• Journal of Veterinary Clinics
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• v.6 no.1
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• pp.165-171
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• 1989

Antagonistic effects of yohimbine on xylazine and ketamine anesthesia in goats were studied. Xylazine or ketamine anesthesia alone was not antagonized by yohimbine, but the time for consciousness and recovery in xylazine and ketamine anesthetized goats were remarkably shortened by yohimbine. Reversal effect of yohimbine on the heart rate and body temperature which decreased following xylazine and ketamine was not observed and respiratory rate which increased after xylazine and ketamine was sligtly reduced by yohimbine.

• Journal of Dental Anesthesia and Pain Medicine
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• v.23 no.3
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• pp.123-133
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• 2023

Sedation methods for dental treatment are increasingly explored. Recently, ketofol, which is a combination of ketamine and propofol, has been increasingly used because the advantages and disadvantages of propofol and ketamine complement each other and increase their effectiveness. In this review, we discuss the pharmacology of ketamine and propofol, use of ketofol in various clinical situations, and differences in efficacy between ketofol and other sedatives.

• Advances in pediatric surgery
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• v.19 no.2
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• pp.73-80
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• 2013

Ketamine is a safe and effective drug for pediatric anesthesia, sedation and analgesia. We hoped to identify that surgeons could operate a pediatric hernia with the ketamine anesthesia without general anesthesia. The study was a consecutive case series of 2230 inguinal hernia patients aged 1 months to 17 years in a Joo's day-surgical clinic during 11-year period. The patients had pediatric inguinal hernia surgery without general anesthesia under the day-surgery system. We retrospectively analyzed the medical record of patients who were registered with the Diagnosis Related Group (DRG) system. All patients received ketamine (5mg/kg) and atropine (0.01mg/kg) intramuscularly before surgery. After anesthesia, we injected 1~2% lidocaine (Less than 5ml) subcutaneously at the site of incision and started operation. The surgical method was the high ligation method of the hernia sac.) In total 2230 patients, male were 1756 and female were 474. 2076 patients were a unilateral inguinal hernia at the time of surgery and 154 were bilateral hernia patients. Less than three months, depending on the age of the patients was 391, and less than 12 months the patient was 592 people (26.5%). After surgery, there were no accidents or long term complications associated with ketamine anesthesia. We think the surgeon can safely do the pediatric inguinal hernia surgery using ketamine and lidocaine without anesthesiologist through 11 years of our surgical experiences.

• Journal of Trauma and Injury
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• v.27 no.4
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• pp.178-185
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• 2014

Purpose: The aim of this study was to assess the clinical efficacy of combined treatment with local anesthesia and ketamine procedural sedation for pediatric facial laceration repair in the Emergency Department (ED). Methods: Patients aged 1 to 5 years receiving ketamine for facial laceration repair were prospectively enrolled in a double-blind, randomized, and controlled study at an ED. All patients were to receive intravenous ketamine (2 mg/kg). The local anesthesia group (LA group) received a local anesthetic along with ketamine, whereas the no local anesthesia group (NLA group) received only ketamine. The total time of sedation, the patients' movements and groans, adverse events, and the satisfaction ratings of physicians, nurses, and parents were recorded. Results: A total of 186 patients were randomized (NLA group: 90, LA group: 96). The total time of sedation (30.5 minutes for the NLA group, 32.6 minutes for the LA group; p=0.660), patients' groans (26 (28.9%) versus 23 (24.0%); 0.446) and movements (27 (30%) versus 35 (36.5%); p=0.350) was not affected by the addition of local anesthesia. Other adverse events were similar between the two groups. Also, the satisfaction ratings of physicians (median 4 for the NLA group versus 4 for the LA group (p=0.796)), nurses (2 versus 2.5 (p=0.400)), and parents (4 versus 4 (p=0.199)) were equivalent between the two groups. Conclusion: In this study, we found that local anesthesia was not required along with ketamine sedation for pediatric facial laceration repair.

• Journal of Korean Dental Science
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• v.10 no.2
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• pp.82-86
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• 2017

Oral and maxillofacial surgery (OMFS) trauma cases are commonly treated under general anesthesia. The purpose of this case report is to introduce an alternative method of anesthesia in patients who refuse general anesthesia. A combination of dexmedetomidine and ketamine for sedation anesthesia in 3 frequent fracture types in the field of OMFS-Le Fort I fracture, mandibular fracture, and alveolar bone fracture-was used. Dexmedetomidine as the single agent has not shown stable success rates for invasive procedures. To overcome some of the pitfalls with dexmedetomidine, combination sedation using ketamine was performed. Visual analogue scale scores were recorded postoperatively. Dexmedetomidine combined with ketamine administration provided safe and effective sedation and anxiolysis for surgical reduction and internal fixation of OMFS fractures. It showed advantages of decreased admission time, reduced expenses, minimal pain, and reduced anesthetic burden for the patient thus ultimately increasing overall satisfaction.

• Korean Journal of Veterinary Research
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• v.39 no.1
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• pp.77-84
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• 1999

Anesthetic agents are useful in inducing the anesthesia for surgical operations and various biological experiments, but they can disturb the body homeostasis and cause the stress in animals. Much efforts have been directed on reducing such side effects of anesthesia. In this work, we measured the serum ACTH, corticosterone and glucose concentration in rabbits to compare the degree of stress induced by two commonly-used anesthetics, ketamine, xylazine, and the combination of xylazine and ketamine. 1. The anesthesia was induced in about 10 min in the rabbits treated with xyalzine, ketamine and xylazine-ketamine. The duration of complete loss of righting reflex were 12, 13 and 115 min in the groups treated with xylazine, ketamine and xylazine-ketamine, respectively. 2. Serum ACTH concentrations in all treatment groups were higher than those in control group. At 30 min after the administration of the drugs, serum ACTH levels in ketamine-treated group were significantly higher than those in control, xylazine- and xylazine-ketamine-treated groups. However, at 1, 2, 5 and 9 hours after the drug administration, serum ACTH levels in xylazine-treated-group were higher than those in control. 3. Serum corticosterone levels in xylazine- and xylazine-ketamine-treated groups were lower than those in control or ketamine-treated groups at 0.5 and 1 hour after the administration. However, at 5 and 9 hours after the administration, serum corticosterone levels in xylazine- and xylazine-ketamine-treated groups were significantly higher than those in ketamine-treated group or control. 4. Serum glucose levels transiently increased to 3 times of the pre-injection levels at 0.5 and 1 hours after the administration in xylazine or xylazine-ketamine-treated groin, but were not changed in control and ketamine-treated group. These results indicate that xylazine-induced stress lasts longer than ketamine-induced, suggesting that the difference in stress-related hormone levels during anesthesia could be due to the differences in modes of actions of individual drugs used and the depth of anesthesia.

• Korean Journal of Veterinary Research
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• v.22 no.1
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• pp.85-89
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• 1982

Xylazine and ketamine hydrochloride were given intramusculary to 32 deers (sika deer 7, red deer 11, elk 6, pere david deer 3, and reindeer 5). Ketamine hydrochloride was injected 30 minutes after administration of xylazine. Sedative action of combined anesthesia of xylazine and ketamine hydrochloride was similar to the sedative effects of xylazine alone. The recovery from sedation of combined anesthesia was remarkably fast comparing with xylazine alone.

• Journal of Veterinary Clinics
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• v.8 no.1
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• pp.81-91
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• 1991

This study was carried out to investigate the effects of intravenous drip with ketamine hydrochloride and its application for control depth and maintenance of anesthesia in dogs. Changes of blood pressure, vital signs, blood gas and anesthetic state were observed in this study. The obtained were summerized as follows ; 1. Changes of blood pressure and heart rate after intravenous drip anesthesia with ketamine hydrochloride were observed with significant increase in all group ; group II (0.135m81k9/min), group III (0.269mg/kg/min) and group IV(0.538mg/kg/min). These conditions were maintained unchangeably until 160 minutes after administration in all group. This may be indicated that there were no side effects on account of ketamine accumulation. 2. There were irregular respiration, pain reflex, Jaw tone reflex and vomition probability in the anesthetic conditions of group II The anesthetic conditions of group III were rarely shown as mentioned above. Awakening time and recovery time of group H were more prolonged 21 minutes and 27 minutes respectively than those of group III. These experimental data suggested that the optimal dosage of intravenous drip anesthesia of ketamine Hcl was 0.269mg/kg/min.

• Journal of Veterinary Clinics
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• v.10 no.2
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• pp.237-242
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• 1993

Combined intramuscular administration of ketamine 8mg/kg. xylazine 2mg/kg were done to evaluate effect of anesthesia in Siberian tiger White tiger and Bengal tiger. Mean induction time(MIT), mean arousal time-(MAT). mean walking time(MWT) and clinical sign were evaluated. The results were as follows. MIT were taken 16.1$\pm$3.5 minutes for Siberian tiger. 15.5$\pm$2.4 minutes for White tiger and 12.3$\pm$2.5 minutes for Bengal tiger. MAT were taken 44.2$\pm$9.5 minutes for Siberian tiger, 48.3$\pm$8.6 minutes for White tiger and 58.7$\pm$5.8 minutes for Bengal tiger. MWT were taken 110.6$\pm$11.6 minutes for Siberian tiger, 106.7$\pm$13.1 minutes for White tiger and 99.6$\pm$10.2 minutes for Bengal tiger. Nausea. vomiting. salivation. severe convulsion. sudden decreased respiration and dyspnea were observed in Siberian tiger during sedation and anesthesia. Also, nausea, vomiting, salivation and convulsion were observed in White tiger and Bengal tiger but the clinical signs were more mild than Siberian tiger. The Bengal tiger which used combined ketamine 5mg/kg , xylazine 1mg/kg were shown reduced induction time compare with combined administration ketamine 8mg/kg, xylazine 2mg/kg in Bengal tiger as 10.8$\pm$32 minutes for MIT. 32.3$\pm$4.3 minutes for MAT and 78.5$\pm$7.3 minutes for MWT Vomiting and convulsion were observed during induction time but there were no nausea and salivation. The present results suggested that preventive methods against severe convulsion and dyspnea should be required in Siberian tiger when combined anesthesia of ketamine 8mg/kg, xylazine 2mg/kg used. Combined anesthesia of ketamine 5mg/kg, xylazine 1mg/kg in Bengal tiger might be very effective for simple surgical procedure and diagnosis.

• Journal of Veterinary Clinics
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• v.28 no.3
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• pp.291-296
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• 2011

The aims of the present study were to investigate the anesthetic and hemodynamic effects of medetomidine-ketamine combination and to compare antagonistic effects of atipamezole and yohimbine on the recovery of pig from anesthesia induced by medetomidine-ketamine combination. Landrace and Yorkshire cross-bred pigs were evaluated in the present study. Pigs (n = 8) received three different treatments (one treatment per 14 days in a random order). All pigs were injected intramuscularly with medetomidine, and ketamine in a single syringe. Intravenous injections of atipamezole (MKA), yohimbine (MKY), or a control saline solution (MK) were administered 20 minutes after the medetomidine-ketamine combination injection. The intravenous antagonist injections quickly reversed the medetomidine-ketamine induced sedation in the pigs, resulting in a significantly shorter duration of anesthesia in the MKA and MKY groups compared to the MK group. Mean arterial pressure (MAP) levels were significantly lower in the MKA and MKY groups compared to the MK group. Scores for posture and responses to noxious stimuli after atipamezole and yohimbine administration were significantly lower in the MKA and MKY groups than in the MK. In conclusion, the sedative effects and increases in blood pressure induced by a medetomidine-ketamine combination were quickly and smoothly reversed by atipamezole or yohimbine.