Manickam Aravagiri1, Stephen R Marder. 1. Psychopharmacology Unit, University of California at Los Angeles, VA Greater Los Angeles Healthcare System, Building 210, #15, 11301 Wilshire Boulevard, Los Angeles, CA 90073, USA. kannan@ucla.edu
Abstract
RATIONALE: Following an oral dose of risperidone (RSP), concentrations of its major metabolite 9-hydroxyrisperidone (9-OHRSP) were high in plasma and tissues but disproportionately lower in the brain compared to RSP, indicating that 9-OHRSP may have different pharmacokinetic properties. OBJECTIVES: To investigate non-compartmental pharmacokinetics of RSP and 9-OHRSP in plasma, brain and other tissues after separate administration of a single oral dose of 6 mg/kg RSP and 9-OHRSP to rats. METHODS: Plasma, brain, liver, lung, kidney and spleen tissues were collected at pre-dose and at 0.5, 1, 2, 5, 6, 12, 24, 36 and 48 h post-dose, homogenized in saline and assayed for RSP and 9-OHRSP using a sensitive and specific liquid chromatography tandem mass spectrometry method. RESULTS: The concentration-time curve of RSP and 9-OHRSP showed that they were readily absorbed and followed a multiphase elimination pattern. The terminal elimination half-life (t(1/2) ) of RSP after the RSP dose was longest in the liver (17.6 h) and shortest in the spleen (1.2 h). The t(1/2)of 9-OHRSP after the RSP dose was shorter in plasma (3.4 h) and other tissues (approximately 8-11 h) than that for RSP but it was longer in the spleen. However, the t(1/2) of 9-OHRSP after the 9-OHRSP dose was shorter in most tissues as compared to the t(1/2) of 9-OHRSP after the RSP dose. The area under the concentration-time curve (AUC) of RSP and 9-OHRSP was 6-67 times higher in the plasma and tissues than in the brain. AUCs of 9-OHRSP in tissues after the RSP dose were 2-5 times higher than those for RSP, except in the brain, where AUCs of RSP and 9-OHRSP were similar. CONCLUSION: Pharmacokinetics of 9-OHRSP in many tissues were different after RSP and 9-OHRSP doses. The reason for disproportionate brain levels of 9-OHRSP is not clear. The overall exposure to active drug in the brain as represented by AUC was similar after the RSP and 9-OHRSP doses and the 9-OHRSP is probably an equal contributor to the pharmacological actions of RSP.
RATIONALE: Following an oral dose of risperidone (RSP), concentrations of its major metabolite 9-hydroxyrisperidone (9-OHRSP) were high in plasma and tissues but disproportionately lower in the brain compared to RSP, indicating that 9-OHRSP may have different pharmacokinetic properties. OBJECTIVES: To investigate non-compartmental pharmacokinetics of RSP and 9-OHRSP in plasma, brain and other tissues after separate administration of a single oral dose of 6 mg/kg RSP and 9-OHRSP to rats. METHODS: Plasma, brain, liver, lung, kidney and spleen tissues were collected at pre-dose and at 0.5, 1, 2, 5, 6, 12, 24, 36 and 48 h post-dose, homogenized in saline and assayed for RSP and 9-OHRSP using a sensitive and specific liquid chromatography tandem mass spectrometry method. RESULTS: The concentration-time curve of RSP and 9-OHRSP showed that they were readily absorbed and followed a multiphase elimination pattern. The terminal elimination half-life (t(1/2) ) of RSP after the RSP dose was longest in the liver (17.6 h) and shortest in the spleen (1.2 h). The t(1/2)of 9-OHRSP after the RSP dose was shorter in plasma (3.4 h) and other tissues (approximately 8-11 h) than that for RSP but it was longer in the spleen. However, the t(1/2) of 9-OHRSP after the 9-OHRSP dose was shorter in most tissues as compared to the t(1/2) of 9-OHRSP after the RSP dose. The area under the concentration-time curve (AUC) of RSP and 9-OHRSP was 6-67 times higher in the plasma and tissues than in the brain. AUCs of 9-OHRSP in tissues after the RSP dose were 2-5 times higher than those for RSP, except in the brain, where AUCs of RSP and 9-OHRSP were similar. CONCLUSION: Pharmacokinetics of 9-OHRSP in many tissues were different after RSP and 9-OHRSP doses. The reason for disproportionate brain levels of 9-OHRSP is not clear. The overall exposure to active drug in the brain as represented by AUC was similar after the RSP and 9-OHRSP doses and the 9-OHRSP is probably an equal contributor to the pharmacological actions of RSP.
Authors: Jun-Sheng Wang; Hao-Jie Zhu; John S Markowitz; Jennifer L Donovan; C Lindsay DeVane Journal: Psychopharmacology (Berl) Date: 2006-06-30 Impact factor: 4.530
Authors: Magdalena Kozielska; Martin Johnson; Venkatesh Pilla Reddy; An Vermeulen; Cheryl Li; Sarah Grimwood; Rik de Greef; Geny M M Groothuis; Meindert Danhof; Johannes H Proost Journal: Pharm Res Date: 2012-03-22 Impact factor: 4.200
Authors: Claire Rourke; Kathryn R Starr; Charlie Reavill; Sue Fenwick; Kim Deadman; Declan N C Jones Journal: Psychopharmacology (Berl) Date: 2005-12-07 Impact factor: 4.530
Authors: Sridhar Natesan; Greg E Reckless; Karen B L Barlow; John Odontiadis; José N Nobrega; Glen B Baker; Susan R George; David Mamo; Shitij Kapur Journal: Psychopharmacology (Berl) Date: 2008-06-03 Impact factor: 4.530