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Evaluation of analgesic effects of constant rate infusion of both xylasine and lidocaine in horses
2017
Tavanaeimanesh, Hamid | Azarnoosh, Afrooz | Saberi Afshar, Fereidoon | Dehghan, Mohammad Mehdi | Akbarinejad, Vahid
Backgrounds, there are limited choice of analgesic agent in horse medicine, and mostly because of side effects usage of analgesics is contraindicated in horses. Objectives, introduction of compounds which have little side effects whith good analgesic affects. Methods, this study was undertakan in 6 healthy horses, in control group they received normal saline. In treatment group CRI of lidocaine and xylasine has been administered, and data was recorded at the beginning of infusion and 10, 20, 30, 40 and 50 minutes after starting the infusion at time 50 infusion was stopped and 15, 30 and 60 minutes after that data was recorded as well. Analgesic effect was evaluated by algometer. NIBP, Temperature, Heart rate, respiratory rate, sedation, intestinal sounds was evaluated at each time points. Results, 30 minutes after starting the infusion analgesic effect has started and there was significant difference between control and treatment group this effect last until the end of infusion and after the CRI this effect disappeared gradually. Conclusions, simultaneous infusion of xylasine and lidocanie has significant analgesic effect. But it needs more study in fields like laminitis cases to prove the efficacy of combination of xylazine and lidocaine.
Afficher plus [+] Moins [-]Comparison of antinociceptive, cardiovascular, and respiratory effects, head ptosis, and position of pelvic limbs in mares after caudal epidural administration of xylazine and detomidine hydrochloride solution.
1996
Skarda R.T. | Muir W.W. III.
Antagonism of xylazine-induced hypotensive effect by yohimbine in rabbits.
1990
Shin D.H.
Reverse effects of electroacupuncture on xylazine analgesia in goats.
1992
Seo K.M. | Yoon J.H. | Cheong J.T. | Chang K.H. | Nam T.C.
Xylazine regulates the release of glycine and aspartic acid in rat brain
2018
Zhang, Yi-Ming | Yu, Dong-Xu | Yin, Bai-Shuang | Li, Xin-Ran | Li, Li-Na | Li, Ya-Nan | Wang, Yu-Xin | Chen, Yu | Liu, Wen-Han | Gao, Li
Xylazine, a type of α₂-adrenoceptors, is a commonly used drug in veterinary medicine. Xylazine-induced changes in the content of amino acid neurotransmitters – glycine (Gly) and aspartic acid (Asp), in different brain regions and neurons were studied. Wistar rats were administered 50 mg/kg or 70 mg/kg of xylazine by intraperitoneal injection. In addition, in vitro experiments were conducted, in which neurons were treated with 15 μg/mL, 25 μg/mL, 35μg/mL, and 45 μg/mL of xylazine. Test methods were based on the enzyme-linked immunosorbent assays (ELISA). During anaesthesia, Asp levels in each brain area were significantly lower compared to the control group. Except for the cerebrum, levels of Gly in other brain areas were significantly increased during the anaesthesia period. In vitro, xylazine-related neuron secretion of Gly increased significantly compared to the control group at 60 min and 90 min. Moreover, xylazine caused a significant decrease in the levels of Asp secreted by neurons at 20 min, but gradually returned to the level of the control group. The data showed that during anaesthesia the overall levels of Asp decreased and overall levels of Gly increased. In addition, the inhibitory effect of xylazine on Asp and the promotion of Gly were dose-dependent. Our data showed that different effects of xylazine on excitatory and inhibitory neurotransmitters provided a theoretical basis for the mechanism of xylazine activity in clinical anaesthesia.
Afficher plus [+] Moins [-]Xylazine regulates the release of glycine and aspartic acid in rat brain
2018
Zhang Yi-Ming | Yu Dong-Xu | Yin Bai-Shuang | Li Xin-Ran | Li Li-Na | Li Ya-Nan | Wang Yu-Xin | Chen Yu | Liu Wen-Han | Gao Li
Xylazine, a type of α2-adrenoceptors, is a commonly used drug in veterinary medicine. Xylazine-induced changes in the content of amino acid neurotransmitters – glycine (Gly) and aspartic acid (Asp), in different brain regions and neurons were studied.
Afficher plus [+] Moins [-]Effects of tiletamine-xylazine-tramadol combination and its specific antagonist on AMPK in the brain of rats
2019
Ma, Ning | Li, Xin | Wang, Hong-bin | Gao, Li | Xiao, Jian-hua
Introduction: Tiletamine-xylazine-tramadol (XFM) has few side effects and can provide good sedation and analgesia. Adenosine 5’-monophosphate-activated protein kinase (AMPK) can attenuate trigeminal neuralgia. The study aimed to investigate the effects of XFM and its specific antagonist on AMPK in different regions of the brain. Material and Methods: A model of XFM in the rat was established. A total of 72 Sprague Dawley (SD) rats were randomly divided into three equally sized groups: XFM anaesthesia (M group), antagonist (W group), and XFM with antagonist interactive groups (MW group). Eighteen SD rats were in the control group and were injected intraperitoneally with saline (C group). The rats were sacrificed and the cerebral cortex, cerebellum, hippocampus, thalamus, and brain stem were immediately separated, in order to detect AMPKα mRNA expression by quantitative PCR. Results: XFM was able to increase the mRNA expression of AMPKα1 and AMPKα2 in all brain regions, and the antagonist caused the opposite effect, although the effects of XFM could not be completely reversed in some areas. Conclusion: XFM can influence the expression of AMPK in the central nervous system of the rat, which can provide a reference for the future development of anaesthetics for animals.
Afficher plus [+] Moins [-]Effects of tiletamine-xylazine-tramadol combination and its specific antagonist on AMPK in the brain of rats
2019
Ma Ning | Li Xin | Wang Hong-bin | Gao Li | Xiao Jian-hua
Introduction: Tiletamine-xylazine-tramadol (XFM) has few side effects and can provide good sedation and analgesia. Adenosine 5’-monophosphate-activated protein kinase (AMPK) can attenuate trigeminal neuralgia. The study aimed to investigate the effects of XFM and its specific antagonist on AMPK in different regions of the brain. Material and Methods: A model of XFM in the rat was established. A total of 72 Sprague Dawley (SD) rats were randomly divided into three equally sized groups: XFM anaesthesia (M group), antagonist (W group), and XFM with antagonist interactive groups (MW group). Eighteen SD rats were in the control group and were injected intraperitoneally with saline (C group). The rats were sacrificed and the cerebral cortex, cerebellum, hippocampus, thalamus, and brain stem were immediately separated, in order to detect AMPKα mRNA expression by quantitative PCR. Results: XFM was able to increase the mRNA expression of AMPKα1 and AMPKα2 in all brain regions, and the antagonist caused the opposite effect, although the effects of XFM could not be completely reversed in some areas. Conclusion: XFM can influence the expression of AMPK in the central nervous system of the rat, which can provide a reference for the future development of anaesthetics for animals.
Afficher plus [+] Moins [-]Assessment of stability of ketamine-xylazine preparations with or without acepromazine using high performance liquid chromatography-mass spectrometry
2016
Dodelet-Devillers, Aurore | Zullian, Chiara | Vachon, Pascal | Beaudry, Francis
The objective of this study was to evaluate the stability of 3 distinct preparations of ketamine and xylazine, with or without acepromazine, stored at room temperature or at 4°C for 1, 2, and 3 mo. Drug concentrations were compared to fresh solutions, using a high performance liquid chromatography-mass spectrometry/selected-ion monitoring (HPLC-MS/SIM) assay. The concentrations of ketamine and xylazine, diluted in physiological saline, did not change over time at room temperature or at 4°C. However, acepromazine concentrations decreased over time when stored at room temperature. In contrast, undiluted ketamine-xylazine preparations gradually decreased in concentration when stored at room temperature. All of the drug concentrations remained above 90% of their original concentration when stored at 4°C. In conclusion, when diluted in physiological saline, ketamine-xylazine cocktails can be stored for 3 mo, whereas undiluted cocktails can lose efficacy over 3 mo at room temperature. Storage at 4°C could preserve drug stability.
Afficher plus [+] Moins [-]Effects of anesthesia with isoflurane on plasma concentrations of adrenocorticotropic hormone in samples obtained from the cavernous sinus and jugular vein of horses
2016
Carmalt, James L. | Duke-Novakovski, Tanya | Schott, Harold C II | Kolk, Johannes H van der
OBJECTIVE To determine effects of anesthesia on plasma concentrations and pulsatility of ACTH in samples obtained from the cavernous sinus and jugular vein of horses. ANIMALS 6 clinically normal adult horses. PROCEDURES Catheters were placed in a jugular vein and into the cavernous sinus via a superficial facial vein. The following morning (day 1), cavernous sinus blood samples were collected every 5 minutes for 1 hour (collection of first sample = time 0) and jugular venous blood samples were collected at 0, 30, and 60 minutes. On day 2, horses were sedated with xylazine hydrochloride and anesthesia was induced with propofol mixed with ketamine hydrochloride. Horses were positioned in dorsal recumbency. Anesthesia was maintained with isoflurane in oxygen and a continuous rate infusion of butorphanol tartrate. One hour after anesthesia was induced, the blood sample protocol was repeated. Plasma ACTH concentrations were quantified by use of a commercially available sandwich assay. Generalized estimating equations that controlled for horse and an expressly automated deconvolution algorithm were used to determine effects of anesthesia on plasma ACTH concentrations and pulsatility, respectively. RESULTS Anesthesia significantly reduced the plasma ACTH concentration in blood samples collected from the cavernous sinus. CONCLUSIONS AND CLINICAL RELEVANCE Mean plasma ACTH concentrations in samples collected from the cavernous sinus of anesthetized horses were reduced. Determining the success of partial ablation of the pituitary gland in situ for treatment of pituitary pars intermedia dysfunction may require that effects of anesthesia be included in interpretation of plasma ACTH concentrations in cavernous sinus blood.
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