Kristen M. Messenger scite author profile

BackgroundAcid suppressant drugs are a mainstay of treatment for cats with gastrointestinal erosion and ulceration. However, clinical studies have not been performed to compare the efficacy of commonly PO administered acid suppressants in cats.Hypothesis/ObjectivesTo compare the effect of PO administered famotidine, fractionated omeprazole tablet (fOT), and omeprazole reformulated paste (ORP) on intragastric pH in cats. We hypothesized that both omeprazole formulations would be superior to famotidine and placebo.AnimalsSix healthy adult DSH colony cats.MethodsUtilizing a randomized, 4‐way crossover design, cats received 0.88–1.26 mg/kg PO q12h fOT, ORP, famotidine, and placebo (lactose capsules). Intragastric pH monitoring was used to continuously record intragastric pH for 96 hours beginning on day 4 of treatment. Plasma omeprazole concentrations at steady state (day 7) were determined by high performance liquid chromatography (HPLC) with ultraviolet detection. Mean percentage time that intragastric pH was ≥3 and ≥4 were compared among groups using ANOVA with a posthoc Tukey‐Kramer test (α = 0.05).ResultsThe mean percentage time ± SD that intragastric pH was ≥3 was 68.4 ± 35.0% for fOT, 73.9 ± 23.2% for ORP, 42.8 ± 18.6% for famotidine, and 16.0 ± 14.2% for placebo. Mean ± SD plasma omeprazole concentrations were similar in cats receiving fOT compared to those receiving ORP and in a range associated with acid suppression reported in other studies.Conclusions and Clinical ImportanceThese results suggest that both omeprazole formulations provide superior acid suppression in cats compared to famotidine or placebo. Fractionated enteric‐coated OT is an effective acid suppressant despite disruption of the enteric coating.

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Intravenous and sublingual buprenorphine in horses: pharmacokinetics and influence of sampling site

Messenger

Davis

LaFevers

et al. 2011

Veterinary Anaesthesia and Analgesia

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The pharmacokinetics of cytarabine in dogs when administered via subcutaneous and continuous intravenous infusion routes

Crook

Early

Messenger

et al. 2012

Vet Pharm & Therapeutics

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This crossover study compared the pharmacokinetics of cytarabine in six healthy dogs following intravenous constant rate infusion (CRI) and subcutaneous (SC) administrations, as these are two routes of administration commonly employed in the treatment of meningoencephalitis of unknown etiology. Each dog received a SC cytarabine injection of 50 mg/m(2) or an 8 h CRI of 25 mg/m(2) per hour, with a 7-day washout before receiving the alternative treatment. Blood samples were collected for 16 h after CRI initiation and for 8 h after SC injection. Plasma concentrations were measured by high-pressure liquid chromatography (HPLC). Pharmacokinetic parameters were estimated using the best-fit compartmental analysis for both CRI and SC routes. Terminal half-life (T(1/2) ) of cytarabine was 1.35 ± 0.3 and 1.15 ± 0.13 h after SC administration and CRI, respectively. Mean peak concentration (Cmax ) was 2.88 and 2.80 μg/mL for SC and CRI administration, respectively. Volume of distribution was 0.66 ± 0.07 l/kg. The 8-h CRI produced steady-state plasma concentrations as determined by consecutive measurement that did not decline until the end of the infusion. The SC administration did not achieve steady-state concentrations because cytarabine administered by this route was rapidly absorbed and eliminated quickly. The steady state achieved with the cytarabine CRI may produce a more prolonged exposure of cytarabine at cytotoxic levels in plasma compared to the concentrations after SC administration.

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Distribution of enrofloxacin and its active metabolite, using anin vivoultrafiltration sampling technique after the injection of enrofloxacin to pigs

Messenger

Papich

Blikslager

2011

Vet Pharm & Therapeutics

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The objective of this study was to determine the pharmacokinetics (PK) of enrofloxacin in pigs and compare to the tissue interstitial fluid (ISF). Six healthy, young pigs were administered 7.5 mg/kg enrofloxacin subcutaneously (SC). Blood and ISF samples were collected from preplaced intravenous catheters and ultrafiltration sampling probes placed in three different tissue sites (intramuscular, subcutaneous, and intrapleural). Enrofloxacin concentrations were measured using high-pressure liquid chromatography with fluorescence detection, PK parameters were analyzed using a one-compartment model, and protein binding was determined using a microcentrifugation system. Concentrations of the active metabolite ciprofloxacin were negligible. The mean ± SD enrofloxacin plasma half-life, volume of distribution, clearance, and peak concentration were 26.6 ± 6.2 h (harmonic mean), 6.4 ± 1.2 L/kg, 0.18 ± 0.08 L/kg/h, and 1.1 ± 0.3 μg/mL, respectively. The half-life of enrofloxacin from the tissues was 23.6 h, and the maximum concentration was 1.26 μg/mL. Tissue penetration, as measured by a ratio of area-under-the-curve (AUC), was 139% (± 69%). Plasma protein binding was 31.1% and 37.13% for high and low concentrations, respectively. This study demonstrated that the concentration of biologically active enrofloxacin in tissues exceeds the concentration predicted by the unbound fraction of enrofloxacin in pig plasma. At a dose of 7.5 mg/kg SC, the high tissue concentrations and long half-life produce an AUC/MIC ratio sufficient for the pathogens that cause respiratory infections in pigs.

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The effect of combined carprofen and omeprazole administration on gastrointestinal permeability and inflammation in dogs

Jones

Gaier

Enomoto

et al. 2020

Veterinary Internal Medicne

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Background: Proton pump inhibitors (eg, omeprazole) commonly are administered concurrently with nonsteroidal anti-inflammatory drugs (NSAIDs; eg, carprofen) as prophylaxis to decrease the risk of gastrointestinal (GI) injury. However, evidence to support this practice is weak, and it might exacerbate dysbiosis and inflammation. Hypothesis/Objectives: To evaluate the effect of carprofen alone or combined with omeprazole in dogs. We hypothesized that coadministration of omeprazole and carprofen would significantly increase GI permeability and dysbiosis index (DI) compared to no treatment or carprofen alone. Animals: Six healthy adult colony beagle dogs. Methods: Gastrointestinal permeability and inflammation were assessed by serum lipopolysaccharide (LPS) concentration, plasma iohexol concentration, fecal DI, and fecal calprotectin concentration in a prospective, 3-period design. In the first 7-day period, dogs received no intervention (baseline). During the 2nd period, dogs received 4 mg/kg of carprofen q24h PO for 7 days. In the 3rd period, dogs received 4 mg/kg of carprofen q24h and 1 mg/kg of omeprazole q12h PO for 7 days. Gastrointestinal permeability testing was performed at the end of each period. Data were analyzed using repeated measures mixed model analysis of variance with Tukey-Kramer post hoc tests (P < .05). Results: Serum LPS and plasma iohexol concentrations did not differ between treatments. Fecal calprotectin concentrations differed between treatments (P = .03). The DI varied over time based on the treatment received (P = .03). Coadministration of omeprazole and carprofen significantly increased fecal calprotectin concentration and DI compared to baseline and carprofen alone.

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