Hyaluronidase shortens levobupivacaine lumbosacral epidural anaesthesia in dogs

Objectives : The aim of this study was to evaluate the effects of hyaluronidase added to levobupivacaine in lumbosacral epidural blockade in dogs. Methods : Six adult mixed breed dogs (two males and four females) weighing 7 to 14 kg (10·5 ±1·5 kg) and aged two to five years were used. Each dog received both treatments in random order: levobupivacaine alone (LBA; n=6) or levobupivacaine plus hyaluronidase (LBH; n=6) administered in the lumbosacral epidural space. Systemic effects, spread and duration of anaesthesia and motor block were determined before treatment and at predetermined intervals. Results : The duration of local anaesthesia was 90 ±10 minutes (P=0·001) for LBH treatment and 150 ±15 minutes for LBA treatment. In the LBH treatment, anaesthesia reached the T12 to T13 dermatome and in the LBA treatment it reached the T11 to T12 dermatome in all animals in 5 and 15 minutes, respectively. Complete motor blockade was 75 ±12 minutes (P=0·01) and 120 ±15 minutes for LBH and LBA treatments, respectively. Clinical Significance : Hyaluronidase added to levobupivacaine significantly shortens the duration of epidural anaesthesia with the same dermatome spread into the epidural space in dogs.     

Medetomidine/propofol anaesthesia for gastroduodenal endoscopy in dogs

This study was performed to evaluate clinically the level of analgesia obtained during fibre optic gastroduodenal examination with an anaesthetic regimen consisting of 1000 μg/m²b.s.a. medetomidine premedica-tion (equivalent to 30–50 μg/kg b.w, IM) followed by induction and maintenance of anaesthesia with propofol (1–2 mg/kg, IV), with spontaneous respiration of room air. Following premedication, all the dogs (n=20) were connected to an E.C.G. monitor (lead II) and a femoral artery catheter was placed for continuous recording of blood pressure and to allow sampling for arterial blood gas analysis. The mean values for heart rate and arterial blood pressure following medetomidine administration were 55 b.p.m. and 121 mm Hg, respectively, and these values remained unchanged during the procedure. Blood gas data all remained within physiological limits. Fibre optic gastroduodenoscopy could be performed without the occurrence of “pain” responses. In all but one dog, the pyloric sphincter was relaxed and it was easy to pass the endoscope into the duodenum. All the dogs recovered rapidly and smoothly from anaesthesia, following administration of atipamezole 2500 μg/m² b.s.a. (equivalent to 75–125 μg/kg b.w.) IM to reverse the effects of the medetomidine.     

Dexmedetomidine or medetomidine premedication before propofol-desflurane anaesthesia in dogs

The objective of this study was to evaluate dexmedetomidine as a premedicant in dogs prior to propofol-desflurane anaesthesia, and to compare it with medetomidine. Six healthy dogs were anaesthetized. Each dog received intravenously (i.v.) five preanaesthetic protocols: D1 (dexmedetomidine, 1 microg/kg, i.v.), D2 (dexmedetomidine, 2 microg/kg, i.v.), M1 (medetomidine, 1 microg/kg, i.v.), M2 (medetomidine, 2 microg/kg, i.v.), or M4 (medetomidine, 4 microg/kg, i.v.). Anaesthesia was induced with propofol (2.3-3.3 mg/kg) and maintained with desflurane. The following variables were studied: heart rate (HR), mean arterial pressure, systolic arterial pressure, diastolic arterial pressure, respiratory rate (RR), arterial oxygen saturation, end-tidal CO2, end-tidal concentration of desflurane (EtDES) required for maintenance of anaesthesia and tidal volume. Arterial blood pH (pHa) and arterial blood gas tensions (PaO2, PaCO2) were measured during anaesthesia. Time to extubation, time to sternal recumbency and time to standing were also recorded. HR and RR decreased significantly during sedation in all protocols. Cardiorespiratory variables during anaesthesia were statistically similar for all protocols. EtDES was significantly different between D1 (8.1%) and D2 (7.5%), and between all doses of medetomidine. Desflurane requirements were similar for D1 and M2, and for D2 and M4 protocols. No statistical differences were observed in recovery times. The combination of dexmedetomidine, propofol and desflurane appears to be effective for induction and maintenance of general anaesthesia in healthy dogs.     

Effects of medetomidine premedication on propofol infusion anaesthesia in dogs

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.     

Medetomidine as a premedicant in dogs and its reversal by atipamezole

Medetomidine (10, 20, 40 μg/kg) was used as a premedicant before thiopentone, halothane and nitrous oxide anaesthesia in 60 dogs undergoing a variety of elective surgical and diagnostic procedures at the University of Liverpool Small Animal Hospital. The efficacy of the sedation produced by the three dose groups was evaluated using a sedation scoring system which is presented. Induction of anaesthesia was accomplished using 1–25 per cent thiopentone sodium administered slowly to effect. The mean dose of thiopentone required for intubation following 10 μ-g/kg medetomidine (group 1) was 6–9 mg/kg (SD ± 2–3 mg/kg), following 20 μ-g/kg medetomidine (group 2) was 4–5 mg/kg (SD ± 1–6 mg/kg) and following 40 μg/kg (group 3) was 2–4 mg/kg (SD ± 2–5 mg/kg). Induction of anaesthesia was generally smooth and significant apnoea (greater than 45 seconds) was not noted. Anaesthesia was maintained in all cases using halothane vapourised in a one part oxygen to two parts nitrous oxide mixture, delivered to the patient via a suitable non-breathing circuit (Magill, Bain or T Piece). At the conclusion of the procedure, atipamezole (50, 100, 200 μg/kg) was administered intramuscularly to half of the dogs in each group (10 dogs). Dogs receiving atipamezole recovered rapidly and smoothly to sternal recumbency, group 1 taking 8-5 minutes (SD ± 2–7 minutes), group 2 taking 11-8 minutes (SD ± 3–6 minutes), and group 3 taking 12-6 minutes (sd ± 4–5 minutes). When atipamezole was not administered a dose dependent increase in recumbency time occurred.     

Effects of diazepam or lidocaine premedication on propofol induction and cardiovascular parameters in dogs

The effects of diazepam or lidocaine on the propofol induction dose and certain cardiovascular parameters were documented in this randomized, blinded study. Dogs received 0.9% saline (0.1 mL/kg intravenously [i.v.]), lidocaine (2 mg/kg i.v.), or diazepam (0.25 mg/kg i.v.) prior to propofol i.v. until loss of jaw tone was achieved (up to a maximum of 8 mg/kg). Propofol was followed by 0.3 mg/kg atracurium i.v. Direct arterial blood pressures and heart rates were recorded before premedication, induction, and intubation. No statistically significant differences were found among the groups for cardiovascular measurements or for the propofol dose required for intubation.     

Effect on pulse rate and blood pressure of premedication and epidural anaesthesia in the sow

Three groups of adult, healthy sows were given (i) azaperone 2 mg/kg intramuscularly (im), (ii) azaperone 2 mg/kg with atropine 0.02 mg/kg im, and (iii) azaperone 4 mg/kg im, while a fourth group was given epidural anaesthesia (lignocaine 2% with adrenaline) after premedication with azaperone 2 - 4mg/kg with or without atropine 0.02 mg/kg im. Pulse rate (P) and systolic (SBP), mean (MBP) and diastolic (DBP) arterial blood pressures were measured using an automatic oscillometric method. Systolic (SBP), mean (MBP) and diastolic (DBP) blood pressures were reduced to 65–70% of control values in all the first three premedication groups, but there was a marked individual variation; the larger azaperone dose seemed to give a faster decline, and atropine did not prevent the fall. Pulse rate (P) showed a transitory rise in the two groups not given atropine. There were no other significant differences between these three groups. Epidural anaesthesia had no significant additional effect on any of the parameters measured.     

Some clinical effects of midazolam premedication in propofol-induced and isoflurane-maintained anaesthesia in dogs during ovariohysterectomy

In a randomised, placebo-controlled clinical trial, anaesthesia was induced with propofol (4 mg/kg) after intravenous premedication with or without midazolam (0.1 mg/kg), in a group of 8 dogs scheduled for ovariohysterectomy. Midazolam administration induced acute behavioural changes, and increased reflex suppression after propofol induction. Compared to the control group, the dose required to obtain loss of the pedal reflex was significantly reduced by 37%, and the end-tidal isoflurane concentration during maintenance, reduced by 23%.     

Prolongation of epidural anaesthesia in dogs with bupivacaine in a lipid emulsion

An aqueous solution and a lipid emulsion of bupivacaine were administered epidurally in doses of 1.8 mg/kg to six beagle dogs following a randomised two-phase crossover design. The aqueous solution was absorbed rapidly and the mean (sd) peak venous plasma concentration of bupivacaine, 1.4 (0.4) microg/ml, was detected after five minutes. After administration of the lipid emulsion, the peak plasma concentration of bupivacaine, 0.6 (0.2) microg/ml, was detected after 30 minutes. The mean (sd) t1/2beta of the aqueous preparation was 149.1 (32.6) minutes, and of the lipid emulsion 119.2 (34.0) minutes. Both preparations had a similar bioavailability. The mean time to the onset of motor block after the administration of the aqueous solution, 2.3 (2.2) minutes, was significantly shorter (P=0.028) than after the administration of the lipid emulsion, 9.4 (1.9) minutes, and the duration of the motor block induced by the lipid emulsion, 217.6 (26.2) minutes, was significantly longer (P=0.043) than for the aqueous solution, 158 (48.8) minutes. During anaesthesia, the plasma concentrations of bupivacaine ranged between 1.3 and 0.2 microg/ml. Non-significant changes in systolic blood pressure and heart rate were observed which coincided with the peak plasma concentrations of bupivacaine.     

Alfaxalone for total intravenous anaesthesia in dogs undergoing ovariohysterectomy: a comparison of premedication with acepromazine or dexmedetomidine

ObjectiveTo describe alfaxalone total intravenous anaesthesia (TIVA) following premedication with buprenorphine and either acepromazine (ACP) or dexmedetomidine (DEX) in bitches undergoing ovariohysterectomy.Study designProspective, randomised, clinical study.AnimalsThirty-eight healthy female dogs.MethodsFollowing intramuscular buprenorphine (20 μg kg^?1) and acepromazine (0.05 mg kg^?1) or dexmedetomidine (approximately 10 μg kg^?1, adjusted for body surface area), anaesthesia was induced and maintained with intravenous alfaxalone. Oxygen was administered via a suitable anaesthetic circuit. Alfaxalone infusion rate (initially 0.07 mg kg^?1 minute^?1) was adjusted to maintain adequate anaesthetic depth based on clinical assessment. Alfaxalone boluses were given if required. Ventilation was assisted if necessary. Alfaxalone dose and physiologic parameters were recorded every 5 minutes. Depth of sedation after premedication, induction quality and recovery duration and quality were scored. A Student's t-test, Mann–Whitney U and Chi-squared tests determined the significance of differences between groups. Data are presented as mean ± SD or median (range). Significance was defined as p < 0.05.ResultsThere were no differences between groups in demographics; induction quality; induction (1.5 ± 0.57 mg kg^?1) and total bolus doses [1.2 (0 – 6.3) mg kg^?1] of alfaxalone; anaesthesia duration (131 ± 18 minutes); or time to extubation [16.6 (3–50) minutes]. DEX dogs were more sedated than ACP dogs. Alfaxalone infusion rate was significantly lower in DEX [0.08 (0.06–0.19) mg kg^?1 minute^?1] than ACP dogs [0.11 (0.07–0.33) mg kg^?1 minute^?1]. Cardiovascular variables increased significantly during ovarian and cervical ligation and wound closure compared to baseline values in both groups. Apnoea and hypoventilation were common and not significantly different between groups. Arterial haemoglobin oxygen saturation remained above 95% in all animals. Recovery quality scores were significantly poorer for DEX than for ACP dogs.Conclusions and clinical relevanceAlfaxalone TIVA is an effective anaesthetic for surgical procedures but, in the protocol of this study, causes respiratory depression at infusion rates required for surgery.     

Effects of premedication with fentanyl and midazolam on mask induction of anaesthesia of dogs with sevoflurane

Fourteen beagles were used to determine the effects of fentanyl and midazolam as a premedicant for mask induction of anaesthesia with sevoflurane. The drugs were administered to each dog in a randomised cross-over design with a seven-day washout period between experiments. After a 15-minute equilibration period, a treatment consisting of fentanyl (10 mug/kg bodyweight) and midazolam (0.2 mg/kg) was given either intravenously or intramuscularly. Anaesthesia was then induced by the use of a facemask with sevoflurane in 100 per cent oxygen at a flow rate of 4 l/minute. Vaporiser settings were increased by 0.8 per cent at 15-second intervals until the value corresponding to 4.8 per cent sevoflurane was achieved. The time to the onset and cessation of involuntary movements, loss of the palpebral reflex, negative response to tail-clamp stimulation, and endotracheal intubation and cardiopulmonary variables were measured. Both the treatments with tentanyl and midazolam resulted in a shorter and smoother induction of anaesthesia than treatment with saline, and the cardiopulmonary changes were smaller and milder.     

Use of fluoxetine,diazepam, and behavior modification as therapy for treatment of anxiety-related disorders in dogs

The objective of this study was to evaluate the use of fluoxetine, diazepam, and behavior modification for the treatment of a variety of anxiety disorders in dogs of different breeds, ages, and sexes that presented to a university veterinary behavior clinic. Forty dogs were enrolled in the study, and 34 completed it. The dogs were grouped into 2 major diagnostic categories, aggressive and anxious, according to the presenting signs. Moreover, the dogs further subdivided into 4 groups: neutered, intact, juveniles, and adults. Diazepam was administered orally, at a dosage of 0.3 mg/kg once a day for 4 weeks; fluoxetine was administered orally at a dosage of 1 mg/kg once a day for 10 weeks. The drugs were started simultaneously. The owners were given a behavior modification plan for their dogs that started from the first week of therapy. The behavior of the subjects was evaluated at 3 points in time. Clinical response was assessed by the supervising veterinarian and the owners. There were no significant differences (P > 0.05) between the groups studied in relation to the improvement achieved. There was a positive correlation (r > 0.44) between owner compliance with the treatment and the values obtained for the improvement achieved for each period. Clinical signs largely improved or were eliminated in 13 dogs (38%), 8 dogs (26%) showed moderate improvement, 5 dogs (12%) were slightly improved, and there were 8 dogs (24%) with no changes in clinical signs.     

Comparison of epidural versus intrathecal anaesthesia in dogs undergoing pelvic limb orthopaedic surgery

ObjectiveTo compare the procedural failure rate (PFR), intraoperative rescue analgesia (iRA) probability and postoperative duration of motor block after epidural and intrathecal anaesthesia in dogs undergoing pelvic limb orthopaedic surgery.Study designProspective, randomized clinical trial.AnimalsNinety-two client-owned dogs.MethodsDogs were assigned randomly to receive either lumbosacral epidural anaesthesia (EA) (bupivacaine 0.5% and morphine 1%) or intrathecal anaesthesia with the same drugs in a hyperbaric solution (HIA). Inaccurate positioning of the needle, assessed by radiographic imaging, and lack of cerebral spinal fluid outflow were considered procedural failures (PFs) of EA and HIA, respectively. Fentanyl (1 μg kg⁻¹ IV) was provided for intraoperative rescue analgesia, when either the heart rate or the mean arterial pressure increased by 30% above the pre-stimulation value. Its use was recorded as a sign of intraoperative analgesic failure. The motor block resolution was evaluated postoperatively. Variables were compared using Fisher's exact test, the Mann–Whitney U test and the Kaplan–Meier ‘survival’ analysis as relevant.ResultsThe PFRs in the EA and HIA groups were 15/47 (32%) and 3/45 (7%), respectively (p = 0.003). Differences in iRA were analysed in 26 and 30 subjects in the EA and HIA groups respectively, using Kaplan–Meier survival analysis. The iRA probability within the first 80 minutes of needle injection (NI) was higher in the EA group (p = 0.045). The incidence of dogs walking within 3 hours of NI was significantly higher in the HIA group (8/20, 40%) than in the EA group (0/17) (p = 0.004).Conclusions and clinical relevanceHIA was found to have lower PF, lower intraoperative analgesic failure and faster motor block resolution. In this study HIA was shown to provide some advantages over EA in dogs undergoing commonly performed pelvic limb orthopaedic surgery in a day-hospital regime.     

Xylazine, diazepam and midazolam premedicated ketamine anaesthesia in white Leghorn cockerels for typhlectomy

Thee different combinations of ketamine hydrochloride were used to induce general anaesthesia for surgical operations (typhlectomy) in 30 adult, single-comb White Leghorn cockerels. They were randomly divided into three groups, each comprising 10 birds. Birds in Group I received xylazine-ketamine combinations at the dose rate of 2 mg xylazine and 10 mg ketamine per kg i.v., whereas birds of Group II received diazepam (2.5 mg/kg i.v.) and 5 min later ketamine (75 mg/kg i.m.). In the Group III, midazolam (2 mg/kg i.m.) and 5 min later ketamine (50 mg/kg i.v.) was administered. The onset of sedation/anaesthesia was shortest (1.60 +/- 0.27 min) in Group I, followed by Group II (8.40 +/- 0.83 min) and Group III (17.10 +/- 1.71 min). Recovery period was shortest in the Group I (65-75 min) followed by Group II (80-85 min) and Group III (92-105 min). Sedation, muscle relaxation and surgical anaesthesia was optimal and excellent in Group I compared with the other two groups. Torticollis, salivation and dyspnoea were observed in Group III. Short-term limb contractions were present in all birds in Groups II and III, up to 20 min of observation. Recovery from anaesthesia was smooth in all three groups. A Surgical procedure (typhlectomy) was performed on all birds. Hypothermia was observed in Group II, whereas heart and respiratory depression was recorded in Group I. Blood sugar level did not vary significantly in any anaesthetic regime. The reduction of haemoglobin was maximum in Group II compared with Groups I and III. Hypoxaemia and hypercapnaea were elevated in all birds in Groups II and III. Blood electrolytes did not vary significantly from the baseline values among the three groups of birds during the period of observation (120 min). The xylazineketamine combination was found to be the best anaesthesia for surgical intervention in chickens.     

Degenerative lumbosacral stenosis in 18 dogs

Eighteen dogs with degenerative lumbosacral stenosis were presented to the University of Queensland Small Animal Clinic (UQSAC) over a three-year period. Presenting clinical signs included lumbosacral pain (89 per cent), hindlimb paresis and proprioceptive deficits (56 per cent), lameness (49 per cent), flaccid tails (22 per cent), and urinary dysfunction (16 per cent). All 18 dogs were treated by decompressive laminectomy. Two dogs were also treated by a pin fixation-fusion technique. The major compressive lesion was a type II disc protrusion (72 per cent). Seventeen dogs (94 per cent) showed improvement postoperatively with minimal complications. Confirmation of diagnosis is difficult in that many aged dogs without clinical signs show radiographic signs compatible with stenosis.