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The effects of short-term resistance training on endocrine function in men and women (1998)

Kraemer, William J. ; Staron, Robert S. ; Hagerman, Fredrick C. ; [et al.]

Springer

European journal of applied physiology 78 (1998), S. 69-76

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ISSN: 1439-6327

Keywords: Key words Cortisol ; Testosterone ; Growth hormone ; Sex-hormone binding globulin

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract This investigation examined hormonal adaptations to acute resistance exercise and determined whether training adaptations are observed within an 8-week period in untrained men and women. The protocol consisted of a 1-week pre-conditioning orientation phase followed by 8 weeks of heavy resistance training. Three lower-limb exercises for the quadriceps femoris muscle group (squat, leg press, knee extension) were performed twice a week (Monday and Friday) with every other Wednesday used for maximal dynamic 1 RM strength testing. Blood samples were obtained pre-exercise (Pre-Ex), immediately post-exercise (IP), and 5 min post-exercise (5-P) during the first week of training (T-1), after 6 weeks (T-2) and 8 weeks (T-3) of training to determine blood concentrations of whole-blood lactate (LAC), serum total testosterone (TT), sex-hormone binding globulin (SHBG), cortisol (CORT) and growth hormone (GH). Serum TT concentrations were significantly (P ≤ 0.05) higher for men at all time points measured. Men did not demonstrate an increase due to exercise until T-2. An increase in pre-exercise concentrations of TT were observed both for men and women at T-2 and T-3. No differences were observed for CORT between men and women; increases in CORT above pre-exercise values were observed for men at all training phases and at T-2 and T-3 for women. A reduction in CORT concentrations at rest was observed both in men and women at T-3. Women demonstrated higher pre-exercise GH values than men at all training phases; no changes with training were observed for GH concentrations. Exercise-induced increases in GH above pre-exercise values were observed at all phases of training. Women demonstrated higher serum concentrations of SHBG at all time points. No exercise-induced increases were observed in men over the training period but women increased SHBG with exercise at T-3. SHBG concentrations in women were also significantly higher at T-2 and T-3 when compared to T-1 values. Increases in LAC concentrations due to exercise were observed both for men and women for all training phases but no significant differences were observed with training. These data illustrate that untrained individuals may exhibit early-phase endocrine adaptations during a resistance training program. These hormonal adaptations may influence and help to mediate other adaptations in the nervous system and muscle fibers, which have been shown to be very responsive in the early phase of strength adaptations with resistance training.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/s004210050389

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2

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Acute hormonal responses to heavy resistance exercise in younger and older men (1998)

Kraemer, William J. ; Häkkinen, Keijo ; Newton, Robert U. ; [et al.]

Springer

European journal of applied physiology 77 (1998), S. 206-211

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ISSN: 1439-6327

Keywords: Key words Aging ; Neuroendocrine ; Resistance exercise ; Growth factors

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract The purpose of this investigation was to examine the acute responses of several hormones [total and free testosterone (TT and FT, respectively), adrenocorticotropic hormone (ACTH), cortisol (C), growth hormone (GH), and insulin (INS)] to a single bout of heavy resistance exercise (HRE). Eight younger [30-year (30y) group] and nine older [62-year (62y) group] men matched for general physical characteristics and activity levels performed four sets of ten repetitions maximum (RM) squats with 90 s rest between sets. Blood samples were obtained from each subject via an indwelling cannula with a saline lock pre-exercise, immediately post-exercise (IP), and 5, 15 and 30 min post-exercise. Levels of TT, FT, ACTH, C and lactate significantly increased after HRE for both groups. Pre-HRE pairwise differences between groups were noted only for FT, while post-HRE pairwise differences were found for TT, FT, GH, glucose and lactate. Area under the curve analysis showed that the 30y group had a significantly higher magnitude of increase over the entire recovery period (IP, 5, 15, and 30 min post-exercise) for TT, FT, ACTH and GH. Few changes occurred in the INS response with the only change being that the 62y group demonstrated a decrease IP. Lactate remained elevated at 30 min post-HRE. This investigation demonstrates that age-related differences occur in the endocrine response to HRE, and the most striking changes appear evident in the FT response to HRE in physically active young and older men.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/s004210050323

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Neuromuscular characteristics and fatigue in endurance and sprint athletes during a new anaerobic power test (1994)

Paavolainen, Leena ; Häkkinen, Keijo ; Nummela, Ari ; [et al.]

Springer

European journal of applied physiology 69 (1994), S. 119-126

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ISSN: 1439-6327

Keywords: Anaerobic power ; Blood lactate ; Electromyography ; Maximal oxygen uptake ; Force production

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract The purpose of this study was to investigate neuromuscular and energy performance characteristics of anaerobic power and capacity and the development of fatigue. Ten endurance and ten sprint athletes performed a new maximal anaerobic running power test (MARP), which consisted ofn x 20-s runs on a treadmill with 100-s recovery between the runs. Blood lactate concentration [la−]b was measured after each run to determine submaximal and maximal indices of anaerobic power (P 3mmol·1 −1,P5mmol·1 −1,P10mmol·1 −1andP max) which was expressed as the oxygen demand of the runs according to the American College of Sports Medicine equation: the oxygen uptake (ml·kg−1·min−1)=0.2·velocity (m·min−1) +0.9·slope of treadmill (frac)·velocity (m·min−1)+3.5. The height of rise of the centre of gravity of the counter movement jumps before (CMJrest) and during (CMJ) the MARP test, as well as the time of force production (t F) and electromyographic (EMG) activity of the leg muscles of CMJ performed after each run were used to describe the neuromuscular performance characteristics. The maximal oxygen uptake ( $$\dot V{\text{O}}_{\text{2}} $$ max), anaerobic and aerobic thresholds were determined in the $$\dot V{\text{O}}_{\text{2}} $$ max test, which consisted ofn x 3-min runs on the treadmill. In the MARP-testP max did not differ significantly between the endurance [116 (SD 6) ml·kg−1·min−1] and sprint [120 (SD 4) ml·kg−1·min−1] groups, even though CMJrest and peak [la−]b were significantly higher and $$\dot V{\text{O}}_{\text{2}} $$ max was significantly lower in the sprint group than in the endurance group and CMJrest height correlated withP max (r=0.50,P〈0.05). The endurance athletes had significantly higher mean values ofP 3mmol·1 −1andP 5mmol·1 −1[89 (SD 7) vs 76 (SD 8) ml·kg−1·min−,P〈0.001 and 101 (SD 5) vs 90 (SD 8) ml·kg−1·min−1,P〈0.01. Significant positive correlations were observed between theP 3mmol·l −1and $$\dot V{\text{O}}_{\text{2}} $$ max, anaerobic and aerobic thresholds. In the sprint group CMJ and the averaged integrated iEMG decreased andt F increased significantly during the MARP test, while no significant changes occurred in the endurance group. The present findings would suggest thatP max reflected in the main the lactacid power and capacity and to a smaller extent alactacid power and capacity. The duration of the MARP test and the large number of CMJ may have induced considerable energy and neuromuscular fatigue in the sprint athletes preventing them from producing their highest alactacidP max at the end of the MARP test. Due to lower submaximal [la−]b (anaerobic sprinting economy) the endurance athletes were able to reach almost the sameP max as the sprint athletes.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00609403

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Influence of load and stretch shortening cycle on the kinematics, kinetics and muscle activation that occurs during explosive upper-body movements (1997)

Newton, Robert U. ; Murphy, Aron J. ; Humphries, Brendan J. ; [et al.]

Springer

European journal of applied physiology 75 (1997), S. 333-342

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ISSN: 1439-6327

Keywords: Key words Force velocity relationship ; Muscle power ; Electromyography ; Bench press

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract Although explosive power in lower-body movements has been extensively studied, there is a paucity of research examining such movements in the upper body. This study aimed to investigate the influence of load and the stretch shortening cycle (SSC) on the kinematics, kinetics, and muscle activation that occurs during maximal effort throws. A total of 17 male subjects performed SSC and concentric only (CO) bench throws using loads of 15%, 30%, 45%, 60%, 75%, 90% and 100% of their previously determined one repetition maximum bench press. The displacement, velocity, acceleration, force and power output as well as the electromyogram (EMG) from pectoralis major, anterior deltoid, and triceps brachii were recorded for each throw. The results were compared using multivariate analysis of variance with repeated measures. A criterion alpha level of P ≤ 0.05 was used. Similar force velocity power relationships were determined for this multijoint upper-body movement as has been found for isolated muscles, single joint movements, and vertical jumping. The highest power output was produced at the 30% [563 (104) W] and 45% [560 (86) W] loads during the SSC throws. Force output increased as a function of load; however, even the lighter loads resulted in considerable force due to the high accelerations produced. Average velocity, average and peak force, and average and peak power output were significantly higher for the SSC throws compared to the CO throws. However, peak velocity and height thrown were not potentiated by performing the pre-stretch because the duration and range of movement allowed the ability of the muscle to generate force at high shortening velocities to dominate the resulting throw. As such, explosive movements involving longer concentric actions than experienced during brief SSC movements may be limited by the ability of the muscle to produce force during fast contraction velocities.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/s004210050169

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Serum hormone and myocellular protein recovery after intermittent runs at the velocity associated with V˙O2max (1999)

Vuorimaa, Timo ; Vasankari, Tommi ; Mattila, Kari ; [et al.]

Springer

European journal of applied physiology 80 (1999), S. 575-581

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ISSN: 1439-6327

Keywords: Key words Interval running ; Serum hormones ; Myocellular proteins ; Recovery

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract The responses of serum myocellular proteins and hormones to exercise were studied in ten well-trained middle-distance runners [maximal oxygen consumption (V˙O2max) = 69.4 (5.1) ml · kg−1 · min−1] during 3 recovery days and compared to various measures of physical performance. The purpose was to establish the duration of recovery from typical intermittent middle-distance running exercises. The subjects performed, in random, order two 28-min treadmill running exercises at a velocity associated with V˙O2max: 14 bouts of 60-s runs with 60 s of rest between each run (IR60) and 7 bouts of 120-s runs with 120 s of rest between each run (IR120). Before the exercises (pre- exercise), 2 h after, and 1, 2 and 3 days after the exercises, the same series of measurements were performed, including those for serum levels of the myocellular proteins creatine kinase, myoglobin and carbonic anhydrase III (S-CK, S-Mb and S-CA III, respectively), serum hormones testosterone, Luteinizing hormone, follicle-stimulating hormone and cortisol (S-testosterone, S-LH, S-FSH and S-cortisol, respectively) and various performance parameters: maximal vertical jump height (CMJ) and stride length, heart rate and ratings of perceived exertion during an 8-min run at 15 km · h−1 (SL15 km·h−1, HR15 km · h−1 and RPE15 km · h−1, respectively). Two hours after the end of both exercise bouts the concentration of each measured serum protein had increased significantly (P 〈 0.001) compared to the pre-exercise level, but there were no changes in SL15 km · h−1 or CMJ. During the recovery days only S-CK was significantly raised (P 〈 0.01), concomitant with a decrease in CMJ (P 〈 0.01) and an increase in RPE15 km · h−1 (P 〈 0.01). Hormone levels remained unchanged compared to the pre-exercise levels during the recovery days and there were no significant differences between the two exercise bouts in any of the observed post-exercise day-to-day responses. With the exception of S-CK, after IR120 the post-exercise responses returned to their pre-exercise levels within the 3 days of recovery. The present findings suggest that a single 28-min intermittent middle-distance running exercise does not induce changes in serum hormones of well-trained runners during recovery over 3 days, while changes in S-CK, CMJ and RPE15 km · h−1 indicate that 2–3 days of light training may be needed before the recovery at muscle level is complete.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/s004210050636

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6

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Serum hormones during prolonged training of neuromuscular performance (1985)

HÄkkinen, Keijo ; Pakarinen, Arto ; Alén, Markku ; [et al.]

Springer

European journal of applied physiology 53 (1985), S. 287-293

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ISSN: 1439-6327

Keywords: Strength training ; Serum hormones ; Detraining

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary The effects of a 24-weeks' progressive training of neuromuscular performance capacity on maximal strength and on hormone balance were investigated periodically in 21 male subjects during the course of the training and during a subsequent detraining period of 12 weeks. Great increases in maximal strength were noted during the first 20 weeks, followed by a plateau phase during the last 4 weeks of training. Testosterone/cortisol ratio increased during training. During the last 4 weeks of training changes in maximal strength correlated with the changes in testosterone/cortisol (P〈0.01) and testosterone/SHBG (P〈0.05) ratios. During detraining, correlative decreases were found between maximal strength and testosterone/cortisol ratio (P〈0.05) as well as between the maximal strength and testosterone/SHBG ratio (P〈0.05). No statistically significant changes were observed in the levels of serum estradiol, lutropin (LH), follitropin (FSH), prolactin, and somatotropin. The results suggest the importance of the balance between androgenic-anabolic activity and catabolizing effects of glucocorticoids during the course of vigorous strength training.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00422840

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Effects of fatigue and recovery on electromyographic and isometric force- and relaxation-time characteristics of human skeletal muscle (1986)

HÄkkinen, Keijo ; Komi, Paavo V.

Springer

European journal of applied physiology 55 (1986), S. 588-596

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ISSN: 1439-6327

Keywords: Fatigue ; Force production ; Relaxation ; EMG

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary Effects of fatigue produced by a maintained 60% isometric loading on electromyographic and isometric force-time and relaxation-time characteristics of human skeletal muscle were studied in 21 males accustomed to strength training. Fatigue loading resulted in a slight but not significant change in the maximal integrated EMG of a maximal isometric contraction, and a large decrease (20.4±6.3%, p〈0.001) in maximal force. Fatigue loading increased (p〈0.05−0.01) neural activation of the muscles during rapidly produced submaximal isometric forces, but had a considerable adverse effect (p〈0.001) on the corresponding force-time characteristics. Correlations between the relative changes after fatigue in the IEMG/force ratio at the maximal force level, and in the IEMG/force ratios of the early phases of the force-time curve were not significant, but gradually became significant (p〈0.01) at higher force levels. The average IEMG of the muscles in the relaxation phase of contraction remained unaltered by fatigue, while a marked deleterious change in the relaxation-time variables (p〈0.001) occurred concomitantly. During the subsequent 3 min rest period considerable (12.1±7.0%, p〈0.001) recovery was noted in the maximal force, with smaller (insignificant or p〈0.05−0.01) changes in the force-time and relaxation-time variables, while the average IEMG of force production decreased (p〈0.01−0.001). The present findings suggest that fatigue leading to a worsening in force-time, in maximal force and in the relaxation-time parts of a maximal isometric contraction might take place primarily in the contractile processes.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00423202

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Effects of explosive type strength training on physical performance characteristics in cross-country skiers (1991)

Paavolainen, Leena ; Häkkinen, Keijo ; Rusko, Heikki

Springer

European journal of applied physiology 62 (1991), S. 251-255

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ISSN: 1439-6327

Keywords: Explosive type strength training ; Neuromuscular performance ; Aerobic capacity ; Endurance athletes

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary To investigate the effects of a combination of simultaneous strength and endurance training on selected neuromuscular and aerobic performance characteristics seven male cross-country skiers underwent training for a period of 6 weeks. The experimental group trained 6–9 times per week with a programme consisting of 34% explosive type strength training and 66% endurance training during the first 3 weeks of the experiment and 42% and 58% respectively during the last 3 weeks of the experiment. The total volume of training of the control group (eight skiers) was of the same magnitude but consisted of 85% pure endurance training and 15% endurance type strength training. The experimental training regime resulted in specific changes in neuromuscular performance. This was demonstrated by improvements (P〈0.01) in the maximal heights of rise of the centre of gravity in the squat and countermovement jumps. A significant decrease (P〈0.05) took place also in the time of rapid isometric force production during experimental training, while no changes occurred in the maximal force of the trained muscles. Aerobic performance characteristics of the experimental group did not change during the experimental training period. No significant changes occurred in neuromuscular or aerobic performance characteristics in the control group. These findings indicated that training-induced improvements in explosive force production may not be fully inhibited by this kind of aerobic training. They also suggested that endurance athletes could undertake explosive type strength training programmes without a concomitant reduction in aerobic capacity, if the overall loading of training were within predefined limits.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00571548

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Training-induced changes in neuromuscular performance under voluntary and reflex conditions (1986)

HÄkkinen, Keijo ; Komi, Paavo V.

Springer

European journal of applied physiology 55 (1986), S. 147-155

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ISSN: 1439-6327

Keywords: Neuromuscular performance ; Training ; Adaptation

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary To investigate training-induced changes in neuromuscular performance under voluntary and reflex contractions, 11 male subjects went through heavy resistance (high loads of 70–120% of one maximum repetition) and 10 male subjects through explosive type (low loads with high contraction velocities) strength training three times a week for 24 weeks. A large increase (13.9%,p〈0.01) in voluntary unilateral maximal knee extension strength with only slight and insignificant changes in time of isometric force production were observed during heavy resistance strength training. Explosive type strength training resulted in a small insignificant increase in maximal strength but in considerable shortening (p〈0.05) in the time of force production. A significant increase (p〈0.05) noted in the averaged maximal integrated electromyogram (IEMG) of the knee extensors during heavy resistance strength training correlated (p〈0.01) with the increase in maximal strength. No changes were noted during training in reflex time components, but significant decreases (p〈0.05) occurred in the peak-to-peak amplitudes of the reflex electromyograms (EMG) in both groups. The individual changes during training in the reflex EMG/force ratio were related (p〈0.01) to the respective changes in IEMG/force ratio in voluntary contractions. The present observations support the concept of specificity of training, and suggest that specific training-induced adaptations in the neuromuscular system may be responsible for these changes in performance.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00714997

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EMG, muscle fibre and force production characteristics during a 1 year training period in elite weight-lifters (1987)

Häkkinen, Keijo ; Komi, Paavo V. ; Alén, Markku ; [et al.]

Springer

European journal of applied physiology 56 (1987), S. 419-427

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ISSN: 1439-6327

Keywords: Neural activation ; Hypertrophy ; Training intensity ; Strength training

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary The effects of a 1 year training period on 13 elite weight-lifters were investigated by periodical tests of electromyographic, muscle fibre and force production characteristics. A statistically non-significant increase of 3.5% in maximal isometric strength of the leg extensors, from 4841±1104 to 5010±1012 N, occured over the year. Individual changes in the high force portions of the force-velocity curve correlated (p〈0.05–0.01) with changes in weight-lifting performance. Training months 5–8 were characterized by the lowest average training intensity (77.1+2.0%), and this resulted in a significant (p〈0.05) decrease in maximal neural activation (IEMG) of the muscles, while the last four month period, with only a slightly higher average training intensity (79.1±3.0%), led to a significant (p〈0.01) increase in maximum IEMG. Individual increases in training intensity between these two training periods correlated with individual increases both in muscular strength (p〈0.05) and in the weight lifted in the clean & jerk (p〈0.05). A non-significant increase of 3.9% in total mean muscle fibre area occurred over the year. The present findings demonstrate the limited potential for strength development in elite strength athletes, and suggest that the magnitudes and time courses of neural and hypertrophic adaptations in the neuromuscular system during their training may differ from those reported for previously untrained subjects. The findings additionally indicate the importance of training intensity for modifying training responses in elite strength athletes.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00417769

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