Age and gender comparisons of muscle strength in 654women and men aged 20-93 yr

Lindle, R. S., E. J. Metter, N. A. Lynch, J. L. Fleg, J. L. Fozard, J. Tobin, T. A. Roy, and B. F. Hurley. Age and gendercomparisons of muscle strength in 654 women and men aged 20-93 yr.J. Appl. Physiol. 83(5): 1581-1587, 1997.To assess ageand gender differences in muscle strength, isometric, concentric (Con),and eccentric (Ecc) peak torque was measured in the knee extensors at aslow (0.52 rad/s) and fast (3.14 rad/s) velocity in 654 subjects (346 men and 308 women, aged 20-93 yr) from the Baltimore LongitudinalStudy of Aging. Regression analysis revealed significant(P < 0.001) age-related reductions in Con and Ecc peaktorque for men and women at both velocities, but no differences wereobserved between the gender groups or velocities. Age explained lossesin Con better than Ecc peak torque, accounting for 30% (Con) vs. 19%(Ecc) of the variance in men and 28% (Con) vs. 11% (Ecc) in women. Toassess age and gender differences in the ability to store and utilizeelastic energy, the stretch-shortening cycle was determined in a subsetof subjects (n = 47). The older women (mean age = 70 yr)showed a significantly greater enhancement in the stretch-shorteningcycle, compared with men of similar age (P < 0.01) andcompared with younger men and women (each P < 0.05). Bothmen and women showed significant declines in muscle quality for Conpeak torque (P < 0.01), but no gender differences were observed. Only the men showed a significant decline in muscle quality(P < 0.001) for Ecc peak torque. Thus both men and women experience age-related losses in isometric, Con, and Ecc knee extensorpeak torque; however, age accounted for less of the variance in Eccpeak torque in women, and women tend to better preserve muscle qualitywith age for Ecc peak torque. In addition, older women have an enhancedcapacity to store and utilize elastic energy compared with similarlyaged men as well as with younger women and men.

     

Effect of concentric and eccentric muscle actions on muscle sympathetic nerve activity

The purpose ofthis study was to determine the effects of concentric (Con) andeccentric (Ecc) muscle actions on leg muscle sympathetic nerve activity(MSNA). Two protocols were utilized. In protocol1, eight subjects performed Con and Ecc arm curls for 2 min, with a resistance representing 50% of one-repetition maximum forCon curls. Heart rate (HR) and mean arterial pressure (MAP) weregreater (P < 0.05) during Con thanduring Ecc curls. Similarly, the MSNA was greater(P < 0.05) during Con than during Ecc curls. In protocol 2, eightdifferent subjects performed Con and Ecc arm curls to fatigue, followedby postexercise muscle ischemia, by using the same resistanceas in protocol 1. Endurance time wassignificantly greater for Ecc than for Con curls. The increase in HR,MAP, and MSNA was greater (P < 0.05)during Con than during Ecc curls. However, when the data werenormalized as a function of endurance time, the differences in HR, MAP,and MSNA between Con and Ecc curls were no longer present. HR, MAP, andMSNA responses during postexercise muscle ischemia were similar for Con and Ecc curls. Con curls elicited greater increase(P < 0.05) in blood lactateconcentration than did Ecc curls. In summary, Con actions contributesignificantly more to the increase in cardiovascular and MSNA responsesduring brief, submaximal exercise than do Ecc actions. However, whenperformed to a similar level of effort (i.e., fatigue), Con and Eccmuscle actions elicit similar cardiovascular and MSNA responses. Theseresults indicate that the increase in MSNA during a typical bout ofsubmaximal dynamic exercise is primarily mediated by the musclemetaboreflex, which is stimulated by metabolites produced predominantlyduring Con muscle action.     

Effects of concentric and eccentric training on muscle strength, cross-sectional area, and neural activation

Higbie, Elizabeth J., Kirk J. Cureton, Gordon L. Warren III,and Barry M. Prior. Effects of concentric and eccentric trainingon muscle strength, cross-sectional area, and neural activation.J. Appl. Physiol. 81(5):2173-2181, 1996.We compared the effects of concentric (Con) andeccentric (Ecc) isokinetic training on quadriceps muscle strength,cross-sectional area, and neural activation. Women (age 20.0 ± 0.5 yr) randomly assigned to Con training (CTG;n = 16), Ecc training (ETG;n = 19), and control (CG;n = 19) groups were tested before andafter 10 wk of unilateral Con or Ecc knee-extension training. Averagetorque measured during Con and Ecc maximal voluntary knee extensions increased 18.4 and 12.8% for CTG, 6.8 and 36.2% for ETG, and 4.7 and1.7% for CG, respectively. Increases by CTG and ETG were greater than for CG (P < 0.05). ForCTG, the increase was greater when measured with Con than with Ecctesting. For ETG, the increase was greater when measured with Ecc thanwith Con testing. The increase by ETG with Ecc testing was greater thanthe increase by CTG with Con testing. Corresponding changes in theintegrated voltage from an electromyogram measured during strengthtesting were 21.7 and 20.0% for CTG, 7.1 and 16.7% for ETG, and8.0 and 9.1% for CG. Quadriceps cross-sectional areameasured by magnetic resonance imaging (sum of 7 slices) increased morein ETG (6.6%) than in CTG (5.0%) (P < 0.05). We conclude that Ecc is more effective than Con isokinetictraining for developing strength in Ecc isokinetic muscle actions andthat Con is more effective than Ecc isokinetic training for developingstrength in Con isokinetic muscle actions. Gains in strength consequentto Con and Ecc training are highly dependent on the muscle action usedfor training and testing. Muscle hypertrophy and neural adaptationscontribute to strength increases consequent to both Con and Ecctraining.

     

Muscle quality. II. Effects of strength training in 65-to 75-yr-old men and women

To determine theeffects of strength training (ST) on muscle quality (MQ,strength/muscle volume of the trained muscle group), 12 healthy oldermen (69 ± 3 yr, range 65-75 yr) and 11 healthy older women (68 ± 3 yr, range 65-73 yr) were studied before and after aunilateral leg ST program. After a warm-up set, four sets ofheavy-resistance knee extensor ST exercise were performed 3 days/wk for9 wk on the Keiser K-300 leg extension machine. The men exhibitedgreater absolute increases in the knee extension one-repetition maximum(1-RM) strength test (75 ± 2 and 94 ± 3 kg before andafter training, respectively) and in quadriceps muscle volume measuredby magnetic resonance imaging (1,753 ± 44 and 1,955 ± 43 cm³) than the women (42 ± 2 and 55 ± 3 kg for the 1-RM test and 1,125 ± 53 vs.1,261 ± 65 cm³ forquadriceps muscle volume before and after training, respectively, inwomen; both P < 0.05). However,percent increases were similar for men and women in the 1-RM test (27 and 29% for men and women, respectively), muscle volume (12% forboth), and MQ (14 and 16% for men and women, respectively).Significant increases in MQ were observed in both groups in the trainedleg (both P < 0.05) and in the 1-RMtest for the untrained leg (both P < 0.05), but no significant differences were observed between groups,suggesting neuromuscular adaptations in both gender groups. Thus,although older men appear to have a greater capacity for absolutestrength and muscle mass gains than older women in response to ST, the relative contribution of neuromuscular and hypertrophic factors to theincrease in strength appears to be similar between genders.

     

Gender Differences in Anthropometric Predictors of Physical Performance in Older Adults

BackgroundBoth high body fat and low muscle mass have been associated with physical disability in older adults. However, men and women differ markedly in body composition; men generally have more absolute and relative lean muscle mass and less fat mass than women. It is not known how these anthropometric differences differentially affect physical ability in men and women.ObjectivesThis study examines differences in anthropometric predictors of physical performance in older women and men.MethodsParticipants were 470 older women and men 72.9 (7.9) years of age. Body composition was measured using dual-energy x-ray absorptiometry. Maximum leg strength and power were measured using a leg press. Muscle quality (MQ) was calculated as relative strength (leg press strength per kilogram of leg muscle mass). Gait speed and chair rise were used to assess mobility performance and functional strength.ResultsBody mass index (BMI), age, and MQ emerged as predictors (P < 0.05) of functional strength and mobility in men and women somewhat differently. After accounting for age and sample, leg MQ was related to chair rise time and gait speed in men but not women. BMI was related to gait speed in both men and women, but BMI was related to chair rise time only in women.ConclusionResults implicate the prioritized importance of healthy weight and muscle maintenance in older women and men for maintained physical functioning with aging.     

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.

     

Influence of diet and exercise on skeletal muscle and visceral adipose tissue in men

Ross, Robert, John Rissanen, Heather Pedwell, JenniferClifford, and Peter Shragge. Influence of diet and exercise onskeletal muscle and visceral adipose tissue in men. J. Appl. Physiol. 81(6): 2445-2455, 1996.Theeffects of diet only (DO) and diet combined with either aerobic (DA) orresistance (DR) exercise on subcutaneous adipose tissue (SAT), visceraladipose tissue (VAT), lean tissue (LT), and skeletal muscle (SM) tissue were evaluated in 33 obese men (DO, n = 11; DA, n = 11; DR,n = 11). All tissues were measured byusing a whole body multislice magnetic resonance imaging (MRI) model.Within each group, significant reductions were observed for bodyweight, SAT, and VAT (P < 0.05). Thereductions in body weight (~10%) and SAT (~25%) and VAT volume (~35%) were not different between groups(P > 0.05). For alltreatments, the relative reduction in VAT was greater than in SAT(P < 0.05). For the DA and DR groupsonly, the reduction in abdominal SAT (~27%) was greater(P < 0.05) than thatobserved for the gluteal-femoral region (~20%). Conversely, thereduction in VAT was uniform throughout the abdomen regardless oftreatment (P > 0.05). MRI-LT andMRI-SM decreased both in the upper and lower body regions for the DO group alone (P < 0.05). PeakO₂ uptake (liters) wassignificantly improved (~14%) in the DA group as was muscularstrength (~20%) in the DR group (P < 0.01). These findings indicate that DA and DR result in a greaterpreservation of MRI-SM, mobilization of SAT from the abdominal region,by comparison with the gluteal-femoral region, and improved functionalcapacity when compared with DO in obese men.

     

Effect of epinephrine on muscle glycogenolysis during exercise in trained men

Febbraio, M. A., D. L. Lambert, R. L. Starkie, J. Proietto,and M. Hargreaves. Effect of epinephrine on muscle glycogenolysis during exercise in trained men. J. Appl.Physiol. 84(2): 465-470, 1998.To test thehypothesis that an elevation in circulating epinephrine increasesintramuscular glycogen utilization, six endurance-trained men performedtwo 40-min cycling trials at 71 ± 2% of peak oxygen uptake in20-22°C conditions. On the first occasion, subjects wereinfused with saline throughout exercise (Con). One week later, afterdetermination of plasma epinephrine levels in Con, subjects performedthe second trial (Epi) with an epinephrine infusion, which resulted ina twofold higher (P < 0.01) plasmaepinephrine concentration in Epi compared with Con. Although oxygenuptake was not different when the two trials were compared, respiratoryexchange ratio was higher throughout exercise in Epi compared with Con(0.93 ± 0.01 vs. 0.89 ± 0.01; P < 0.05). Muscle glycogenconcentration was not different when the trials were comparedpreexercise, but the postexercise value was lower(P < 0.01) in Epi compared with Con.Thus net muscle glycogen utilization was greater during exercise withepinephrine infusion (224 ± 37 vs. 303 ± 30 mmol/kg for Con andEpi, respectively; P < 0.01). Inaddition, both muscle and plasma lactate and plasma glucoseconcentrations were higher (P < 0.05) in Epi compared with Con. These data indicate that intramuscularglycogen utilization, glycolysis, and carbohydrate oxidation areaugmented by elevated epinephrine during submaximal exercise in trainedmen.

     

Effects of resistance training and chromium picolinate on body composition and skeletal muscle in older men

The effects of chromium picolinate (CrPic)supplementation and resistance training (RT) on skeletal muscle size,strength, and power and whole body composition were examined in 18 men(age range 56-69 yr). The men were randomly assigned(double-blind) to groups (n = 9) thatconsumed either 17.8 µmol Cr/day (924 µg Cr/day) as CrPic or alow-Cr placebo for 12 wk while participating twice weekly in ahigh-intensity RT program. CrPic increased urinary Cr excretion~50-fold (P < 0.001). RT-inducedincreases in muscle strength (P < 0.001) were not enhanced by CrPic. Arm-pull muscle power increased withRT at 20% (P = 0.016) but not at 40, 60, or 80% of the one repetition maximum, independent of CrPic.Knee-extension muscle power increased with RT at 20, 40, and 60%(P < 0.001) but not at 80% of onerepetition maximum, and the placebo group gained more muscle power thandid the CrPic group (RT by supplemental interaction,P < 0.05). Fat-free mass(P < 0.001), whole body muscle mass(P < 0.001), and vastus lateralistype II fiber area (P < 0.05)increased with RT in these body-weight-stable men, independent ofCrPic. In conclusion, high-dose CrPic supplementation did not enhancemuscle size, strength, or power development or lean body mass accretionin older men during a RT program, which had significant, independenteffects on these measurements.

     

Appendicular skeletal muscle mass: effects of age, gender, and ethnicity

Gallagher, Dympna, Marjolein Visser, Ronald E. De Meersman,Dennis Sepúlveda, Richard N. Baumgartner, Richard N. Pierson, Tamara Harris, and Steven B. Heymsfield. Appendicular skeletal muscle mass: effects of age, gender, and ethnicity. J. Appl. Physiol. 83(1): 229-239, 1997.This studytested the hypothesis that skeletal muscle mass is reduced in elderlywomen and men after adjustment first for stature and body weight. Thehypothesis was evaluated by estimating appendicular skeletal musclemass with dual-energy X-ray absorptiometry in a healthy adult cohort. Asecond purpose was to test the hypothesis that whole body⁴⁰K counting-derived total bodypotassium (TBK) is a reliable indirect measure of skeletal muscle mass.The independent effects on both appendicular skeletal muscle and TBK ofgender (n = 148 women and 136 men) andethnicity (n = 152 African-Americans and 132 Caucasians) were also explored. Main findingswere 1) for both appendicularskeletal muscle mass (total, leg, and arm) and TBK, age was anindependent determinant after adjustment first by stepwise multipleregression for stature and weight (multiple regression modelr² = ~0.60);absolute decrease with greater age in men was almost double that inwomen; significantly larger absolute amounts were observed in men andAfrican-Americans after adjustment first for stature, weight, and age;and >80% of within-gender or -ethnic group between-individualcomponent variation was explained by stature, weight, age, gender, andethnicity differences; and 2) mostof between-individual TBK variation could be explained by totalappendicular skeletal muscle(r² = 0.865),whereas age, gender, and ethnicity were small but significant additional covariates (totalr² = 0.903). Ourstudy supports the hypotheses that skeletal muscle is reduced in theelderly and that TBK provides a reasonable indirect assessment ofskeletal muscle mass. These findings provide a foundation forinvestigating skeletal muscle mass in a wide range of health-related conditions.

     

Effects of gender on resting leg blood flow: implications for measurement of regional substrate oxidation

Jensen, Michael D., Tu T. Nguyen, A. HernándezMijares, C. Michael Johnson, and Michael J. Murray. Effects ofgender on resting leg blood flow: implications for measurement ofregional substrate oxidation. J. Appl.Physiol. 84(1): 141-145, 1998.These studies weredesigned to examine whether the respiratory quotient (RQ) of leg tissue(primarily skeletal muscle) would increase to a greater degree in womenthan in men during meal ingestion. We found that mean leg and systemicRQ values were similar in men under both basal and fed conditions,whereas the agreement was poor in women. In women, leg RQ values tendedto be greater than the systemic RQ, whereas splanchnic RQ values tendedto be lower than the systemic RQ. The possibility that measurementimprecision accounted for the different findings in women could not beexcluded because the arteriovenous bloodO₂ differences were almost twice as great in men as in women (53.7 ± 5.4 vs. 28.6 ± 2.9 ml ofO₂/l, respectively;P < 0.01), as were venoarterialblood CO₂ differences. The smallerarteriovenous differences in women appeared to limit our ability toaccurately measure their leg RQ values.O₂ uptake relative to leg fat-freemass (FFM) was not different between men and women, whereas leg bloodflow relative to leg FFM was greater in women than in men (55 ± 3vs. 39 ± 2 ml · kgFFM¹ · min¹,respectively; P < 0.001). Thesefindings were confirmed by examining data from other studies conductedin our laboratory to create a larger data set. We conclude that restingleg blood flow in women is greater (relative to FFM) than in men,making it more difficult to accurately measure leg RQ in women.

     

Leg mass and lower body negative pressure tolerance in men and women

To explore the hypothesis that lower body musclemass correlates with orthostatic tolerance, 18 healthy volunteers (age18-48 yr; 10 men, 8 women) underwent a graded lower body negativepressure (LBNP) protocol consisting of six, 5-min stages of suction up to 60 mmHg in 10-mmHg increments. Forearm blood flow, heart rate, andblood pressure were measured, and forearm vascular resistance wascalculated. Leg muscle mass was assessed by dual-energy X-ray absorptiometry. All subjects received standard intravenous hydration for at least 8 h before the study. Six men and four women completed allstages of LBNP. Four men and four women developed presyncopal symptoms,including marked bradycardia and/or hypotension, at LBNP levelsof 30 mmHg (n = 2; 1 man, 1 woman), 40 mmHg (n = 2; 1 man, 1 woman), and 50 mmHg (n = 4; 2 men, 2 women). Thepresyncopal subjects had leg muscle masses ranging from 19.5 to 25.2 kgin men and from 11.7 to 16.6 kg in women. In subjects who completed allstages of LBNP, leg muscle mass ranged from 17.5 to 24.1 kg in men andfrom 10.4 to 18.0 kg in women. Leg muscle mass did not differ betweenpresyncopal subjects and those who completed the protocol. Furthermore,there were no differences in the hemodynamic responses to LBNP betweensubjects with low vs. high leg mass. These data suggest that leg musclemass is not a critical determinant of LBNP tolerance in otherwisehealthy men and women.

     

Reduced leg blood flow during dynamic exercise in older endurance-trained men

It is currentlyunclear whether aging alters the perfusion of active muscles duringlarge-muscle dynamic exercise in humans. To study this issue, directmeasurements of leg blood flow (femoral vein thermodilution) andsystemic arterial pressure during submaximal cycle ergometry (70, 140, and 210 W) were compared between six younger (Y; 22-30 yr) and sixolder (O; 55-68 yr) chronically endurance-trainedmen. Whole body O₂uptake, ventilation, and arterial and femoral venous samples forblood-gas, catecholamine, and lactate determinations were alsoobtained. Training duration (min/day), estimated leg muscle mass(dual-energy X-ray absorptiometry; Y, 21.5 ± 1.2 vs. O, 19.9 ± 0.9 kg), and blood hemoglobin concentration (Y, 14.9 ± 0.4 vs. O, 14.7 ± 0.2 g/dl) did not significantly differ (P > 0.05) between groups. Leg bloodflow, leg vascular conductance, and femoral venousO₂ saturation were ~20-30%lower in the older men at each work rate (allP < 0.05), despite similarlevels of whole body O₂ uptake. At210 W, leg norepinephrine spillover rates and femoral venous lactateconcentrations were more than twofold higher in the older men.Pulmonary ventilation was also higher in the older men at 140 (+24%)and 210 (+39%) W. These results indicate that leg blood flow andvascular conductance during cycle ergometer exercise are significantlylower in older endurance-trained men in comparison to their youngercounterparts. The mechanisms responsible for this phenomenon and theextent to which they operate in other groups of older subjects deservefurther attention.

     

Changes in agonist-antagonist EMG, muscle CSA, and force during strength training in middle-aged and older people

Effects of 6 mo of heavy-resistance trainingcombined with explosive exercises on neural activation of the agonistand antagonist leg extensors, muscle cross-sectional area (CSA) of thequadriceps femoris, as well as maximal and explosive strength wereexamined in 10 middle-aged men (M40; 42 ± 2 yr), 11 middle-agedwomen (W40; 39 ± 3 yr), 11 elderly men (M70; 72 ± 3 yr) and 10 elderly women (W70; 67 ± 3 yr). Maximal andexplosive strength remained unaltered during a 1-mo control period withno strength training. After the 6 mo of training, maximal isometric anddynamic leg-extension strength increased by 36 ± 4 and 22 ± 2%(P < 0.001) in M40, by 36 ± 3 and 21 ± 3% (P < 0.001) in M70,by 66 ± 9 and 34 ± 4% (P < 0.001) in W40, and by 57 ± 10 and 30 ± 3%(P < 0.001) in W70, respectively.All groups showed large increases (P < 0.05-0.001) in the maximum integrated EMGs (iEMGs) of theagonist vastus lateralis and medialis. Significant(P < 0.05-0.001) increasesoccurred in the maximal rate of isometric force productionand in a squat jump that were accompanied with increased(P < 0.05-0.01) iEMGs of theleg extensors. The iEMG of the antagonist biceps femoris muscle duringthe maximal isometric leg extension decreased in both M70 (from 24 ± 6 to 21 ± 6%; P < 0.05)and in W70 (from 31 ± 9 to 24 ± 4%;P < 0.05) to the same level asrecorded for M40 and W40. The CSA of the quadriceps femoris increasedin M40 by 5% (P < 0.05), in W40 by9% (P < 0.01), in W70 by 6%(P < 0.05), and in M70 by 2% (notsignificant). Great training-induced gains in maximal and explosivestrength in both middle-aged and elderly subjects were accompanied bylarge increases in the voluntary activation of the agonists, withsignificant reductions in the antagonist coactivation in the elderlysubjects. Because the enlargements in the muscle CSAs in bothmiddle-aged and elderly subjects were much smaller in magnitude, neuraladaptations seem to play a greater role in explaining strength andpower gains during the present strength-training protocol.

     

Changes in leg vein filling and emptying characteristics and leg volumes during long-term head-down bed rest

Louisy, Francis, Philippe Schroiff, and Antonio Güell.Changes in leg vein filling and emptying characteristics and legvolumes during long-term head-down bed rest. J. Appl.Physiol. 82(6): 1726-1733, 1997.Leg venoushemodynamics [venous distensibility index (VDI), arterial flowindex (AFI), half-emptying time(T_1/2)], and leg volumes(LV) were assessed by mercury strain-gauge plethysmography with venousocclusion and volometry, respectively, in seven men before, during, andafter 42 days of 6° head-down bed rest. Results showed a highincrease in VDI up to day 26 of bedrest (+50% vs. control at day 26,P < 0.05), which tended to subsidethereafter (+20% increase vs. control value at day41, P < 0.05). VDIchanges were associated with parallel changes inT_1/2 (+54% vs. control atday 26 of bed rest,P < 0.05, and +25% vs.control at day 41, P < 0.05) and with a decrease in AFI(49% at day 41 vs. control, P < 0.05). LV continuously decreasedthroughout bed rest (13% vs. control at day41, P < 0.05) but was correlated with VDI only during the first month ofbed rest. These results show that during long-term 6° head-down bedrest alterations of leg venous compliance are associated withimpairment of venous emptying capacities and arterial flow. Changes inskeletal muscle mass and fluid shifts may account for venous changesduring the first month of bed rest but, subsequently, otherphysiological factors, to be determined, may also be involved in legvenous hemodynamic alterations.

     

Influence of differing macronutrient intakes on muscle glycogen resynthesis after resistance exercise

The provision of additional protein (Pro)to a carbohydrate (CHO) supplement resulted in an enhanced rate ofmuscle glycogen resynthesis after endurance exercise (Zawadzki et al.,J. Appl. Physiol. 72: 1854-1859,1992). A comparison of isoenergetic CHO and CHO/Pro formula drinks onmuscle glycogen resynthesis has not been examined after eitherendurance or resistance exercise. We studied the effect of isoenergeticCHO (1 g/kg) and CHO/Pro/fat (66% CHO, 23% Pro, 11% fat) definedformula drinks and placebo (Pl) given immediately(t = 0 h) and 1 h(t = +1 h) after resistance exercisein 10 healthy young men. They performed a whole body workout (9 exercises/3 sets at 80% 1 repetition maximum) with unilateral kneeextension exercise [exercise (Ex) and control (Con) leg].The CHO/Pro/fat and CHO trials resulted in significantly greater(P < 0.05) plasma insulin andglucose concentration compared with Pl. Muscle glycogen wassignificantly lower (P < 0.05) for the Ex vs. Con leg immediately postexercise for all three conditions. The rate of glycogen resynthesis was significantly greater(P < 0.05) for both CHO/Pro/fat andCHO (23.0 ± 4.5 and 19.3 ± 6.1 mmol · kg drymuscle¹ · h¹,respectively) vs. Pl (Ex = 2.8 ± 2.3 and Con = 1.4 ± 3.6 mmol · kg drymuscle¹ · h¹).These results demonstrated that a bout of resistance exercise resultedin a significant decrease in muscle glycogen and that consumption of anisoenergetic CHO or CHO/Pro/fat formula drink resulted in similar ratesof muscle glycogen resynthesis after resistance exercise. This suggeststhat total energy content and CHO content are important in theresynthesis of muscle glycogen.

     

Effects of ovariectomy and hindlimb unloading on skeletal muscle

Female rats(7-8 mo old, n = 40) wererandomly placed into the intact control (Int) and ovariectomizedcontrol (Ovx) groups. Two weeks after ovariectomy, animals were furtherdivided into intact 2-wk hindlimb unloaded (Int-HU) and ovariectomizedhindlimb unloaded (Ovx-HU). We hypothesized that there would be greater hindlimb unloading-related atrophy in Ovx than in Int rats. In situcontractile tests were performed on soleus (Sol), plantaris (Plan),peroneus longus (Per), and extensor digitorum longus (EDL) muscles.Body weight and Sol mass were ~22% larger in Ovx than in Int groupand ~18% smaller in both HU groups than in Int rats (Ovx × HUinteraction, P < 0.05), and therewas a similar trend in Plan muscle (P < 0.07). There were main effects (P < 0.05) for both ovariectomy (growth) and hindlimb unloading(atrophy) on gastrocnemius mass. Mass of the Per and EDL muscles wasunaffected by either ovariectomy or hindlimb unloading. Time to peaktwitch tension for EDL and one-half relaxation times for Sol, Plan,Per, and EDL muscles were faster (P < 0.05) in Ovx than in Int animals. The results suggest that1) ovariectomy led to similarincreases of ~20% in body weight and plantar flexor mass;2) hindlimb unloading may haveprevented ovariectomy-related muscle growth;3) greater atrophy may have occurredin Sol and Plan of Ovx animals compared with controls; and4) removal of ovarian hormonalinfluence decreased skeletal muscle contraction times.

     

Fuel metabolism in men and women during and after long-duration exercise

This study aimed to determine gender-baseddifferences in fuel metabolism in response to long-duration exercise.Fuel oxidation and the metabolic response to exercise were compared inmen (n = 14) and women(n = 13) during 2 h (40% of maximalO₂ uptake) of cycling and 2 h ofpostexercise recovery. In addition, subjects completed a separatecontrol day on which no exercise was performed. Fuel oxidation wasmeasured using indirect calorimetry, and blood samples were drawn forthe determination of circulating substrate and hormone levels. Duringexercise, women derived proportionally more of the total energyexpended from fat oxidation (50.9 ± 1.8 and 43.7 ± 2.1% forwomen and men, respectively, P < 0.02), whereas men derived proportionally more energy from carbohydrateoxidation (53.1 ± 2.1 and 45.7 ± 1.8% for men and women,respectively, P < 0.01). Thesegender-based differences were not observed before exercise, afterexercise, or on the control day. Epinephrine(P < 0.007) and norepinephrine(P < 0.0009) levels weresignificantly greater during exercise in men than in women (peakepinephrine concentrations: 208 ± 36 and 121 ± 15 pg/ml in menand women, respectively; peak norepinephrine concentrations: 924 ± 125 and 659 ± 68 pg/ml in men and women, respectively). Ascirculating glycerol levels were not different between the two groups,this suggests that women may be more sensitive to the lipolytic action of the catecholamines. In conclusion, these data support the view thatdifferent priorities are placed on lipid and carbohydrate oxidationduring exercise in men and women and that these gender-based differences extend to the catecholamine response to exercise.

     

Fiber type and citrate synthase activity in the human gastrocnemius and vastus lateralis with aging

The purpose ofthis study was to determine whether enzymatic and histochemicalcharacteristics of human skeletal muscle are altered with aging.Tissues from the vastus lateralis (VL) and gastrocnemius were analyzedfor citrate synthase (CS) activity and fiber type in 55 sedentary men(age range 18-80 yr). In this population, CS activity in thegastrocnemius was negatively related to age(r = 0.32,P < 0.05); there was no relationshipin the VL. Treadmill-determined maximal oxygen consumption waspositively related (r = 0.40, P < 0.05) to CS in the gastrocnemiusbut not in the VL. CS activity in the gastrocnemius was 24% lower inthe oldest (60 yr, n = 10) vs. theyoungest (30 yr; n = 12) men; therewas no change in CS activity in the VL with aging. No changes in fibertype were evident with age in either muscle. These data suggest areduction in oxidative enzyme activity in human skeletal muscle withthe aging process; this relationship may be muscle-group specific.

     

Regional deposition of inhaled particles in human lungs: comparison between men and women

We measured detailed regional depositionpatterns of inhaled particles in healthy adult male(n = 11; 25 ± 4 yr of age) and female (n = 11; 25 ± 3 yr of age)subjects by means of a serial bolus aerosol delivery technique formonodisperse fine [particle diameter(D_p) = 1 µm] and coarse aerosols(D_p = 3 and 5 µm). The bolus aerosol (40 ml half-width) was delivered to a specificvolumetric depth (Vp) of the lung ranging from 100 to 500 ml with a50-ml increment, and local deposition fraction (LDF) was assessed for each of the 10 local volumetric regions. In all subjects, the deposition distribution pattern was very uneven with respect to Vp,showing characteristic unimodal curves with respect to particle sizeand flow rate. However, the unevenness was more pronounced in women.LDF tended to be greater in all regions of the lung in women than inmen for D_p = 1 µm. For D_p = 3 and 5 µm, LDF showed a marked enhancement in the shallow region of Vp  200 ml in women compared with men(P < 0.05). LDF in women wascomparable to or smaller than those of men in deep lung regions of Vp > 200 ml. Total lung deposition was comparable between men and womenfor fine particles but was consistently greater in women than men forcoarse particles regardless of flow rates used: the difference rangedfrom 9 to 31% and was greater with higher flow rates(P < 0.05). The results indicatethat 1) particledeposition characteristics differ between healthy men and women undercontrolled breathing conditions and2) deposition in women is greaterthan that in men.