麻醉剂MS-222对斑马鱼行为的影响

实验室条件下观察并测定了斑马鱼(Danio rerio)在不同MS-222浓度处理下的麻醉行为、斑马鱼在高剂量MS-222致死过程中的行为变化、MS-222对斑马鱼摄食条件反射的影响。试验表明:(1)斑马鱼的麻醉行为是一个渐变的过程,可分为不被麻醉(Ⅰ)、轻度麻醉(Ⅱ)、中度麻醉(Ⅲ)深度麻醉(Ⅳ);(2)不同MS-222浓度下斑马鱼进入不同麻醉程度的时间有差异;(3)经MS-222处理900s过程中,80-90mg·L^-1浓度组进入Ⅲ级麻醉程度并有100%的存活率,而麻醉浓度在100mg·L^-1以上时可以迅速在49s内使鱼进入Ⅲ级麻醉程度以及在178s后即可进入Ⅳ级麻醉程度,并在中度麻醉和深度麻醉的过渡中死亡,存活率不超过10%;(4)MS-222对摄食条件反射影响的试验中,光刺激-不麻醉、无光刺激-不麻醉、光刺激-麻醉、无光刺激-麻醉四组班马鱼从投喂到摄食所用时间分别为12.06±1.34s、13.20±1.13s、56.56±56.48s、36.20±25.74s,麻醉组的摄食速度慢于对照组,说明MS-222影响了斑马鱼的摄食条件反射。     

The effect of MS-222 on paced ventricle strips and the perfused heart of rainbow trout,Oncorhyncus mykiss

1. The contractile force of trout ventricle strips fell in a dose-dependent manner with increasing concentrations of MS-222.2. Ventricle strips immersed in a superfusate containing 27 mg l⁻¹ MS-222 had an equivalent concentration in the tissue. At 54 mg l⁻¹ the tissue concentration was significantly lower than the superfusate.3. A concentration of 10 mg l⁻¹ MS-222 in the perfusate produced a 25% drop in force of contraction of ventricle strips.4. Isolated perfused hearts pumping perfusate with 10 mg l⁻¹ MS-222 also showed a fall of approximately 25% in maximum cardiac output and maximum power output.5. Tissue anaesthetic levels in the ventricles of superfused trout hearts were found to be three-fold higher than that in the perfusate.6. The need for caution when using MS-222 in physiological experiments is therefore emphasized.     

Susceptibility of the Antarctic fish Pagothenia borchgrevinki to MS-222 anaesthesia

Summary Induction of anaesthesia and distribution of the routinely used fish anaesthetic, MS-222 (ethyl m-amino-benzoate methanesulfonate), were monitored in the Antarctic fish Pagothenia borchgrevinki. As expected from the extreme low metabolic rate of Antarctic fish, induction times were significantly longer than those from rainbow trout. Onset of anaesthesia in the Antarctic fish also failed to correlate with either brain or blood MS-222 concentrations, in contrast to the trends observed in freshwater salmonids. High levels of free MS-222 in liver and in the aglomerular kidney, and the presence of acetylated derivatives in the blood, suggest these organs as primary sites of drug metabolism. MS-222 anaesthesia in P. borchgrevinki is also accompanied by dose-dependent changes in haematological parameters.     

Excitatory and inhibitory effects of tricaine (MS-222) on fictive breathing in isolated bullfrog brain stem

This study examined the direct effects of tricaine methanesulfonate (MS-222), a sodium-channel blocking local anesthetic, on respiratory motor output using an in vitro brain stem preparation of adult North American bullfrogs (Rana catesbeiana). Bullfrogs were anesthetized with halothane, and the brain stem was removed and superfused with artificial cerebrospinal fluid containing MS-222 at concentrations ranging from 0.1 to 1,000 micro M. At the lowest concentration of MS-222, respiratory frequency (fR) increased significantly (P < 0.05), but at higher concentrations, fR progressively decreased and was abolished in all preparations at 1,000 micro M (P < 0.01). Respiratory burst amplitude and burst duration were not affected by MS-222. The frequency of nonrespiratory neural activity did not significantly change with the addition of MS-222 below 1,000 micro M. These data indicate that MS-222 has a significant, direct effect on respiratory motor output from the central nervous system, producing both excitation and inhibition of fictive breathing. The results are consistent with other studies demonstrating that low concentrations of anesthetics generally cause excitation followed by depression at higher concentrations. Although the mechanisms underlying the excitatory effects of MS-222 in this study are unclear, they may include increased excitatory neurotransmission and/or disinhibition of inputs to the respiratory central pattern generator.     

MS-222 (tricaine methane sulfonate) does not kill the amphibian chytrid fungus Batrachochytrium dendrobatidis

MS-222 (tricaine methane sulfonate) is an agent commonly used to anaesthetise or euthanize amphibians used in experiments. It is administered by immersing the animal to allow absorption through the skin. Chytridiomycosis is an important disease of amphibians and research involves experiments with live animals. Batrachochytrium dendrobatidis, the fungus which causes chytridiomycosis, is located in the skin and therefore the organism should come into contact with MS-222 when it is used. B. dendrobatidis is a sensitive organism which could possibly be killed by MS-222. Hence, results of chytridiomycosis studies in which MS-222 is used could be unreliable. A concentration of 2 g l(-1) and an exposure duration of 1 h is at the high end of the range at which MS-222 would be most commonly used. Exposure to 2 g l(-1) MS-222 for 1 h does not kill B. dendrobatidis cultures, suggesting that MS-222 is safe to use in chytridiomycosis studies.     

Efficacy of Tricaine Methanesulfonate (MS-222) as an Anesthetic Agent for Blocking Sensory-Motor Responses in Xenopus laevis Tadpoles

Anesthetics are drugs that reversibly relieve pain, decrease body movements and suppress neuronal activity. Most drugs only cover one of these effects; for instance, analgesics relieve pain but fail to block primary fiber responses to noxious stimuli. Alternately, paralytic drugs block synaptic transmission at neuromuscular junctions, thereby effectively paralyzing skeletal muscles. Thus, both analgesics and paralytics each accomplish one effect, but fail to singularly account for all three. Tricaine methanesulfonate (MS-222) is structurally similar to benzocaine, a typical anesthetic for anamniote vertebrates, but contains a sulfate moiety rendering this drug more hydrophilic. MS-222 is used as anesthetic in poikilothermic animals such as fish and amphibians. However, it is often argued that MS-222 is only a hypnotic drug and its ability to block neural activity has been questioned. This prompted us to evaluate the potency and dynamics of MS-222-induced effects on neuronal firing of sensory and motor nerves alongside a defined motor behavior in semi-intact in vitro preparations of Xenopus laevis tadpoles. Electrophysiological recordings of extraocular motor discharge and both spontaneous and evoked mechanosensory nerve activity were measured before, during and after administration of MS-222, then compared to benzocaine and a known paralytic, pancuronium. Both MS-222 and benzocaine, but not pancuronium caused a dose-dependent, reversible blockade of extraocular motor and sensory nerve activity. These results indicate that MS-222 as benzocaine blocks the activity of both sensory and motor nerves compatible with the mechanistic action of effective anesthetics, indicating that both caine-derivates are effective as single-drug anesthetics for surgical interventions in anamniotes.     

An effect of tricaine methanesulfonate on the electroretinogram of Taricha granulosa.

MS-222 is an anesthetic that is widely used for cold-blooded animals. The present study uses contact circum-corneal electrodes and conventional recording equipment to determine the effect of this anesthetic on the electroretinogram (ERG) of the rough-skinned newt ($\text{Taricha granulosa}$). When applied prior to retinal bleach, MS-222 retarded the rate of subsequent dark adaptation. This retardation was evidenced by a decreased sensitivity to light during the adaptation process, and by a higher threshold for induction of an ERG response after bleach.     

Comparative efficacy of clove oil and other chemicals in anaesthetization of Pomacentrus amboinensis, a coral reef fish

The efficacy of quinaldine, benzocaine, MS-222, 2-phenoxyethanol and clove oil was compared for anaesthetizing settlement stage Pomacentrus amboinensis , a frequently studied coral reef fish. Induction to anaesthesia, behaviour during anaesthesia, recovery times and survival rates of fish treated with the different chemicals were compared. Clove oil was only marginally less effective than quinaldine and was more effective than other chemicals tested, except at high concentrations. In addition, fish exposed to clove oil exhibited a much calmer induction to anaesthesia than fish exposed to quinaldine. Therefore, clove oil may be an effective alternative to quinaldine as a fish anaesthetic. Recovery time after anaesthesia with clove oil was two to three times longer than recovery from other chemicals, a desirable charcteristic for use in field studies. Survival rates were excellent for all chemicals.     

The effects of commonly used anaesthetics on colour measurements across body regions in the poeciliid fish,Girardinus metallicus

The effects of common anaesthetics on the hue, saturation and brightness measurements of the poeciliid fish Girardinus metallicus were investigated in two experiments. For both experiments the coloration of four body regions was measured from digital images of the same males obtained under three conditions: (1) control (in a water-filled chamber); (2) anaesthetised with MS-222; and (3) anaesthetised with eugenol (clove oil). In experiment 1 anaesthetised fish were photographed out of water. In experiment 2 all photographs were taken in a water-filled chamber. Anaesthetics altered coloration in both experiments. In the more methodologically consistent experiment 2 we found significantly different hue, increased saturation and decreased brightness in anaesthetic v. control conditions, consistent with darkening caused by the anaesthetics. The body regions differed in coloration consistent with countershading but did not differentially change in response to anaesthesia. These findings suggest that photographing fish in a water-filled chamber without anaesthetic is preferable for obtaining digital images for colour analysis and that multiple body regions of fish should be measured when assessing coloration patterns meaningful in behavioural contexts, to account for the gradients caused by countershading. We are encouraged that some researchers employ such methods already and caution against using anaesthetics except when absolutely necessary for immobilisation.     

Daily rhythms of toxicity and effectiveness of anesthetics (MS222 and eugenol) in zebrafish (Danio rerio)

Although the chronotoxicity of xenobiotics is relatively well known in mammals, the existence of daily rhythms of drug toxicity and effectiveness in fish has been neglected to date. The aim of this research was to investigate the influence of the time (middle of the light phase [ML] versus middle of the dark phase [MD]) of exposure to two anesthetic substances (MS-222 or clove oil) commonly used with fish on the median lethal concentration (LC(50)) and swimming activity of zebrafish (Danio rerio). To this end, adult zebrafish were kept under a 12 h:12 h light-dark (LD) cycle and exposed to different concentrations of the anesthetics for 15 min at ML or MD. LC(50) calculations were performed using the Spearman-Karber program, whereas swimming activity was video-recorded and analyzed with specialized software. Zebrafish exhibited a mostly diurnal activity pattern (77.9% of activity occurring during daytime). The acute toxicity and mortality caused by MS-222 and eugenol varied with the time of exposure. For MS-222, the LC(50) was 170.6 ± 7.4 mg/L in fish exposed at ML and 215.6 ± 3.9 mg/L at MD, whereas for eugenol the LC(50) was 70.3 ± 3.1 mg/L at ML and 104.9 ± 5.4 mg/L at MD. Exposure to sublethal concentrations of MS-222 and eugenol altered the swimming patterns of zebrafish in a different manner depending on the time of exposure. Thus, the time required for decreasing swimming activity during exposure to anesthetics was shorter at ML than at MD, whereas the recovery period was longer during the day. In conclusion, these results revealed that the toxicity and effectiveness of both anesthetic substances is highest during daytime, the active phase of fish, thus suggesting a link between the daily rhythms of behavior and toxicity.     

Anaesthetic Tricaine Acts Preferentially on Neural Voltage-Gated Sodium Channels and Fails to Block Directly Evoked Muscle Contraction

Movements in animals arise through concerted action of neurons and skeletal muscle. General anaesthetics prevent movement and cause loss of consciousness by blocking neural function. Anaesthetics of the amino amide-class are thought to act by blockade of voltage-gated sodium channels. In fish, the commonly used anaesthetic tricaine methanesulphonate, also known as 3-aminobenzoic acid ethyl ester, metacaine or MS-222, causes loss of consciousness. However, its role in blocking action potentials in distinct excitable cells is unclear, raising the possibility that tricaine could act as a neuromuscular blocking agent directly causing paralysis. Here we use evoked electrical stimulation to show that tricaine efficiently blocks neural action potentials, but does not prevent directly evoked muscle contraction. Nifedipine-sensitive L-type Ca_v channels affecting movement are also primarily neural, suggesting that muscle Na_v channels are relatively insensitive to tricaine. These findings show that tricaine used at standard concentrations in zebrafish larvae does not paralyse muscle, thereby diminishing concern that a direct action on muscle could mask a lack of general anaesthesia.     

Plasma cortisol response of seawater-adapted mummichogs (Fundulus heteroclitus) during deep MS-222 anesthesia

Anesthetics are used to reduce stress in fishes during handling and transfer. However, deep anesthesia of seawater-adapted mummichogs (Fundulus heteroclitus) results in a time-related increase in plasma cortisol, indicating a primary (neuroendocrine) stress response. Groups of seven fish were bled within 1 to 12 min of exposure to the anesthetic MS-222. Plasma cortisol rose more rapidly in fish removed from the MS-222 solution immediately after 1 min and held between wet paper towels than in fish that remained immersed. The difference between methods was significant (P < 0.001) with variation restricted to the later sampling periods. Differences were not significant in fish sampled immediately after 1 min (P > 0.05).     

Hepatic respiratory compensation and haematological changes in the cave cyprinid, Phreatichthys andruzzii

In several ectotherms, including all members of the Osteichthyes studied so far, the spleen is capable of storing and releasing erythrocytes according to the animal's respiratory needs. The tropical cave cyprinid Phreatichthys andruzzii uses its liver rather than the spleen as the site of accumulation in the respiratory compensation process, like the amphibian Rana esculenta. The reversible process of erythrocyte accumulation in the liver is very evident in animals anaesthetized with chlorobutanol; MS-222, an anaesthetic widely used in lower vertebrates alters all the haematological parameters and is not suitable for studies on blood and respiration. The hepatic respiratory compensation mechanism is as efficient as the splenic one: in animals kept at 18 °C for 24 h the mean liver weight percentage was 70% higher than in specimens kept at 28 °C (2.43% of the body weight compared to 1.39%, in groups of six specimens) while mean red blood cell counts fell from 2.49 to 1.60 · 10¹² per l, in agreement with the haematocrit value and haemoglobin concentration; mean corpuscular volume remained constant (at about 177 fl). Accepted: 15 April 1997     

Some observations on the use of MS 222 Sandoz with grey mullet (Mugil chelo Cuvier)

Two trials, each using grey mullet, were carried out to investigate the use of the anaesthetic, MS 222 Sandoz, in the handling and transportation of fish. The first trial examined the effect of using various concentrations of MS 222 Sandoz and it was concluded that concentrations of between 1: 75 000 and 1: 100000 were sufficient to tranquillize the fish for pre-transport handling. A further trial using the anaesthetic at a concentration of 1: 100 000 and with a fish biomass of 50 g/1 demonstrated that tranquillized fish could safely be held at this density for a 48 h period. It was concluded that the use of anaesthetic such as MS 222 Sandoz could aid handling and loading operations and induce quiescence for a transportation period of up to 48 h duration.     

The effect of MS 222 an anaesthetic on the peroxide metabolism enzymes in erythrocytes of freshwater and marine fish species

1. The effect of 70 mg/l and 35 mg/l MS 222 an anaesthetic on the enzymes: superoxide dismutase (SOD), catalase (C) and peroxidase (P) were estimated in erythrocytes of Cyprinus carpo, a freshwater fish and Dicentrarchus labrax, a marine fish. 2. The end of the summer, at 16 degrees C MS 222 in concentration 70 mg/l caused an enhancement of the SOD and peroxidase activities and a decrease of the catalase activity. 3. In the autumn at 22 degrees C SOD and peroxidase activities in erythrocytes of Dicentrarchus labrax are normally higher than at 16 degrees C. On the contrary MS 222 causes no significant modification of enzymatic activities measured, but an increase in the dispersion of the results. 4. At 13 degrees C in the spring, MS 222 has no immediate influence on the activity of these enzymes, whilst at the same temperature at the beginning of winter, SOD is the only one activated. 5. It seems that in experiments concerning peroxide metabolism enzymes the use of anaesthetic MS 222 is not advisable.     

Anaesthesia and handling stress effects on pigmentation and monoamines in Arctic charr

Stress responsiveness differs between individuals and is often categorized into different stress coping styles. Using these stress coping styles for selection in fish farming could be beneficial, since stress is one main factor affecting welfare. In Arctic charr (Salvelinus alpinus) carotenoid pigmentation is associated with stress responsiveness and stress coping styles. Thus this could be an important tool to use for selection of stress resilient charr. However, anaesthetics seem to affect carotenoid pigmentation, and it would be better if the method for selection could be implemented during normal maintenance, which usually includes anaesthetics. Therefore, this study investigated how the use of anaesthetics affected carotenoid pigmentation, i.e. number of spots, over time compared to no-anaesthetic treatment. Additionally, the stress indicators monoamines and glucocorticoids were investigated. The results indicate that the anaesthetic MS-222 affects number of spots on the right side. This anaesthetic also increased dopaminergic activity in the telencephalon. Both brain dopaminergic and serotonergic activity was associated with spottiness. Further, behaviour during anaesthetization was associated with spots on the left side, but not the right side. Repetition of the same treatment seemed to affect spot numbers on the right side. In conclusion, this study shows that inducing stress in charr affects the carotenoid spots. Thus, it is possible to use anaesthetics when evaluating spottiness although careful planning is needed.     

The analysis of metabolites in rainbow trout white muscle: a comparison of different sampling and processing methods

We have investigated the effects of different sampling and processing methods on metabolite concentrations [glycogen (Gly), glucose (Glu), lactate (Lac), pyruvate (Pyr), ammonia (Amm), creatine phosphate (PCr), creatine (Cr), and adenosine triphosphate (ATP)] measured in white muscle of rainbow trout at rest and immediately after exhaustive exercise. When samples were taken from resting fish by rapid needle biopsy (without anaesthesia), direct freezing of the needles in liquid N₂ yielded lower Lac and Glu levels than if the muscle cores were quickly blown out into liquid N₂. However, killing of the fish by an overdose of MS-222 followed by freeze-clamping of excised muscle was superior to the biopsy method in preserving high levels of PCr and Gly (91 and 62% higher, respectively). In parallel, the MS-222 method also yielded lower levels of Amm (80%) and Lac (47%). Samples freeze-clamped by the MS-222 method were used to evaluate three methods of subsequent processing for enzymatic analysis of metabolites: classic glass homogenization (GH) in 8% perchloric acid (PCA) c. mortar and pestle (MP) pulverization or freeze-drying (FD) prior to PCA extraction. For all metabolites, GH and MP methods produced similar values. However, the FD technique yielded 20% higher PCr levels which represented over 80% phosphorylation of the total Cr pool at rest, the highest ever reported via enzymatic analysis. Glu was also higher by FD, bul Gly, Lac, and ATP were not affected. Indeed ATP was relatively stable throughout all sampling and processing procedures. MP, GH, MP&GH combination, and high speed motor driven grinding techniques all yielded similar Amm levels in resting muscle. However, tests demonstrated that even brief thawing of tissue greatly elevated Amm, while FD resulted in artificially low Amm values due to evaporative losses during lyophilization. Overall, muscle sampling by freeze-clamping on trout killed by MS-222 overdose, followed by FD prior to PCA extraction, appears to be the best combination for the measurement of all white muscle metabolites except Amm, for which MP or GH are preferable.     

Tricaine methane‐sulfonate (MS‐222) application in fish anaesthesia

Tricaine methane‐sulfonate (MS‐222) is one of the most widely used anaesthetics for poikilotherms worldwide. This paper outlines its anaesthetic efficacy and dosage in fish and legislation for its use, fish stress responses to MS‐222 anaesthesia and its effect on fish physiology and blood properties, pharmacokinetics, genotoxicity, immune response, potential interference with fish hepatic cytochrome P450 spectra, and its impact on nerve sensitivity. Key questions arising from the available data are analysed, such as regulatory constraints on its use, the need for the standardization of buffering protocols, and interdependencies of the factors impacting the specific applicative efficacy of MS‐222. Current research has provided an abundance of data on MS‐222 use in fish, although the applications within these studies are often impractical at the farming level. Specific emphasis is therefore placed on highlighting application strategies on a practical basis, presenting potential future research on topics that require in‐depth analysis (preparation and storage of anaesthetic solutions, pre‐anaesthetic sedation and stress reduction, cortisol response in aquarium fish, toxicity of MS‐222 metabolites, and possible immunodepressive properties). Additionally, both from a scientific and practical perspective, it is necessary to have a better understanding of safety margins, induction, immersion and recovery times for many (marine and freshwater, farmed and ornamental) fish species in order to achieve optimal utilization.     

Effects of anaesthesia with MS 222, neutralized MS 222 and benzocaine on the blood constituents of rainbow trout,Salmo gairdneri†

Rainbow trout (Salmo gairdneri Richardson) were subjected to 15 min anaesthesia with unbuffered MS 222, neutralized MS 222 and benzocaine with and without physical stress. Blood samples were taken through cannulae inserted into the dorsal aorta. The Hct values and Hb concentrations increased with all the anaesthetics, which also caused swelling of erythrocytes. The initial values were restored within 4–12 h of recovery. Each anaesthetic elevated the blood lactate concentration, but the initial level was regained within 12 h. The blood glucose level decreased the most during anaesthesia with unbuffered MS 222, but the initial level was rapidly restored. Benzocaine caused the least hypoglycaemia during anaesthesia, but the subsequent hyperglycaemia, as in the fish anaesthetized with neutralized MS 222, lasted 24 h. Neutralized MS 222 and benzocaine elevated the plasma K + concentration more rapidly than unbuffered MS 222. The initial levels were regained in 4 days. All anaesthetics raised the Mg ⁺⁺ concentration. The Po₂ in the dorsal aorta decreased during anaesthesia with unbuffered MS 222 by about 85 mmHg, while the Pco₂ increased by about 1.5 mmHg. Their initial levels were regained within 20 min. During anaesthesia the pH value decreased by 0.3 units and returned to the initial value within 2–4 h of recovery. MS 222 seemed to be an asphyxiant.     

Effects of anaesthesia on the chemosensory behaviour of Pacific salmon

As Lewis et al . reported in J. Fish Biol. 26 , 355–358 (1985) that the anaesthetic tricaine methanosulphate (MS 222) damaged the olfactory epithelium of channel catfish, two assays were used to determine whether MS 222 or 2-phenoxyethanol (an alternative anaesthetic) influenced subsequent olfaction-mediated behaviour. Tests revealed that the homing of adult chinook salmon, Oncorhynchus tshawytscha , and the l-serine avoidance response of juvenile coho salmon, O. kisutch , were not altered by anaesthesia.