Ischemic Preconditioning Does Not Attenuate Reductions in Rate of Torque Development After Fatiguing Resistance Exercise

Abstract

Lubiak, SM, Howard, MA, Schmidt, JT, Shah, NM, Patel, NN, Prajapati, AJ, Herring, EK, and Hill, EC. Ischemic preconditioning does not attenuate reductions in rate of torque development after fatiguing resistance exercise. J Strength Cond Res 40(7): e676–e683, 2026—The purpose of this investigation was to examine the acute effects of ischemic preconditioning (IPC) on indices of rate of torque development (RTD) and peak torque (PT) after fatiguing resistance exercise. Twelve college-aged females randomly completed 3 cycles of IPC at low (20 mmHg [IPC _SHAM ]), moderate (80% of total arterial occlusion pressure [IPC ₈₀ ]), and high (220 mmHg [IPC ₂₂₀ ]) pressures. Each cycle consisted of 5 minutes at the assigned pressure followed by 5 minutes of zero pressure. After IPC, subjects performed one-set to volitional failure of unilateral, isotonic, concentric-only leg extension muscle actions at 30% of 1-repetition maximum. Two maximal voluntary isometric contractions (MVICs) were performed before and immediately after the fatiguing exercise protocol to derive RTD at early (0–100 ms; RTD ₁₀₀ ), late (0–200 ms; RTD ₂₀₀ ), and peak (0-peak; RTD _PK ), as well as PT from the highest pretest and post-test MVIC. Separate 2-way, 3 (Pressure [IPC _SHAM , IPC ₈₀ , and IPC ₂₂₀ ]) × 2 (Time [Pretest, Post-test]), repeated-measures analysis of variance were performed to examine mean differences. Collapsed across Pressure, RTD ₁₀₀ (−113.9 Nm·s ⁻¹ ; p = 0.045), RTD ₂₀₀ (−94.5 Nm·s ⁻¹ ; p = 0.008), RTD _PK (−157.0 Nm·s ⁻¹ ; p = 0.028), and PT (−15.2 Nm; p = 0.002) decreased from pretest to post-test. There were no significant interactions ( p = 0.463–0.934) or main effects of Pressure ( p = 0.235–0.581). Applying IPC at various pressures did not attenuate reductions in RTD or PT after fatiguing resistance exercise. Thus, coaches and practitioners may consider alternative exercise adjuncts or strategies to attenuate resistance exercise fatigue-induced performance reductions.