Test-retest variability of serotonin 5-HT2A receptor binding measured with positron emission tomography and [18F]altanserin in the human brain

The role of serotonin in CNS function and in many neuropsychiatric diseases (e.g., schizophrenia, affective disorders, degenerative dementias) support the development of a reliable measure of serotonin receptor binding in vivo in human subjects. To this end, the regional distribution and intrasubjec...

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Published inSynapse (New York, N.Y.) Vol. 30; no. 4; pp. 380 - 392
Main Authors Smith, Gwenn S., Price, Julie C., Lopresti, Brian J., Huang, Yiyun, Simpson, Norman, Holt, Daniel, Mason, N. Scott, Cidis Meltzer, Carolyn, Sweet, Robert A., Nichols, Thomas, Sashin, Donald, Mathis, Chester A.
Format Journal Article
LanguageEnglish
Published New York John Wiley & Sons, Inc 01.12.1998
Subjects
5-HT2A
Adult
Animals
Brain - diagnostic imaging
Brain - metabolism
Female
Fluorine Radioisotopes
Humans
imaging
Ketanserin - analogs & derivatives
Ketanserin - blood
Ketanserin - metabolism
Ketanserin - pharmacokinetics
Male
Models, Neurological
positron emission tomography (PET)
Rats
Receptors, Serotonin - metabolism
Reference Values
Reproducibility of Results
serotonin receptor
Tomography, Emission-Computed
Online AccessGet full text
ISSN0887-4476
1098-2396
DOI10.1002/(SICI)1098-2396(199812)30:4<380::AID-SYN5>3.0.CO;2-U

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Abstract The role of serotonin in CNS function and in many neuropsychiatric diseases (e.g., schizophrenia, affective disorders, degenerative dementias) support the development of a reliable measure of serotonin receptor binding in vivo in human subjects. To this end, the regional distribution and intrasubject test–retest variability of the binding of [18F]altanserin were measured as important steps in the further development of [18F]altanserin as a radiotracer for positron emission tomography (PET) studies of the serotonin 5‐HT2A receptor. Two high specific activity [18F]altanserin PET studies were performed in normal control subjects (n = 8) on two separate days (2–16 days apart). Regional specific binding was assessed by distribution volume (DV), estimates that were derived using a conventional four compartment (4C) model, and the Logan graphical analysis method. For both analysis methods, levels of [18F]altanserin binding were highest in cortical areas, lower in the striatum and thalamus, and lowest in the cerebellum. Similar average differences of 13% or less were observed for the 4C model DV determined in regions with high receptor concentrations with greater variability in regions with low concentrations (16–20%). For all regions, the absolute value of the test–retest differences in the Logan DV values averaged 12% or less. The test–retest differences in the DV ratios (regional DV values normalized to the cerebellar DV) determined by both data analysis methods averaged less than 10%. The regional [18F]altanserin DV values using both of these methods were significantly correlated with literature‐based values of the regional concentrations of 5‐HT2A receptors determined by postmortem autoradiographic studies (r2 = 0.95, P < 0.001 for the 4C model and r2 = 0.96, P < 0.001 for the Logan method). Brain uptake studies in rats demonstrated that two different radiolabeled metabolites of [18F]altanserin (present at levels of 3–25% of the total radioactivity in human plasma 10–120 min postinjection) were able to penetrate the blood–brain barrier. However, neither of these radiolabeled metabolites bound specifically to the 5‐HT2A receptor and did not interfere with the interpretation of regional [18F]altanserin‐specific binding parameters obtained using either a conventional 4C model or the Logan graphical analysis method. In summary, these results demonstrate that the test–retest variability of [18F]altanserin‐specific binding is comparable to that of other PET radiotracers and that the regional specific binding of [18F]altanserin in human brain was correlated with the known regional distribution of 5‐HT2A receptors. These findings support the usefulness of [18F]altanserin as a radioligand for PET studies of 5‐HT2A receptors. Synapse 30:380–392, 1998. © 1998 Wiley‐Liss, Inc.
AbstractList The role of serotonin in CNS function and in many neuropsychiatric diseases (e.g., schizophrenia, affective disorders, degenerative dementias) support the development of a reliable measure of serotonin receptor binding in vivo in human subjects. To this end, the regional distribution and intrasubject test–retest variability of the binding of [18F]altanserin were measured as important steps in the further development of [18F]altanserin as a radiotracer for positron emission tomography (PET) studies of the serotonin 5‐HT2A receptor. Two high specific activity [18F]altanserin PET studies were performed in normal control subjects (n = 8) on two separate days (2–16 days apart). Regional specific binding was assessed by distribution volume (DV), estimates that were derived using a conventional four compartment (4C) model, and the Logan graphical analysis method. For both analysis methods, levels of [18F]altanserin binding were highest in cortical areas, lower in the striatum and thalamus, and lowest in the cerebellum. Similar average differences of 13% or less were observed for the 4C model DV determined in regions with high receptor concentrations with greater variability in regions with low concentrations (16–20%). For all regions, the absolute value of the test–retest differences in the Logan DV values averaged 12% or less. The test–retest differences in the DV ratios (regional DV values normalized to the cerebellar DV) determined by both data analysis methods averaged less than 10%. The regional [18F]altanserin DV values using both of these methods were significantly correlated with literature‐based values of the regional concentrations of 5‐HT2A receptors determined by postmortem autoradiographic studies (r2 = 0.95, P < 0.001 for the 4C model and r2 = 0.96, P < 0.001 for the Logan method). Brain uptake studies in rats demonstrated that two different radiolabeled metabolites of [18F]altanserin (present at levels of 3–25% of the total radioactivity in human plasma 10–120 min postinjection) were able to penetrate the blood–brain barrier. However, neither of these radiolabeled metabolites bound specifically to the 5‐HT2A receptor and did not interfere with the interpretation of regional [18F]altanserin‐specific binding parameters obtained using either a conventional 4C model or the Logan graphical analysis method. In summary, these results demonstrate that the test–retest variability of [18F]altanserin‐specific binding is comparable to that of other PET radiotracers and that the regional specific binding of [18F]altanserin in human brain was correlated with the known regional distribution of 5‐HT2A receptors. These findings support the usefulness of [18F]altanserin as a radioligand for PET studies of 5‐HT2A receptors. Synapse 30:380–392, 1998. © 1998 Wiley‐Liss, Inc.
The role of serotonin in CNS function and in many neuropsychiatric diseases (e.g., schizophrenia, affective disorders, degenerative dementias) support the development of a reliable measure of serotonin receptor binding in vivo in human subjects. To this end, the regional distribution and intrasubject test-retest variability of the binding of [18F]altanserin were measured as important steps in the further development of [18F]altanserin as a radiotracer for positron emission tomography (PET) studies of the serotonin 5-HT2A receptor. Two high specific activity [18F]altanserin PET studies were performed in normal control subjects (n = 8) on two separate days (2-16 days apart). Regional specific binding was assessed by distribution volume (DV), estimates that were derived using a conventional four compartment (4C) model, and the Logan graphical analysis method. For both analysis methods, levels of [18F]altanserin binding were highest in cortical areas, lower in the striatum and thalamus, and lowest in the cerebellum. Similar average differences of 13% or less were observed for the 4C model DV determined in regions with high receptor concentrations with greater variability in regions with low concentrations (16-20%). For all regions, the absolute value of the test-retest differences in the Logan DV values averaged 12% or less. The test-retest differences in the DV ratios (regional DV values normalized to the cerebellar DV) determined by both data analysis methods averaged less than 10%. The regional [18F]altanserin DV values using both of these methods were significantly correlated with literature-based values of the regional concentrations of 5-HT2A receptors determined by postmortem autoradiographic studies (r2 = 0.95, P < 0.001 for the 4C model and r2 = 0.96, P < 0.001 for the Logan method). Brain uptake studies in rats demonstrated that two different radiolabeled metabolites of [18F]altanserin (present at levels of 3-25% of the total radioactivity in human plasma 10-120 min postinjection) were able to penetrate the blood-brain barrier. However, neither of these radiolabeled metabolites bound specifically to the 5-HT2A receptor and did not interfere with the interpretation of regional [18F]altanserin-specific binding parameters obtained using either a conventional 4C model or the Logan graphical analysis method. In summary, these results demonstrate that the test-retest variability of [18F]altanserin-specific binding is comparable to that of other PET radiotracers and that the regional specific binding of [18F]altanserin in human brain was correlated with the known regional distribution of 5-HT2A receptors. These findings support the usefulness of [18F]altanserin as a radioligand for PET studies of 5-HT2A receptors.
Author Mason, N. Scott
Huang, Yiyun
Price, Julie C.
Nichols, Thomas
Simpson, Norman
Lopresti, Brian J.
Smith, Gwenn S.
Sweet, Robert A.
Sashin, Donald
Cidis Meltzer, Carolyn
Holt, Daniel
Mathis, Chester A.
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Jones, B. and Cuello, A. (1989) Afferents to the basal forebrain cholinergic cell area from pontomesencephalic, catecholamine, serotonin and acetylcholine neurons Neuroscience, 31: 37-46.
Leysen, J. (1990) Gaps and peculiarities in 5-HT2 receptor studies. Neuropsychopharmacology, 3: 361-369.
Mathis, C., Mahmood, K., Huang, H., Simpson, N., Gerdes, J. and Price, J. (1996) Synthesis and preliminary in vivo evaluation of[11C]MDL 100907: A potent and selective radioligand for the 5-HTZA receptor system. Med. Chem. Res., 6: 1-10.
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Spoont, M. (1992) Modulatory role of serotonin in neural information processing: Implications for human psychopathology Psychiatr. Bull., 112: 330-350.
Mathis, C., Simpson, N., Mahmood, K., Kinahan, P. and Mintun, M. (1994) [11C] -WAY-100,635: A radioligand for imaging 5-HT1A receptors with positron emission tomography. Life Sci., 55: 403-407.
Huang, S., Hoffman, E., Phelps, M. and Kuhl, D. (1979) Quantitation in positron emission tomography. 2. Effects of inaccurate attenuation correction. J. Comput. Assist. Tomogr., 3: 804-814.
Suehiro, M., Scheffel, U., Dannals, R., Ravert, H., Ricaute, G. and Wagner, H. (1993) A PET radiotracer for studying serotonin reuptake sites: Carbon-11-McN-5652Z J. Nucl. Med., 34: 120-127.
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Pazos, A., Probst, A. and Palacios, J. (1987) Serotonin receptors in the human brain. IV. Autoradiographic mapping of serotoninz receptors Neuroscience, 21: 123-139.
Strother, S. C., Anderson, J. R., Xu, X. L., Liow, J. S., Bonar, D. C. and Rottenberg, D. A. (1994) Quantitative comparisons of image registration techniques based on high-resolution MRI of the brain J. Comput. Assist. Tomogr., 18: 954-962.
Pate, B., Snow, B., Hewitt, K., Morisson, S., Ruth, T. and Calne, D. (1991) The reproducibility of striatal uptake data obtained with positron emission tomography and fluorine-18-L-6-fluorodopa tracer in non-human primates. J. Nucl. Med., 32: 1246-1251.
Malone, K., Thase, M., Mieczkowski, T., Myers, J., Stull, S., Cooper, T. and Mann, J. (1993) Fenfluramine challenge test as a predictor of outcome in major depression Psychopharmacol. Bull., 29: 155-161.
Mason, N. S., Huang, Y., Holt, D., Pervuznik, J., Lopresti, B. and Mathis, C. (1997) Synthesis of two radiolabelled metabolites of [18F]-altanserin: [18F]-3-[2-4-(4-fluorophenylmethanol) -piperidinyl-Jethyl]-2-3-dihydro-2-thioxo-4-(1H)-quinazolidone and [18F]4-(4-fluoro-benzoylpiperidine). J. Labeled Compounds Radiopharm., XL: 161-162.
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Morilak, D., Garlow, S. and Ciaranello, R. (1994a) Immunocytochemical localization and description of neurons expressing serotoninz receptor in the rat brain. Neuroscience, 54: 701-717.
Hollander, E., DeCaria, C., Nitescu, A., Gully, R., Suckow, R., Cooper, T., Gorman, J., K
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Mann (10.1002/(SICI)1098-2396(199812)30:4<380::AID-SYN5>3.0.CO;2-U-BIB31) 1996; 153
Van Bockstaele (10.1002/(SICI)1098-2396(199812)30:4<380::AID-SYN5>3.0.CO;2-U-BIB56) 1994; 647
Strother (10.1002/(SICI)1098-2396(199812)30:4<380::AID-SYN5>3.0.CO;2-U-BIB53) 1994; 18
Volkow (10.1002/(SICI)1098-2396(199812)30:4<380::AID-SYN5>3.0.CO;2-U-BIB57) 1993; 34
Meltzer (10.1002/(SICI)1098-2396(199812)30:4<380::AID-SYN5>3.0.CO;2-U-BIB36) 1991; 8
Azmitia (10.1002/(SICI)1098-2396(199812)30:4<380::AID-SYN5>3.0.CO;2-U-BIB2) 1986; 43
Biver (10.1002/(SICI)1098-2396(199812)30:4<380::AID-SYN5>3.0.CO;2-U-BIB6) 1994; 21
Logan (10.1002/(SICI)1098-2396(199812)30:4<380::AID-SYN5>3.0.CO;2-U-BIB28) 1991; 9
Minoshima (10.1002/(SICI)1098-2396(199812)30:4<380::AID-SYN5>3.0.CO;2-U-BIB38) 1992; 33
Herregodts (10.1002/(SICI)1098-2396(199812)30:4<380::AID-SYN5>3.0.CO;2-U-BIB16) 1991; 542
Bartlett (10.1002/(SICI)1098-2396(199812)30:4<380::AID-SYN5>3.0.CO;2-U-BIB3) 1988; 8
Leysen (10.1002/(SICI)1098-2396(199812)30:4<380::AID-SYN5>3.0.CO;2-U-BIB26) 1990; 3
Lopresti (10.1002/(SICI)1098-2396(199812)30:4<380::AID-SYN5>3.0.CO;2-U-BIB29) 1998
Benloucif (10.1002/(SICI)1098-2396(199812)30:4<380::AID-SYN5>3.0.CO;2-U-BIB4) 1993; 265
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Spoont (10.1002/(SICI)1098-2396(199812)30:4<380::AID-SYN5>3.0.CO;2-U-BIB50) 1992; 112
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Mason (10.1002/(SICI)1098-2396(199812)30:4<380::AID-SYN5>3.0.CO;2-U-BIB32) 1997; XL
McCarley (10.1002/(SICI)1098-2396(199812)30:4<380::AID-SYN5>3.0.CO;2-U-BIB35) 1975; 189
Peroutka (10.1002/(SICI)1098-2396(199812)30:4<380::AID-SYN5>3.0.CO;2-U-BIB45) 1994; 18
Diksic (10.1002/(SICI)1098-2396(199812)30:4<380::AID-SYN5>3.0.CO;2-U-BIB13) 1990; 9
Besret (10.1002/(SICI)1098-2396(199812)30:4<380::AID-SYN5>3.0.CO;2-U-BIB5) 1996; 23
Steinbusch (10.1002/(SICI)1098-2396(199812)30:4<380::AID-SYN5>3.0.CO;2-U-BIB52) 1981; 6
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Huang (10.1002/(SICI)1098-2396(199812)30:4<380::AID-SYN5>3.0.CO;2-U-BIB20) 1979; 3
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Meuldermans (10.1002/(SICI)1098-2396(199812)30:4<380::AID-SYN5>3.0.CO;2-U-BIB37) 1984; 12
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Rinaldi-Carmona (10.1002/(SICI)1098-2396(199812)30:4<380::AID-SYN5>3.0.CO;2-U-BIB48) 1992; 262
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Arora (10.1002/(SICI)1098-2396(199812)30:4<380::AID-SYN5>3.0.CO;2-U-BIB1) 1991; 85
Logan (10.1002/(SICI)1098-2396(199812)30:4<380::AID-SYN5>3.0.CO;2-U-BIB27) 1990; 10
Mathis (10.1002/(SICI)1098-2396(199812)30:4<380::AID-SYN5>3.0.CO;2-U-BIB33) 1994; 55
Deutsch (10.1002/(SICI)1098-2396(199812)30:4<380::AID-SYN5>3.0.CO;2-U-BIB11) 1991; 4
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Dahlstrom (10.1002/(SICI)1098-2396(199812)30:4<380::AID-SYN5>3.0.CO;2-U-BIB10) 1984; 232
Pike (10.1002/(SICI)1098-2396(199812)30:4<380::AID-SYN5>3.0.CO;2-U-BIB46) 1995; 22
Wolf (10.1002/(SICI)1098-2396(199812)30:4<380::AID-SYN5>3.0.CO;2-U-BIB58) 1991; 18
Leibowitz (10.1002/(SICI)1098-2396(199812)30:4<380::AID-SYN5>3.0.CO;2-U-BIB23) 1986; 7
Leysen (10.1002/(SICI)1098-2396(199812)30:4<380::AID-SYN5>3.0.CO;2-U-BIB25) 1989
Pazos (10.1002/(SICI)1098-2396(199812)30:4<380::AID-SYN5>3.0.CO;2-U-BIB43) 1985; 346
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Morilak (10.1002/(SICI)1098-2396(199812)30:4<380::AID-SYN5>3.0.CO;2-U-BIB40) 1994b; 11
Mathis (10.1002/(SICI)1098-2396(199812)30:4<380::AID-SYN5>3.0.CO;2-U-BIB34) 1996; 6
Gross-Isseroff (10.1002/(SICI)1098-2396(199812)30:4<380::AID-SYN5>3.0.CO;2-U-BIB15) 1990; 519
Hoyer (10.1002/(SICI)1098-2396(199812)30:4<380::AID-SYN5>3.0.CO;2-U-BIB19) 1994; 46
Dewey (10.1002/(SICI)1098-2396(199812)30:4<380::AID-SYN5>3.0.CO;2-U-BIB12) 1990; 5
Suehiro (10.1002/(SICI)1098-2396(199812)30:4<380::AID-SYN5>3.0.CO;2-U-BIB54) 1993; 34
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Snippet The role of serotonin in CNS function and in many neuropsychiatric diseases (e.g., schizophrenia, affective disorders, degenerative dementias) support the...
SourceID pubmed
crossref
wiley
istex
SourceType Index Database
Publisher
StartPage 380
SubjectTerms 5-HT2A
Adult
Animals
Brain - diagnostic imaging
Brain - metabolism
Female
Fluorine Radioisotopes
Humans
imaging
Ketanserin - analogs & derivatives
Ketanserin - blood
Ketanserin - metabolism
Ketanserin - pharmacokinetics
Male
Models, Neurological
positron emission tomography (PET)
Rats
Receptors, Serotonin - metabolism
Reference Values
Reproducibility of Results
serotonin receptor
Tomography, Emission-Computed
Title Test-retest variability of serotonin 5-HT2A receptor binding measured with positron emission tomography and [18F]altanserin in the human brain
URI https://api.istex.fr/ark:/67375/WNG-GC8TH9HB-V/fulltext.pdf
https://onlinelibrary.wiley.com/doi/abs/10.1002%2F%28SICI%291098-2396%28199812%2930%3A4%3C380%3A%3AAID-SYN5%3E3.0.CO%3B2-U
https://www.ncbi.nlm.nih.gov/pubmed/9826230
Volume 30
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