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1.
The purpose of this study was to evaluate the cardio-respiratory effects of the combination of medetomidine and thiopentone followed by reversal with atipamezole as a combination for anaesthesia in 10 healthy German Shepherd dogs breathing spontaneously in a room at an altitude of 1486 m above sea level with an ambient air pressure of 651 mmHg. After the placement of intravenous and intra-arterial catheters, baseline samples were collected. Medetomidine (0.010 mg/kg) was administered intravenously and blood pressure and heart rate were recorded every minute for 5 minutes. Thiopentone was then slowly administered until intubation conditions were ideal. An endotracheal tube was placed and the dogs breathed room air spontaneously. Blood pressure, pulse oximetry, respiratory and heart rate, capnography, blood gas analysis and arterial lactate were performed or recorded every 10 minutes for the duration of the trial. Thiopentone was administered to maintain anaesthesia. After 60 minutes, atipamezole (0.025 mg/kg) was given intramuscularly. Data were recorded for the next 30 minutes. A dose of 8.7 mg/kg of thiopentone was required to anaesthetise the dogs after the administration of 0.010 mg/kg of medetomidine. Heart rate decreased from 96.7 at baseline to 38.5 5 minutes after the administration of medetomidine (P < 0.05). Heart rate then increased with the administration of thiopentone to 103.2 (P < 0.05). Blood pressure increased from 169.4/86.2 mmHg to 253.2/143.0 mmHg 5 minutes after the administration of medetomidine (P < 0.05). Blood pressure then slowly returned towards normal. Heart rate and blood pressure returned to baseline values after the administration of atipamezole. Arterial oxygen tension decreased from baseline levels (84.1 mmHg) to 57.8 mmHg after the administration of medetomidine and thiopentone (P < 0.05). This was accompanied by arterial desaturation from 94.7 to 79.7% (P < 0.05). A decrease in respiratory rate from 71.8 bpm to 12.2 bpm was seen during the same period. Respiratory rates slowly increased over the next hour to 27.0 bpm and a further increases 51.4 bpm after the administration of atipamezole was seen (P < 0.05). This was maintained until the end of the observation period. Arterial oxygen tension slowly returned towards normal over the observation period. No significant changes in blood lactate were seen. No correlation was found between arterial saturation as determined by blood gas analysis and pulse oximetry. Recovery after the administration of atipamezole was rapid (5.9 minutes). In healthy dogs, anaesthesia can be maintained with a combination of medetomidine and thiopentone, significant anaesthetic sparing effects have been noted and recovery from anaesthesia is not unduly delayed. Hypoxaemia may be problematic. Appropriate monitoring should be done and oxygen supplementation and ventilatory support should be available. A poor correlation between SpO2 and SaO2 and ETCO2 and PaCO2 was found.  相似文献   

2.
Medetomidine, either 5, 10 or 20 (μg/kg, was administered together with pethidine, 2 mg/kg, by either the intramuscular or subcutaneous route to 88 dogs from a clinical population. Administration of all the drug combinations consistently produced profound sedation in the dogs, accompanied by dramatic reductions in heart rate. The degree of sedation was similar to that seen after 40 μg/kg medetomidine is administered on its own to dogs. Intramuscular administration produced more reliable sedation, but was associated with more pain than subcutaneous administration. In a number of dogs, sedation permitted the completion of various diagnostic or therapeutic procedures. Several dogs were anaesthetised with thiopentone and the induction doses required were characteristically low (mean doses between 2 to 3·3 mg/kg depending on the dose of medetomidine and the route of administration). Administration of atipamezole at the termination of sedation or anaesthesia, produced a rapid and full recovery (mean time to standing between seven and 11 minutes).  相似文献   

3.
Objective To evaluate the sedative effects of medetomidine, and a medetomidine–midazolam combination, in Japanese macaques and the antagonism of medetomidine–midazolam with atipamezole. Study design Prospective randomized study. Animals Thirteen healthy Japanese macaques between 3 and 21 years old and weighing between 4.3 and 15.1 kg. Methods Medetomidine (120 µg kg?1) alone or a medetomidine (30 µg kg?1) plus midazolam (0.3 mg kg?1) mixture were injected intramuscularly in the hind limb of 12 animals (n = 6 for each group) and their effects, particularly behavioural changes, response to external stimuli, sedative onset time, time to lateral recumbency and time in lateral recumbency, were monitored for 120 minutes. Another group (n = 7) were given medetomidine–midazolam and injected 30 minutes later with atipamezole (120 µg kg?1). Behavioural changes and responses to external stimuli were assessed as before. Results Animals given medetomidine became sedated but could be aroused by external stimuli. Despite the lower (25%) dose of medetomidine involved, the effects of medetomidine–midazolam were more marked. Macaques given this combination became sedated in 4 ± 2 minutes (mean ± SD) and remained unresponsive to external stimuli for at least 60 minutes. Five out of six macaques became laterally recumbent for 74 ± 37 minutes. Intramuscular atipamezole effectively reversed sedation, shortening the arousal and total recovery time. The recovery from sedation was rapid and smooth, being completed 19 ± 11 minutes after antagonism. Conclusions The medetomidine–midazolam combination described provided useful chemical restraint and may prove useful in macaques undergoing some experimental, diagnostic or therapeutic procedures. The use of atipamezole as an antagonist increases the value of this technique in macaques.  相似文献   

4.
ObjectiveTo quantify the effects of medetomidine on the onset and duration of vecuronium-induced neuromuscular blockade in dogs.Study designRandomized, prospective clinical study.AnimalsTwenty-four, healthy, client-owned dogs of different breeds, aged between 6 months and 10 years and weighing between 5.0 and 40.0 kg undergoing elective surgery.MethodsDogs were randomly allocated to two groups. Pre-anaesthetic medication in group M+ was intramuscular acepromazine (ACP) 25 μg kg−1, morphine 0.5 mg kg−1 and medetomidine 5 μg kg−1. Group M− received ACP and morphine only, at the same dose rate. After induction with thiopental, anaesthesia was maintained with halothane in oxygen and nitrous oxide. End-tidal halothane concentration was maintained at 1.1%. Neuromuscular blockade was produced with intravenous vecuronium (50 μg kg−1) and monitored using a train of four stimulus applied at the ulnar nerve. The times taken for loss and reappearance of the four evoked responses (twitches [T]) were recorded. Normal and nonparametric data were analysed with an independent t-test and Mann-Whitney's U-test, respectively.ResultsThe fourth twitch (T4) disappeared at similar times in each group: 107 ± 19; [72–132] (mean ± SD; [range]) seconds in M+ and 98 ± 17 [72–120] seconds in M− dogs. The first twitch (T1) was lost at 116 ± 15; [96–132] seconds in group M+ and 109 ± 19; [72–132] seconds in M−. The fourth twitch returned significantly earlier in M+ dogs: 20.8 ± 3.8 [14–28] minutes compared with 23.8 ± 2.7 [20–27] minutes (p = 0.032). The duration of drug effect (T4 absent) was significantly shorter (p = 0.027) in M+ (18.9 ± 3.7 minutes) compared with M− dogs (22.2 ± 2.9 minutes). The recovery rate (interval between reappearance of T1 and T4) was significantly more rapid (p = 0.0003) in medetomidine recipients (3.0 ± 1.2 versus 5.2 ± 1.3 minutes).Conclusion and clinical relevance Medetomidine 5 μg kg−1 as pre-anaesthetic medication shortened the duration of effect of vecuronium in halothane-anaesthetized dogs and accelerated recovery, but did not affect the onset time. These changes are of limited clinical significance.  相似文献   

5.
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6.
Medetomidine 10 μg/kg, was combined with butorphanol 0.1 mg/kg and administered intramuscularly to 27 dogs requiring sedation for various diagnostic or therapeutic procedures. All the dogs became deeply sedated. Heart rate fell by a mean of 55 per cent. Eighteen dogs showed signs of pain as the combination was injected. Sedation was sufficient for the intended procedure to be carried out in 25 of the dogs. General anaesthesia was induced in four dogs — the mean dose of thiopentone required for induction of anaesthesia was 2 mg/kg. Administration of atipamezole at the end of the procedure produced rapid and sudden recoveries in all the dogs, with a mean time to standing of nine minutes.  相似文献   

7.
Observations of cardiovascular and respiratory parameters were made on six dogs anaesthetized on two separate occasions for 120 minutes with a propofol infusion, once without premedication and once following premedication with 10 μg kg-1 of intramuscular medetomidine. During anaesthesia the heart rate and cardiac index tended to be lower following medetomidine premedication, while the mean arterial pressure was significantly greater (p<0.05). Although the differences were not statistically significant, the systemic vascular resistance, pulmonary vascular resistance and stroke volume index were also greater in dogs given medetomidine. The mean arterial oxygen and carbon dioxide tensions were similar under both regimens, but in 2 dogs supplementary oxygen had to be administered during anaesthesia to alleviate severe hypoxaemia on both occasions they were anaesthetized. Minute and tidal volumes of respiration tended to be greater in dogs not given medetomidine but medetomidine premedication appeared to have no effect on venous admixture. Dogs given medetomidine received intramuscular atipamezole at the end of the 120 min. propofol infusion; the mean time from induction of anaesthesia to walking without ataxia was 174. min in the unpremedicated dogs and 160 min. in the dogs given atipamezole. The mean blood propofol concentration at which the dogs walked without ataxia was higher in the unpremedicated animals (2.12 ± 0.077 μg. ml-1 compared with 1.27 ± 0.518 μg. ml-1 in the premedicated dogs). The oxygen delivery to the tissues was lower after medetomidine premedication (p = 0.03) and the oxygen consumption was generally lower after medetomidine premedication but the difference did not achieve statistical significance. No correlation could be demonstrated between blood propofol concentration and cardiac index, systemic or pulmonary vascular resistance indices, systolic, diastolic or mean arterial blood pressures.  相似文献   

8.
Middle latency auditory-evoked potentials were measured in sedated and anaestetised dogs to determine their possible usefulness in monitoring of unconsciousness during anaesthesia and to compare the effects of anaesthetic protocols. There were three groups of five dogs: group I received acepromazine; groups 2 and 3 received medetomidine; 30 minutes later, groups 1 and 2 received thiopentone and group 3 received midazolam and butorphanol. Groups 2 and 3 received atipamezole 60 minutes after medetomidine was administered. Auditory-evoked potentials were recorded at time 15, 40 and 75 minutes. Thiopentone administration resulted in a profound modification of the pattern of response, and several peaks were no longer identified. In group 3, the administration of midazolam-butorphanol tended to increase the latency of the different peaks, but lesser than thiopentone did. Middle latency-evoked potentials appeared to be potentially useful in the monitoring of unconsciousness in the dog.  相似文献   

9.
The effect of premedication with four different intramuscular doses of medetomidine (5.0,10.0, 20.0 and 40.0 μg.kg-1) and a saline placebo were compared in a group of six adult beagle dogs anaesthetised with propofol on five separate occasions. Anaesthesia was induced 30 minutes after premedication and maintained by intravenous injection and continuous infusion of propofol. The effects of medetomidine were reversed with atipamezole 30 minutes after anaesthetic induction. The marked synergistic effects of medetomidine with propofol were demonstrated by a dose related reduction in the induction and infusion requirements for a similar degree of anaesthesia. The effect appeared exponential in nature; lower medetomidine doses produced a disproportionately greater effect.
The maintenance of anaesthesia with propofol following a saline placebo or low doses of medetomidine proved to be difficult. Higher doses of medetomidine required less propofol for induction and infusion and allowed a more stable anaesthesia to be maintained. Propofol produced no statistically significant change in heart rate during infusion. Changes in respiratory rate were markedly group specific. A significant reduction in respiratory rate was seen in dogs given either 5 μg.kg- or 10 μ-g.kg-1 medetomidine. No change was recorded in dogs given 20 /μg.kg-1 medetomidine and a significant increase was seen in dogs given 40 μg.kg-1 medetomidine. Recovery was monitored following the termination of propofol infusion after the reversal of medetomidine using atipamezole at five times the medetomidine dose. Recovery was slower for dogs given lower doses of medetomidine and consequently higher doses of propofol.  相似文献   

10.
Ventilatory effects at induction of anaesthesia were studied following intubation in 66 dogs anaesthetised using thiopentone (10 mg/kg) or propofol (4 mg/kg, injected rapidly or 4 mg/kg, injected slowly). Acepromazine and morphine preanaesthetic medication was administered, and anaesthesia was maintained with halothane in nitrous oxide and oxygen. The time from connection of the breathing system to the first breath was measured. Apnoea was defined as cessation of spontaneous respiration for 15 seconds or longer. Respiratory rate and minute volume were measured for the first five minutes of anaesthesia. Propofol was associated with a greater incidence of apnoea than thiopentone (59 per cent and 64 per cent compared with 32 per cent), but this difference was not statistically significant. Time to first breath was significantly longer with propofol than thiopentone and longest with the slower injection of propofol (P<0.05) (median of four seconds for thiopentone, 19.5 seconds for the propofol rapid injection, and 28.8 seconds for the propofol slow injection). In conclusion, the induction agent and speed of injection affect the incidence and duration of post-intubation apnoea.  相似文献   

11.
OBJECTIVE: To determine sedative and cardiorespiratory effects of i.m. administration of medetomidine alone and in combination with butorphanol or ketamine in dogs. DESIGN: Randomized, crossover study. ANIMALS: 6 healthy adult dogs. PROCEDURES: Dogs were given medetomidine alone (30 micrograms/kg [13.6 micrograms/lb] of body weight, i.m.), a combination of medetomidine (30 micrograms/kg, i.m.) and butorphanol (0.2 mg/kg [0.09 mg/lb], i.m.), or a combination of medetomidine (30 micrograms/kg, i.m.) and ketamine (3 mg/kg [1.36 mg/lb], i.m.). Treatments were administered in random order with a minimum of 1 week between treatments. Glycopyrrolate was given at the same time. Atipamezole (150 micrograms/kg [68 micrograms/lb], i.m.) was given 40 minutes after administration of medetomidine. RESULTS: All but 1 dog (given medetomidine alone) assumed lateral recumbency within 6 minutes after drug administration. Endotracheal intubation was significantly more difficult when dogs were given medetomidine alone than when given medetomidine and butorphanol. At all evaluation times, percentages of dogs with positive responses to tail clamping or to needle pricks in the cervical region, shoulder region, abdominal region, or hindquarters were not significantly different among drug treatments. The Paco2 was significantly higher and the arterial pH and Pao2 were significantly lower when dogs were given medetomidine and butorphanol or medetomidine and ketamine than when they were given medetomidine alone. Recovery quality following atipamezole administration was unsatisfactory in 1 dog when given medetomidine and ketamine. CONCLUSIONS AND CLINICAL RELEVANCE: Results suggested that a combination of medetomidine with butorphanol or ketamine resulted in more reliable and uniform sedation in dogs than did medetomidine alone.  相似文献   

12.
The sedative and physiological effects of intramuscular medetomidine (20 and 40 μg/kg) in dogs were compared with those of xylazine (2 mg/kg). The efficacy of atipamezole (200 μg/kg), as an antagonist given 15 or 45 minutes after medetomidine (40 μg/kg) was studied. Following medetomidine, onset of sedation was rapid, and depth and duration of sedation were dose dependent. The higher dose produced jaw relaxation, depression of the pedal reflex, downward rotation of the eye and dogs could be positioned for radiography of the hips. Side effects were similar after either medetomidine or xylazine, and included bradycardia, a fall in respiratory rate and muscle tremor. Vomiting during induction was less frequent after medetomidine than after xylazine. Intramuscular administration of atipamezole rapidly reversed the sedative effects of medetomidine. Signs of arousal were seen within three minutes; all dogs could stand within 10 minutes and appeared clinically normal. Heart and respiratory rates rose, but did not return to presedation values. Relapse to sedation was not noted.  相似文献   

13.
Twenty-nine dogs undergoing a variety of surgical procedures were assigned randomly to one of two groups. All animals were premedicated with acepromazine (0–05 mg/kg) intramuscularly. Induction of anaesthesia was achieved with thiopentone sodium, or propofol in the case of sight hounds, and maintained with halothane in an oxygen/nitrous oxide mixture using a non-rebreathing circuit. Dogs in group 1 were given flunixin (1 mg/kg made up to 5 ml with 0–9 per cent saline) slowly intravenously 10 minutes before the halothane was switched off. Group 2 dogs received papaveretum (0–2 mg/kg made up to 5 ml with saline] administered as before. Using a visual analogue scale, the dogs were scored for sedation and for pain by trained theatre staff who were unaware of the analgesic used. Scoring was at 15, 30, 60, 120 , 240 and 360 minutes after analgesic administration. Seven dogs were withdrawn from the trial (three from the papaveretum group and four from the group which received flunixin) because analgesia was deemed unsatisfactory and these animals were given pethidine (3 mg/kg intramuscularly) which produced adequate analgesia within 15 minutes in all cases. Clinically, flunixin proved to be as effective a postoperative analgesic as papaveretum for up to six hours and was associated with less sedation, Pain scores were significantly different at two and four hours with flunixin providing more analgesia than papaveretum and at the four hour time point, flunixin was associated with significantly less sedation than papaveretum. From this study it was concluded that flunixin has a place in the treatment of acute post surgical pain, either alone or in combination with opioid analgesics where pain is refractory to treatment with clinical doses of opioids alone.  相似文献   

14.
The quality and duration of anaesthesia, cardiorespiratory effects and recovery characteristics of a morphine, medetomidine, ketamine (MMK) drug combination were determined in cats. Six healthy, adult female cats were administered 0.2 mg/kg morphine sulphate, 60 microg/kg medetomidine hydrochloride, and 5 mg/kg ketamine hydrochloride intramuscularly. Atipamezole was administered intramuscularly at 120 min after MMK administration. Time to lateral recumbency, intubation, extubation and sternal recumbency were recorded. Cardiorespiratory variables and response to a noxious stimulus were recorded before and at 3 min and 10 min increments after drug administration until sternal recumbency. The time to lateral recumbency and intubation were 1.9+/-1.2 and 4.3+/-1.2 min, respectively. Body temperature and haemoglobin saturation with oxygen remained unchanged compared to baseline values throughout anaesthesia. Respiratory rate, tidal volume, minute volume, heart rate, and blood pressure were significantly decreased during anaesthesia compared to baseline values. One cat met criteria for hypotension (systolic blood pressure <90 mmHg). End tidal carbon dioxide increased during anaesthesia compared to baseline values. All but one cat remained non-responsive to noxious stimuli from 3 to 120 min. Time to extubation and sternal recumbency following atipamezole were 2.9+/-1.1 and 4.7+/-1.0 min, respectively. MMK drug combination produced excellent short-term anaesthesia and analgesia with minimal cardiopulmonary depression. Anaesthesia lasted for at least 120 min in all but one cat and was effectively reversed by atipamezole.  相似文献   

15.
Objective To compare the anaesthetic and cardiopulmonary effects of a diazepam–ketamine combination with thiopentone for induction of anaesthesia in dogs. Animal population Twenty healthy dogs of various breeds weighing between 3.8 and 42.6 kg undergoing major orthopaedic or soft tissue surgery. Materials and methods Pre‐anaesthetic medication in all cases was intramuscular acepromazine and methadone given 30 minutes before induction of anaesthesia. Each animal was then randomly assigned to receive either thiopentone or diazepam and ketamine. Quality of conditions for, and time to tracheal intubation were recorded. Anaesthesia was maintained with halothane in oxygen and nitrous oxide. Heart rate, respiratory rate, systolic blood pressure, end tidal carbon dioxide tensions and oxygen saturation were recorded at 10 minute intervals throughout surgery. The quality of recovery from anaesthesia was assessed. Results The quality of induction in both groups was satisfactory. The total mean time (± SD) to tracheal intubation (162 ± 84 seconds) was significantly longer in dogs receiving diazepam and ketamine compared to dogs receiving thiopentone (62 ± 28 seconds). Heart rate, systolic blood pressure and end tidal carbon dioxide concentration were not significantly different between groups. Respiratory rate was significantly higher in the diazepam–ketamine group between 0 and 30 minutes. The quality of recovery was similar in each group. Conclusions There appear to be fewer differences between the induction agents examined in this study than was previously believed. No pressor, or other cardiovascular stimulating effects were detected in the dogs that received diazepam and ketamine. Clinical relevance The absence of obvious differences between groups suggests that pre‐anaesthetic medication, inhaled anaesthetics and the physiological effects of surgery itself probably had a greater effect on the variables studied than the induction agent used. Further studies are required to determine whether diazepam and ketamine offers significant advantages over other induction agents in the unhealthy dog.  相似文献   

16.
Observations were made on 49 dogs aged 3–13 years, of ASA Grades I and 11, during 83 periods of mega-voltage radiotherapy. The dogs weighed 5.847.0 kg and the total duration of anaesthesia ranged from 12–52 min (mean ± sem, 22 ± 8). No premedication was given. Anaesthesia was induced with iv propofol and, following endotracheal intubation, maintained with halothane/nitrous oxide/oxygen and intermittent injections of propofol. The dose of propofol needed to induce jaw relaxation sufficient for intubation was 3.5–10.8 mgkg bwt (5.67 ± 0.15) administered over 7–137 s (36 ± 2). On 91 occasions in 54 periods of anaesthesia, supplementary doses of propofol ranging from 0.2–4.9 mg/kg bwt (1.42 ± 0.14) were needed during positioning for irradiation. The times elapsing from extubation to swallowing, response to voice, spontaneous head lifting and walking were 3, 6, 7 and 13 min, respectively. A 12% incidence of tonic-clonic movements indicated that the method of anaesthesia cannot be regarded as entirely satisfactory for mega-voltage radiotherapy.  相似文献   

17.
The effect of medetomidine (40 μg/ kg) together with levo-methadone (0.5 mg/kg) was evaluated in dogs as a sedative and analgesic premedication followed by a lumbosacral epidural block with mepivacaine 2% or bupi-vacaine 0.5% (0.3–0.5 ml/10cm crown-rump length). When sedation became insufficient in the course of surgery, additional diazepam (0.1–0.2 mg/kg) was administered. Only in 43% of the dogs could surgery be performed without additional sedation. Medetomidine and levo-methadone influenced the cardio-respiratory system markedly. Hypoxaemia as well as hypercarbia were evident. Diazepam had no additional effect on these respiratory changes. After surgery 19 dogs were given atipamezole, 18 received atipamezole and naloxone while 17 received no antagonists. In 10 out of the 19 dogs receiving only atipamezole, fits of excitability were seen, but those receiving atipamezole and naloxone had a quiet recovery.  相似文献   

18.
Propofol by infusion was administered to 6 adult beagle dogs on 2 separate occasions. The dogs received either no premedication or 20 μg/kg im medetomidine 15 min before induction of anaesthesia, with propofol given at 7 mg/kg/min to permit tracheal intubation. After tracheal intubation the infusion rate was maintained for 120 min at 0.4 mg/kg/min in the non-premedicated, and 0.2 mg/kg/min in the premedicated dogs. The latter group received atipamezole 50 μg/kg im immediately at the end of the infusion. After induction of anaesthesia, a 7F balloon catheter designed for thermal dilution measurement of cardiac output was inserted via the right jugular vein. Blood propofol concentrations were measured by HPLC with fluorescence detection and kinetic variables calculated using non-compartmental moment analysis. The induction dose of propofol was 7.00 (sem 0.55) mg/kg in non-premedicated compared with 3.09 (0.25) mg/kg in premedicated dogs. There were differences in systemic clearance and mean residence time (MRTiv); 47.5 (6.2) ml/kg/min vs 29.0 (4.4) ml/kg/min (non-premedicated vs premedicated) and 132.3 (5.2) min vs 152.4 (3.1) min (P < 0.02 and P < 0.001, respectively). Cardiorespiratory effects were similar in the 2 groups although heart rate was lower in the premedicated dogs. Venous admixture was high (20–45%) but similar in the 2 groups.  相似文献   

19.
ObjectiveTo evaluate the clinical and physiologic effects of intramuscular (IM) administration of medetomidine with and without tramadol in dogs.Study designProspective experimental study.AnimalsA group of eight mixed breed dogs of both sexes, aged 1–2 years, weighing 16.0 ± 0.6 kg.MethodsEach dog was studied twice at ≥1 week interval. Medetomidine (5 μg kg–1; treatment M) was administered IM alone or with tramadol (4 mg kg–1; treatment MT). Sedation was scored by a system that included vocalization, posture, appearance, interactive behaviors, resistance to restraint and response to noise. Times from drug administration to ataxia, impaired walking, head drop, sternal and lateral position and standing were recorded. Sedation score, heart rate, respiratory rate, rectal temperature, end-tidal carbon dioxide (Pe′CO2), hemoglobin oxygen saturation and mean noninvasive blood pressure were recorded and compared 15 minutes before and 15, 30 and 45 minutes after drug administration.ResultsDogs administered MT had higher sedation scores than dogs administered M at 30 and 45 minutes after drug administration (p < 0.05). Times to ataxia, impaired walking, head drop and sternal recumbency were not different between the treatments. Time to lateral recumbency was longer in M than in MT (21.1 ± 1.0 versus 17.6 ± 0.7 minutes, respectively; p < 0.05). Time to standing was longer in MT than in M (67.9 ± 1.4 versus 54.5 ± 1.9 minutes, respectively; p < 0.001). Measured physiological variables did not differ between the treatments, with the exception of Pe′CO2, which was higher in MT than in M at all post-treatment evaluation times (p < 0.001).Conclusions and clinical relevanceTramadol combined with medetomidine resulted in greater sedation scores (deeper sedation) than medetomidine alone in dogs, and minimal adverse changes in the physiologic variables were measured.  相似文献   

20.
Two intravenous doses of romifldine (40 and 80 μg/kg) and a placebo were compared as premedicants for anaesthesia induced with thiopentone and maintained using halothane in oxygen. Romifldine significantly and linearly reduced the induction dose of thiopentone; placebo-treated dogs required 15.1 ± 3.6 mg/kg, while dogs treated with 40 μg/kg and 80 μg/kg romifldine required 6.5 ± 1.6 and 3.9 ± 0.3 mg/kg thiopentone, respectively.
Romlfldine also significantly and linearly reduced the end tidal halothane concentration necessary to maintain a predetermined level of anaesthesia; piacebetreated dogs required 1.6 ± 0.3 per cent halothane, while dogs treated with 40 μg/kg and 80 μg/kg romifldine required 1.3 ± 0.4 and 0–8 ± 0.2 per cent, respectively.
Romifldine produced a significant shortening In the recovery from anaesthesia, and the higher dose of romlfldine significantly improved the overall quality of anaesthesia.  相似文献   

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