OBJECTIVE: There is evidence supporting a therapeutic range for methotrexate polyglutamate (MTXGlu) concentrations in the treatment of rheumatoid arthritis (RA). Knowledge of the pharmacokinetics of MTXGlu1-5 is required for optimal timing of blood sampling. The aim of this study was to determine the time to steady state and the half-life of accumulation of red blood cell (RBC) MTXGlu1-5 in patients with RA commencing oral MTX, and the time for RBC MTXGlu1-5 to become undetectable and the half-life of elimination of RBC MTXGlu1-5 in patients ceasing treatment with oral MTX. METHODS: Ten patients beginning treatment and 10 patients stopping treatment with low-dose oral MTX were recruited. Blood samples were initially collected weekly, with gradual extension to monthly collection over the study period. RBC MTXGlu1-5 concentrations were assayed by high-performance liquid chromatography. Results were analyzed using a first-order exponential method. RESULTS: The median times to reach steady state in RBCs (defined as 90% of the maximum concentration) were 6.2, 10.6, 41.2, 149, and 139.8 weeks, respectively, for MTXGlu1, MTXGlu2, MTXGlu3, MTXGlu4, and MTXGlu5. The median half-life of accumulation for RBC MTXGlu1-5 ranged from 1.9 weeks to 45.2 weeks. The median times for MTXGlus to become undetectable in RBCs were 4.5, 5.5, 10, 6, and 4 weeks, respectively, for MTXGlu1, MTXGlu2, MTXGlu3, MTXGlu4, and MTXGlu5. The median half-life of elimination for RBC MTXGlu1-5 ranged from 1.2 weeks to 4.3 weeks. CONCLUSION: There is wide interpatient variability of RBC MTXGlu1-5 accumulation and elimination in adults with RA. These data also suggest that after a dose change, >6 months are required for RBC MTXGlu1-5 to reach steady state. Such delays in achieving steady state suggest that more rapid dose escalation or subcutaneous administration from the outset should be considered.
OBJECTIVE: There is evidence supporting a therapeutic range for methotrexate polyglutamate (MTXGlu) concentrations in the treatment of rheumatoid arthritis (RA). Knowledge of the pharmacokinetics of MTXGlu1-5 is required for optimal timing of blood sampling. The aim of this study was to determine the time to steady state and the half-life of accumulation of red blood cell (RBC) MTXGlu1-5 in patients with RA commencing oral MTX, and the time for RBC MTXGlu1-5 to become undetectable and the half-life of elimination of RBC MTXGlu1-5 in patients ceasing treatment with oral MTX. METHODS: Ten patients beginning treatment and 10 patients stopping treatment with low-dose oral MTX were recruited. Blood samples were initially collected weekly, with gradual extension to monthly collection over the study period. RBC MTXGlu1-5 concentrations were assayed by high-performance liquid chromatography. Results were analyzed using a first-order exponential method. RESULTS: The median times to reach steady state in RBCs (defined as 90% of the maximum concentration) were 6.2, 10.6, 41.2, 149, and 139.8 weeks, respectively, for MTXGlu1, MTXGlu2, MTXGlu3, MTXGlu4, and MTXGlu5. The median half-life of accumulation for RBC MTXGlu1-5 ranged from 1.9 weeks to 45.2 weeks. The median times for MTXGlus to become undetectable in RBCs were 4.5, 5.5, 10, 6, and 4 weeks, respectively, for MTXGlu1, MTXGlu2, MTXGlu3, MTXGlu4, and MTXGlu5. The median half-life of elimination for RBC MTXGlu1-5 ranged from 1.2 weeks to 4.3 weeks. CONCLUSION: There is wide interpatient variability of RBC MTXGlu1-5 accumulation and elimination in adults with RA. These data also suggest that after a dose change, >6 months are required for RBC MTXGlu1-5 to reach steady state. Such delays in achieving steady state suggest that more rapid dose escalation or subcutaneous administration from the outset should be considered.
Authors: L A Davis; B Polk; A Mann; R K Wolff; G S Kerr; A M Reimold; G W Cannon; T R Mikuls; L Caplan Journal: Clin Exp Rheumatol Date: 2014-01-20 Impact factor: 4.473
Authors: Hamid J Mohamed; Michael J Sorich; Stefan M Kowalski; Ross McKinnon; Susanna M Proudman; Leslie Cleland; Michael D Wiese Journal: Eur J Clin Pharmacol Date: 2015-02-18 Impact factor: 2.953
Authors: Dong-Yang Liu; Hoi-Kei Lon; Yan-Lin Wang; Debra C DuBois; Richard R Almon; William J Jusko Journal: Biopharm Drug Dispos Date: 2013-04-07 Impact factor: 1.627
Authors: Julia Korell; Lisa K Stamp; Murray L Barclay; Judith M Dalrymple; Jill Drake; Mei Zhang; Stephen B Duffull Journal: Clin Pharmacokinet Date: 2013-06 Impact factor: 6.447