Exercise training improves lusitropy by isoproterenol in papillary muscles from aged rats

Taffet, George E., Lloyd A. Michael, and Charlotte A. Tate.Exercise training improves lusitropy by isoproterenol in papillarymuscles from aged rats. J. Appl.Physiol. 81(4): 1488-1494, 1996.Aging isassociated with a decreased cardiac responsiveness to -adrenergicstimulation. We examined the effect of endurance exercise training ofold Fischer 344 male rats on -adrenergic stimulation of the functionof isolated left ventricular papillary muscle. Three groups wereexamined: sedentary mature (SM; 12-mo old), sedentary old (SO;23-24 mo old), and exercised old (EO; 23-24 mo old) that weretreadmill trained for 4-8 wk. The isometric contractile propertieswere studied at 0.2 Hz and 0.75 mM calcium. Without -adrenergicstimulation, there were no group differences for peak tension, maximumrate of tension development(+dP/dt), or maximum rateof tension dissipation(dP/dt). The time to peak tension was longer (P < 0.05) forboth EO and SO than for SM rats. Half relaxation time(RT_1/2) was prolonged(P < 0.05) for SO compared with SMand EO (which did not differ). The three groups did not differ in the-adrenergic stimulation by isoproterenol of peak tension,dP/dt, time to peak tension, orcontraction duration. The inotropic response(+dP/dt) of SM was greater(P < 0.05) than that in SO or EOrats (which did not differ); however, the lusitropic response(RT_1/2) was lesser(P < 0.05) in SO than in SM or EO rats (which did not differ). Thus exercise training of old rats improved the lusitropic response to isoproterenol without altering theage-associated impairment in inotropic response.

     

Changes in maximum oxygen uptake during prolonged training, overtraining, and detraining in horses

Tyler, Catherine M., Lorraine C. Golland, David L. Evans,David R. Hodgson, and Reuben J. Rose. Changes in maximum oxygenuptake during prolonged training, overtraining, and detraining inhorses. J. Appl. Physiol. 81(5):2244-2249, 1996.Thirteen standardbred horses were trained asfollows: phase 1 (endurance training, 7 wk),phase 2 (high-intensity training, 9 wk),phase 3 (overload training, 18 wk), andphase 4 (detraining, 12 wk). Inphase 3, the horses were divided intotwo groups: overload training (OLT) and control (C). The OLT groupexercised at greater intensities, frequencies, and durations than groupC. Overtraining occurred after 31 wk of training and was defined as asignificant decrease in treadmill run time in response to astandardized exercise test. In the OLT group, there was a significantdecrease in body weight (P < 0.05).From pretraining values of 117 ± 2 (SE)ml ^· kg^{1 ·} min¹,maximal O₂ uptake(O_{2 max}) increased by15% at the end of phase 1, and when signs of overtraining werefirst seen in the OLT group,O_{2 max} was 29%higher (151 ± 2 ml ^· kg^{1 ·} min¹in both C and OLT groups) than pretraining values. There was nosignificant reduction inO_{2 max} until after 6 wk detraining whenO_{2 max} was 137 ± 2 ml ^· kg^{1 ·} min¹.By 12 wk detraining, meanO_{2 max} was134 ± 2 ml ^· kg^{1 ·} min¹,still 15% above pretraining values. When overtraining developed, O_{2 max} was notdifferent between C and OLT groups, but maximal values forCO₂ production (147 vs. 159 ml ^· kg^{1 ·} min¹)and respiratory exchange ratio (1.04 vs. 1.11) were lower in the OLTgroup. Overtraining was not associated with a decrease inO_{2 max} and, afterprolonged training, decreases inO_{2 max} occurredslowly during detraining.

     

Effects of endurance training on the cardiovascular system and water compartments in elderly subjects

Pickering, Gisèle P., Nicole Fellmann, BéatriceMorio, Patrick Ritz, Aimé Amonchot, Michel Vermorel, and JeanCoudert. Effects of endurance training on the cardiovascularsystem and water compartments in elderly subjects. J. Appl. Physiol. 83(4): 1300-1306, 1997.Theeffects of endurance training on the water compartments and thecardiovascular system were determined in 10 elderly subjects [age62 ± 2 yr, pretraining maximal oxygen consumption(O_{2 max})/kg = 25 ± 2 ml · min¹ · kg¹body wt]. They trained on a cycloergometer 3 times/wk for 16 wk(50-80%O_{2 max},then 80-85%O_{2 max}). They werechecked at 8 wk, 16 wk, and 4 mo after detraining. Training improvedO_{2 max} (+16%) andinduced plasma volume expansion (+11%). No change in total body water,extracellular fluid, interstitial and intracellular fluid volumes,fat-free mass, and body weight was detected in this small sample withtraining. Body fat mass decreased (2.1 ± 2.2 kg).Echocardiography at rest showed increased fractional shortening andejection fraction and decreased left ventricular end-systolic dimension(P < 0.05). Blood volume expansioncorrelates with cardiac contractility and has an impact on cardiacfunction. These improvements are precarious, however, and arecompletely lost after 4 mo of detraining, when elderly subjects losethe constraints and the social stimulation of the imposed protocol.

     

Resistance and aerobic training in older men: effects on VO2 peak and the capillary supply to skeletal muscle

Hepple, R. T., S. L. M. Mackinnon, J. M. Goodman, S. G. Thomas, and M. J. Plyley. Resistance and aerobic training in oldermen: effects onO_{2 peak} and thecapillary supply to skeletal muscle. J. Appl.Physiol. 82(4): 1305-1310, 1997.Both aerobic training (AT) and resistance training (RT) may increase aerobic power(O_{2 peak}) in theolder population; however, the role of changes in the capillary supplyin this response has not been evaluated. Twenty healthymen (age 65-74 yr) engaged in either 9 wk of lower body RTfollowed by 9 wk of AT on a cycle ergometer (RTAT group) or 18 wk of AT on a cycle ergometer (ATAT group). RT was performedthree times per week and consisted of three sets of four exercises at6-12 repetitions maximum. AT was performed threetimes per week for 30 min at 60-70% heart ratereserve. O_{2 peak} was increasedafter both RT and AT (P < 0.05).Biopsies (vastus lateralis) revealed that the number of capillaries per fiber perimeter length was increased after both AT and RT(P < 0.05), paralleling the changesin O_{2 peak}, whereascapillary density was increased only after AT(P < 0.01). These results, and thefinding of a significant correlation between the change in capillarysupply and O_{2 peak}(r = 0.52), suggest the possibility that similar mechanisms may be involved in the increase ofO_{2 peak} afterhigh-intensity RT and AT in the older population.

     

Respiratory muscle reserve in rats during heavy exercise

Gosselin, Luc E., David Megirian, Joshua Rodman, DonnaMueller, and Gaspar A. Farkas. Respiratory muscle reserve in ratsduring heavy exercise. J. Appl.Physiol. 83(4): 1405-1409, 1997.The extent towhich the respiratory pump muscles limit maximal aerobic capacity inquadrupeds is not entirely clear. To examine the effect of reducedrespiratory muscle reserve on aerobic capacity, whole bodypeak oxygen consumption(O_{2 peak}) wasmeasured in healthy Sprague-Dawley rats before and after Sham,unilateral, or bilateral hemidiaphragm denervation (Dnv) surgery.O_{2 peak} wasdetermined by using a graded treadmill running test.Hemidiaphragm paralysis was verified after testing byrecording the absence of electromyographic activity duringinspiration. Before surgery, O_{2 peak} averaged 86, 87, and 92 ml · kg¹ · min¹for the Sham, unilateral, and bilateral Dnv groups, respectively. Twoweeks after surgery, there was no significant change inO_{2 peak} foreither the Sham or unilateral Dnv group. However,O_{2 peak} decreased~19% in the bilateral Dnv group 2 wk after surgery. These findingsstrongly suggest that the pulmonary system in rats is designed suchthat during heavy exercise, the remaining respiratory pump muscles areable to compensate for the loss of one hemidiaphragm, but not of both.

     

Effects of chronic exercise and deconditioning on platelet function in women

Wang, Jong-Shyan, Chauying J. Jen, and Hsiun-Ing Chen.Effects of chronic exercise and deconditioning on plateletfunction in women. J. Appl. Physiol.83(6): 2080-2085, 1997.To investigate the effects of chronicexercise and deconditioning on platelet function in women, 16 healthysedentary women were divided into control and exercise groups. Theexercise group cycled on an ergometer at 50% maximal oxygenconsumption for 30 min/day, 5 days/wk, for two consecutive menstrualcycles and then were deconditioned for three menstrual cycles. Duringthis period, platelet adhesiveness on a fibrinogen-coated surface,ADP-induced platelet aggregation and intracellular calciumconcentration elevation, guanosine 3,5-cyclic monophosphate (cGMP) content in platelets, and plasma nitric oxide metabolite levels were measured before and immediately after a progressive exercise test in the midfollicular phase. Ourresults indicated that, after exercise training,1) resting heart rates and bloodpressures were reduced, and exercise performance was improved;2) resting platelet function wasdecreased, whereas plasma nitrite and nitrate levels and platelet cGMPcontents were enhanced; and 3) thepotentiation of platelet function by acute strenuous exercise wasdecreased, whereas the increases in plasma nitrite and nitrate levelsand platelet cGMP contents were enhanced by acuteexercise. Furthermore, deconditioning reversed these training effects. This implies that training-induced platelet functional changes in women in the midfollicular phase may be mediatedby nitric oxide.

     

Importance of the lactate anion in control of breathing

Hardarson, Thorir, Jon O. Skarphedinsson, and TorarinnSveinsson. Importance of the lactate anion in control ofbreathing. J. Appl. Physiol. 84(2):411-416, 1998.The purpose of this study was to examine theeffects of raising the arterialLa andK⁺ levels on minute ventilation(E) in rats. EitherLa or KCl solutions wereinfused in anesthetized spontaneously breathing Wistar rats to raisethe respective ion arterial concentration ([La] and[K⁺]) gradually tolevels similar to those observed during strenuous exercise.E, blood pressure, and heart rate wererecorded continuously, and arterial[La],[K⁺], pH, and bloodgases were repeatedly measured from blood samples. To prevent changesin pH during the Lainfusions, a solution of sodium lactate and lactic acid was used. Raising [La] to13.2 ± 0.6 (SE) mM induced a 47.0 ± 4.0% increase inE without any concomitant changes ineither pH or PCO₂. Raising[K⁺] to 7.8 ± 0.11 mM resulted in a 20.3 ± 5.28% increase inE without changes in pH. Thus ourresults show that Laitself, apart from lactic acidosis, may be important in increasing E during strenuous exercise, and weconfirm earlier results regarding the role of arterial[K⁺] in the control ofE during exercise.

     

Norepinephrine response to exercise at the same relative intensity before and after endurance exercise training

It is welldocumented that endurance exercise training results in a bluntednorepinephrine (NE) response to exercise of a given absolute exerciseintensity. However, it is not clear what effect traininghas on the catecholamine response to exercise of the same relativeintensity because previous studies have provided conflicting results.The purpose of the present study was, therefore, to determine thecatecholamine response to exercise of the same relative exerciseintensity before and after endurance exercise training. Six women andthree men [age 28 ± 8 (SD) yr] performed 10 wk oftraining. Maximal O₂ uptake(O_{2 max}) wasdetermined during treadmill exercise. Fifteen-minute treadmill exercisebouts were performed at 60, 65, 70, 75, 80, and 85% ofO_{2 max} before andafter training.O_{2 max} was increasedby 20% (from 39.2 ± 7.7 to 46.9 ± 8.1 ml · kg¹ · min¹;P < 0.05) in response to training.Plasma NE concentrations were higher(P < 0.05) during exercise at thesame relative intensity after, compared with before, training at65-85% ofO_{2 max.}Differences between heart rates and plasma epinephrine concentrationsafter, compared with before, training were not statisticallysignificant. These results provide evidence that the NE response toexercise is dependent on the absolute as well as the relative intensity of the exercise.     

Dobutamine as a countermeasure for reduced exercise performance of rats exposed to simulated microgravity

Tipton, Charles M., and Lisa A. Sebastian. Dobutamineas a countermeasure for reduced exercise performance of rats exposed tosimulated microgravity. J. Appl.Physiol. 82(5): 1607-1615, 1997.Post-spaceflightresults and findings from humans and rodents after conditions of bedrest or simulated microgravity indicate maximum exercise performance issignificantly compromised. However, the chronic administration ofdobutamine (a synthetic adrenomimetic) to humans in relevantexperiments improves exercise performance by mechanisms that preventthe decline in peak O₂ consumption (O_{2 peak}) and reducethe concentration of lactic acid measured in the blood. Althoughdobutamine restores maximumO₂values in animals participating in simulated microgravitystudies, it is unknown whether injections of this₁-,₁-, and₂-adrenoceptor agonist in ratswill enhance exercise performance. To investigate this, adult male ratswere assigned to three experimental groups: caged control receivingsaline; head-down, tail-suspended (HDS) receiving saline (HDS-S); andan HDS group receiving dobutamine hydrochloride injections (1.8 mg/kgtwice daily per rat). Treadmill tests were performed before suspension,at 14 days, and after 21 days.O_{2 peak}, run time,and the rate of rise in colonic temperature (heating index) wereevaluated after 14 days, whereas at 21 days, hemodynamic responses(heart rate, systolic blood pressure, and double product) weredetermined during submaximal exercise with blood pH, blood gases, andlactic acid concentration values obtained during maximal exercise. Incontrast to the results for the HDS-S rats, dobutamine administrationdid restore O_{2 peak} and "normalized" lactic acid concentrations during maximalexercise. However, daily injections were unable to enhance exerciseperformance aspects associated with treadmill run time, the mechanicalefficiency of running, the heating index, or the retention of muscleand body mass. These simulated microgravity findings suggest that dobutamine's potential value as a countermeasure for postflight maximal performance or for egress emergencies is limited and that othercountermeasures must be considered.

     

Effects of vigorous exercise training and beta -agonist administration on bone response to hindlimb suspension

Bloomfield, Susan A., Beverly E. Girten, and Steven E. Weisbrode. Effects of vigorous exercise training and -agonist administration on bone response to hindlimb suspension.J. Appl. Physiol. 83(1):172-178, 1997.The effectiveness of dobutamine (Dob) inpreventing bone loss during 14 days of hindlimb suspension (Sus) wastested in exercise-trained (Ex; n = 25) and sedentary (Sed; n = 22) rats(age 155 days). One-half of each group was given Dob (2 mg · kg¹ · day¹)or saline (Sal). Histomorphometric measurements at midfemur revealed a17% smaller cortical bone area (CBA) and a 32% lower periostealmineral apposition rate (MAR) in suspended vs. nonsuspended Sed/Salrats. Dob abolished this decline in CBA in Sed/Sus rats, probably via an attenuation of the decrease in periosteal MAR; similarbut nonsignificant effects on cross-sectional moment of inertia wereobserved. Nonsuspended Ex rats had no change in bone CBA when CBA isindexed to body weight. Sus appeared to uncouple the relationshipbetween soleus weight and CBA. Dob attenuated the 43% decline insoleus weight after Sus in Ex but not in Sed rats. In summary, vigorousEx before Sus does not affect loss of bone mass due to unloading; Dobeffectively maintains CBA in Sed rats subjected to suspension.

     

Effects of voluntary activity and genetic selection on aerobic capacity in house mice (Mus domesticus)

Swallow, John G., Theodore Garland, Jr., Patrick A. Carter,Wen-Zhi Zhan, and Gary C. Sieck. Effects of voluntary activity andgenetic selection on aerobic capacity in house mice(Mus domesticus). J. Appl. Physiol. 84(1): 69-76, 1998.An animal model was developed to study effects on components ofexercise physiology of both "nature" (10 generations of geneticselection for high voluntary activity on running wheels) and"nurture" (7-8 wk of access or no access to running wheels,beginning at weaning). At the end of the experiment, mice from bothwheel-access groups were significantly lighter in body mass than micefrom sedentary groups. Within the wheel-access group, a statisticallysignificant, negative relationship existed between activity and finalbody mass. In measurements of maximum oxygen consumption during forcedtreadmill exercise (O_{2 max}), mice withwheel access were significantly more cooperative than sedentary mice;however, trial quality was not a significant predictor of individualvariation in O_{2 max}.Nested two-way analysis of covariance demonstrated that both geneticselection history and access to wheels had significant positive effects on O_{2 max}.A 12% difference inO_{2 max} existedbetween wheel-access selected mice, which had the highestmass-correctedO_{2 max}, andsedentary control mice, which had the lowest. The respiratory exchangeratio at O_{2 max} wasalso significantly lower in the wheel-access group. Our results suggestthe existence of a possible genetic correlation between voluntaryactivity levels (behavior) and aerobic capacity (physiology).

     

Nitric oxide response in exhaled air during an incremental exhaustive exercise

Chirpaz-Oddou, M. F., A. Favre-Juvin, P. Flore, J. Eterradossi, M. Delaire, F. Grimbert, and A. Therminarias. Nitric oxide response in exhaled air during an incremental exhaustive exercise. J. Appl. Physiol. 82(4):1311-1318, 1997.This study examines the response of the exhalednitric oxide (NO) concentration (CNO) and the exhaled NOoutput(NO)during incremental exercise and during recovery in six sedentary women,seven sedentary men, and eight trained men. The protocolconsisted of increasing the exercise intensity by 30 W every 3 minuntil exhaustion, followed by 5 min of recovery. Minute ventilation(E), oxygen consumption (O₂), carbon dioxideproduction, heart rate, CNO, andNOwere measured continuously. TheCNO in exhaled air decreasedsignificantly provided that the exercise intensity exceeded 65% of thepeak O₂. It reached similarvalues, at exhaustion, in all three groups. TheNO increasedproportionally with exercise intensity up to exhaustion and decreasedrapidly during recovery. At exhaustion, the mean values weresignificantly higher for trained men than for sedentary men andsedentary women. During exercise,NOcorrelates well with O₂,carbon dioxide production, E, and heartrate. For the same submaximal intensity, and thus a givenO₂ and probably a similarcardiac output,NO appearedto be similar in all three groups, even if theE was different. These results suggestthat, during exercise,NO is mainlyrelated to the magnitude of aerobic metabolism and that thisrelationship is not affected by gender differences or by noticeabledifferences in the level of physical training.

     

Lactate and epinephrine during exercise in altitude natives

Kayser, Bengt, Roland Favier, Guido Ferretti, DominiqueDesplanches, Hilde Spielvogel, Harry Koubi, Brigitte Sempore, and HansHoppeler. Lactate and epinephrine during exercise in altitudenatives. J. Appl. Physiol. 81(6):2488-2494, 1996.We tested the hypothesis that the reported lowblood lactate accumulation ([La]) during exercise inaltitude-native humans is refractory to hypoxia-normoxia transitions byinvestigating whether acute changes in inspiredO₂ fraction(FI_O2) affect the[La] vs. power output ()relationship or, alternatively, as reported for lowlanders, whetherchanges in [La] vs. on changes inFI_O2 are related tochanges in blood epinephrine concentration ([Epi]). Altitude natives [n = 8, age 24 ± 1 (SE) yr, body mass 62 ± 3 kg, height 167 ± 2 cm]in La Paz, Bolivia (3,600 m) performed incremental exercise with twolegs and one leg in chronic hypoxia and acute normoxia (AN). Submaximalone- and two-leg O₂ uptake (O₂) vs. relationships were not altered byFI_O2. AN increased two-legpeak O₂ by 10% and peak by 7%. AN paradoxically decreasedone-leg peak O₂ by 7%,whereas peak remained the same. The[La] vs. relationships were similar tothose reported in unacclimatized lowlanders. There was a shift to theright on AN, and maximum [La] was reduced by 7 and 8% forone- and two-leg exercises, respectively. [Epi] and[La] were tightly related (mean r = 0.81) independently ofFI_O2. Thus normoxiaattenuated the increment in both [La] and [Epi]as a function of , whereas the correlation between[La] and [Epi] was unaffected. These data suggest loose linkage of glycolysis to oxidative phosphorylation under influence from [Epi]. In conclusion, high-altitudenatives appear to be not fundamentally different from lowlanders with regard to the effect of acute changes inFI_O2 on [La] during exercise.

     

Cardiovascular adaptations to 10days of cycle exercise

Mier, Constance M., Michael J. Turner, Ali A. Ehsani, andRobert J. Spina. Cardiovascular adaptations to 10 days of cycleexercise. J. Appl. Physiol. 83(6):1900-1906, 1997.We hypothesized that 10 days of training wouldenhance cardiac output (CO) and stroke volume (SV) during peak exerciseand increase the inotropic response to -adrenergic stimulation. Tensubjects [age 26 ± 2 (SE) yr] trained on a cycleergometer for 10 days. At peak exercise, training increasedO₂ uptake, CO, and SV(P < 0.001). Left ventricular (LV)size and function at rest were assessed with two-dimensional echocardiography before (baseline) and after atropine injection (1.0 mg) and during four graded doses of dobutamine. LV end-diastolic diameter increased with training (P < 0.02), whereas LV wall thickness was unchanged. LV contractileperformance was assessed by relating fractional shortening (FS) to theestimated end-systolic wall stress(_ES). Training increased theslope of the FS-_ES relationship (P < 0.05), indicating enhancedsystolic function. The increase in slope correlated with increases inCO (r = 0.71,P < 0.05) and SV(r = 0.70,P < 0.05). The increase in bloodvolume also correlated with increases in CO(r = 0.80, P < 0.01) and SV (r = 0.85, P < 0.004). These datashow that 10 days of training enhance the inotropic response to-adrenergic stimulation, associated with increases in CO and SVduring peak exercise.

     

Effect of endurance exercise training on muscle glycogen supercompensation in rats

Nakatani, Akira, Dong-Ho Han, Polly A. Hansen, Lorraine A. Nolte, Helen H. Host, Robert C. Hickner, and John O. Holloszy. Effect of endurance exercise training on muscle glycogensupercompensation in rats. J. Appl.Physiol. 82(2): 711-715, 1997.The purpose of this study was to test the hypothesis that the rate and extent ofglycogen supercompensation in skeletal muscle are increased byendurance exercise training. Rats were trained by using a 5-wk-long swimming program in which the duration of swimming was gradually increased to 6 h/day over 3 wk and then maintained at 6 h/day for anadditional 2 wk. Glycogen repletion was measured in trained anduntrained rats after a glycogen-depleting bout of exercise. The ratswere given a rodent chow diet plus 5% sucrose in their drinking waterad libitum during the recovery period. There were remarkabledifferences in both the rates of glycogen accumulation and the glycogenconcentrations attained in the two groups. The concentration ofglycogen in epitrochlearis muscle averaged 13.1 ± 0.9 mg/g wet wtin the untrained group and 31.7 ± 2.7 mg/g in the trained group(P < 0.001) 24 h after the exercise.This difference could not be explained by a training effect on glycogensynthase. The training induced ~50% increases in muscle GLUT-4glucose transporter protein and in hexokinase activity inepitrochlearis muscles. We conclude that endurance exercise trainingresults in increases in both the rate and magnitude of muscle glycogensupercompensation in rats.

     

Respiratory gas-exchange ratios during graded exercise in fed and fasted trained and untrained men

We evaluated the hypotheses that endurance training increasesrelative lipid oxidation over a wide range of relative exercise intensities in fed and fasted states and that carbohydrate nutrition causes carbohydrate-derived fuels to predominate as energy sources during exercise. Pulmonary respiratory gas-exchange ratios [(RER) = CO₂production/O₂ consumption(O₂)] were determinedduring four relative, graded exercise intensities in both fed andfasted states. Seven untrained (UT) men and seven category 2 and 3 US Cycling Federation cyclists (T) exercised in the morning in random order, with target power outputs of 20 and 40% peakO₂(O_{2 peak}) for 2 h,60% O_{2 peak} for 1.5 h, and 80%O_{2 peak} fora minimum of 30 min after either a 12-h overnight fast or 3 h after astandardized breakfast. Actual metabolic responses were 22 ± 0.33, 40 ± 0.31, 59 ± 0.32, and 75 ± 0.39%O_{2 peak}. T subjectsshowed significantly (P < 0.05)decreased RER compared with UT subjects at absolute workloads when fedand fasted. Fasting significantly decreased RER values compared withthe fed state at 22, 40, and 59%O_{2 peak} inT and at 40 and 59%O_{2 peak} in UTsubjects. Training decreased (P < 0.05) mean RER values compared with UT subjects at 22%O_{2 peak} when theyfasted, and at 40%O_{2 peak} when fed orfasted, but not at higher relative exercise intensities in eithernutritional state. Our results support the hypothesis that endurancetraining enhances lipid oxidation in men after a 12-h overnight fast at low relative exercise intensities (22 and 40%O_{2 peak}). However, atraining effect on RER was not apparent at high relative exercise intensities (59 and 75%O_{2 peak}). Becausemost athletes train and compete at exercise intensities >40% maximalO₂, they will not oxidize agreater proportion of lipids compared with untrained subjects,regardless of nutritional state.     

Bronchial vasodilatory response to ionic and nonionic contrast media

Baile, Elisabeth M., Lu Wang, Lorraine Verburgt, and PeterD. Paré. Bronchial vasodilatory response to ionic andnonionic contrast media. J. Appl.Physiol. 82(3): 841-845, 1997.It has recentlybeen shown that bronchial arterial injection of conventional contrastmedium causes a significant increase in bronchial blood flow(br) and that this response is partially attenuatedafter infusion ofN-nitro-L-arginine(L-NNA). However, the precisemechanism for this increase in br is unknown. Inthis study we examined the effect of bronchial arterial injection ofconventional ionic as well as nonionic contrast media. We measuredbr in nine anesthetized, ventilated, open-chestsheep. br was recorded before (baseline) and at thepeak response to injection of 0.5 ml of either 0.9% saline (control;isosmolar with plasma), Omnipaque 300 (iohexol; nonionic), Conray 66 (sodium iothalamate; ionic), or 50% dextrose (viscouscontrol).

     

Nitric oxide and beta -adrenergic agonist-induced bronchial arterial vasodilation

Charan, Nirmal B., Shane R. Johnson, S. Lakshminarayan,William H. Thompson, and Paula Carvalho. Nitric oxide and-adrenergic agonist-induced bronchial arterial vasodilation.J. Appl. Physiol. 82(2): 686-692, 1997.In anesthetized sheep, we measured bronchial blood flow(br) by an ultrasonic flow probe to investigate the interaction between inhaled nitric oxide (NO; 100 parts/million) givenfor 5 min and 5 ml of aerosolized isoetharine (1.49 × 10² M concentration).NO and isoetharine increased br from 26.5 ± 6.5 to 39.1 (SE) ± 10.6 and 39.7 ± 10.7 ml/min,respectively (n = 5).Administration of NO immediately after isoetharine further increasedbr to 57.3 ± 15.1 ml/min. NO synthase inhibitorN-nitro-L-arginine methyl esterhydrochloride (L-NAME; 30 mg/kg, in 20 ml salinegiven iv) decreased br to 14.6 ± 2.6 ml/min. NO given three times alternately with isoetharine progressively increased br from 14.6 ± 2.6 to 74.3 ± 17.0 ml/min, suggesting that NO and isoetharine potentiatevasodilator effects of each other. In three other sheep, afterL-NAME, three sequential doses of isoetharine increased br from 10.2 ± 3.4 to11.5 ± 5.7, 11.7 ± 4.7, and 13.3 ± 5.7 ml/min,respectively, indicating that effects of isoetharine are predominantlymediated through synthesis of NO. When this was followed by threesequential administrations of NO, br increased by146, 172, and 185%, respectively. Thus in the bronchial circulationthere seems to be a close interaction between adenosine3,5-cyclic monophosphate- and guanosine3,5-cyclic monophosphate-mediated vasodilatation.

     

Ventilation and metabolism among rat strains

Strohl, Kingman P., Agnes J. Thomas, Pamela St. Jean, EvelynH. Schlenker, Richard J. Koletsky, and Nicholas J. Schork. Ventilation and metabolism among rat strains. J. Appl. Physiol. 82(1): 317-323, 1997.We examinedventilation and metabolism in four rat strains with variation in traitsfor body weight and/or blood pressure regulation.Sprague-Dawley [SD; 8 males (M), 8 females (F)], BrownNorway (BN; 10 M, 11 F), and Zucker (Z; 11 M, 12 F) rats were comparedwith Koletsky (K; 11 M, 11 F) rats. With the use of noninvasiveplethysmography, frequency, tidal volume, minute ventilation(E),O₂ consumption, andCO₂ production were derived atrest during normoxia (room air) and during the 5th minute of exposureto each of the following: hyperoxia (100% O₂), hypoxia (10%O₂-balanceN₂), and hypercapnia (7%CO₂-balance O₂). Statistical methods probedfor strain and sex effects, with covariant analysis by body weight,length, and body mass. During resting breathing, strain effects werefound with respect to both frequency (BN, Z > K, SD) and tidal volume(SD > BN, Z) but not to E. Sexinfluenced frequency (F > M) alone. Z rats had higher values forO₂ consumption,CO₂ production, and respiratoryquotient than the other three strains, with no independent effect bysex. During hyperoxia, frequency was greater in BN and Z than in SD orK rats; SD rats had a larger tidal volume than BN or Z rats; Z rats hada greater E than K rats; and M had alarger tidal volume than F. Strain differences persisted duringhypercapnia, with Z rats exhibiting the highest frequency andE values. During hypoxic exposure,strain effects were found to influenceE (SD > K, Z), frequency (BN > K), and tidal volume (SD > BN, K, Z). Body mass was only amodest predictor of E during normoxia, of both E and tidal volume withhypoxia, hypercapnia, or hyperoxia, and of frequency duringhypercapnia. We conclude that strain of rats, more than their body massor sex, has major and different influences on metabolism, the patternand level of ventilation during air breathing, and ventilation duringacute exposure to hypercapnia or hypoxia.

     

Effects of beta 2-agonist administration and exercise on contractile activation of skeletal muscle fibers

Lynch, Gordon S., Alan Hayes, Siun P. Campbell, and David A. Williams. Effects of₂-agonist administration andexercise on contractile activation of skeletal muscle fibers.J. Appl. Physiol. 81(4):1610-1618, 1996.Clenbuterol, a₂-adrenoceptor agonist, hastherapeutic potential for the treatment of muscle-wasting diseases, yetits effects, especially at the single-fiber level, have not been fullycharacterized. Male C57BL/10 mice were allocated to three groups:Control-Treated mice were administered clenbuterol (2 mg ^· kg^{1 ·} day¹)via their drinking water for 15 wk; Trained-Treated mice underwent low-intensity training (unweighted swimming, 5 days/wk, 1 h/day) inaddition to receiving clenbuterol; and Control mice were sedentary anduntreated. Contractile characteristics were determined on membrane-permeabilized fibers from the extensor digitorum longus (EDL)and soleus muscles. Fast fibers from the EDL and soleus muscles ofTreated mice exhibited decreases inCa²⁺ sensitivity. Enduranceexercise offset clenbuterol's effects, demonstrated by similarCa²⁺ sensitivities in theTrained-Treated and Control groups. Long-term clenbuterol treatment didnot affect the normalized maximal tension of fast or slow fibers butincreased the proportion of fast fibers in the soleus muscle. Trainingincreased the proportion of fibers with high and intermediate succinatedehydrogenase activity in the EDL and soleus muscles, respectively. Ifclenbuterol is to be used for treating muscle-wasting disorders, someform of low-intensity exercise might be encouraged such thatpotentially deleterious slow-to-fast fiber type transformations areminimized. Indeed, in the mouse, low-intensity exercise appears toprevent these effects.