TY - JOUR
T1 - Influence of Grip Width and Anthropometric Characteristics on the Bench-Press Load-Velocity Relationship
AU - Perez-Castilla, Alejandro
AU - Jerez-Mayorga, Daniel
AU - Martinez-Garcia, Dario
AU - Rodriguez-Perea, Angela
AU - Chirosa-Rios, Luis J.
AU - Garcia-Ramos, Amador
PY - 2020/8
Y1 - 2020/8
N2 - Purpose: To compare the load-velocity (L-V) relationship between bench-press exercises performed using 4 different grip widths, to determine the association between the anthropometric characteristics and L-V profile, and to explore whether a multiple linear-regression model with movement velocity and subjects' anthropometric characteristics as predictor variables could increase the goodness of fit of the individualized L-V relationship. Methods: The individual L-V relationship of 20 men was evaluated by means of an incremental loading test during the bench-press exercise performed on a Smith machine using narrow, medium, wide, and self-selected grip widths. Simple and multiple linear-regression models were performed. Results: The mean velocity associated with each relative load did not differ among the 4 grip widths (P ≥ .130). Only body height and total arm length were correlated with the mean velocity associated with light and medium loads (r ≥ .464). A slightly higher variance of the velocity attained at each relative load was explained when some anthropometric characteristics were used as predictor variables along with the movement velocity (r
2 = .969 [.965-.973]) in comparison with the movement velocity alone (r
2 = .966 [.955-.968]). However, the amount of variance explained by the individual L-V relationships was always higher than with the multiple linear-regression models (r
2 = .995 [.985-1.000]). Conclusions: These results indicate that the individual determination of the L-V relationship using a self-selected grip width could be recommended to monitor relative loads in the Smith machine bench-press exercise.
AB - Purpose: To compare the load-velocity (L-V) relationship between bench-press exercises performed using 4 different grip widths, to determine the association between the anthropometric characteristics and L-V profile, and to explore whether a multiple linear-regression model with movement velocity and subjects' anthropometric characteristics as predictor variables could increase the goodness of fit of the individualized L-V relationship. Methods: The individual L-V relationship of 20 men was evaluated by means of an incremental loading test during the bench-press exercise performed on a Smith machine using narrow, medium, wide, and self-selected grip widths. Simple and multiple linear-regression models were performed. Results: The mean velocity associated with each relative load did not differ among the 4 grip widths (P ≥ .130). Only body height and total arm length were correlated with the mean velocity associated with light and medium loads (r ≥ .464). A slightly higher variance of the velocity attained at each relative load was explained when some anthropometric characteristics were used as predictor variables along with the movement velocity (r
2 = .969 [.965-.973]) in comparison with the movement velocity alone (r
2 = .966 [.955-.968]). However, the amount of variance explained by the individual L-V relationships was always higher than with the multiple linear-regression models (r
2 = .995 [.985-1.000]). Conclusions: These results indicate that the individual determination of the L-V relationship using a self-selected grip width could be recommended to monitor relative loads in the Smith machine bench-press exercise.
KW - 1-repetition maximum
KW - Linear position transducer
KW - Smith machine
KW - Velocity-based training
UR - http://www.scopus.com/inward/record.url?scp=85090224873&partnerID=8YFLogxK
U2 - 10.1123/ijspp.2019-0549
DO - 10.1123/ijspp.2019-0549
M3 - Article
SN - 1555-0265
VL - 15
SP - 949
EP - 957
JO - International Journal of Sports Physiology and Performance
JF - International Journal of Sports Physiology and Performance
IS - 7
ER -