PURPOSE: To establish a pharmacokinetic model for the model drug, sodium diatrizoate (DTZ), allowing joint disappearance kinetics to be estimated from serum appearance kinetics following intra-articular administration, and to calculate the relative joint exposure after intravenous and intra-articular DTZ administration (F(iv/IA)). METHODS: Each of five horses received an aqueous solution of 3.9 mg/kg sodium diatrizoate both intravenously and intra-articularly separated by a one-week wash out period. Serum and synovial samples were collected over 7 h and analyzed for content of model compound using inductively coupled plasma mass spectrometry. RESULTS: Differential equations were used for describing the transport of DTZ between the joint and the central compartment. The three-compartment lag-time model obtained demonstrates that the rate of drug appearance in the systemic circulation equals the rate of disappearance from the joint compartment. Following intravenous and intra-articular administration, an average F(iv/IA) of 0.04% (n = 4) was calculated based on the synovial fluid profiles of DTZ. CONCLUSIONS: This study implies that aspects of the intra-articular fate of DTZ can be obtained from serum data in case synovial fluid samplings are limited, for various possible reasons. The low F(iv/IA) may stimulate future research in the field of intra-articular administration of anti-osteoarthritic drugs.
PURPOSE: To establish a pharmacokinetic model for the model drug, sodium diatrizoate (DTZ), allowing joint disappearance kinetics to be estimated from serum appearance kinetics following intra-articular administration, and to calculate the relative joint exposure after intravenous and intra-articularDTZ administration (F(iv/IA)). METHODS: Each of five horses received an aqueous solution of 3.9 mg/kg sodium diatrizoate both intravenously and intra-articularly separated by a one-week wash out period. Serum and synovial samples were collected over 7 h and analyzed for content of model compound using inductively coupled plasma mass spectrometry. RESULTS: Differential equations were used for describing the transport of DTZ between the joint and the central compartment. The three-compartment lag-time model obtained demonstrates that the rate of drug appearance in the systemic circulation equals the rate of disappearance from the joint compartment. Following intravenous and intra-articular administration, an average F(iv/IA) of 0.04% (n = 4) was calculated based on the synovial fluid profiles of DTZ. CONCLUSIONS: This study implies that aspects of the intra-articular fate of DTZ can be obtained from serum data in case synovial fluid samplings are limited, for various possible reasons. The low F(iv/IA) may stimulate future research in the field of intra-articular administration of anti-osteoarthritic drugs.
Authors: Katherine M C Totten; Scott A Cunningham; Naomi M Gades; Athema Etzioni; Robin Patel Journal: Front Pharmacol Date: 2022-05-20 Impact factor: 5.988