This study assessed the efficacy of meloxicam, flunixin, and ketoprofen in piglets undergoing routine castration and tail-docking. Six-day-old male piglets (8/group) received one of five randomized treatments: intramuscular saline (SAL PROC), meloxicam (MEL; 0.4 mg/kg), flunixin (FLU; 2.2 mg/kg), ketoprofen (KETO; 3.0 mg/kg) or sham (SAL SHAM; saline injection, no processing). Two hours post-dose, piglets were castrated and tail-docked. Plasma cortisol, interstitial fluid (ISF) prostaglandin E2 (PGE2) and activity levels via Actical® monitoring were used to estimate pain. SAL SHAM and FLU exhibited lower cortisol concentrations than SAL PROC at the time of processing (p = 0.003 and p = 0.049, respectively), and all NSAIDs exhibited lower PGE2 than SAL PROC at 3.69 hours (MEL p = 0.050; FLU p = 0.043 and KETO p = 0.031). While not statistically significant, PGE2 was higher in SAL PROC piglets vs. other treatment groups at most time points. There was also a high degree of variability between piglets, especially for SAL PROC. Activity levels were significantly decreased at multiple time points in SAL PROC and MEL piglets following processing. However, FLU and KETO piglets had increased activity levels closer to that of the SAL SHAM group, suggesting that these NSAIDs are more effective than MEL in providing analgesia. These results demonstrate that management strategies including administration of intramuscular flunixin or ketoprofen to reduce pain associated with processing will likely improve piglet health and welfare in the United States.
Objective: To evaluate the sterility of bupivacaine liposome injectable suspension (Nocita ® ) used in a multiple-dose fashion for 5 days.Study design: Triplicate liposomal bupivacaine vials were stored under two conditions, (1) room temperature (24 C) and (2) refrigerated temperature (5 C). A 3-mL aliquot was withdrawn from each vial daily. Samples were inoculated in tryptic soy broth in triplicate and then incubated for 24 hours at 37 C and subcultured every 48 hours onto blood agar and Sabouraud dextrose agar, respectively. Separate 1.5-mL aliquots of liposomal bupivacaine were centrifuged at 3500 g to separate liposome-encapsulated bupivacaine from the solution. Concentration of unencapsulated bupivacaine was analyzed via highpressure liquid chromatography. Data were analyzed by using mixed effects procedure with multiple comparisons.Sample population: Ten 20-mL vials of bupivacaine liposome injectable suspension stored under two conditions, (1) room temperature (24 C) and(2) refrigerated temperature (5 C). Results: Five days of repeated withdrawal from the single-use vials yielded no bacterial growth. One control vial, which was opened and punctured once on the last day of the experiment, yielded fungal growth of an Aspergillus spp, likely an environmental contaminant. The concentration of free bupivacaine did not significantly differ until the fifth day of sampling. Conclusion: When aseptic technique was used, liposomal bupivacaine remained sterile for 5 days. Concentrations of free bupivacaine were unchanged from baseline for 4 days in both refrigerated and room temperature conditions.Clinical significance: Single-use liposomal bupivacaine vials can be used extralabel in a multiple-dose fashion for up to 4 days when stored either refrigerated or room temperature when sterile technique is used.
Intestinal ischemia results in mucosal injury, including paracellular barrier loss due to disruption of tight junctions. Larazotide acetate (LA), a small peptide studied in Phase III clinical trials for treatment of celiac disease, regulates tight junctions (TJs). We hypothesized that LA would dose-dependently hasten recovery of intestinal ischemic injury via modulation of TJs. Ischemia-injured tissue from 6-8-week-old pigs was recovered in Ussing chambers for 240-minutes in the presence of LA. LA (1 μM but not 0.1 μM or 10 μM) significantly enhanced transepithelial electrical resistance (TER) above ischemic injured controls and significantly reduced serosal-to-mucosal flux LPS (P<0.05). LA (1 μM) enhanced localization of the sealing tight junction protein claudin-4 in repairing epithelium. To assess for the possibility of fragmentation of LA, anin vitroenzyme degradation assay using the brush border enzyme aminopeptidase M, revealed generation of peptide fragments. Western blot analysis of total protein isolated from uninjured and ischemia-injured porcine intestine showed aminopeptidase M enzyme presence in both tissue types, and mass spectrometry analysis of samples collected duringex vivoanalysis confirmed formation of LA fragments. Treatment of tissues with LA fragments had no effect alone, but treatment with a fragment missing both amino-terminus glycines inhibited barrier recovery stimulated by 1 μM LA. To reduce potential LA inhibition by fragments, a D-amino acid analog of larazotide Analog #6, resulted in a significant recovery response at a 10-fold lower dose (0.1 μM) similar in magnitude to that of 1 μM LA. We conclude that LA stimulates repair of ischemic-injured epithelium at the level of the tight junctions, at an optimal dose of 1 μM LA. Higher doses were less effective because of inhibition by LA fragments, which could be subverted by chirally-modifying the molecule, or microdosing LA.
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