Samples were collected in prefrozen 4.5 ml K3 EDTA vacutainer tubes (Becton Dickinson Vacutainer System Europe, Plymouth, UK) and immediately centrifuged at 3000 rpm (Minifuge 2, Heraeus, Germany) for 10 min, and plasma was frozen at −20°C until further analysis. Samples were assayed via RIA for cortisol (DiaSorin, Stillwater, Minnesota, USA), ACTH (Nichols Institute Diagnostics, San Juan Capistrano, California, USA), PRL (Roche Diagnostics, Mannheim, Germany) and GH (Pharmacia & Upjohn Diagnostics, Uppsala, Sweden).
We recently developed a high intensity one leg dynamic exercise (OLDE) protocol to measure muscle endurance and investigate the central and peripheral mechanisms of muscle fatigue. The aims of the present study were to establish the reliability of this novel protocol and describe the isokinetic muscle fatigue induced by high intensity OLDE and its recovery. Eight subjects performed the OLDE protocol (time to exhaustion test of the right leg at 85% of peak power output) three times over a week period. Isokinetic maximal voluntary contraction torque at 60 (MVC60), 100 (MVC100) and 140 (MVC140) deg/s was measured pre-exercise, shortly after exhaustion (13 ± 4 s), 20 s (P20) and 40 s (P40) post-exercise. Electromyographic (EMG) signal was analyzed via the root mean square (RMS) for all three superficial knee extensors. Mean time to exhaustion was 5.96 ± 1.40 min, coefficient of variation was 8.42 ± 6.24%, typical error of measurement was 0.30 min and intraclass correlation was 0.795. MVC torque decreased shortly after exhaustion for all angular velocities (all P < 0.001). MVC60 and MVC100 recovered between P20 (P < 0.05) and exhaustion and then plateaued. MVC140 recovered only at P40 (P < 0.05). High intensity OLDE did not alter maximal EMG RMS of the three superficial knee extensors during MVC. The results of this study demonstrate that this novel high intensity OLDE protocol could be reliably used to measure muscle endurance, and that muscle fatigue induced by high intensity OLDE should be examined within ~ 30 s following exhaustion.
Alert: Companies strictly follow their exercise rules and deadlines, and courts tend to side with them. See, for example, Deal v. Consumer Programs, Inc. (2006), decided by the 8th Circuit Court of Appeals. The court ruled that the mere submission of a written notice to exercise stock options may be insufficient when the grant agreement states that the notice must be "accompanied by full payment of the purchase price of the shares."
Rest-Pause Sets. The body is an amazing machine, with the right amount of rest it can surprise us with its tenacity. With a weight near your 3 or 5 rep maximum, perform as many reps as possible, then re-rack. Rest for 10 to 15 seconds, then grab it again and go at it. Make sure to keep correct form, and go/rest until you can't budge the bar. Make sure to only do this once.
Use your toilet time wisely. Take advantage of that toilet time by doing some kegels. Kegels are the muscles used to stop the flow of urination, so practice clenching those muscles the next time you're doing your business. Both men and women can do kegels, which will not only help guard against incontinence, but may also improve bedroom endurance, if you catch my drift.
* Strength building is an expensive metabolic process. Although we see it as building muscle, our body is making global metabolic adaptations. It is upgrading its metabolic efficiency by synthesizing more enzymes to make metabolism more capable. This includes aerobic metabolism, anaerobic metabolism, gluconeogenesis, glycogen breakdown and transport, blood buffering agents, and of course new muscle fiber growth. All of this new synthesis is extremely metabolically expensive; that is why your body will not make these changes unless an intense stimulus is applied, and the organism is left undisturbed afterwards to make these changes.
Exclusion criteria included major diseases or conditions such as severe heart disease, uncontrolled hypertension, obesity, osteoarticular pathology, and neurological disease. Criteria were evaluated on the basis of clinical history, resting ECG, and physical examination. Participants maintained their lifestyles and were instructed not to take part in any other physical programs throughout the study. At the time of the initial design, the study consisted of a 12-week randomized controlled trial with a frequency of 3 times a week, 36 sessions in all, ending with a new assessment of their wellness and the potential persistence of the results on functional/physical capacities.