Anestesia por infusão contínua de propofol em cães pré-medicados com acepromazina e fentanil Anesthesia by continuous infusion of propofol in dogs premedicated with acepromazine and fentanyl

O propofol (2,6 diisopropilfenol) é um agente hipnótico de ultra curta duração que produz sedação e hipnose similar aos barbitúricos, sendo desprovido de ação analgésica. Quimicamente, é o único agente anestésico venoso que pode ser usado tanto na indução como na manutenção anestésica. O presente trabalho objetivou avaliar freqüência cardíaca, respiratória, oximetria, pressão arterial média, volume minuto e volume corrente em cães pré-medicados com acepromazina e fentanil e anestesiados por infusão contínua de propofol. Dez cães foram submetidos à medicação pré-anestésica com acepromazina (0,1mg.kg-1) e fentanil (0,01mg.kg-1), indução (3,16mg.kg-1) e manutenção anestésica com propofol em infusão contínua por noventa minutos, na velocidade de 0,4mg.kg-1.min-1. Os parâmetros foram mensurados imediatamente após a indução, 10, 20, 30, 60 e 90 minutos após; final da infusão e 30 minutos após o seu término. Os parâmetros foram analisados por análise de variância para valores repetidos e as médias foram analisadas pelo teste de Tuckey em nível de 5%. O protocolo utilizado não produziu variações estatisticamente significativas em nenhum dos parâmetros analisados. Um animal apresentou apnéia durante a indução. Embasado nesses resultados, verifica-se que o presente protocolo é seguro e eficaz para a realização de anestesia venosa em caninos.<br>Propofol (2,6 diisopropylphenol) is an ultra short duration hypnotic agent that produces sedation and hypnosis similar to barbituric agent, but lacks analgesic action. This is a chemically unique anesthetic agent that can be used for induction and anesthetic maintenance. The objective of this research was to evaluate the cardiac and respiratory rate, oximetry, mean arterial blood pressure and tidal volume and minute volume in dogs premedicated with acepromazine and fentanyl and anesthetized by continuous infusion by propofol. Ten dogs were submitted to anesthesia by continuous propofol infusion during ninety minutes. Using acepromazine (0.1mg.kg-1) and fentanyl (0.01mg.kg-1) as pre anesthetic drugs, anesthesia was induced using propofol (3.16mg.kg-1) and maintained by continuous infusion of propofol in a rate of 0.4mg.kg-1 .min-1. The parameters were measured immediately after induction, at 10, 20, 30, 60 and 90 minutes following induction; by the end of infusion and 30 minutes after the end of infusion. The parameters were analyzed by analysis of variance for repeated measures and the means were analyzed by the Tuckey test to 5% of significance. The protocol used had no statistical effect on the parameters analyzed. One animal showed apnea during the induction phase. The results obtained in this experiment suggest that this protocol might be safely and efficiently used for routine intravenous anesthesia in dogs

The Sample Analysis at Mars Investigation and Instrument Suite

International audienceThe Sample Analysis at Mars (SAM) investigation of the Mars Science Laboratory (MSL) addresses the chemical and isotopic composition of the atmosphere and volatiles extracted from solid samples. The SAM investigation is designed to contribute substantially to the mission goal of quantitatively assessing the habitability of Mars as an essential step in the search for past or present life on Mars. SAM is a 40 kg instrument suite located in the interior of MSL's Curiosity rover. The SAM instruments are a quadrupole mass spectrometer, a tunable laser spectrometer, and a 6-column gas chromatograph all coupled through solid and gas processing systems to provide complementary information on the same samples. The SAM suite is able to measure a suite of light isotopes and to analyze volatiles directly from the atmosphere or thermally released from solid samples. In addition to measurements of simple inorganic compounds and noble gases SAM will conduct a sensitive search for organic compounds with either thermal or chemical extraction from sieved samples delivered by the sample processing system on the Curiosity rover's robotic arm