The Influence of Verbal Instruction on Measurement Reliability and Explosive Neuromuscular Performance of the Knee Extensors.

The current study aimed to examine the effect of verbal instruction on explosive force production and between-session measurement reliability during maximal voluntary contractions of knee extensors. Following familiarization, 20 healthy males performed 3 maximal contractions with a "hard-and-fast" instruction and 3 maximal contractions with a "fast" instruction during 2 test-retest sessions. Knee extension maximal voluntary force (F) and the maximal rate of force development (RFD) were measured. Maximal electromechanical delay (EMD), and the maximal rate of muscle activation (RMA) of quadriceps muscles were determined. No significant effect of instruction was observed on F (p > 0.05). The RFD and RMA were significantly higher with the "fast" compared to the "hard-and-fast" instruction (36.07%, ES = 1.99 and 37.24%, ES = 0.92, respectively), whereas EMD was significantly lower with the "fast" instruction compared to the "hard-and-fast" instruction (-3.79%, ES = - 0.29). No significant differences between test and retest measurements were found (p < 0.05). However, the reliability of the RFD was higher with the fast instruction compared to the hard-and-fast instruction (CV: 7.3 vs. 16.2%; ICC: 0.84 vs. 0.56). Besides, the RFD was associated with the RMA and EMD with a significant effect of instruction. Data showed that the instruction given prior contracting muscle affected explosive force production and associated neuromuscular variables. As a result, the "fast" instruction may be preferred in the assessment of explosive force capacity of skeletal muscle during maximal efforts.