Susceptibility to HSV-1 infection and exercise stress in female mice: role of estrogen.

Exhaustive exercise has been associated with an increased risk for upper respiratory tract infections in mice and humans. We have previously shown (Brown AS, Davis JM, Murphy AE, Carmichael MD, Ghaffer A, Mayer EP. Med Sci Sports Exerc 36: 1290-1295, 2004) that female mice are better protected from the lethal effects of herpes simplex virus type 1 (HSV-1) infection, both at rest and following exercise stress, but little is known about possible mechanisms. This study tested the effects of estrogen on HSV-1 infection and macrophage antiviral resistance following repeated exhaustive exercise. Female mice were assigned to either exercise (Ex) or control (C): intact female (I-C or I-Ex), ovariectomized female (O-C or O-Ex), or ovariectomized estrogen-supplemented female (E-C or E-Ex). Exercise consisted of treadmill running to volitional fatigue ( approximately 125 min) for 3 consecutive days. Intact female mice had a later time to death than O and E (P < 0.05) and fewer deaths than both O and E (P < 0.05). Exercise stress was associated with increased time to sickness (P < 0.05) and symptom severity at days 6 and 12-21 postinfection (P < 0.05) and decreased macrophage antiviral resistance (P < 0.001) in all groups. E had increased symptom severity at days 6 and 13-21 postinfection (P < 0.05). Results indicate that intact female mice are better protected from the lethal effects of HSV-1 infection and that exercise stress had a similar negative impact in all groups. This protective effect was lost in ovariectomized mice, but it was not reinstated by 17beta-estradiol replacement. This indicates that other ovarian factors, alone or in combination with estrogen, are responsible for the protective effects in females.     

Benefits of oat beta-glucan on respiratory infection following exercise stress: role of lung macrophages

Exercise stress is associated with an increased risk for upper respiratory tract infection (URTI). We have shown that consumption of the soluble oat fiber beta-glucan (ObetaG) can offset the increased risk for infection and decreased macrophage antiviral resistance following stressful exercise; however, the direct role of macrophages is unknown. This study examined the effect of macrophage depletion on the benefits of orally administered ObetaG on susceptibility to infection (morbidity, symptom severity, and mortality) following exercise stress. CL(2)MDP (Ex- H(2)O-CL(2)MDP, Ex-ObetaG-CL(2)MDP, Con-H(2)O-CL(2)MDP, Con-ObetaG-CL(2)MDP)-encapsulated liposomes were administered intranasally to deplete macrophages, and PBS (Ex-H(2)O-PBS, Ex-ObetaG-PBS, Con-H(2)O-PBS, Con-ObetaG-PBS)-encapsulated liposomes were given to macrophage-intact groups. Ex mice ran to volitional fatigue on a treadmill for 3 consecutive days, and ObetaG mice were fed a solution of 50% ObetaG in their drinking water for 10 consecutive days before infection. Fifteen minutes following the final bout of Ex or rest, mice were intranasally inoculated with 50 microl of a standardized dose of herpes simplex virus-1. Ex increased morbidity (P < 0.001) and symptom severity (P < 0.05) but not mortality (P = 0.09). The increase in morbidity and symptom severity was blocked by ObetaG consumption for 10 consecutive days before exercise and infection [morbidity (P < 0.001) and symptom severity (P < 0.05)]. Depletion of macrophages negated the beneficial effects of ObetaG on reducing susceptibility to infection following exercise stress, as evidenced by an increase in morbidity (P < 0.01) and symptom severity (P < 0.05). Results indicate that lung macrophages are at least partially responsible for mediating the beneficial effects of ObetaG on susceptibility to respiratory infection following exercise stress.     

Role of lung macrophages on susceptibility to respiratory infection following short-term moderate exercise training

Moderate exercise training is associated with a decreased risk for upper respiratory tract infection in human and animal studies, but the mechanisms have not been elucidated. Lung macrophages play an important role in resistance to respiratory infection, and moderate exercise can enhance macrophage antiviral resistance, but no studies have directly tested the role of lung macrophages in this response. This study tested the effect of lung macrophage depletion on susceptibility to infection following short-term moderate exercise training. Mice were assigned to one of four groups: exercise (Ex) and resting controls (Con) with and without clodronate encapsulated liposomes (CL(2)MDP-lip). Ex mice ran for 1 h on a treadmill for 6 days at 36 m/min, 8% grade. Fifteen minutes following exercise or rest on the last day of training, mice were intranasally inoculated with a standardized dose of herpes simplex virus type 1. Clodronate (Ex-CL(2)MDP-lip and Con-CL(2)MDP-lip) or PBS liposomes (Ex-PBS-lip and Con-PBS-lip) (100 microl) were intranasally administered following exercise or rest on the 4th day of training and again on the 4th day postinfection. Morbidity, mortality, and symptom severity were monitored for 21 days. Exercise decreased morbidity by 36%, mortality by 61%, and symptom severity score on days 5-7 (P < 0.05). Depletion of lung macrophages negated the beneficial effects of moderate exercise. This was indicated by no differences between Ex-CL(2)MDP-lip and Con-PBS-lip in morbidity (89 vs. 95%), mortality (79 vs. 95%), or symptom severity. Results indicate that lung macrophages play an important role in mediating the beneficial effects of moderate exercise on susceptibility to respiratory infection.     

Effects of moderate exercise and oat beta-glucan on innate immune function and susceptibility to respiratory infection

Both moderate exercise and the soluble oat fiber beta-glucan can increase immune function and decrease risk of infection, but no information exists on their possible combined effects. This study tested the effects of moderate exercise and oat beta-glucan on respiratory infection, macrophage antiviral resistance, and natural killer (NK) cell cytotoxicity. Mice were assigned to four groups: exercise and water, exercise and oat beta-glucan, control water, or control oat beta-glucan. Oat beta-glucan was fed in the drinking water for 10 days before intranasal inoculation of herpes simplex virus type 1 (HSV-1) or euthanasia. Exercise consisted of treadmill running (1 h/day) for 6 days. Macrophage resistance to HSV-1 was increased with both exercise and oat beta-glucan, whereas NK cell cytotoxicity was only increased with exercise. Exercise was also associated with a 45 and 38% decrease in morbidity and mortality, respectively. Mortality was also decreased with oat beta-glucan, but this effect did not reach statistical significance. No additive effects of exercise and oat beta-glucan were found. These data confirm a positive effect of both moderate exercise and oat beta-glucan on immune function, but only moderate exercise was associated with a significant reduction in the risk of upper respiratory tract infection in this model.     

Growth hormone, IGF-I, and exercise effects on non-weightbearing fast muscles of hypophysectomized rats

Grossman, Elena J., Richard E. Grindeland, Roland R. Roy,Robert J. Talmadge, Juliann Evans, and V. Reggie Edgerton. Growth hormone, IGF-I, and exercise effects on non-weight-bearing fast musclesof hypophysectomized rats. J. Appl.Physiol. 83(5): 1522-1530, 1997.The effects ofgrowth hormone (GH) or insulin-like growth factor I (IGF-I) with orwithout exercise (ladder climbing) in countering the effects ofunweighting on fast muscles of hypophysectomized rats during 10 days ofhindlimb suspension were determined. Compared with untreated suspendedrats, muscle weights were 16-29% larger in GH-treated and5-15% larger in IGF-I-treated suspended rats. Exercise alone hadno effect on muscle weights. Compared with ambulatory control, themedial gastrocnemius weight in suspended, exercised rats was largerafter GH treatment and maintained with IGF-I treatment. The combinationof GH or IGF-I plus exercise in suspended rats resulted in an increasein the size of each predominant fiber type, i.e., types I, I+IIa andIIa+IIx, in the medial gastrocnemius compared with untreated suspendedrats. Normal ambulation or exercise during suspension increased theproportion of fibers expressing embryonic myosin heavy chain inhypophysectomized rats. The phenotype of the medial gastrocnemius wasminimally affected by GH, IGF-I, and/or exercise. These resultsshow that there is an IGF-I, as well as a GH, and exercise interactiveeffect in maintaining medial gastrocnemius fiber size in suspendedhypophysectomized rats.

     

Relationship between airway microvascular leakage, edema, and baseline airway functions

Matheson, Melissa, Ann-Christine Rynell, Melissa McClean,and Norbert Berend. Relationship between airway microvascular leakage, edema, and baseline airway functions. J. Appl. Physiol. 84(1): 77-81, 1998.This study wasdesigned to examine the relationship among microvascular leakage,edema, and baseline airway function. Microvascular leakage was inducedin the airways of anesthetized, tracheostomized New Zealand Whiterabbits (n = 22) by using nebulized N-formyl-methionyl-leucyl-phenylalanine(10 mg) and was measured in the trachea by using the Evans blue dyetechnique. Airway wall thickness was assessed morphometrically in theright main bronchus after Formalin fixation at a pressure of 25 cmH₂O. Areas calculated includedthe mucosal wall area, the adventitial wall area, the total wall area,and the percentage of total wall area consisting of blood vessels. Aneutrophil count was also performed by analyzing numbers of cells inboth the mucosal wall area and the adventitial wall area. Airwayfunction was assessed before and 30 min after challenge withN-formyl-methionyl-leucyl-phenylalanineby determining airway resistance, functional residual capacity,specific airway resistance, and flow-volume and pressure-volume curves(after paralysis of the animals with suxamethonium). The concentration of Evans blue dye in tracheal tissue ranged from 31.3 to 131.2 µg.There was a significant correlation between this concentration and boththe adventitial wall area (P < 0.01)and mucosal neutrophil numbers (P < 0.005). There was no correlation between Evans blue concentration andeither blood vessel area or changes in respiratory physiologyparameters before and after challenge. There was no significantdifference between any respiratory physiology measurements before andafter challenge. We conclude that an increase in microvascular leakagecorrelates with airway edema in the adventitia; however, these airwaychanges have no significant effect on airway elastic or resistiveproperties.

     

Exercise performance, red blood cell deformability, and lipid peroxidation: effects of fish oil and vitamin E

Oostenbrug, G. S., R. P. Mensink, M. R. Hardeman, T. DeVries, F. Brouns, and G. Hornstra. Exercise performance, red bloodcell deformability, and lipid peroxidation: effects of fish oil andvitamin E. J. Appl. Physiol. 83(3):746-752, 1997.Previous studies have indicated that fish oilsupplementation increases red blood cell (RBC) deformability, which mayimprove exercise performance. Exercise alone, or in combination with anincrease in fatty acid unsaturation, however, may enhance lipidperoxidation. Effects of a bicycle time trial of ~1 h on RBCcharacteristics and lipid peroxidation were, therefore, studied in 24 trained cyclists. After 3 wk of fish oil supplementation (6 g/day),without or with vitamin E (300 IU/day), trial performance,RBC characteristics, and lipid peroxidation were measuredagain. RBC deformability appeared to decrease duringendurance exercise. After correction for hemoconcentration, plasmatotal tocopherol concentrations decreased by 0.77 µmol/l(P = 0.012) or 2.9% and carotenoidconcentrations by 0.08 µmol/l (P = 0.0008) or 4.5%. Endurance exercise did not affect the lag time andrate of in vitro oxidation of low-density lipoproteins (LDLs), but themaximum amount of conjugated dienes formed decreased by 2.1 ± 1.0 µmol/mmol LDL cholesterol (P = 0.042) or 1.2%. Fish oil supplementation with andwithout vitamin E did not affect RBC characteristics or exerciseperformance. Both supplements decreased the rate of LDL oxidation, andfish oil supplementation with vitamin E delayed oxidation. The amountof dienes, however, was not affected. The supplements also did notchange effects of exercise. We conclude that the changes observedduring endurance exercise may indicate increased oxidative stress, butfurther research is necessary to confirm this. Fish oil supplementation does not improve endurance performance, but it also does not cause oraugment changes in antioxidant levels or LDL oxidation during exercise.

     

Quercetin reduces susceptibility to influenza infection following stressful exercise

Exercise stress is associated with increased risk for upper respiratory tract infection. We have shown that exercise stress can increase susceptibility to infection. Quercetin, a flavonoid present in a wide variety of fruits and vegetables, has been reported to inhibit infectivity and replication of a broad spectrum of viruses and may offset the increase in susceptibility to infection associated with stressful exercise. This study examined the effects of quercetin feedings on susceptibility to the influenza virus A/Puerto Rico/8/34 (H1N1) following stressful exercise. Mice were randomly assigned to one of four treatment groups: exercise-placebo, exercise-quercetin, control-placebo, or control-quercetin. Exercise consisted of a run to fatigue (approximately 140 min) on a treadmill for 3 consecutive days. Quercetin (12.5 mg/kg) was administered via gavage for 7 days before viral challenge. At 30 min after the last bout of exercise or rest, mice (n=23-30) were intranasally inoculated with a standardized dose of influenza virus (0.04 hemagglutinating units). Mice were monitored daily for morbidity (time to sickness), symptom severity, and mortality (time to death) for 21 days. Exercise stress was associated with an increased susceptibility to infection [morbidity, mortality, and symptom severity on days 5-7 (P<0.05)]; quercetin offset the increase in susceptibility to infection [morbidity, mortality, and symptom severity on days 5-7 (P<0.05)] that was associated with stressful exercise. These data suggest that short-term quercetin feedings may prove to be an effective strategy to lessen the impact of stressful exercise on susceptibility to respiratory infection.     

Endurance exercise modulates neuromuscular junction of C57BL/6NNia aging mice

Fahim, Mohamed A. Endurance exercise modulatesneuromuscular junction of C57BL/6NNia aging mice. J. Appl. Physiol. 83(1): 59-66, 1997.The effect ofage and endurance exercise on the physiology and morphology ofneuromuscular junctions (NMJ) of gluteus maximus muscle was studied inC57BL/6NNia mice. Mice were exercised, starting at 7 or 25 mo of age,at 28 m/min for 60 min/day, 5 days/wk for 12 wk, on a rodent treadmill.Intracellular recordings of spontaneous miniature endplate potentials(MEPP) and the quantal content of endplate potentials (EPP) wererecorded from NMJ of 10- and 28-mo-old control and exercised mice.Endurance exercise resulted in significant increases in MEPP amplitudes (23%), quantal content, and safety margin, and a significant decrease in MEPP frequency of young mice, with no change in resting membrane potential or membrane capacitance. Three months of endurance exercise resulted in an increase in MEPP frequency (41%) and decreases in MEPPamplitudes (15%), quantal content, and safety margin of old mice.Endurance exercise resulted in significantly larger nerve terminals(24%) in young animals, suggesting functional adaptation. Nerveterminals in exercised 28-mo-old mice were smaller than in thecorresponding control mice, an indication that exercise minimizedage-related nerve terminal elaboration. It is concluded that thedifferent physiological responses of young and old gluteus maximusmuscles to endurance exercise parallel their morphological responses.This suggests that the mouse NMJ undergoes a process of physiologicaland morphological remodeling during aging, and such plasticity could bemodulated differently by endurance exercise.

     

Acute and chronic effects of exercise on leptin levels in humans

Pérusse, Louis, Gregory Collier, Jacques Gagnon,Arthur S. Leon, D. C. Rao, James S. Skinner, Jack H. Wilmore,André Nadeau, Paul Z. Zimmet, and Claude Bouchard. Acute andchronic effects of exercise on leptin levels in humans.J. Appl. Physiol. 83(1): 5-10, 1997.The acute (single bout of exercise) and chronic (exercisetraining) effects of exercise on plasma leptin were investigated in 97 sedentary adult men (n = 51) and women(n = 46) participating in the HERITAGEFamily Study. Exercise training consisted of a standardized 20-wkendurance training program performed in the laboratory on acomputer-controlled cycle ergometer. Maximal oxygen uptake, bodycomposition assessed by hydrostatic weighing, and fasting insulin levelwere also measured before and after training. Pre- and posttrainingblood samples were obtained before and after completion of a maximalexercise test on the cycle ergometer. Exercise training resulted insignificant changes in maximal oxygen uptake (increase in both genders)and body compostion (reduction of fat mass in men and increase infat-free mass in women). There were considerable interindividualdifferences in the leptin response to acute and chronic effects ofexercise, some individuals showing either increase or reduction inleptin, others showing almost no change. On average, leptin levels werenot acutely affected by exercise. After endurance training wascompleted, leptin levels decreased significantly in men (from 4.6 to3.9 ng/ml; P = 0.004) but not inwomen. However, after the training-induced changes in body fat masswere accounted for, the effects of exercise training were no longersignificant. Most of the variation observed in leptin levels afteracute exercise or endurance training appears to be within theconfidence intervals of the leptin assay. We conclude that there are nomeaningful acute or chronic effects of exercise, independent of theamount of body fat, on leptin levels in humans.

     

Effect of ingested sodium bicarbonate on muscle force, fatigue, and recovery

Verbitsky, O., J. Mizrahi, M. Levin, and E. Isakov.Effect of ingested sodium bicarbonate on muscle force, fatigue, and recovery. J. Appl. Physiol. 83(2):333-337, 1997.The influence of acute ingestion ofNaHCO₃ on fatigue and recovery ofthe quadriceps femoris muscle after exercise was studied in six healthymale subjects. A bicycle ergometer was used for exercising under three loading conditions: test A, loadcorresponding to maximal oxygen consumption; testB, load in test A + 17%; test C, load intest B but performed 1 h after acuteingestion of NaHCO₃.Functional electrical stimulation (FES) was applied to provokeisometric contraction of the quadriceps femoris. The resulting kneetorque was monitored during fatigue (2-min chronic FES) and recovery (10-s FES every 10 min, for 40 min). Quadriceps torques were higher inthe presence of NaHCO₃(P < 0.05): withNaHCO₃ the peak, residual, andrecovery (after 40 min) normalized torques were, respectively, 0.68 ± 0.05 (SD), 0.58 ± 0.05, and 0.73 ± 0.05; withoutNaHCO₃ the values were 0.45 ± 0.04, 0.30 ± 0.06, and 0.63 ± 0.06. The increasedtorques obtained after acute ingestion ofNaHCO₃ indicate the possibleexistence of improved nonoxidative glycolysis in isometric contraction,resulting in reduced fatigue and enhanced recovery.

     

Exercise training restores decreased cellular immune functions in obese Zucker rats

Moriguchi, S., M. Kato, K. Sakai, S. Yamamoto, and E. Shimizu. Exercise training restores decreased cellular immune functions in obese Zucker rats. J. Appl.Physiol. 84(1): 311-317, 1998.This studyinvestigated whether exercise training had a beneficial effect on thedecreased mitogen response and improved a decreased expression ofglucose transporter 1 (GLUT-1) in splenocytes from obese Zucker rats.Experimental groups were lean and sedentary and exercise-trained obeseZucker rats. Exercise training, running on a motor-driven treadmill for5 days/wk for 40 wk, did not induce a significant decrease in bodyweight in obese Zucker rats. The plasma insulin concentration, showinga significant increase compared with lean Zucker rats, was unaffectedby exercise training. However, the plasma triglyceride concentration inobese Zucker rats was significantly depressed by exercise training,whereas it was still higher than that in lean Zucker rats. In addition,natural killer cell activity and concanavalin A-induced mitogenesis ofsplenic lymphocytes of obese Zucker rats were significantly restored. In these splenic lymphocytes, glucose uptake was significantly lowercompared with that in lean Zucker rats, which was also improved byexercise training. Although the expression of GLUT-1, the major glucosetransporter in immune cells, was depressed in splenic lymphocytes ofobese Zucker rats, exercise training induced a significant improvement.These results suggest that exercise training has a beneficial effect onthe decreased cellular immune functions in obese Zucker rats, which isassociated, in part, with the improvement in GLUT-1 expression.

     

Effects of N2O narcosis on breathing and effort sensations during exercise and inspiratory resistive loading

Fothergill, D. M., and N. A. Carlson. Effects ofN₂O narcosis on breathing andeffort sensations during exercise and inspiratory resistive loading.J. Appl. Physiol. 81(4):1562-1571, 1996.The influence of nitrous oxide(N₂O) narcosis on the responses toexercise and inspiratory resistive loading was studied in thirteen maleUS Navy divers. Each diver performed an incremental bicycle exercisetest at 1 ATA to volitional exhaustion while breathing a 23%N₂O gas mixture and a nonnarcoticgas of the same PO₂, density, andviscosity. The same gas mixtures were used during four subsequent30-min steady-state submaximal exercise trials in which the subjectsbreathed the mixtures both with and without an inspiratory resistance(5.5 vs. 1.1 cmH₂O ^· s ^· l¹at 1 l/s). Throughout each test, subjective ratings of respiratory effort (RE), leg exertion, and narcosis were obtained with acategory-ratio scale. The level of narcosis was rated between slightand moderate for the N₂O mixturebut showed great individual variation. Perceived leg exertion and thetime to exhaustion were not significantly different with the twobreathing mixtures. Heart rate was unaffected by the gas mixture andinspiratory resistance at rest and during steady-state exercise but wassignificantly lower with the N₂O mixture during incremental exercise (P < 0.05). Despite significant increases in inspiratory occlusionpressure (13%; P < 0.05),esophageal pressure (12%; P < 0.001), expired minute ventilation (4%;P < 0.01), and the work rate ofbreathing (15%; P < 0.001) when the subjects breathed the N₂O mixture,RE during both steady-state and incremental exercise was 25% lowerwith the narcotic gas than with the nonnarcotic mixture(P < 0.05). We conclude that the narcotic-mediated changes in ventilation, heart rate, and RE induced by23% N₂O are not of sufficientmagnitude to influence exercise tolerance at surface pressure.Furthermore, the load-compensating respiratory reflexes responsible formaintaining ventilation during resistive breathing are not depressed byN₂O narcosis.

     

Effect of glucose supplement timing on protein metabolism after resistance training

Roy, B. D., M. A. Tarnopolsky, J. D. MacDougall, J. Fowles,and K. E. Yarasheski. Effect of glucose supplement timing onprotein metabolism after resistance training. J. Appl.Physiol. 82(6): 1882-1888, 1997.We determinedthe effect of the timing of glucose supplementation on fractionalmuscle protein synthetic rate (FSR), urinary urea excretion, and wholebody and myofibrillar protein degradation after resistance exercise.Eight healthy men performed unilateral knee extensor exercise (8 sets/~10 repetitions/~85% of 1 single maximal repetition). Theyreceived a carbohydrate (CHO) supplement (1 g/kg) or placebo (Pl)immediately (t = 0 h) and 1 h(t = +1 h) postexercise. FSR wasdetermined for exercised (Ex) and control (Con) limbs by incrementalL-[1-¹³C]leucineenrichment into the vastus lateralis over ~10 h postexercise. Insulinwas greater (P < 0.01) at 0.5, 0.75, 1.25, 1.5, 1.75, and 2 h, and glucose was greater(P < 0.05) at 0.5 and 0.75 h for CHO compared with Pl condition. FSR was 36.1% greater in the CHO/Ex leg than in the CHO/Con leg(P = not significant) and6.3% greater in the Pl/Ex leg than in the Pl/Con leg(P = not significant). 3-Methylhistidine excretion was lower in the CHO (110.43 ± 3.62 µmol/g creatinine) than Pl condition (120.14 ± 5.82, P < 0.05) as was urinary ureanitrogen (8.60 ± 0.66 vs. 12.28 ± 1.84 g/g creatinine,P < 0.05). This suggests that CHOsupplementation (1 g/kg) immediately and 1 h after resistance exercisecan decrease myofibrillar protein breakdown and urinary urea excretion,resulting in a more positive body protein balance.

     

Exercise causes blood glutathione oxidation in chronic obstructive pulmonary disease: prevention by O2 therapy

Viña, José, Emilio Servera, Miguel Asensi, JuanSastre, Federico V. Pallardó, José A. Ferrero, JoséGarcía-de-la-Asunción, Vicente Antón, and JulioMarín. Exercise causes blood glutathione oxidation inchronic obstructive pulmonary disease: prevention by O₂therapy. J. Appl. Physiol. 81(5):2199-2202, 1996.The aim of the present study was to determinewhether glutathione oxidation occurs in chronic obstructive pulmonarydisease (COPD) patients who perform exercise and whether this could beprevented. Blood glutathione red-ox ratio [oxidized-to-reducedglutathione (GSSG/GSH)] was significantly increased when patientsperformed exercise for a short period of time until exhaustion. Theirresting blood GSSG/GSH was 0.039 ± 0.008 (SD)(n = 5), whereas after exercise itincreased to 0.085 ± 0.019, P < 0.01. Glutathione oxidation associated with exercise was partiallyprevented by oxygen therapy (resting value: 0.037 ± 0.014, n = 5; after exercise: 0.047 ± 0.016, n = 5, P < 0.01). We conclude that lightexercise causes an oxidation of glutathione in COPD patients, which canbe partially prevented by oxygen therapy.

     

A moderate glycemic meal before endurance exercise can enhance performance

Kirwan, John P., Donal O'Gorman, and William J. Evans.A moderate glycemic meal before endurance exercise can enhance performance. J. Appl. Physiol. 84(1):53-59, 1998.The purpose of this study was to determine whetherpresweetened breakfast cereals with various fiber contents and amoderate glycemic index optimize glucose availability and improveendurance exercise performance. Six recreationally active women ate 75 g of available carbohydrate in the form of breakfast cereals: sweetenedwhole-grain rolled oats (SRO, 7 g of dietary fiber) or sweetenedwhole-oat flour (SOF, 3 g of dietary fiber) and 300 ml of water orwater alone (Con). The meals were provided 45 min before semirecumbentcycle ergometer exercise to exhaustion at 60% of peakO₂ consumption (O_{2 peak}). Diet andphysical activity were controlled by having the subjects reside in theGeneral Clinical Research Center for 2 days before each trial. Bloodsamples were drawn from an antecubital vein for glucose, free fattyacid (FFA), glycerol, insulin, epinephrine, and norepinephrinedetermination. Breath samples were obtained at 15-min intervals aftermeal ingestion and at 30-min intervals during exercise. Muscle glycogenconcentration was determined from biopsies taken from the vastuslateralis muscle before the meal and immediately after exercise. PlasmaFFA concentrations were lower (P < 0.05) during the SRO and SOF trials for the first 60 and 90 min ofexercise, respectively, than during the Con trial. Respiratory exchangeratios were higher (P < 0.05) at 90 and 120 min of exercise for the SRO and SOF trials, respectively, than for the Con trial. At exhaustion, glucose, insulin, FFA, glycerol, epinephrine, and norepinephrine concentrations, respiratory exchange ratio, and muscle glycogen use in the vastus lateralis muscle weresimilar for all trials. Exercise time to exhaustion was 16% longer(P < 0.05) during the SRO thanduring the Con trial: 266.5 ± 13 and 225.1 ± 8 min,respectively. There was no difference in exercise time for the SOF(250.8 ± 12) and Con trials. We conclude that eating ameal with a high dietary fiber content and moderate glycemic index 45 min before prolonged moderately intense exercise significantly enhancesexercise capacity.

     

Effects of glucose, glucose plus branched-chain amino acids, or placebo on bike performance over 100km

Madsen, Klavs, Dave A. MacLean, Bente Kiens, and DirkChristensen. Effects of glucose, glucose plus branched-chain aminoacids, or placebo on bike performance over 100 km. J. Appl. Physiol. 81(6): 2644-2650, 1996.This studywas undertaken to determine the effects of ingesting either glucose(trial G) or glucose plusbranched-chain amino acids (BCAA; trialB), compared with placebo (trialP), during prolonged exercise. Nine well-trained cyclists with a maximal oxygen uptake of 63.1 ± 1.5 mlO₂ ^· min^{1 ·} kg¹performed three laboratory trials consisting of 100 km of cycling separated by 7 days between each trial. During these trials, the subjects were encouraged to complete the 100 km as fast as possible ontheir own bicycles connected to a magnetic brake. No differences inperformance times were observed between the three trials (160.1 ± 4.1, 157.2 ± 4.5, and 159.8 ± 3.7 min, respectively). Intrial B, plasma BCAA levels increased from339 ± 28 µM at rest to 1,026 ± 62 µM after exercise(P < 0.01). Plasma ammoniaconcentrations increased during the entire exercise period for allthree trials and were significantly higher intrial B compared withtrials G andP (P < 0.05). The respiratory exchange ratio was similar in the threetrials during the first 90 min of exercise; thereafter, it tended todrop more in trial P than intrials G andB. These data suggest that neitherglucose nor glucose plus BCAA ingestion during 100 km of cyclingenhance performance in well-trained cyclists.

     

Neuromuscular fatigue after maximal stretch-shortening cycle exercise

Strojnik, V., and P. V. Komi. Neuromuscular fatigueafter maximal stretch-shortening cycle exercise. J. Appl. Physiol. 84(1): 344-350, 1998.To examinesome possible sites of fatigue during short-lasting maximally intensivestretch-shortening cycle exercise, drop jumps on an inclined sledgeapparatus were analyzed. Twelve healthy volunteers performed jumpsuntil they were unable to maintain jumping height >90% of theirmaximum. After the workout, the increases in the blood lactateconcentration and serum creatine kinase activation were statisticallysignificant (P < 0.001 and P < 0.05, respectively) but rathersmall in physiological terms. The major changes after the workout wereas follows: the single twitch was characterized by smaller peak torque(P < 0.05) and shorter time to peak(P < 0.05) and half-relaxation time(P < 0.01). The double-twitch torqueremained at the same level (P > 0.05), but with a steeper maximal slope of torque rise(P < 0.05); during 20- and 100-Hzstimulation the torque declined (both P < 0.01) and the maximal voluntarytorque changed nonsignificantly but with a smaller maximal slope oftorque rise (P < 0.01) and a higheractivation level (P < 0.05),accompanied by an increased electromyogram amplitude. These findingsindicate that the muscle response after the short-lasting consecutivemaximum jumps on the sledge apparatus may involve two distinctmechanisms acting in opposite directions:1) The contractile mechanism seemsto be potentiated through a shorterCa²⁺ transient and fastercross-bridge cycling, as implied by twitch changes.2) High-frequency action potentialpropagation shows an impairment, which is suggested as the possibledominant reason for fatigue in exercise of this type.

     

Aerobic fitness effects on exercise-induced low-frequency diaphragm fatigue

Babcock, Mark A., David F. Pegelow, Bruce D. Johnson, andJerome A. Dempsey. Aerobic fitness effects on exercise-induced low-frequency diaphragm fatigue. J. Appl.Physiol. 81(5): 2156-2164, 1996.We usedbilateral phrenic nerve stimulation (BPNS; at 1, 10, and 20 Hz atfunctional residual capacity) to compare the amount of exercise-induceddiaphragm fatigue between two groups of healthy subjects, a high-fitgroup [maximal O₂consumption (O_{2 max}) = 69.0 ± 1.8 ml ^· kg^{1 ·} min¹,n = 11] and a fit group(O_{2 max} = 50.4 ± 1.7 ml ^· kg^{1 ·} min¹,n = 13). Both groups exercised at88-92% O_{2 max}for about the same duration (15.2 ± 1.7 and 17.9 ± 2.6 min forhigh-fit and fit subjects, respectively,P > 0.05). The supramaximal BPNS test showed a significant reduction (P < 0.01) in the BPNS transdiaphragmatic pressure (Pdi) immediatelyafter exercise of 23.1 ± 3.1% for the high-fit group and23.1 ± 3.8% (P > 0.05)for the fit group. Recovery of the BPNS Pdi took 60 min in both groups.The high-fit group exercised at a higher absolute workload, whichresulted in a higher CO₂production (+26%), a greater ventilatory demand (+16%) throughout theexercise, and an increased diaphragm force output (+28%) over theinitial 60% of the exercise period. Thereafter, diaphragm force outputdeclined, despite a rising minute ventilation, and it was not differentbetween most of the high-fit and fit subjects. In summary, the high-fitsubjects showed diaphragm fatigue as a result of heavy enduranceexercise but were also partially protected from excessive fatigue,despite high ventilatory requirements, because their hyperventilatoryresponse to endurance exercise was reduced, their diaphragm wasutilized less in providing the total ventilatory response, and possiblytheir diaphragm aerobic capacity was greater.

     

Augmented sympathetic tone alters muscle metabolism with exercise: lack of evidence for functional sympatholysis

Shoemaker, J. Kevin, Prasant Pandey, Michael D. Herr, DavidH. Silber, Qing X. Yang, Michael B. Smith, Kristen Gray, and LawrenceI. Sinoway. Augmented sympathetic tone alters muscle metabolismwith exercise: lack of evidence for functional sympatholysis. J. Appl. Physiol. 82(6):1932-1938, 1997.It is unclear whether sympathetic tone opposesdilator influences in exercising skeletal muscle. We examined highlevels of sympathetic tone, evoked by lower body negative pressure(LBNP, 60 mmHg) on intramuscular pH and phosphocreatine (PCr)levels (³¹P-nuclear magnetic resonance spectroscopy) duringgraded rhythmic handgrip (30 contractions/min; ~17, 34, 52 and 69%maximal voluntary contraction). Exercise was performedwith LBNP and without LBNP (Control). At the end of exercise, LBNPcaused lower levels of muscle pH (6.59 ± 0.09) comparedwith Control (6.78 ± 0.05; P < 0.05). PCr recovery, an index of mitochondrial respiration, was lessduring the recovery phase of the LBNP trial. Exercise mean arterialpressure was not altered by LBNP. The protocols were repeated withmeasurements of forearm blood flow velocity and deep venous samples(active forearm) of hemoglobin (Hb) saturation, pH, and lactate. WithLBNP, mean blood velocity was reduced at rest, during exercise, andduring recovery compared with Control (P < 0.05). Also, venous Hbsaturation and pH levels during exercise and recovery were lower withLBNP and lactate was higher compared with Control(P < 0.05). We concludethat LBNP enhanced sympathetic tone and reduced oxygen transport. Athigh workloads, there was a greater reliance on nonoxidativemetabolism. In other words, sympatholysis did not occur.