The Nine-Hole Peg Test (9-HPT) is widely used in clinical settings but typically relies on the assessor’s expertise to record execution time. Here, we propose a novel sensorized 9-HPT capable of automatically measuring total execution time and, importantly, extracting a set of newly defined temporal parameters that enable a more detailed and objective characterization of task performance. We first demonstrated concurrent validity between the sensorized 9-HPT and stopwatch-based measurements recorded by an assessor (ρ always > 0.98; p < 0.001) in healthy participants. Agreement between methods was further supported by the Bland–Altman analysis, showing negligible bias and narrow limits of agreement. A linear mixed-effects model confirmed no systematic differences between methods but showed significant differences between dominant and non-dominant hands. Test–retest reliability of total completion time, assessed across two sessions, was good for both the dominant (ICC = 0.81) and non-dominant (ICC = 0.74) hands. The newly introduced temporal parameters also showed significant reliability (ICC = 0.73–0.78), particularly for the dominant hand. Overall, these findings support the reliability of the sensorized 9-HPT for standard outcome measures and highlight its added value in providing novel temporal metrics that more precisely capture the different phases of task execution.
Biggio et al. (Mon,) studied this question.