Tables index

From

Effects of Joint Angle on Inter- and Intra-individual Variability for Women During Isometric Fatiguing Tasks Anchored to a Perceptual Intensity

Jocelyn E. Arnett, Robert W. Smith, Tyler J. Neltner, John Paul V. Anders, Dolores G. Ortega, Terry J. Housh, Richard J. Schmidt, Glen O. Johnson

American Journal of Sports Science and Medicine. 2023, 11(1), 7-21 doi:10.12691/ajssm-11-1-2
  • Table 1. The time course of procedures
  • Table 2. Reliability data for maximal voluntary isometric contraction (MVIC) torque and neuromuscular parameters (EMG AMP, EMG MPF, MMG AMP, and MMG MPF) during the pre-test forearm flexions at elbow joint angles of 75° and 125°
  • Table 3. Polynomial regression model, Correlation (Corr.), p - value for normalized EMG AMP, EMG MPF, MMG AMP, MMG MPF, and Torque vs. Time during the sustained, isometric forearm flexion fatiguing task anchored to RPE = 8 at a joint angle of 75°
  • Table 4. Polynomial regression model, Correlation (Corr.), p - value for normalized EMG AMP, EMG MPF, MMG AMP, MMG MPF, and Torque vs. Time during the sustained, isometric forearm flexion fatiguing task anchored to RPE = 8 at a joint angle of 125°
  • Table 5. Polynomial regression model, Correlation (Corr.), p - value for Neuromuscular Efficiency (NME) vs. Time during the sustained, isometric forearm flexion fatiguing tasks anchored to RPE = 8 at joint angles of 75° and 125°
  • Table 6. Pre-test maximal voluntary isometric contraction (MVIC) (Nm), initial torque (Nm), normalized initial torque (% of MVIC), torque at 5% time to task failure (TTF) (% of MVIC), and percent decrease (%) in torque from the initial torque value to 5% TTF during the sustained, isometric forearm flexion tasks anchored to RPE = 8 at an elbow joint angle of 75° (JA75) and 125° (JA125)