Abstract
Background: There are different types of hand motions in people’s daily lives and working environments. However, testing duration increases as the types of hand motions increase to build a normative database. Long testing duration decreases the motivation of study participants. The purpose of this study is to propose models to predict pinch and press strength using grip strength. Methods: One hundred ninety-eight healthy volunteers were recruited from the manufacturing industries in Central Taiwan. The five types of hand motions were grip, lateral pinch, palmar pinch, thumb press, and ball of thumb press. Stepwise multiple linear regression was used to explore the relationship between force type, gender, height, weight, age, and muscle strength. Results: The prediction models developed according to the variable of the strength of the opposite hand are good for explaining variance (76.9–93.1%). Gender is the key demographic variable in the predicting models. Grip strength is not a good predictor of palmar pinch (adjusted-R2: 0.572–0.609), nor of thumb press and ball of thumb (adjusted-R2: 0.279–0.443). Conclusions: We recommend measuring the palmar pinch and ball of thumb strength and using them to predict the other two hand motions for convenience and time saving.
Highlights
Handgrip strength (HGS) data have been widely used in many fields
The repeated measures ANOVA results revealed that the type of hand motion had the main effect on the strength of both hands (F = 1078.381; df = 2.005, 188.461; p < 0.001 for right and F = 1094.502; df = 2.060, 193.595; p < 0.001 for left hands) for male volunteers (Figure 4)
Power grip strength was significantly greater than the other types of motion for both hands (p < 0.001)
Summary
Handgrip strength (HGS) data have been widely used in many fields. The measurement of grip strength is recommended by the World Health Organization (WHO) for the International Classification of functioning, disability, and health (ICFDH) [1]. Physicians and researchers on aging have diagnosed some sarcopenia cases by grip strength. Physical therapists and scientists determine the effectiveness of rehabilitation by measuring grip strength [8,9]. Discovering the norm of grip strength for the general population has been done previously by researchers, physicians, physical therapists, and ergonomists [3,4,6,7,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31]. There are two novel studies that measure and mention handgrip strength in children and haemodialysis patients [32,33]
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