UNLABELLED: The cannabinoid type-1 (CB1) receptor is one of the most abundant G-coupled protein receptors in the human body and is responsible for signal transduction of both endogenous and exogenous cannabinoids. The endocannabinoid system is strongly implicated in regulation of homeostasis and several neuropsychiatric disorders, obesity, and associated comorbidities, such as dyslipidemia and metabolic syndrome. We have used whole-body PET/CT to characterize the biodistribution and dosimetry of a novel high-affinity, subtype-selective radioligand, (18)F-MK-9470, in healthy male and female subjects. METHODS: Eight nonobese subjects (5 men, 3 women; age, 22-54 y) underwent serial whole-body PET/CT for 6 h after a bolus injection of 251 +/- 25 MBq (18)F-MK-9470 (N-[2-(3-cyano-phenyl)-3-(4-(2-(18)F-fluorethoxy)phenyl)-1-methylpropyl]-2-(5-methyl-2-pyridyloxy)-2-methylproponamide). Source organs were delineated 3-dimensionally using the combined morphologic and functional data. Residence times were derived from time-activity profiles using both the trapezoid rule and curve fitting. Individual organ doses and effective doses were determined using the OLINDA software package, with different approaches for gastrointestinal and urinary excretion modeling. RESULTS: (18)F-MK-9470 is taken up slowly in the brain, reaching a plateau at approximately 90-120 min after bolus injection and is excreted predominantly through the hepatobiliary system. The gallbladder, upper large intestine, small intestine, and liver are the organs with the highest absorbed dose (average: 159, 98, 87, and 86 microGy/MBq, respectively). The mean effective dose (ED) was 22.8 +/- 4.3 microSv/MBq, indicating relatively low intersubject variability and a mean value in the range of many commercially available (18)F-labeled radiopharmaceuticals. Brain uptake was relatively high compared with that of existing central nervous system ligands for other receptors, between 3.2% and 4.9% of the injected dose. CONCLUSION: The estimated radiation burden of (18)F-MK-9470 for PET CB1 receptor imaging shows relatively low variability between subjects and has an acceptable ED, which allows multiple serial cerebral scans of good image quality, while remaining within the risk category class II-b defined by the World Health Organization and the International Commission for Radiation Protection for a standard injected activity (185-370 MBq).
UNLABELLED: The cannabinoid type-1 (CB1) receptor is one of the most abundant G-coupled protein receptors in the human body and is responsible for signal transduction of both endogenous and exogenous cannabinoids. The endocannabinoid system is strongly implicated in regulation of homeostasis and several neuropsychiatric disorders, obesity, and associated comorbidities, such as dyslipidemia and metabolic syndrome. We have used whole-body PET/CT to characterize the biodistribution and dosimetry of a novel high-affinity, subtype-selective radioligand, (18)F-MK-9470, in healthy male and female subjects. METHODS: Eight nonobese subjects (5 men, 3 women; age, 22-54 y) underwent serial whole-body PET/CT for 6 h after a bolus injection of 251 +/- 25 MBq (18)F-MK-9470 (N-[2-(3-cyano-phenyl)-3-(4-(2-(18)F-fluorethoxy)phenyl)-1-methylpropyl]-2-(5-methyl-2-pyridyloxy)-2-methylproponamide). Source organs were delineated 3-dimensionally using the combined morphologic and functional data. Residence times were derived from time-activity profiles using both the trapezoid rule and curve fitting. Individual organ doses and effective doses were determined using the OLINDA software package, with different approaches for gastrointestinal and urinary excretion modeling. RESULTS: (18)F-MK-9470 is taken up slowly in the brain, reaching a plateau at approximately 90-120 min after bolus injection and is excreted predominantly through the hepatobiliary system. The gallbladder, upper large intestine, small intestine, and liver are the organs with the highest absorbed dose (average: 159, 98, 87, and 86 microGy/MBq, respectively). The mean effective dose (ED) was 22.8 +/- 4.3 microSv/MBq, indicating relatively low intersubject variability and a mean value in the range of many commercially available (18)F-labeled radiopharmaceuticals. Brain uptake was relatively high compared with that of existing central nervous system ligands for other receptors, between 3.2% and 4.9% of the injected dose. CONCLUSION: The estimated radiation burden of (18)F-MK-9470 for PET CB1 receptor imaging shows relatively low variability between subjects and has an acceptable ED, which allows multiple serial cerebral scans of good image quality, while remaining within the risk category class II-b defined by the World Health Organization and the International Commission for Radiation Protection for a standard injected activity (185-370 MBq).
Authors: Garth E Terry; Jussi Hirvonen; Jeih-San Liow; Nicholas Seneca; Johannes T Tauscher; John M Schaus; Lee Phebus; Christian C Felder; Cheryl L Morse; Victor W Pike; Christer Halldin; Robert B Innis Journal: Eur J Nucl Med Mol Imaging Date: 2010-03-24 Impact factor: 9.236
Authors: Sandra Marina Sanabria-Bohórquez; Terence G Hamill; Karolien Goffin; Inge De Lepeleire; Guy Bormans; H Donald Burns; Koen Van Laere Journal: Eur J Nucl Med Mol Imaging Date: 2009-12-24 Impact factor: 9.236
Authors: Noble George; Emily G Gean; Ayon Nandi; Boris Frolov; Eram Zaidi; Ho Lee; James R Brašić; Dean F Wong Journal: CNS Drugs Date: 2015-04 Impact factor: 5.749
Authors: Santiago Bullich; Mark Slifstein; Jan Passchier; N Venkatesha Murthy; Lawrence S Kegeles; Jong-Hoon Kim; Xiaoyan Xu; Roger N Gunn; Raul Herance; Juan Domingo Gispert; Antonio Gutiérrez; Magí Farré; Marc Laruelle; Ana M Catafau Journal: Mol Imaging Biol Date: 2011-08 Impact factor: 3.488
Authors: Domokos Máthé; Ildikó Horváth; Krisztián Szigeti; Sean R Donohue; Victor W Pike; Zisheng Jia; Catherine Ledent; Miklós Palkovits; Tamás F Freund; Christer Halldin; Balázs Gulyás Journal: Brain Res Bull Date: 2013-01-11 Impact factor: 4.077
Authors: Krista Lisdahl Medina; Tim McQueeny; Bonnie J Nagel; Karen L Hanson; Tony T Yang; Susan F Tapert Journal: Addict Biol Date: 2009-07-24 Impact factor: 4.280