraju, Daniel Espes, and Per-Ola Carlsson

Subjects

0301 basic medicine, medicine.medical_specialty, endocrine system, endocrine system diseases, Cell- och molekylärbiologi, medicine.medical_treatment, 030209 endocrinology & metabolism, 03 medical and health sciences, 0302 clinical medicine, In vivo, Internal medicine, Diabetes mellitus, exendin-4, medicine, Islet transplantation, Receptor, Pancreas and Islet Transplantation, Transplantation, Type 1 diabetes, geography, geography.geographical_feature_category, business.industry, Insulin, Hypoxia (medical), medicine.disease, Islet, surgical procedures, operative, 030104 developmental biology, Endocrinology, beta-cell mass, Lutetium-177, medicine.symptom, business, Cell and Molecular Biology

Abstract

Islet transplantation is a possible curative treatment for type 1 diabetes (T1D). Currently the liver dominates as implantation site, despite the many challenges encountered at this site.Acute hypoxia in islets transplanted to muscle and omentum, two possible alternative sites, was prevailing. However, it was rapidly reversed at both implantation sites, in contrast to when islets were transplanted intraportally. At the intramuscular site hypoxia was further relieved by co-transplantation of an oxygen carrier, polymerized hemoglobin, which also improved the functional outcome. The complement system was activated after islet transplantation to muscle, but did not hamper graft function.Both mouse and human islets transplanted to omentum become well re-vascularized and have a functional blood flow and oxygenation comparable with that of endogenous islets. Animals transplanted with islets to the omentum had a superior graft function compared with animals receiving intraportal islet grafts.Alloxan-diabetic animals were cured with a low number of islets both when the islets were implanted in the omentum and muscle. The islet grafts responded adequately to both glucose and insulin and displayed a favorable mRNA gene expression profile.A challenge in diabetes research and in islet transplantation is that there are no established techniques for quantifying beta-cell mass in vivo. By using radiolabeled Exendin-4, a GLP-1 receptor agonist, beta-cell mass after transplantation to muscle of mice was quantified. The results may well be translated to the clinical setting.By comparing the pancreatic accumulation of [11C]5-hydroxy tryptophan ([11C]5-HTP) as detected by positron emission tomography (PET) in T1D patients with that of healthy controls, a 66% decrease was observed. This may in fact represent the loss of beta-cells, taking into account that other cells within the islets of Langerhans are largely unaffected in T1D. In conclusion, the data presented support the use of alternative implantation sites for islet transplantation. In addition to improving the functional outcome this may enable more transplantations since the number of transplanted islets may be reduced. The techniques investigated for quantifying transplanted and endogenous beta-cell mass may greatly improve our knowledge of the pathophysiology of T1D and become a valuable tool for evaluation of beta-cell mass.

Published

2016

4. Positron Emission Tomography to Assess the Outcome of Intraportal Islet Transplantation

Author

Håkan Ahlström, Gunnar Tufvesson, Torbjörn Lundgren, Lina Carlbom, Torkel B. Brismar, Torsten Eich, Olof Eriksson, Ramkumar Selvaraju, Olle Korsgren, and Mariam Willny

Subjects

0301 basic medicine, medicine.medical_specialty, Pathology, endocrine system, Endocrinology, Diabetes and Metabolism, Islets of Langerhans Transplantation, Technological Advances, 030209 endocrinology & metabolism, Standardized uptake value, 5-Hydroxytryptophan, 03 medical and health sciences, 0302 clinical medicine, In vivo, Internal medicine, Diabetes mellitus, Internal Medicine, Medicine, Animals, Humans, Retrospective Studies, geography, geography.geographical_feature_category, Radiochemistry, medicine.diagnostic_test, business.industry, Magnetic resonance imaging, medicine.disease, Islet, Magnetic Resonance Imaging, Healthy Volunteers, Rats, Transplantation, 030104 developmental biology, Endocrinology, Diabetes Mellitus, Type 1, Liver, Positron emission tomography, Positron-Emission Tomography, business, Ex vivo

Abstract

No imaging methodology currently exists to monitor viable islet mass after clinical intraportal islet transplantation. We investigated the potential of the endocrine positron emission tomography (PET) marker [11C]5-hydroxytryptophan ([11C]5-HTP) for this purpose. In a preclinical proof-of-concept study, the ex vivo and in vivo [11C]5-HTP signal was compared with the number of islets transplanted in rats. In a clinical study, human subjects with an intraportal islet graft (n = 8) underwent two [11C]5-HTP PET and MRI examinations 8 months apart. The tracer concentration in the liver as a whole, or in defined hotspots, was correlated to measurements of islet graft function. In rat, hepatic uptake of [11C]5-HTP correlated with the number of transplanted islets. In human subjects, uptake in hepatic hotspots showed a correlation with metabolic assessments of islet function. Change in hotspot standardized uptake value (SUV) predicted loss of graft function in one subject, whereas hotspot SUV was unchanged in subjects with stable graft function. The endocrine marker [11C]5-HTP thus shows a correlation between hepatic uptake and transplanted islet function and promise as a tool for noninvasive detection of viable islets. The evaluation procedure described can be used as a benchmark for novel agents targeting intraportally transplanted islets.

Published

2016

5. Dosimetry of [(177)Lu]-DO3A-VS-Cys(40)-Exendin-4 - impact on the feasibility of insulinoma internal radiotherapy

Author

Irina, Velikyan, Thomas N, Bulenga, Ramkumar, Selvaraju, Mark, Lubberink, Daniel, Espes, Ulrika, Rosenström, and Olof, Eriksson

Subjects

Original Article

Abstract

[(68)Ga]-DO3A-VS-Cys(40)-Exendin-4 has been shown to be a promising imaging candidate for targeting glucagon like peptide-1 receptor (GLP-1R). In the light of radiotheranostics and personalized medicine the (177)Lu-labelled analogue is of paramount interest. In this study we have investigated the organ distribution of [(177)Lu]-DO3A-VS-Cys(40)-Exendin-4 in rat and calculated human dosimetry parameters in order to estimate the maximal acceptable administered radioactivity, and thus potential applicability of [(177)Lu]-DO3A-VS-Cys(40)-Exendin-4 for internal radiotherapy of insulinomas. Nine male and nine female Lewis rats were injected with [(177)Lu]-DO3A-VS-Cys(40)-Exendin-4 for ex vivo organ distribution study at nine time points. The estimation of human organ/total body absorbed and total effective doses was performed using Organ Level Internal Dose Assessment Code software (OLINDA/EXM 1.1). Six more rats (male: n = 3; female: n = 3) were scanned by single photon emission tomography and computed tomography (SPECT-CT). The renal function and potential cell dysfunction were monitored by creatinine ISTAT and glucose levels. The fine uptake structure of kidney and pancreas was investigated by ex vivo autoradiography. Blood clearance and washout from most of the organs was fast. The kidney was the dose-limiting organ with absorbed dose of 5.88 and 6.04 mGy/MBq, respectively for female and male. Pancreatic beta cells demonstrated radioactivity accumulation. Renal function and beta cell function remained unaffected by radiation. The absorbed dose of [(177)Lu]-DO3A-VS-Cys(40)-Exendin-4 to kidneys may limit the clinical application of the agent. However, hypothetically, kidney protection and peptidase inhibition may allow reduction of kidney absorbed dose and amplification of tumour absorbed doses.

Published

2014

6. 5-Fluoro-[β-¹¹C]-L-tryptophan is a functional analogue of 5-hydroxy-[β-¹¹C]-L-tryptophan in vitro but not in vivo

Author

Olof, Eriksson, Ramkumar, Selvaraju, Beatrice, Borg, Veronika, Asplund, Sergio, Estrada, and Gunnar, Antoni

Subjects

Islets of Langerhans, Macaca fascicularis, Mice, Cell Transformation, Neoplastic, Radiochemistry, Cell Line, Tumor, Positron-Emission Tomography, Tryptophan, Animals, Carcinoma, Neuroendocrine, Rats

Abstract

5-Hydroxy-[β-(11)C]-L-tryptophan ([(11)C]HTP) is an established positron emission tomography (PET) imaging agent for neuroendocrine tumors (NETs). It has also been used for other clinical research purposes in neurology and diabetes. However, its widespread use is limited by the short physical half-life of the radionuclide and a difficult radiosynthesis. Therefore, a Fluorine-18 labeled analogue, 5-[(18)F]Fluoro-L-tryptophan ([(18)F]FTRP), has been proposed as a functional analogue. There is no published method for the synthesis of L-[(18)F]FTRP. We have therefore developed a synthesis of 5-fluoro-[β-(11)C]-L-tryptophan ([(11)C]FTRP), based on the existing chemo-enzymatic method for [(11)C]HTP and evaluated the potential usefulness of radiolabeled FTRP as a substitute for [(11)C]HTP.The in vitro and in vivo behavior of [(11)C]FTRP, including the dependence of key enzymes in the serotonergic metabolic pathway, was investigated in NET cell lines, NET xenograft carrying immunodeficient mice, normal rats and in non-human primate. [(11)C]HTP was used for direct comparison.Uptake of [(11)C]FTRP in NET cell lines in vitro was mediated by enzymes involved in serotonin synthesis and metabolism, similar to [(11)C]HTP. In vivo biodistribution, either in rodent or non-human primate, was not affected by selectively inhibiting enzymatic steps in the serotonergic metabolic pathway.[(11)C]FTRP has in vitro biological function similar to that of [(11)C]HTP. However, this function is not retained in vivo as shown by biodistribution and PET/CT studies. Radiolabeled FTRP is thus not likely to provide an advantage over [(11)C]HTP in PET imaging in oncology, neurology or diabetes.

Published

2012