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1. Prolonged Cold Exposure Negatively Impacts Atlantic Salmon (Salmo salar) Liver Metabolism and Function.

Author

Rojas, Isis, Caballero-Solares, Albert, Vadboncoeur, Émile, Sandrelli, Rebeccah M., Hall, Jennifer R., Clow, Kathy A., Parrish, Christopher C., Rise, Matthew L., Swanson, Andrew K., and Gamperl, Anthony K.

Subjects
FATTY liver, ATLANTIC salmon, HEPATOMEGALY, SALMON farming, MARICULTURE
Abstract

Simple Summary: Winter-associated mortalities at Atlantic salmon marine aquaculture sites have been reported in the last decade in Atlantic Canada and Iceland. Some fish species develop a condition known as 'Winter Syndrome' or 'Winter Disease' (WS/WD) when held at cold temperatures that is associated with enlarged and pale livers (fatty liver disease; FLD). To determine if salmon can develop FLD, we measured liver fat content and composition, and the expression of 34 molecular biomarkers of FLD in fish held long-term at 3 °C. Total fat and triacylglycerol levels were 50% higher in fish that showed symptoms of FLD, compared with healthy fish. Also, the expression level of 32 of the 34 selected biomarkers changed in fish with symptoms of FLD. Our results show that prolonged exposure to cold temperatures can lead to the development of FLD in some Atlantic salmon, and suggest that the development of new diets may improve the health and welfare of salmon during the winter. Large-scale mortality events have occurred during the winter in Atlantic salmon sea cages in Eastern Canada and Iceland. Thus, in salmon held at 3 °C that were apparently healthy (i.e., asymptomatic) and that had 'early' and 'advanced' symptoms of 'winter syndrome'/'winter disease' (WS/WD), we measured hepatic lipid classes and fatty acid levels, and the transcript expression of 34 molecular markers of fatty liver disease (FLD; a clinical sign of WS/WD). In addition, we correlated our results with previously reported characteristics associated with this disease's progression in these same individuals. Total lipid and triacylglycerol (TAG) levels increased by ~50%, and the expression of 32 of the 34 genes was dysregulated, in fish with symptoms of FLD. TAG was positively correlated with markers of inflammation (5loxa, saa5), hepatosomatic index (HSI), and plasma aspartate aminotransferase levels, but negatively correlated with genes related to lipid metabolism (elovl5b, fabp3a, cd36c), oxidative stress (catc), and growth (igf1). Multivariate analyses clearly showed that the three groups of fish were different, and that saa5 was the largest contributor to differences. Our results provide a number of biomarkers for FLD in salmon, and very strong evidence that prolonged cold exposure can trigger FLD in this ecologically and economically important species. [ABSTRACT FROM AUTHOR]

Published
2024
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6. Cold Fish Don’t Miss a Beat: Internal Heart Rate Bio-logging of Polar Cod (Boreogadus saida)

Author

Kuchenmüller, Luis L., Kempf, Sarah, Gamperl, A. K., Mark, Felix Christopher, Kuchenmüller, Luis L., Kempf, Sarah, Gamperl, A. K., and Mark, Felix Christopher

Abstract

In this study, we adapted Star-Oddi micro-HRT (G2) bio-loggers for improved function in the cold-adapted Arctic key species Polar cod (B. saida) that generally displays a very low heart rate (ƒH) of 8bpm. To integrate ƒH data with oxygen consumption rates (MO2), we conducted critical swim speed (Ucrit) tests in a swim-tunnel respirometer within the ecologically relevant temperature range of 0–8°C. A significant correlation (p < 0.01) of observed cardiorespiratory parameters indicated primary dependency of ƒH and MO2 during acute warming, suggesting a species-specific potential of ƒH as a proxy for energy expenditure. Despite present Ucrit (2.3 ± 0.3 BL/s) being 20% lower than in untagged conspecifics at similar temperature, maximum metabolic rates were 35% higher for bio-logger-bearing individuals. Apparent excess potential to increase MO2 suggests that polar cod’s performance limitations are not dictated by the absolute capacity of oxygen supply. Hence, alternative explanations determining Ucrit, such as behavioral termination of swimming trials to save energy, or potential limitations in ATP supply to the muscle, are discussed. Heart rate was significantly impacted by both temperature and swimming velocity (p < 0.0001, respectively). Past the optimal temperature range of polar cod (2.8–4.4°C), heart rate ceased to increase, with incremental Q10 values levelling off from 2.63±0.43 at 0–2°C, to 1.73±0.74 at 6–8°C. Consequently, potential impacts of insufficient heart rate scaling with acute temperature rise are discussed in the light of projected Arctic warming.

Published
2022

8. Comparative Genomics of Typical and Atypical Aeromonas salmonicida Complete Genomes Revealed New Insights into Pathogenesis Evolution

Author

Vasquez, Ignacio, primary, Hossain, Ahmed, additional, Gnanagobal, Hajarooba, additional, Valderrama, Katherinne, additional, Campbell, Briony, additional, Ness, Michael, additional, Charette, Steve J., additional, Gamperl, Anthony K., additional, Cipriano, Rocco, additional, Segovia, Cristopher, additional, and Santander, Javier, additional

Published
2022
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12. Hyperoxia does not improve the acute upper thermal tolerance of a tropical marine fish (Lutjanus apodus)

Author

Sandrelli, Rebeccah M., Porter, Emma S., and Gamperl, Anthony K.

Abstract

Fish can experience hyperoxia in shallow environments due to photosynthetic activity and this has been suggested to provide them with a metabolic refuge during acute warming. However, this hypothesis has never been tested on a tropical marine species. Thus, we fitted 29°C-acclimated wild schoolmaster snapper (Lutjanus apodus; a species known to experience diel hyperoxia in mangrove creeks and coastal waters) with Transonic® flow probes and exposed them to an acute increase in temperature (at 1°C h−1) in respirometers under normoxia and hyperoxia (150% air saturation), until their critical thermal maximum (CTmax). The CTmax of both groups was ∼39°C, and no differences in maximum cardiac function were recorded as the fish were warmed. However, temperature-induced factorial aerobic scope was significantly greater in fish tested under hyperoxia. These data suggest that hyperoxia will not protect coastal tropical fish species during marine heat waves, despite its effects on metabolic scope/capacity.

Published
2024
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18. Cardiac function in Atlantic cod (Gadus morhua) as a function acclimation temperature and during acute thermal challenge

Author

Lurman, Glenn, Petersen, L., Pörtner, Hans-Otto, Gamperl, A. K., Lurman, Glenn, Petersen, L., Pörtner, Hans-Otto, and Gamperl, A. K.

Abstract

Cardiac function has been hypothesised to be a primary factor influencing swimming performance in teleost fish. Using the in situ perfused heart (Farrell) set-up we examined cardiac function in cod acclimated to 0, 4 and 10°C. Only small differences in maximal cardiac output (Qmax) and the maximal myocardial power (max PO) tests were seen between 4 and 10°C acclimated cod with regards to cardiac output (CO) and maximum power generated, and these were primarily due to significant chrontropic rather than inotropic effects. In both the Qmax and max PO tests, the cardiac output was significantly lower in the 0°C cod compared to the 10°C cod. Again this was due to significant chronotropic effects. Through acute temperature reversal, i.e. 10°C cod at 4°C and the 4°C cod at 10°C we found CO to be significantly larger in 4°C cod at 10°C compared to 10°C cod at 10°C, again due primarily to a significant increase in HR during the Qmax test, although SV also tended to be greater. Again the CO and maximum power generated during the max PO test were significantly elevated, however this was due to alterations in both SV and HR. It appears that heart rate alone is responsible for regulation of CO and power generation in cod when challenged at their acclimation temperatures, while SV remains constant. During the acute temperature change it seems that both the HR and SV are altered to maintain and in fact increase CO.

Published
2007

29. In situ cardiac function in Atlantic cod (Gadus morhua): effects of acute and chronic hypoxia.

Author

Petersen, L. H. and Gamperl, A. K.

Subjects
*HEART function tests, *CARDIAC output, *ATLANTIC cod, *HYPOXIA (Water), *MYOCARDIUM
Abstract

Recent in vivo experiments on Atlantic cod (Gadus morhua) acclimated to chronic hypoxia (6-12weeks at 10°C; Pwo2 -8-9kPa) revealed a considerable decrease in the pumping capacity of the heart. To examine whether this diminished cardiac performance was due to the direct effects of chronic moderate hypoxia on the myocardium (as opposed to alterations in neural and/or hormonal control), we measured the resting and maximum in situ function of hearts from normoxiaand hypoxia-acclimated cod: (1) when initially perfused with oxygenated saline; (2) at the end of a 15min exposure to severe hypoxia (Po2 ∼0.6kPa); and (3) 30min after the hearts had been reperfused with oxygenated saline. Acclimation to hypoxia did not influence resting (basal) in situ cardiac performance during oxygenated or hypoxic conditions. However, it caused a decrease in maximum cardiac Output (Omax) under oxygenated conditions (from 49.5 to 40.3mlmin-1kg-1 by 19%), that was due to diminished values for maximum stroke volume (Vs) and scope for Vs. Severe hypoxia reduced in both groups to -20mlmin-1 kg-1, yet, the hearts of hypoxiaacclimated fish were better able to sustain this level of under hypoxia, and the recovery of Omax (as compared with initial values under oxygenated conditions) was significantly improved (94% vs 83%). These data show that acclimation to hypoxia has a direct effect on cod myocardial function and/or physiology, and suggest that the cod heart shows some adaptations to prolonged hypoxia. [ABSTRACT FROM AUTHOR]

Published
2010
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30. Responses to hypoxia and recovery: repayment of oxygen debt is not associated with compensatory protein synthesis in the Amazonian cichlid, Astronotus ocellatus.

Author

Lewis, J. M., Costa, I., Val, A. L., Almeida-Val, V. M. F., Gamperl, A. K., and Driedzic, W. R.

Subjects
HYPOXEMIA, CICHLIDS, ASTRONOTUS, PROTEIN synthesis, OXYGEN, METABOLISM
Abstract

Oxygen consumption, as an indicator of routine metabolic rate (RoMR), and tissue-specific changes in protein synthesis, as measured by ³H-labelled phenylalanine incorporation rates, were determined in Astronotus ocellatus to investigate the cellular mechanisms behind hypoxia-induced metabolic depression and recovery. RoMR was significantly depressed, by approximately 50%, when dissolved oxygen levels reached 10% saturation (0.67±0.01 mg l-1 at 28±1°C). This depression in RoMR was accompanied by a 50-60% decrease in liver, heart and gill protein synthesis, but only a 30% decrease in brain protein synthesis. During recovery from hypoxia, an overshoot in RoMR to 270% of the normoxic rate was observed, indicating the accumulation of an oxygen debt during hypoxia. This conclusion was consistent with significant increase in plasma lactate levels during the hypoxic exposure, and the fact that lactate levels rapidly returned to pre-hypoxic levels. In contrast, a hyperactivation of protein synthesis did not occur, suggesting the overshoot in oxygen consumption during recovery is attributed to an increase in cellular processes other than protein synthesis. [ABSTRACT FROM AUTHOR]

Published
2007
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31. Acclimation to warm temperatures has important implications for mitochondrial function in Atlantic salmon (Salmo salar)

Author

Gerber, Lucie, Clow, Kathy A., and Gamperl, Anthony K.

Abstract

In fish, the capacity of thermal acclimation to preserve cardiac mitochondrial function under future warming scenarios is important to understand given the central roles that cardiac energy metabolism and performance play in this taxa's thermal tolerance. We acclimated Atlantic salmon to 12 and 20°C (for >2 months), and investigated the effects of acute and chronic warming on cardiac mitochondrial respiration and reactive oxygen species (ROS) production (release rate) using high-resolution fluorespirometry. Further, we compared the sensitivity of mitochondrial respiration to nitric oxide (i.e. the NO IC50), and assessed the mitochondrial response to anoxia–reoxygenation (AR). Acute exposure to 20°C increased maximal mitochondrial respiration by ∼55%; however, the mitochondria's complex I respiratory control ratio was 17% lower and ROS production was increased by ≥60%. Acclimation to 20°C: (1) preserved mitochondrial coupling and aerobic capacity; (2) decreased the mitochondria's ROS production by ∼30%; (3) increased the mitochondria's NO IC50by ∼23%; and (4) improved mitochondrial membrane integrity at 20°C. AR did not affect mitochondrial function at 12°C, but acute exposure to 20°C and AR depressed maximal mitochondrial respiration (by ∼9%) and coupling (by ∼16%) without impacting ROS production. Finally, warm acclimation did not improve the capacity of mitochondria to recover from AR, indicating that there was no ‘cross-tolerance’ between these challenges. Our findings provide compelling evidence that thermal plasticity of cardiac mitochondrial function contributes to the Atlantic salmon's capability to survive at ≥20°C for prolonged periods, but call into question whether this plasticity may allow them to withstand high temperatures when combined with other stressors.

Published
2021
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32. Acute and chronic cold exposure differentially affect cardiac control, but not cardiorespiratory function, in resting Atlantic salmon (S almo salar ).

Author

Porter ES, Clow KA, Sandrelli RM, and Gamperl AK

Abstract

No studies have examined the effects of cold temperatures (∼0-1 °C) on in vivo cardiac function and control, and metabolism, in salmonids. Thus, we examined: 1) how acclimation to 8 °C vs. acclimation (>3 weeks) or acute exposure (8-1 °C at 1 °C h -1 ) to 1 °C influenced cardiorespiratory parameters in resting Atlantic salmon; and 2) if/how the control of cardiac function was affected. Oxygen consumption ( M ˙ O 2 ) and cardiac function [i.e., heart rate ( f H ) and cardiac output ( Q ˙ ) ] were 50% lower in the acutely cooled and 1 o C-acclimated salmon as compared to 8 °C fish, whereas stroke volume (V S ) was unchanged. Intrinsic f H was primarily under adrenergic control/tone (cholinergic tone 13-18%; adrenergic tone 37-70%). However, β-adrenergic blockade resulted in a 50% increase in V -1 in 8 and 1 °C-acclimated fish, and 8-1 °C fish, respectively), and in all groups f C-acclimated group, and this was surprising as circulating catecholamine levels were ∼1-3 nM in all groups. Overall, the data suggest that this species has a limited capacity to acclimate to temperatures approaching 0 °C. However, we cannot exclude the possibility that cardiac and metabolic responses are evoked when salmon are cooled to ∼ 0-1 °C, and that this prevented further declines in these parameters (i.e., they 'reset' quickly). Our data also provide further evidence that V H was primarily under adrenergic control/tone (cholinergic tone 13-18%; adrenergic tone 37-70%). However, β-adrenergic blockade resulted in a 50% increase in V S in the 1 o C-acclimated group, and this was surprising as circulating catecholamine levels were ∼1-3 nM in all groups. Overall, the data suggest that this species has a limited capacity to acclimate to temperatures approaching 0 °C. However, we cannot exclude the possibility that cardiac and metabolic responses are evoked when salmon are cooled to ∼ 0-1 °C, and that this prevented further declines in these parameters (i.e., they 'reset' quickly). Our data also provide further evidence that V S is temperature insensitive, and strongly suggest that changes in adrenoreceptor mediated control of venous pressure/capacitance occur when salmon are acclimated to 1 °C., Competing Interests: The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper. Gamperl reports financial support was provided by the 10.13039/501100000038Natural Sciences and Engineering Research Council of Canada., (© 2022 The Authors.)

Published
2022
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33. Hypoxic acclimation negatively impacts the contractility of steelhead trout ( Oncorhynchus mykiss ) spongy myocardium.

Author

Carnevale C, Roberts JC, Syme DA, and Gamperl AK

Subjects
Animals, Biomarkers blood, Female, Heart Diseases blood, Heart Diseases physiopathology, Hypoxia blood, Hypoxia physiopathology, In Vitro Techniques, Time Factors, Acclimatization, Heart Diseases etiology, Hypoxia complications, Myocardial Contraction, Oncorhynchus mykiss blood, Oxygen blood, Stroke Volume
Abstract

Cardiac stroke volume (S V ) is compromised in Atlantic cod and rainbow trout following acclimation to hypoxia (i.e., 40% air saturation; ~8 kPa O 2 ) at 10-12°C, and this is not due to changes in heart morphometrics or maximum achievable in vitro end-diastolic volume. To examine if this diminished S V may be related to compromised myocardial contractility, we used the work-loop method to measure work and power in spongy myocardial strips from normoxic- and hypoxic-acclimated steelhead trout when exposed to decreasing Po 2 levels (21 to 1.5 kPa) at several frequencies (30-90 contractions/min) at 14°C (their acclimation temperature). Work required to lengthen the muscle, as during filling of the heart, was strongly frequency dependent (i.e., increased with contraction rate) but was not affected by hypoxic acclimation or test Po 2 . In contrast, although shortening work was less frequency dependent, this parameter and network (and power) 1 ) were consistently lower (by ~30-50 and ~15%, respectively) in strips from hypoxic-acclimated fish and 2 ) fell by ~40-50% in both groups from 20 to 1.5 kPa Po 2 , despite the already-reduced myocardial performance in the hypoxic-acclimated group. In addition, strips from hypoxic-acclimated trout showed a poorer recovery of net power (by ~15%) when returned to normoxia. These results strongly suggest that hypoxic acclimation reduces myocardial contractility, and in turn, may limit S V (possibly by increasing end-systolic volume), but that this diminished performance does not improve the capacity to maintain myocardial performance under oxygen limiting conditions.

Published
2020
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34. Cold-acclimation leads to differential regulation of the steelhead trout (Oncorhynchus mykiss) coronary microcirculation.

Author

Costa IA, Hein TW, and Gamperl AK

Subjects
Animals, Arterioles drug effects, Arterioles physiology, Coronary Vessels drug effects, Vascular Resistance physiology, Vasoconstriction drug effects, Vasoconstriction physiology, Vasoconstrictor Agents pharmacology, Vasodilation drug effects, Vasodilation physiology, Vasodilator Agents pharmacology, Acclimatization physiology, Cold Temperature, Coronary Vessels physiology, Microcirculation physiology, Oncorhynchus mykiss physiology
Abstract

The regulation of vascular resistance in fishes has largely been studied using isolated large conductance vessels, yet changes in tissue perfusion/vascular resistance are primarily mediated by the dilation/constriction of small arterioles. Thus we adapted mammalian isolated microvessel techniques for use in fish and examined how several agents affected the tone/resistance of isolated coronary arterioles (<150 μm ID) from steelhead trout (Oncorhynchus mykiss) acclimated to 1, 5, and 10°C. At 10°C, the vessels showed a concentration-dependent dilation to adenosine (ADE; 61 ± 8%), sodium nitroprusside (SNP; 35 ± 10%), and serotonin (SER; 27 ± 2%) (all values maximum responses). A biphasic response (mild contraction then dilation) was observed in vessels exposed to increasing concentrations of epinephrine (EPI; 34 ± 9% dilation) and norepinephrine (NE; 32 ± 7% dilation), whereas the effect was less pronounced with bradykinin (BK; 12.5 ± 3.5% constriction vs. 6 ± 6% dilation). Finally, a mild constriction was observed after exposure to acetylcholine (ACh; 6.5 ± 1.4%), while endothelin (ET)-1 caused a strong dose-dependent increase in tone (79 ± 5% constriction). Acclimation temperature had varying effects on the responsiveness of vessels. The dilations induced by EPI, ADE, SER, and SNP were reduced/eliminated at 5°C and/or 1°C as compared with 10°C. In contrast, acclimation to 5 and 1°C increased the maximum constriction induced by ACh and the sensitivity of vessels to ET-1 (but not the maximum response) at 1°C was greater. Acclimation temperature had no effect on the response to NE, and responsiveness to BK was variable., (Copyright © 2015 the American Physiological Society.)

Published
2015
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35. Recovery of trout myocardial function following anoxia: preconditioning in a non-mammalian model.

Author

Gamperl AK, Todgham AE, Parkhouse WS, Dill R, and Farrell AP

Subjects
Analysis of Variance, Animals, Glycogen metabolism, Heart physiopathology, Heart Rate, Lactates metabolism, Models, Cardiovascular, Myocardium metabolism, Perfusion, Stroke Volume, Heart physiology, Hypoxia physiopathology, Ischemic Preconditioning, Myocardial, Oncorhynchus mykiss physiology
Abstract

Studies with mammals and birds clearly demonstrate that brief preexposure to oxygen deprivation can protect the myocardium from damage normally associated with a subsequent prolonged hypoxic/ischemic episode. However, is not known whether this potent mechanism of myocardial protection, termed preconditioning, exists in other vertebrates including fishes. In this study, we used an in situ trout (Oncorhynchus mykiss) working heart preparation at 10 degrees C to examine whether prior exposure to 5 min of anoxia (PO(2) < or = 5 mmHg) could reduce or eliminate the myocardial dysfunction that normally follows 15 min of anoxic exposure. Hearts were exposed either to a control treatment (oxygenated perfusion) or to one of three anoxic treatments: 1) anoxia with low P(out) [15 min of anoxia at an output pressure (P(out)) of 10 cmH(2)O]; 2) anoxia with high P(out) [10 min of anoxia at a P(out) of 10 cmH(2)O, followed by 5 min of anoxia at P(out) = 50 cmH(2)O]; and 3) preconditioning [5 min of anoxia at P(out) = 10 cmH(2)O, followed after 20 min of oxygenated perfusion by the protocol described for the anoxia with high P(out) group]. Changes in maximum cardiac function, measured before and after anoxic exposure, were used to assess myocardial damage. Maximum cardiac performance of the control group was unaffected by the experimental protocol, whereas 15 min of anoxia at low P(out) decreased maximum stroke volume (V(s max)) by 15% and maximum cardiac output (Q(max)) by 23%. When the anoxic workload was increased by raising P(out) to 50 cmH(2)O, these parameters were decreased further (by 23 and 38%, respectively). Preconditioning with anoxia completely prevented the reductions in V(s max) and Q(max) that were observed in the anoxia with high P(out) group and any anoxia-related increases in the input pressure (P(in)) required to maintain resting Q (16 ml. min(-1). kg(-1)). Myocardial levels of glycogen and lactate were not affected by any of the experimental treatments; however, lactate efflux was sevenfold higher in the preconditioned hearts. These data strongly suggest that 1) a preconditioning-like mechanism exists in the rainbow trout heart, 2) increased anaerobic glycolysis, fueled by exogenous glucose, was associated with anoxic preconditioning, and 3) preconditioning represents a fundamental mechanism of cardioprotection that appeared early in the evolution of vertebrates.

Published
2001
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36. Cardiorespiratory responses of white sturgeon to environmental hypercapnia.

Author

Crocker CE, Farrell AP, Gamperl AK, and Cech JJ Jr

Subjects
Animals, Blood Circulation, Reference Values, Regional Blood Flow, Environment, Fishes physiology, Heart physiopathology, Hypercapnia etiology, Hypercapnia physiopathology, Respiration
Abstract

Cardioventilatory variables and blood-gas, acid-base status were measured in cannulated white sturgeon (Acipenser transmontanus) maintained at 19 degrees C during normocapnic and hypercapnic (Pw(CO(2)) approximately 20 Torr) water conditions and after the injection of adrenergic analogs. Hypercapnia produced significant increases in arterial PCO(2), ventilatory frequency, and plasma concentration of cortisol and epinephrine, and it produced significant decreases in arterial pH and plasma concentration of glucose but no change in arterial PO(2), hematocrit, and concentration of lactate or norepinephrine. Hypercapnia significantly increased cardiac output (Q) by 22%, mean arterial pressure (MAP) by 8%, and heart rate (HR) by 8%. However, gut blood flow (GBF) remained constant. In normocapnic fish, phenylephrine significantly constricted the splanchnic circulation, whereas isoproterenol significantly increased Q and produced a systemic vasodilation. During hypercapnia, propranolol significantly decreased Q, GBF, MAP, and HR, whereas phentolamine significantly decreased MAP and increased GBF. These changes suggest that cardiovascular function in the white sturgeon is sensitive to both alpha- and beta-adrenergic modulation. We found microspheres to be unreliable in predicting GBF on the basis of our comparisons with simultaneous direct measurements of GBF. Overall, our results demonstrate that environmental hypercapnia (e.g., as is experienced in high-intensity culture situations) elicits stress responses in white sturgeon that significantly elevate steady-state cardiovascular and ventilatory activity levels.

Published
2000
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37. Cardiorespiratory responses of the toad (Bufo marinus) to hypoxia at two different temperatures.

Author

Gamperl AK, Milsom WK, Farrell AP, and Wang T

Subjects
Animals, Atropine pharmacology, Blood Flow Velocity drug effects, Bufo marinus, Coronary Vessels drug effects, Coronary Vessels physiopathology, Heart drug effects, Hemodynamics drug effects, Hypercapnia physiopathology, Lung blood supply, Lung drug effects, Muscarinic Antagonists pharmacology, Pulmonary Ventilation drug effects, Temperature, Heart physiopathology, Hypoxia physiopathology, Lung physiopathology
Abstract

Central vascular blood flows and ventilation were measured in conscious toads (Bufo marinus) at 15 and 25 degrees C. The animals were exposed to hypoxia (Fi(O)(sum)=0.10 and 0.05, where Fi(O)(sum) is the fractional oxygen concentration of inspired air) at both temperatures. In addition, the cardiorespiratory responses to hypercapnia (Fi(CO)(sum)=0.05) and atropine injection (5 mg kg(-)(1); 7.4 micromol kg(-)(1)) were studied at 25 degrees C. At 25 degrees C, systemic blood flow ( q&#95;dot (sys)) exceeded pulmocutaneous blood flow ( q&#95;dot (pc)), indicating a large net right-to-left shunt ( q&#95;dot (pc)/ q&#95;dot (sys) was 0.39). q&#95;dot (pc)/ q&#95;dot (sys) was reduced significantly to 0.22 at 15 degrees C. At both temperatures, q&#95;dot (pc) increased significantly during hypoxia (from 26.2 to 50.8 ml min(-)(1 )kg(-)(1) at 25 degrees C and from 11. 2 to 18.9 ml min(-)(1 )kg(-)(1) at 15 degrees C), whereas q&#95;dot (sys) changed little (from 77.2 to 66.2 ml min(-)(1 )kg(-)(1) at 25 degrees C and from 54.3 to 50.1 ml min(-)(1 )kg(-)(1) at 15 degrees C). As a result, the net right-to-left shunt was greatly reduced, while total cardiac output remained almost unaffected. The ventilatory response was more pronounced during hypercapnia but, since q&#95;dot (pc) and q&#95;dot (sys) were affected similarly, there was no change in the shunt pattern. In undisturbed toads at 25 degrees C, atropine injection increased q&#95;dot (pc) and eliminated the net right-to-left shunt. This is consistent with the known vagal innervation of the pulmonary artery. The present study shows that the cardiac right-to-left shunt that prevails in undisturbed and resting toads is reduced with increased temperature and during hypoxia. These findings are consistent with the general view that the cardiac right-to-left shunt is regulated and reduced whenever oxygen delivery is compromised or metabolic rate is increased.

Published
1999
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38. Mechanisms of isoflurane-induced myocardial preconditioning in rabbits.

Author

Ismaeil MS, Tkachenko I, Gamperl AK, Hickey RF, and Cason BA

Subjects
Anesthetics, Inhalation administration & dosage, Animals, Hemodynamics drug effects, Injections, Intravenous, Isoflurane administration & dosage, Potassium Channels physiology, Rabbits, Ventricular Fibrillation, Anesthetics, Inhalation adverse effects, Ischemic Preconditioning, Myocardial, Isoflurane adverse effects
Abstract

Background: Isoflurane has cardioprotective effects that mimic the ischemic preconditioning phenomenon. Because adenosine triphosphate-sensitive potassium channels and adenosine receptors are implicated in ischemic preconditioning, the authors wanted to determine whether the preconditioning effect of isoflurane is mediated through these pathways., Methods: Myocardial infarct size was measured in seven groups of propofol-anesthetized rabbits, each subjected to 30 min of anterolateral coronary occlusion followed by 3 h of reperfusion. Groups differed only in the pretreatments given, and controls received no pretreatment. An ischemia-preconditioned group was pretreated with 5 min of coronary occlusion and 15 min of reperfusion. An isoflurane-preconditioned group was pretreated with 15 min end-tidal isoflurane, 1.1%, and then 15 min of washout. An isoflurane-plus-glyburide group was administered 0.33 mg/kg glyburide intravenously before isoflurane pretreatment. An isoflurane plus 8-(p-sulfophenyl)-theophylline (SPT) group received 7.5 mg/kg SPT intravenously before isoflurane. Additional groups were administered identical doses of glyburide or SPT, but they were not pretreated with isoflurane. Infarct size and area at risk were defined by staining. Data were analyzed by analysis of variance or covariance., Results: Infarct size, expressed as a percentage of the area at risk (IS:AR) was 30.2+/-11% (SD) in controls. Ischemic preconditioning and isoflurane preexposure reduced myocardial infarct size significantly, to 8.3+/-5% and 13.4+/-8.2% (P<0.05), respectively. Both glyburide and SPT pretreatment eliminated the preconditioning-like effect of isoflurane (IS:AR = 30.0+/-9.1% and 29.2+/-12.6%, respectively; P = not significant). Neither glyburide nor SPF alone increased infarct size (IS:AR = 33.9+/-7.6% and 31.8+/-12.7%, respectively; P = not significant)., Conclusions: Glyburide and SPT abolished the preconditioning-like effects of isoflurane but did not increase infarct size when administered in the absence of isoflurane. Isoflurane-induced preconditioning and ischemia-induced preconditioning share similar mechanisms, which include activation of adenosine triphosphate-sensitive potassium channels and adenosine receptors.

Published
1999
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39. Anesthetic-induced preconditioning: previous administration of isoflurane decreases myocardial infarct size in rabbits.

Author

Cason BA, Gamperl AK, Slocum RE, and Hickey RF

Subjects
Animals, Rabbits, Ventricular Fibrillation prevention & control, Anesthetics, Inhalation pharmacology, Hemodynamics drug effects, Ischemic Preconditioning, Myocardial, Isoflurane pharmacology, Myocardial Infarction prevention & control
Abstract

Background: Experimental evidence suggests that ATP-sensitive potassium channels are involved in myocardial ischemic preconditioning. Because some pharmacologic effects of isoflurane are mediated by K(ATP) channels, the authors tested the hypothesis: Isoflurane administration, before myocardial ischemia, can induce or mimic myocardial preconditioning., Methods: Myocardial infarct size was measured in three groups of propofol-anesthetized rabbits, each subjected to 30 min of anterolateral coronary occlusion followed by 3 h of reperfusion. Groups differed in their pretreatment: Group 1 (control, N = 13) no pretreatment, Group 2 (ischemic preconditioning, N = 8), 5 min of coronary occlusion and 15 min of reperfusion; Group 3 (isoflurane pretreatment; N = 15), 15 min of isoflurane (1.1% end-tidal) and 15 min of washout. Hemodynamics were monitored serially. Myocardial infarct size and the area at risk were defined using triphenyltetrazolium chloride staining and fluorescent microspheres, respectively, and both were measured using computerized planimetry., Results: Infarct size expressed as a percentage of area at risk was 23.4 +/- 8.5% (mean +/- SD) in the isoflurane group compared with 33.1 +/- 13.3% in controls, and 8.7 +/- 6.2% in the ischemia-preconditioned group. Analysis for coincidental regressions, followed by tests for equality of slope and elevation, showed that the linear relationship between infarct size and area at risk was significantly (P < 0.05) different in all three groups because of differences in line elevation. Minor differences in hemodynamic variables were found between groups, which were unlikely to account for the significant differences in infarct size., Conclusion: Preadministration of isoflurane, before myocardial ischemia, reduces myocardial infarct size, and mimics myocardial preconditioning.

Published
1997
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