@article{charlton_benito_simpson_freire_lascelles_2013, title={Evaluation of the clinical use of tepoxalin and meloxicam in cats}, volume={15}, ISSN={["1532-2750"]}, url={https://dx.doi.org/10.1177/1098612x12473994}, DOI={10.1177/1098612x12473994}, abstractNote={ Medical records where tepoxalin (Zubrin) or meloxicam (Metacam) were prescribed in cats were reviewed and data extracted. Comparisons were performed for exploring changes between pre- and post-non-steroidal anti-inflammatory drug course laboratory tests. Seventy-nine medical records fit the inclusion criteria (n = 57 and n = 22, tepoxalin and meloxicam, respectively). The median dosages administered were 13 and 0.029 mg/kg/day (tepoxalin and meloxicam, respectively). Median prescription durations were 11 (2–919) and 93 (4–1814) days for tepoxalin and meloxicam, respectively. Suspected adverse events were reported for tepoxalin (9%, 5/57 cats) and meloxicam (18%, 4/22 cats) a median of 774 and 448 days, respectively, after the prescription started. For cats prescribed meloxicam, there were several statistically significant changes for serum biochemistry and hematology parameters, but median values were within normal limits. These valuable clinical data suggest that tepoxalin and meloxicam are well tolerated in the clinical setting at the doses prescribed in this study. }, number={8}, journal={JOURNAL OF FELINE MEDICINE AND SURGERY}, author={Charlton, Anna N. and Benito, Javier and Simpson, Wendy and Freire, Mila and Lascelles, B. Duncan X.}, year={2013}, month={Aug}, pages={678–690} }
 @article{davis_yi_salmon_charlton_colitz_gilger_2012, title={Sustained-Release Celecoxib from Incubated Acrylic Intraocular Lenses Suppresses Lens Epithelial Cell Growth in an Ex Vivo Model of Posterior Capsule Opacity}, volume={28}, ISSN={["1080-7683"]}, DOI={10.1089/jop.2011.0196}, abstractNote={PURPOSE
To determine whether celecoxib (CXB) can be released from incubated intraocular lenses (IOLs) sufficiently to inhibit lens epithelial cell (LEC) growth in an ex vivo model of posterior capsule opacification (PCO).


MATERIALS
LEC growth was evaluated for 14 days in canine lens capsules (LCs) that had been exposed to media containing 20 μM CXB for 1-5 days. After the incubation of hydrophilic and hydrophobic IOLs in CXB solution, the determination of the in vitro release of CXB from the IOLs was performed for up to 28 days. The incubated and nonincubated IOLs were evaluated in the ex vivo model of PCO, and the rate of LEC growth was evaluated over 28 days.


RESULTS
The treatment of LCs with 20 μM CXB for 4 and 5 days completely inhibited LEC growth. LEC repopulation did not occur after the removal of CXB. IOLs incubated in CXB for 24 h resulted in a sustained release of CXB in vitro at levels theoretically sufficient to inhibit PCO. LCs in the ex vivo model of PCO treated with acrylic IOLs incubated in CXB had significantly suppressed LEC ingrowth compared with untreated and IOL-only LCs.


CONCLUSIONS
A 4-day treatment of LCs with a concentration of 20 μM CXB may effectively prevent PCO. IOLs incubated in CXB for 24 h resulted in a sustained release of CXB in vitro at levels sufficient to inhibit LEC growth in the ex vivo model of PCO. Further studies are needed to determine whether CXB-incubated IOLs can effectively prevent the development of PCO in vivo.}, number={4}, journal={JOURNAL OF OCULAR PHARMACOLOGY AND THERAPEUTICS}, author={Davis, Jennifer L. and Yi, Na Young and Salmon, Jacklyn H. and Charlton, Anna N. and Colitz, Carmen M. H. and Gilger, Brian C.}, year={2012}, month={Aug}, pages={359–368} }