Abstract
BackgroundSepsis research relies on animal models to investigate the mechanisms of the dysregulated host response to infection. Animal welfare concerns request the use of potent analgesics for the Refinement of existing sepsis models, according to the 3Rs principle. Nevertheless, adequate analgesia is often missing, partly because the effects of analgesics in this particular condition are unknown. We evaluated the use of nalbuphine, an opioid with kappa agonistic and mu antagonistic effects, in rats with and without experimental sepsis.MethodsMale Wistar rats were anesthetized with isoflurane and instrumented with a venous line for drug administration. Arterial cannulation allowed for blood pressure measurements and blood sampling in short-term experiments of non-septic animals. Nalbuphine (or placebo) was administered intravenously at a dose of 1 mg/kg/h. Long-term (48 h) experiments in awake septic animals included repetitive clinical scoring with the Rat Grimace Scale and continuous heart rate monitoring by telemetry. Sepsis was induced by intraperitoneal injection of faecal slurry. Nalbuphine plasma levels were measured by liquid chromatography—high resolution mass spectrometry.ResultsIn anesthetized healthy animals, nalbuphine led to a significant reduction of respiratory rate, heart rate, and mean arterial pressure during short-term experiments. In awake septic animals, a continuous nalbuphine infusion did not affect heart rate but significantly improved the values of the Rat Grimace Scale. Nalbuphine plasma concentrations remained stable between 4 and 24 h of continuous infusion in septic rats.ConclusionsIn anaesthetised rats, nalbuphine depresses respiratory rate, heart rate, and blood pressure. In awake animals, nalbuphine analgesia improves animal welfare during sepsis.
Highlights
Sepsis research relies on animal models to investigate the mechanisms of the dysregulated host response to infection
Short-term experiments (30 min) During isoflurane anaesthesia, an infusion of nalbuphine at 1 mg/kg/h led to a significant reduction of respiratory rate, heart rate and mean arterial pressure (Table 2) compared to the placebo-group
The main findings of this study were that (a) nalbuphine led to a reduction of respiratory rate, heart rate and mean arterial pressure during general anaesthesia with isoflurane; (b) a fivefold increase of the nalbuphine dose did not worsen these variables compared to the lower dose; (c) a continuous nalbuphine infusion did not affect the behaviour of sham animals; (d) septic animals receiving nalbuphine had lower values in the Rat Grimace Scale, which could reflect reduced pain and distress perception; (e) in septic animals, continuous nalbuphine infusion had no influence on heart rate; and (f ) nalbuphine plasma concentrations were stable without accumulation over time
Summary
Sepsis research relies on animal models to investigate the mechanisms of the dysregulated host response to infection. Animal welfare concerns request the use of potent analgesics for the Refinement of existing sepsis models, according to the 3Rs principle. Adequate analgesia is often missing, partly because the effects of analgesics in this particular condition are unknown. Faecal peritonitis in rats is a widely used animal model in sepsis research [4,5,6,7] To date, this animal model has mostly been performed without adequate analgesia, faecal peritonitis may cause considerable suffering [8]. Adequate analgesia is often missing, partly because treatment recommendations are missing, partly because the effects of analgesics in this particular condition are unknown [3]. We recently reviewed different analgesic regimens in sepsis models [10]
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