REASONS FOR STUDY: To determine whether low-dose, low-frequency doxycycline administration is capable of achieving chondroprotective concentrations within synovial fluid (SF) while remaining below minimum inhibitory concentration 90 (MIC90 ) of most equine pathogens and would be an option in the management of osteoarthritis. OBJECTIVES: To determine whether low-dose, low-frequency oral administration of doxycycline can attain in vivo SF concentrations capable of chondroprotective effects through reduction of matrix metalloproteinase (MMP)-13 activity, while remaining below MIC90 of most equine pathogens. STUDY DESIGN: Descriptive pharmacokinetic study with crossover design. METHODS: Two groups of 6 horses received oral doxycycline. Plasma and SF doxycycline concentrations were measured using high performance liquid chromatography. Group 1 received 5 mg/kg bwt q. 24 h with 21 blood and 8 SF samples collected over 120 h; Group 2 received 5 mg/kg bwt q. 48 h with 27 blood and 11 SF samples collected over 192 h. Cultured synoviocytes were treated with interleukin-1α (1 ng/ml) for 24 h to stimulate MMP synthesis, and then SF was added to the culture medium for 96 h. MMP-13 protein and mRNA were measured in synoviocyte culture medium and synoviocytes, respectively. RESULTS: Mean doxycycline concentration ≥0.043 μg/ml (previously demonstrated to inhibit MMP-13) was achieved in plasma by t = 0.25 h and SF by t = 48 h in Group 1, and in plasma by t = 0.17 h and SF by t = 1 h in Group 2. Synoviocyte culture medium containing doxycycline from Groups 1 and 2 had significantly decreased active MMP-13 protein concentration, and synoviocytes cultured in this medium had significantly decreased MMP-13 gene expression compared to controls. Plasma doxycycline concentration in both groups and SF doxycycline concentration in Group 2 demonstrated a cumulative effect. CONCLUSIONS: Low-dose orally administered doxycycline achieves SF concentrations in vivo capable of diminishing MMP-13 expression. This study supports the use of doxycycline as a disease modifying osteoarthritic drug.
REASONS FOR STUDY: To determine whether low-dose, low-frequency doxycycline administration is capable of achieving chondroprotective concentrations within synovial fluid (SF) while remaining below minimum inhibitory concentration 90 (MIC90 ) of most equine pathogens and would be an option in the management of osteoarthritis. OBJECTIVES: To determine whether low-dose, low-frequency oral administration of doxycycline can attain in vivo SF concentrations capable of chondroprotective effects through reduction of matrix metalloproteinase (MMP)-13 activity, while remaining below MIC90 of most equine pathogens. STUDY DESIGN: Descriptive pharmacokinetic study with crossover design. METHODS: Two groups of 6 horses received oral doxycycline. Plasma and SF doxycycline concentrations were measured using high performance liquid chromatography. Group 1 received 5 mg/kg bwt q. 24 h with 21 blood and 8 SF samples collected over 120 h; Group 2 received 5 mg/kg bwt q. 48 h with 27 blood and 11 SF samples collected over 192 h. Cultured synoviocytes were treated with interleukin-1α (1 ng/ml) for 24 h to stimulate MMP synthesis, and then SF was added to the culture medium for 96 h. MMP-13 protein and mRNA were measured in synoviocyte culture medium and synoviocytes, respectively. RESULTS: Mean doxycycline concentration ≥0.043 μg/ml (previously demonstrated to inhibit MMP-13) was achieved in plasma by t = 0.25 h and SF by t = 48 h in Group 1, and in plasma by t = 0.17 h and SF by t = 1 h in Group 2. Synoviocyte culture medium containing doxycycline from Groups 1 and 2 had significantly decreased active MMP-13 protein concentration, and synoviocytes cultured in this medium had significantly decreased MMP-13 gene expression compared to controls. Plasma doxycycline concentration in both groups and SF doxycycline concentration in Group 2 demonstrated a cumulative effect. CONCLUSIONS: Low-dose orally administered doxycycline achieves SF concentrations in vivo capable of diminishing MMP-13 expression. This study supports the use of doxycycline as a disease modifying osteoarthritic drug.
Authors: Jessica M Gilbertie; Thomas P Schaer; Julie B Engiles; Gabriela S Seiler; Bennett L Deddens; Alicia G Schubert; Megan E Jacob; Darko Stefanovski; Gordon Ruthel; Noreen J Hickok; Devorah M Stowe; Alexa Frink; Lauren V Schnabel Journal: Front Cell Infect Microbiol Date: 2022-05-30 Impact factor: 6.073
Authors: T J Divers; R B Gardner; J E Madigan; S G Witonsky; J J Bertone; E L Swinebroad; S E Schutzer; A L Johnson Journal: J Vet Intern Med Date: 2018-02-22 Impact factor: 3.333
Authors: Jessica M Gilbertie; Julie M Long; Alicia G Schubert; Alix K Berglund; Thomas P Schaer; Lauren V Schnabel Journal: Front Vet Sci Date: 2018-07-04