Pulmonary PET imaging confirms preferential lung target occupancy of an inhaled bronchodilator

Background Positron emission tomography (PET) is a non-invasive molecular imaging technique that traces the distribution of radiolabeled molecules in experimental animals and human subjects. We hypothesized that PET could be used to visualize the binding of the bronchodilator drug ipratropium to mus...

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Published in	EJNMMI research Vol. 9; no. 1; pp. 9 - 10
Main Authors	Schou, Magnus, Ewing, Pär, Cselenyi, Zsolt, Fridén, Markus, Takano, Akihiro, Halldin, Christer, Farde, Lars
Format	Journal Article
Language	English
Published	Berlin/Heidelberg Springer Berlin Heidelberg 29.01.2019 Springer Nature B.V SpringerOpen
Subjects	Binding Bronchodilators Cardiac Imaging Field of view Imaging Intravenous infusion Ipratropium Lungs Medical imaging Medicine Medicine & Public Health Muscarinic receptors Nuclear Medicine Oncology Original Research Orthopedics PET Pituitary gland Positron emission Primates Radiology Receptors Respiration Tomography Ipratropium Lungs Muscarinic receptors PET
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Abstract	Background Positron emission tomography (PET) is a non-invasive molecular imaging technique that traces the distribution of radiolabeled molecules in experimental animals and human subjects. We hypothesized that PET could be used to visualize the binding of the bronchodilator drug ipratropium to muscarinic receptors (MR) in the lungs of living non-human primates (NHP). The objectives of this study were two-fold: (i) to develop a methodology for quantitative imaging of muscarinic receptors in NHP lung and (ii) to estimate and compare ipratropium-induced MR occupancy following drug administration via intravenous injection and inhalation, respectively. Methods A series of PET measurements ( n = 18) was performed after intravenous injection of the selective muscarinic radioligand 11 C-VC-002 in NHP ( n = 5). The lungs and pituitary gland (both rich in MR) were kept in the field of view. Each PET measurement was followed by a PET measurement preceded by treatment with ipratropium (intravenous or inhaled). Results Radioligand binding was quantified using the Logan graphical analysis method providing the total volume of distribution ( V T ). Ipratropium reduced the V T in the lung and pituitary in a dose-dependent fashion. At similar plasma ipratropium concentrations, administration by inhalation produced larger reductions in V T for the lungs. The plasma-derived apparent affinity for ipratropium binding in the lung was one order of magnitude higher after inhalation ( K i ih = 1.01 nM) than after intravenous infusion ( K i iv = 10.84 nM). Conclusion Quantitative muscarinic receptor occupancy imaging by PET articulates and quantifies the therapeutic advantage of the inhaled route of delivery and provides a tool for future developments of improved inhaled drugs.
AbstractList	Background Positron emission tomography (PET) is a non-invasive molecular imaging technique that traces the distribution of radiolabeled molecules in experimental animals and human subjects. We hypothesized that PET could be used to visualize the binding of the bronchodilator drug ipratropium to muscarinic receptors (MR) in the lungs of living non-human primates (NHP). The objectives of this study were two-fold: (i) to develop a methodology for quantitative imaging of muscarinic receptors in NHP lung and (ii) to estimate and compare ipratropium-induced MR occupancy following drug administration via intravenous injection and inhalation, respectively. Methods A series of PET measurements ( n = 18) was performed after intravenous injection of the selective muscarinic radioligand 11 C-VC-002 in NHP ( n = 5). The lungs and pituitary gland (both rich in MR) were kept in the field of view. Each PET measurement was followed by a PET measurement preceded by treatment with ipratropium (intravenous or inhaled). Results Radioligand binding was quantified using the Logan graphical analysis method providing the total volume of distribution ( V T ). Ipratropium reduced the V T in the lung and pituitary in a dose-dependent fashion. At similar plasma ipratropium concentrations, administration by inhalation produced larger reductions in V T for the lungs. The plasma-derived apparent affinity for ipratropium binding in the lung was one order of magnitude higher after inhalation ( K i ih = 1.01 nM) than after intravenous infusion ( K i iv = 10.84 nM). Conclusion Quantitative muscarinic receptor occupancy imaging by PET articulates and quantifies the therapeutic advantage of the inhaled route of delivery and provides a tool for future developments of improved inhaled drugs. Positron emission tomography (PET) is a non-invasive molecular imaging technique that traces the distribution of radiolabeled molecules in experimental animals and human subjects. We hypothesized that PET could be used to visualize the binding of the bronchodilator drug ipratropium to muscarinic receptors (MR) in the lungs of living non-human primates (NHP). The objectives of this study were two-fold: (i) to develop a methodology for quantitative imaging of muscarinic receptors in NHP lung and (ii) to estimate and compare ipratropium-induced MR occupancy following drug administration via intravenous injection and inhalation, respectively. A series of PET measurements (n = 18) was performed after intravenous injection of the selective muscarinic radioligand C-VC-002 in NHP (n = 5). The lungs and pituitary gland (both rich in MR) were kept in the field of view. Each PET measurement was followed by a PET measurement preceded by treatment with ipratropium (intravenous or inhaled). Radioligand binding was quantified using the Logan graphical analysis method providing the total volume of distribution (V ). Ipratropium reduced the V in the lung and pituitary in a dose-dependent fashion. At similar plasma ipratropium concentrations, administration by inhalation produced larger reductions in V for the lungs. The plasma-derived apparent affinity for ipratropium binding in the lung was one order of magnitude higher after inhalation (K = 1.01 nM) than after intravenous infusion (K = 10.84 nM). Quantitative muscarinic receptor occupancy imaging by PET articulates and quantifies the therapeutic advantage of the inhaled route of delivery and provides a tool for future developments of improved inhaled drugs. Background: Positron emission tomography (PET) is a non-invasive molecular imaging technique that traces the distribution of radiolabeled molecules in experimental animals and human subjects. We hypothesized that PET could be used to visualize the binding of the bronchodilator drug ipratropium to muscarinic receptors (MR) in the lungs of living non-human primates (NHP). The objectives of this study were two-fold: (i) to develop a methodology for quantitative imaging of muscarinic receptors in NHP lung and (ii) to estimate and compare ipratropium-induced MR occupancy following drug administration via intravenous injection and inhalation, respectively. Methods: A series of PET measurements (n=18) was performed after intravenous injection of the selective muscarinic radioligand C-11-VC-002 in NHP (n=5). The lungs and pituitary gland (both rich in MR) were kept in the field of view. Each PET measurement was followed by a PET measurement preceded by treatment with ipratropium (intravenous or inhaled). Results: Radioligand binding was quantified using the Logan graphical analysis method providing the total volume of distribution (V-T). Ipratropium reduced the V-T in the lung and pituitary in a dose-dependent fashion. At similar plasma ipratropium concentrations, administration by inhalation produced larger reductions in V-T for the lungs. The plasma-derived apparent affinity for ipratropium binding in the lung was one order of magnitude higher after inhalation (K-iih=1.01nM) than after intravenous infusion (K-iiv=10.84nM). Conclusion: Quantitative muscarinic receptor occupancy imaging by PET articulates and quantifies the therapeutic advantage of the inhaled route of delivery and provides a tool for future developments of improved inhaled drugs. BackgroundPositron emission tomography (PET) is a non-invasive molecular imaging technique that traces the distribution of radiolabeled molecules in experimental animals and human subjects. We hypothesized that PET could be used to visualize the binding of the bronchodilator drug ipratropium to muscarinic receptors (MR) in the lungs of living non-human primates (NHP). The objectives of this study were two-fold: (i) to develop a methodology for quantitative imaging of muscarinic receptors in NHP lung and (ii) to estimate and compare ipratropium-induced MR occupancy following drug administration via intravenous injection and inhalation, respectively.MethodsA series of PET measurements (n = 18) was performed after intravenous injection of the selective muscarinic radioligand 11C-VC-002 in NHP (n = 5). The lungs and pituitary gland (both rich in MR) were kept in the field of view. Each PET measurement was followed by a PET measurement preceded by treatment with ipratropium (intravenous or inhaled).ResultsRadioligand binding was quantified using the Logan graphical analysis method providing the total volume of distribution (VT). Ipratropium reduced the VT in the lung and pituitary in a dose-dependent fashion. At similar plasma ipratropium concentrations, administration by inhalation produced larger reductions in VT for the lungs. The plasma-derived apparent affinity for ipratropium binding in the lung was one order of magnitude higher after inhalation (Kiih = 1.01 nM) than after intravenous infusion (Kiiv = 10.84 nM).ConclusionQuantitative muscarinic receptor occupancy imaging by PET articulates and quantifies the therapeutic advantage of the inhaled route of delivery and provides a tool for future developments of improved inhaled drugs. Positron emission tomography (PET) is a non-invasive molecular imaging technique that traces the distribution of radiolabeled molecules in experimental animals and human subjects. We hypothesized that PET could be used to visualize the binding of the bronchodilator drug ipratropium to muscarinic receptors (MR) in the lungs of living non-human primates (NHP). The objectives of this study were two-fold: (i) to develop a methodology for quantitative imaging of muscarinic receptors in NHP lung and (ii) to estimate and compare ipratropium-induced MR occupancy following drug administration via intravenous injection and inhalation, respectively.BACKGROUNDPositron emission tomography (PET) is a non-invasive molecular imaging technique that traces the distribution of radiolabeled molecules in experimental animals and human subjects. We hypothesized that PET could be used to visualize the binding of the bronchodilator drug ipratropium to muscarinic receptors (MR) in the lungs of living non-human primates (NHP). The objectives of this study were two-fold: (i) to develop a methodology for quantitative imaging of muscarinic receptors in NHP lung and (ii) to estimate and compare ipratropium-induced MR occupancy following drug administration via intravenous injection and inhalation, respectively.A series of PET measurements (n = 18) was performed after intravenous injection of the selective muscarinic radioligand 11C-VC-002 in NHP (n = 5). The lungs and pituitary gland (both rich in MR) were kept in the field of view. Each PET measurement was followed by a PET measurement preceded by treatment with ipratropium (intravenous or inhaled).METHODSA series of PET measurements (n = 18) was performed after intravenous injection of the selective muscarinic radioligand 11C-VC-002 in NHP (n = 5). The lungs and pituitary gland (both rich in MR) were kept in the field of view. Each PET measurement was followed by a PET measurement preceded by treatment with ipratropium (intravenous or inhaled).Radioligand binding was quantified using the Logan graphical analysis method providing the total volume of distribution (VT). Ipratropium reduced the VT in the lung and pituitary in a dose-dependent fashion. At similar plasma ipratropium concentrations, administration by inhalation produced larger reductions in VT for the lungs. The plasma-derived apparent affinity for ipratropium binding in the lung was one order of magnitude higher after inhalation (Kiih = 1.01 nM) than after intravenous infusion (Kiiv = 10.84 nM).RESULTSRadioligand binding was quantified using the Logan graphical analysis method providing the total volume of distribution (VT). Ipratropium reduced the VT in the lung and pituitary in a dose-dependent fashion. At similar plasma ipratropium concentrations, administration by inhalation produced larger reductions in VT for the lungs. The plasma-derived apparent affinity for ipratropium binding in the lung was one order of magnitude higher after inhalation (Kiih = 1.01 nM) than after intravenous infusion (Kiiv = 10.84 nM).Quantitative muscarinic receptor occupancy imaging by PET articulates and quantifies the therapeutic advantage of the inhaled route of delivery and provides a tool for future developments of improved inhaled drugs.CONCLUSIONQuantitative muscarinic receptor occupancy imaging by PET articulates and quantifies the therapeutic advantage of the inhaled route of delivery and provides a tool for future developments of improved inhaled drugs. Abstract Background Positron emission tomography (PET) is a non-invasive molecular imaging technique that traces the distribution of radiolabeled molecules in experimental animals and human subjects. We hypothesized that PET could be used to visualize the binding of the bronchodilator drug ipratropium to muscarinic receptors (MR) in the lungs of living non-human primates (NHP). The objectives of this study were two-fold: (i) to develop a methodology for quantitative imaging of muscarinic receptors in NHP lung and (ii) to estimate and compare ipratropium-induced MR occupancy following drug administration via intravenous injection and inhalation, respectively. Methods A series of PET measurements (n = 18) was performed after intravenous injection of the selective muscarinic radioligand 11C-VC-002 in NHP (n = 5). The lungs and pituitary gland (both rich in MR) were kept in the field of view. Each PET measurement was followed by a PET measurement preceded by treatment with ipratropium (intravenous or inhaled). Results Radioligand binding was quantified using the Logan graphical analysis method providing the total volume of distribution (V T ). Ipratropium reduced the V T in the lung and pituitary in a dose-dependent fashion. At similar plasma ipratropium concentrations, administration by inhalation produced larger reductions in V T for the lungs. The plasma-derived apparent affinity for ipratropium binding in the lung was one order of magnitude higher after inhalation (K iih = 1.01 nM) than after intravenous infusion (K iiv = 10.84 nM). Conclusion Quantitative muscarinic receptor occupancy imaging by PET articulates and quantifies the therapeutic advantage of the inhaled route of delivery and provides a tool for future developments of improved inhaled drugs.
ArticleNumber	9
Author	Takano, Akihiro Schou, Magnus Fridén, Markus Ewing, Pär Halldin, Christer Cselenyi, Zsolt Farde, Lars
Author_xml	– sequence: 1 givenname: Magnus orcidid: 0000-0002-4314-2418 surname: Schou fullname: Schou, Magnus email: magnus.schou@astrazeneca.com organization: PET Science Centre, Precision Medicine and Genomics, IMED Biotech Unit, AstraZeneca, Karolinska Institutet, Department of Clinical Neuroscience, Center for Psychiatry Research, Karolinska Institutet and Stockholm County Council – sequence: 2 givenname: Pär surname: Ewing fullname: Ewing, Pär organization: Respiratory, Inflammation and Autoimmunity IMED Biotech Unit, AstraZeneca – sequence: 3 givenname: Zsolt surname: Cselenyi fullname: Cselenyi, Zsolt organization: PET Science Centre, Precision Medicine and Genomics, IMED Biotech Unit, AstraZeneca, Karolinska Institutet – sequence: 4 givenname: Markus surname: Fridén fullname: Fridén, Markus organization: Respiratory, Inflammation and Autoimmunity IMED Biotech Unit, AstraZeneca, Translational PKPD, Department of Pharmaceutical Biosciences, Uppsala University – sequence: 5 givenname: Akihiro surname: Takano fullname: Takano, Akihiro organization: Department of Clinical Neuroscience, Center for Psychiatry Research, Karolinska Institutet and Stockholm County Council – sequence: 6 givenname: Christer surname: Halldin fullname: Halldin, Christer organization: Department of Clinical Neuroscience, Center for Psychiatry Research, Karolinska Institutet and Stockholm County Council – sequence: 7 givenname: Lars surname: Farde fullname: Farde, Lars organization: PET Science Centre, Precision Medicine and Genomics, IMED Biotech Unit, AstraZeneca, Karolinska Institutet, Department of Clinical Neuroscience, Center for Psychiatry Research, Karolinska Institutet and Stockholm County Council
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Snippet	Background Positron emission tomography (PET) is a non-invasive molecular imaging technique that traces the distribution of radiolabeled molecules in... Positron emission tomography (PET) is a non-invasive molecular imaging technique that traces the distribution of radiolabeled molecules in experimental animals... BackgroundPositron emission tomography (PET) is a non-invasive molecular imaging technique that traces the distribution of radiolabeled molecules in... Background: Positron emission tomography (PET) is a non-invasive molecular imaging technique that traces the distribution of radiolabeled molecules in... Abstract Background Positron emission tomography (PET) is a non-invasive molecular imaging technique that traces the distribution of radiolabeled molecules in...
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SubjectTerms	Binding Bronchodilators Cardiac Imaging Field of view Imaging Intravenous infusion Ipratropium Lungs Medical imaging Medicine Medicine & Public Health Muscarinic receptors Nuclear Medicine Oncology Original Research Orthopedics PET Pituitary gland Positron emission Primates Radiology Receptors Respiration Tomography
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Title	Pulmonary PET imaging confirms preferential lung target occupancy of an inhaled bronchodilator
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