Effect of Cymbopogon citratus Essential Oil (EO) on Handling Stress in Giant Freshwater Prawn (Macrobrachium rosenbergii).

BACKGROUND AND OBJECTIVE: Effects of Cymbopogon citratus essential oil (EO) was tested on minimizing handling stress in Macrobrachium rosenbergii through the evaluation of their metabolite responses [glucose, lactate, glycogen, protein, Lactate Dehydrogenase (LDH), Malate Dehydrogenase (MDH), Acetylcholinesterase (AChE) and Alanine Aminotransferase (ALT)]. This study aimed to investigate the efficacy of C. citratus extract in the anaesthetization of M. rosenbergii. MATERIALS AND METHODS: Three treatments including control, prawn exposed to stress alone (T1) and prawn exposed to stress in the presence of C. citratus EO (T2) were tested. A C. citratus EO at 500 µL L-1 had been determined in a previous study and was selected as the critical dose to be applied as an anesthetic agent. Handling stress was induced into prawns by netting, at 2 min interval for 30 min and their hemolymph were collected to determine the metabolite responses. RESULTS: The increase of glucose, lactate and LDH of M. rosenbergii when exposed to handling stress alone (T1) in comparison to T2 (stress with anesthetic C. citratus EO) were identified. Further, a low glycogen level in parallel with low AChE activity was observed which indicates the involvement of secondary metabolites to cope with the energy demand in T1 over T2. CONCLUSION: This study indicates the efficiency of C. citratus EO to reduce stress during handling in M. rosenbergii.

Efficiency of essential oils of Ocimum basilicum and Cymbopogum flexuosus in the sedation and anaesthesia of Nile tilapia juveniles

ABSTRACT This study aimed to verify the sedative and anaesthetic effect of the essential oils of basil (Ocimum basilicum) (EOOB) and lemongrass (Cymbopogum flexuosus) (EOCF) in Nile tilapia juveniles. The fish were transferred to aquaria containing different concentrations of each essential oil: 10, 25, 50, 100, 200, 400 and 600 μL L-1. The time of sedation ranged from 7 to 31 seconds and the recommended concentration was 10 or 25 μL L-1 for both essential oils. The best times for anaesthesia and recovery were found for the concentrations of 400 μL L-1 for EOOB (135.2 and 199.1 seconds, respectively) and 600 μL L-1 for EOCF (327.1 and 374.8 seconds, respectively). In conclusion, we recommend the use of EOOB and EOCF for the sedation and anaesthesia of Nile tilapia at concentrations of 10-25 (for both), 400 and 600 μL L-1, respectively.

Efficiency of essential oils of Ocimum basilicum and Cymbopogum flexuosus in the sedation and anaesthesia of Nile tilapia juveniles.

This study aimed to verify the sedative and anaesthetic effect of the essential oils of basil (Ocimum basilicum) (EOOB) and lemongrass (Cymbopogum flexuosus) (EOCF) in Nile tilapia juveniles. The fish were transferred to aquaria containing different concentrations of each essential oil: 10, 25, 50, 100, 200, 400 and 600 µL L-1. The time of sedation ranged from 7 to 31 seconds and the recommended concentration was 10 or 25 µL L-1 for both essential oils. The best times for anaesthesia and recovery were found for the concentrations of 400 µL L-1 for EOOB (135.2 and 199.1 seconds, respectively) and 600 µL L-1 for EOCF (327.1 and 374.8 seconds, respectively). In conclusion, we recommend the use of EOOB and EOCF for the sedation and anaesthesia of Nile tilapia at concentrations of 10-25 (for both), 400 and 600 µL L-1, respectively.

Rapid detection of five anesthetics in tilapias by in vivo solid phase microextraction coupling with gas chromatography-mass spectrometry.

The concentration of five rapidly metabolized anesthetics in living tilapias was determined in this study, by the presented method coupling in vivo solid phase microextraction (SPME) to gas chromatography-mass spectrometry (GC-MS), which was the first time that in vivo sampling method was adapted in detecting the anesthetic residue in the living aquatic product. The analytical performance of the developed method was evaluated in homogenized tilapia dorsal muscle, and the results demonstrated that the present method possessed low detection limits 1.7-9.4ngg-1), wide linear ranges (10 or 30-5000ngg-1), and satisfactory reproducibility (relative standard deviations no more than 8.1% and 10.8% for inter-fiber and intra-fiber assays, respectively). Standard curves were established in homogenized tilapia dorsal muscle for calibrating in vivo SPME in living tilapias. And the concentrations determined by in vivo SPME were close to those determined by the liquid extraction. By using the present method, one anesthetic residue was detected above the detection limit in tilapias from the local markets. Comparing to traditional methods, the present one exhibited superior time-efficiency and cost performance, as the extraction time was only ten minutes, which was short to successfully avoid the possible loss of analytes caused by elimination and sample storage. In addition, owing to the time-efficiency of the present method, the elimination of the anesthetics in tilapias was traced successfully in the laboratory.

Preparation of a poly(3'-azido-3'-deoxythymidine-co-propargyl methacrylate-co-pentaerythritol triacrylate) monolithic column by in situ polymerization and a click reaction for capillary liquid chromatography of small molecules and proteins.

Combining free radical polymerization with click chemistry via a copper-mediated azide/alkyne cycloaddition (CuAAC) reaction in a "one-pot" process, a facile approach was developed for the preparation of a poly(3'-azido-3'-deoxythymidine-co-propargyl methacrylate-co-pentaerythritol triacrylate) (AZT-co-PMA-co-PETA) monolithic column. The resulting poly(AZT-co-PMA-co-PETA) monolith showed a relatively homogeneous monolithic structure, good permeability and mechanical stability. Different ratios of monomers and porogens were used for optimizing the properties of a monolithic column. A series of alkylbenzenes, amides, anilines, and benzoic acids were used to evaluate the chromatographic properties of the polymer monolith in terms of hydrophobic, hydrophilic and cation-exchange interactions, and the results showed that the poly(AZT-co-PMA-co-PETA) monolith exhibited more flexible adjustment in chromatographic selectivity than that of the parent poly(PMA-co-PETA) and AZT-modified poly(PMA-co-PETA) monoliths. Column efficiencies for toluene, DMF, and formamide with 35,000-48,000 theoretical plates per m could be obtained at a linear velocity of 0.17 mm s(-1). The run-to-run, column-to-column, and batch-to-batch repeatabilities of the retention factors were less than 4.2%. In addition, the proposed monolith was also applied to efficient separation of sulfonamides, nucleobases and nucleosides, anesthetics and proteins for demonstrating its potential.

Liquid-phase microextraction based on two immiscible organic solvents followed by gas chromatography with mass spectrometry as an efficient method for the preconcentration and determination of cocaine, ketamine, and lidocaine in human urine samples.

A new type of liquid-phase microextraction based on two immiscible organic solvents was optimized and validated for the quantification of lidocaine, ketamine, and cocaine in human urine samples. A hollow-fiber based microextraction technique followed by gas chromatography coupled with mass spectrometry detection was used to reduce matrix interferences and improve limits of detection. The analytes were extracted from aqueous sample with pH 11.0, into a thin layer of organic solvent (n-dodecane) sustained in the pores of a hollow fiber, and then into a second organic acceptor (acetonitrile) located inside the lumen of the hollow fiber. With the application of optimized values, good linearity was obtained in the range of 1-500 µg/L for lidocaine and ketamine and 2-500 µg/L for cocaine with the determination coefficient values (r(2) ) >0.9943. The preconcentration factors and limits of detection (S/N > 3) were 250-350 and 0.01-0.05 µg/L, respectively. Intra and interassay precision values were <7.3 and 9.3%, respectively. The method was successfully applied for the determination and quantification of target analytes in human urine samples.

S-(+)-Linalool from Lippia alba: sedative and anesthetic for silver catfish (Rhamdia quelen).

OBJECTIVE: The present study describes the isolation of linalool from the essential oil of Lippia alba (Mill.) N. E. Brown, and its anesthetic effect in silver catfish (Rhamdia quelen) in comparison with essential oil. The potentiation of depressant effects of linalool with a benzodiazepine (BDZ) and the involvement of GABAergic system in its antagonism by flumazenil were also evaluated. STUDY DESIGN: Prospective experimental study. ANIMALS: Juvenile silver catfish unknown sex weighing mean 9.24 ± 2.83 g (n = 6 for each experimental group per experiment). METHODS: Column chromatography was used for the isolation of S-(+)-linalool. Fish (n = 6 for each concentration) were transferred to aquaria with linalool (30, 60, and 180 µL L(-1)) or EO of L. alba (50, 100, and 300 µL L(-1)) to determine the induction time for anesthesia. After induction, the animals were transferred to anesthetic-free aquaria to assess their recovery time. To observe the potentiation, fish were exposed to linalool (30, 60, and 180 µL L(-1)) in the presence or absence of BDZ (diazepam 150 µm). In another experiment, fish exposed to linalool (30 and 180 µL L(-1) or BDZ were transferred to an anesthetic-free aquaria containing flumazenil (5 µm) or water to assess recovery time. RESULTS: Linalool had a similar sedation profile to the essential oil at a proportional concentration in silver catfish. However, the anesthesia profile was different. Potentiation of linalool effect occurred only when tested at low concentration. Fish exposed to BDZ showed faster anesthesia recovery in water with flumazenil, but the same did not occur with linalool. CONCLUSIONS AND CLINICAL RELEVANCE: The use of linalool as a sedative and anesthetic for silver catfish was effective at 30 and 180 µL L(-1), respectively. The mechanism of action seems not to involve the benzodiazepine site of the GABAergic system.

Sedative and anesthetic activities of the essential oils of Hyptis mutabilis (Rich.) Briq. and their isolated components in silver catfish (Rhamdia quelen).

This study evaluated the sedative and anesthetic effects of the essential oils (EO) of Hyptis mutabilis (Rich.) Briq. and their isolated components on silver catfish (Rhamdia quelen). Quantitative chemical differences between the EOs obtained from leaves and inflorescences were verified, and a new chemotype rich in globulol was described. Although there were no significant differences in the time of induction for sedation and anesthesia between the EOs, only the leaf EO at 344 mg/L anesthetized all fish without side effects. Fractionation of the leaf EO was carried out by column chromatography. The isolated compounds [(+)-1-terpinen-4-ol and (-)-globulol] showed different activity from that detected for the leaf EO in proportional concentrations and similar sedation to a eugenol control at 10 mg/L. However, fish exposed to 1-terpinen-4-ol (3 and 10 mg/L) did not remain sedated for 30 min. Anesthesia was obtained with 83-190 mg/L globulol, but animals showed loss of mucus during induction and mortality at these concentrations. Synergism of the depressor effects was detected with the association of globulol and benzodiazepine (BDZ), compared with either drug alone. Fish exposed to BDZ or globulol+BDZ association showed faster recovery from anesthesia in water containing flumazenil, but the same did not occur with globulol. In conclusion, the use of globulol in aquaculture procedures should be considered only at sedative concentrations of 10 and 20 mg/L, and its mechanism of action seems not to involve the GABAA-BDZ system.

Sedative and anesthetic activities of the essential oils of Hyptis mutabilis (Rich.) Briq. and their isolated components in silver catfish (Rhamdia quelen)

This study evaluated the sedative and anesthetic effects of the essential oils (EO) of Hyptis mutabilis (Rich.) Briq. and their isolated components on silver catfish (Rhamdia quelen). Quantitative chemical differences between the EOs obtained from leaves and inflorescences were verified, and a new chemotype rich in globulol was described. Although there were no significant differences in the time of induction for sedation and anesthesia between the EOs, only the leaf EO at 344 mg/L anesthetized all fish without side effects. Fractionation of the leaf EO was carried out by column chromatography. The isolated compounds [(+)-1-terpinen-4-ol and (-)-globulol] showed different activity from that detected for the leaf EO in proportional concentrations and similar sedation to a eugenol control at 10 mg/L. However, fish exposed to 1-terpinen-4-ol (3 and 10 mg/L) did not remain sedated for 30 min. Anesthesia was obtained with 83-190 mg/L globulol, but animals showed loss of mucus during induction and mortality at these concentrations. Synergism of the depressor effects was detected with the association of globulol and benzodiazepine (BDZ), compared with either drug alone. Fish exposed to BDZ or globulol+BDZ association showed faster recovery from anesthesia in water containing flumazenil, but the same did not occur with globulol. In conclusion, the use of globulol in aquaculture procedures should be considered only at sedative concentrations of 10 and 20 mg/L, and its mechanism of action seems not to involve the GABAA-BDZ system.

Assessing the local anesthetic effect of five essential oil constituents.

We studied the effects of five monoterpenoids, viz. 1,8-cineole, fenchone, linalool, p-cymene and α-pinene, on the sciatic nerve fibers of the frog Rana ridibunda (Pallas, 1771) and compared them to that of lidocaine, a standard local anesthetic. The isolated sciatic nerve, with its perineurium intact, was placed in a three-chambered recording bath, which allowed us to monitor the compound action potentials (CAP), stable in amplitude, for over 2 days. The half-vitality time (IT(50)), which is the time required for the amplitude of the CAP to decrease to 50% of its control value, was 53.5 ± 0.9 h for a nerve incubated in normal saline at 26.0 °C. The IT(50) values for nerves incubated in saline with p-cymene, 1,8-cineole, or α-pinene, at 30.0 mM, were 19.9 ± 0.4, 32.9 ± 0.5, and 31.0 ± 0.3 hours, respectively. As the IT(50) value for 30.0 mM lidocaine, a standard local anesthetic, was 1.6 ± 0.3 min under the same conditions, these three compounds cannot be considered as having a local anesthetic effect. The IT(50) values for 30.0 mM linalool and fenchone were 5.7 ± 0.6 and 15.4 ± 1.1 min, respectively; they were significantly, but not markedly different from the respective value for lidocaine. These results combined with the fast inhibition of the CAP and its fast recovery after the removal of either linalool or fenchone indicate a local anesthetic activity of the two compounds. Linalool retained this activity even at lower concentrations of 15.0 and 7.5 mM. The local anesthetic effects of lidocaine and linalool were concentration-dependent; this was not the case for fenchone, which had a relatively strong local anesthetic activity at 30.0 mM, but was entirely inactive at 25.0 mM. On the basis of the effects of the five monoterpenoids on the electrophysiological properties of the sciatic nerve fibers of the frog, we conclude that, whereas 1,8-cineole, p-cymene and α-pinene cause only minor effects, linalool and fenchone exhibit acute local anesthetic activity.

Direct automatic determination of free and total anesthetic drugs in human plasma by use of a dual (microdialysis-microextraction by packed sorbent) sample treatment coupled at-line to NACE-MS.

This paper reports for the first time the use of microextraction by packed sorbent in combination with CE. The combined system was used to determine anesthetic drugs in human plasma. A microdialysis fiber was coupled on-line to the microextraction unit in order to distinguish between free and total concentrations of drugs. The system was automated by connecting the microextraction unit to a syringe pump and interfacing it to a computer. The ensuing method allows the determination of 10 microg/L concentrations of free drugs and 1 microg/L concentrations of total drugs from only 200 microL of sample with an RSD of less than 9%.

Separation of basic drug enantiomers by capillary zone electrophoresis using glucuronyl glucosyl beta-cyclodextrin as a chiral selector.

Separations of basic drug enantiomers have been investigated using glucuronyl glucosyl beta-cyclodextrin (GUG beta-CD) as a chiral selector in the background electrolyte by capillary zone electrophoresis. The effects of GUG beta-CD concentration and running buffer pH on the migration times and resolution of 16 basic drug enantiomers were precisely examined using a linear polyacrylamide-coated capillary. High resolution of 16 basic drug enantiomers was generally attained with a running buffer pH 2.5 or 3.5 containing 10 mM GUG beta-CD. Next, we compared the chiral resolution abilities of GUG beta-CD with those of beta-CD and maltosyl beta-CD (G2 beta-CD). GUG beta-CD showed higher resolution for basic drug enantiomers tested than beta-CD and G2 beta-CD. This could be due to that hydrogen bonding or ionic interactions of uncharged and charged glucuronyl glucosyl groups of GUG beta-CD with an analyte could stabilize the inclusion complex.

Simultaneous separation and enantioresolution of racemic local anesthetic drugs by capillary zone electrophoresis with Tween 20 and methyl-beta-cyclodextrin as selectors, employing a double plug technique.

A new approach for simultaneous chiral and achiral separations by capillary zone electrophoresis is described. Two adjacent selector plugs, consisting of Tween 20 as an achiral and methyl-beta-cyclodextrin (CD) as a chiral selector, are employed and four related local anesthetics are used as model compounds. The principles of the partial filling technique, whereby the capillary is filled with the chiral selector solution followed by the micellar solution at different plug lengths and concentrations, prior to application of the solutes, was employed. During the run both capillary ends were dipped in a simple buffer, i.e., one without additives. The two separation media worked independently without any interaction. Separation of the solutes and their enantiomers was regulated by adjusting both the concentration and plug length (PL) of the micellar solution in the capillary, employing methyl beta-CD as chiral selector either at 38 or 76 mM. The solutes were separated on the basis of their affinity towards the micellar phase before they reached the methyl-beta-CD plug for enantioseparation. In the absence of the micellar plug, the enantiomers of prilocaine overlapped those of bupivacaine. The solutes and their enantiomers were completely separated by employing two adjacent plugs consisting of 100 mM Tween 20 solution (PL approximately 10 cm) and methyl-beta-CD solution at either 38 or 76 mM (PL approximately 30 cm).

Enantioseparation of anaesthetic drugs by capillary zone electrophoresis using cyclodextrin-containing background electrolytes.

The enantiomers of five racemic anaesthetic drugs were resolved with cyclodextrins using capillary zone electrophoresis. Parameters which affected the chiral resolution, such as type and concentration of cyclodextrin, temperature, and addition of organic modifier were investigated. The results show that the enantiomeric discrimination of the solutes is influenced by the structural shape of the solute molecules, separation temperature, and type of cyclodextrin. It was found that alpha-cyclodextrin was the best enantioselector for resolution of prilocaine and ketamine, while the enantiomers of mepivacaine, ropivacaine, and bupivacaine were resolved with beta-cyclodextrin and/or modified beta-cyclodextrins, i.e., methyl- and 2-hydroxypropyl-beta-cyclodextrin, as chiral selectors. The length of the alkyl chain on the amino group of the drug molecule had a strong effect on the enantioresolution of mepivacaine, ropivacaine, and bupivacaine. Baseline separation of racemic ketamine was achieved with alpha- and methyl-beta-cyclodextrin at 15 degrees C. Addition of 5 M urea to the running buffer containing beta-cyclodextrin at high concentrations resulted in the enantioseparation of prilocaine, mepivacaine, and ketamine. Enantioresolution was improved upon the addition of 10% methanol to the buffer containing urea and beta-cyclodextrin. Generally, the complex formed between the S-enantiomers and modified beta-cyclodextrins was stronger than the corresponding R-forms. An exception was prilocaine where the R-form gave a more stable complex both with alpha- and beta-cyclodextrin.

Purification and properties of peditoxin and the structure of its prosthetic group, pedoxin, from the sea urchin Toxopneustes pileolus (Lamarck).

A protein toxin, termed peditoxin, containing an active prosthetic group was isolated and purified from the globiferous pedicellariae of the sea urchin Toxopneustes pileolus (Lamarck). The prosthetic group, called pedoxin, is a small molecular mass substance (206 daltons) with an empirical formula of C10H10N2O3 and is comprised of a heterocyclic lactone structure formed from pyridoxal and glycine. Administered subcutaneously or intramuscularly to mice in sublethal doses, pedoxin markedly reduced basal body temperature and led to sedation and anesthetic coma accompanied by muscular relaxation. At higher doses, it leads to convulsion and death (LD50 200 mg/kg). The apoprotein, a cytochrome b-like heme protein called pedin (molecular mass, 10,000 daltons) is itself not toxic, but the purified holoprotein is extremely toxic, causing anaphylaxis-like shock and death in experimental animals at low doses (LD50 70 micrograms/kg). Small amounts of the prosthetic group added to holoprotein preparations caused the toxicity to be greatly enhanced, suggesting that holoprotein preparations also contain apoprotein capable of being activated by the low molecular weight toxin. The structure of pedoxin was determined to be 3-hydroxy-2-methyl-5-methoxy-4-pyridineformyl-glycyliden ester and was confirmed by total synthesis.

[Experimental studies on the recovery of anesthetic gases]. / Experimentelle Untersuchungen zur Rückgewinnung von Narkosegasen.

The volatile anesthetic agents halothane, enflurane, and isoflurane are chlorofluorocarbons (CFC) and contribute to ozone depletion. Although the contribution is small, its importance is rising, as technical CFCs will be phased out according to the Montreal protocol (1987) and the London conference (1990) by the year 2000. Alternative procedures and CFC-free volatile agents such as des- and sevoflurane do not contribute to depletion of the ozone layer, but will not replace standard methods using volatile anesthetic agents in the near future. METHODS. In an experimental setup, we filtered anesthetic waste gases from scavenging systems of rebreathing circles by activated carbon filters. The filtered substances were desorbed by a heat chamber and condensed in a cold trap. RESULTS. By this method, it was possible to retrieve 50%-60% of the applied gases. Gas chromatographic analysis showed halothane containing traces of pollutants and isoflurane and enflurane as pure substances. DISCUSSION. The retrieval of anesthetic waste gases is easy; no sophisticated technical equipment is necessary. Purity of substances could make recycling possible and offer a method to avoid environmental pollution by volatile anesthetics.

Synthesis of a [1,2-3H]-labeled pregnanolone.

A method is described for the synthesis and purification of 3 alpha-hydroxy-5 alpha-[1,2-3H]pregnan-20-one. [1,2-3H]progesterone (55 Ci/mmol) was incubated with a homogenate of rat brain tissue. The product was purified by Sephadex chromatography and thin-layer chromatography. The identity and purity of the product were established by successive recrystallizations and high-performance liquid chromatography. A 34% portion of the starting material was converted to 3 alpha-hydroxy-5 alpha-[1,2-3H]pregnan-20-one. The final radiopurity of 3 alpha-hydroxy-5 alpha-pregnan-20-one obtained from four independent preparations was 94% to 99%.

A volatile, heat-stable anesthetic is not present in the skin of Bufo asper (Gravenhorst).

A study was made concerning the possible existance of a volatile, heat-stable anesthetic popularly believed by the Thai people to be in the skin of Bufo asper. The skin together with the paratoid glands of two toads were dried and pyrolyzed. Mice and rats inhaling a continuous stream of the smoke or injected with a high dose of the volatile material showed signs of extreme irritation with no loss of consciousness. It is concluded that the skin of this toad does not contain a volatile, heat-stable anesthetic.

[Method of separating volatile anesthetics from gaseous mixtures in which they are contained]. / Metodica di separazione degli anestetici volatili dalle miscele gassose in cui sono contenuti.

A technique for separating volatile anaesthetics from the gaseous mixtures in which they are contained is reported. It consists of the absorption of vapours by bubbling the mixture in fluid solvents belonging to the glycol group. The results show that the principles described can be applied in practice as the technique is able to ensure the almost complete absorption of anesthetic vapours for the duration of an operating session lasting five hours.