Force-Velocity Profile of Competitive Kayakers: Evaluation of a Novel Single Kayak Stroke Test

Petrovic, Milos; García-Ramos, Amador; Janićijević, Danica; Pérez-Castilla, Alejandro; Knežević, Olivera M.; Mirkov, Dragan M.

doi:10.2478/hukin-2021-0100

Cited by 5 publications

(5 citation statements)

References 31 publications

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“…Conversely, only the PBP maximum power is significantly correlated with the maximum kayak velocity performance (r = 0.80; p < 0.01) (Figure 1) and the related stroke frequency (r = 0.61; p < 0.05) (Table 2). Probably, the differences found between this study and the previous ones (Lum and Aziz, 2020;Petrović et al, 2021) could be due to the different dry-land test protocols performed (dynamic Vs. isometric) and kayak test performance (50 m sprint flatwater kayak Vs. kayak ergometer). On the contrary, the data obtained from the BP exercise show a poor correlation (Figure 2; Table 2) not only between 1RM but also with the P max and the kinematic parameters of the KST analyzed, showing the scant specificity with the biomechanical parameters and the muscular kinetic chains involved during the paddle stroke.…”

Section: Discussioncontrasting

confidence: 73%

“…Several studies have verified a positive correlation between strength profile and kayak performance, using isometric strength tests performed in BP and PBP and kayak ergometer performance (Lum and Aziz, 2020;Petrović et al, 2021). Nevertheless, these studies have not considered other relevant dynamic and kinematic parameters involved in both bench lift exercises and flatwater kayak performances; in contrast to the studies mentioned above, our findings have shown a poor correlation, for each bench lift exercise, between the maximum dynamic strength (1RM) and the maximum kayak velocity (Table 2).…”

Section: Discussionmentioning

confidence: 97%

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Specificity of weightlifting bench exercises in kayaking sprint performance: A perspective for neuromuscular training

et al. 2022

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Several studies showed significant differences between bench lift exercises without investigating which is more related, in biomechanical and neuromuscular terms, to improve the sprint flatwater kayak performance. This study aims to compare the power-load and velocity-load neuromuscular parameters performed in prone bench pull (PBP), and bench press (BP) exercises to identify which of them meet the gesture specificity in sprint flatwater kayak performance. Ten elite kayakers participated in this study. Power-load, velocity-load relationships, the maximum dynamic strength, and the kayak sprint performance test were assessed. The power-load and velocity-load relationships showed significant differences between the PBP and BP for each considered load. The kayakers showed a significant correlation between maximum power performed on the PBP and the maximum velocity reached in the kayak sprint (r = 0.80, p < 0.01) and the stroke frequency (r = 0.61, p < 0.05). Conversely, the maximum power performed on the BP did not correlate with the kinematic parameters analyzed. In addition, the maximum dynamic strength in the PBP and BP did not correlate with the maximum velocity and stroke frequency. Furthermore, no significant difference was observed in both the bench exercises for the maximum dynamic strength (p > 0.05). The results of this study suggest that the maximal muscular power expressed in PBP exercise only seems to be more specific in kayak velocity performance compared with maximal dynamic strength and with all dynamic parameters recorded in the BP. This will allow coaches and trainers to use specific bench exercises for specific neuromuscular kayakers’ adaptations during the whole competitive season.

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Section: Discussioncontrasting

confidence: 73%

Section: Discussionmentioning

confidence: 97%

Specificity of weightlifting bench exercises in kayaking sprint performance: A perspective for neuromuscular training

et al. 2022

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“…The sample consisted of 21 male kayakers: 7 sprint specialists and 14 long-distance specialists (age = 21.4 ± 3.14 years [ 17 , 18 , 19 , 20 , 21 , 22 , 23 , 24 , 25 , 26 , 27 , 28 , 29 ]; body height = 180.78 ± 6.26 cm; and body mass [BM] = 80.08 ± 7.11 kg). All participants were active competitors at either national ( n = 12) or international level ( n = 9, e.g., Serbian national team), with a minimum competing history of 5 years and a training frequency of a minimum of four times per week (4–12).…”

Section: Methodsmentioning

confidence: 99%

“…This is partially due to difficulty in assessing isolated stroke performance. For this reason, Petrović et al [ 17 , 18 ] recently developed a kayak stroke test sensitive enough to detect differences between competitors in different disciplines. This test is conducted on a custom-made railing system, which, after a kayaker performs the kayak stroke, rolls forward until the rolling stops.…”

Section: Introductionmentioning

confidence: 99%

Association of Anthropometrics and Body Composition with Maximal and Relative Force and Power of Kayak Stroke in Competitive Kayak Athletes

Kukić¹,

Petrovic

Greco

et al. 2022

IJERPH

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This study determined to what degree anthropometrics and body composition are associated with force and power outputs of a single-stroke kayak test (SSKT). Body height (BH), sitting height, biacromial distance, arm span, stroke length, body mass index (BMI), percent of skeletal muscle mass (PSMM), skeletal muscle mass index (SMMI), percent body fat (PBF) and maximal and relative force (SSKTFmax and SSKTFrel) and power (SSKTPmax and SSKTPrel) of the SSKT were assessed in 21 male kayak competitors, including sprint specialists and long-distance specialists. Correlation analysis established the association (p < 0.05) between SSKTFmax and BM (r = 0.511), BMI (r = 0.495) and SMMI (r = 0.530). A significant correlation (p < 0.05) also occurred between SSKTPmax and BMI (r = 0.471) and SMMI (r = 0.489). Regression analysis determined a significant association of the anthropometrics–body composition model of kayakers with SSKTFmax (R2 = 0.790), SSKTFRel (R2 = 0.748), SSKTPmax (R2 = 0.676) and SSKTPrel (R2 = 0.625). A longer and wider upper body supported by higher amounts of skeletal muscle mass per square of body size provides higher force outcomes in a complex single-handed SSKT, while the PSMM provides higher outcomes in SSKTPmax.

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“…Sprint kayaking success is determined by average velocity over a given distance and has been investigated from a variety of approaches ( Li, 2017 ). Predominantly, biomechanical assessment has been conducted using kinematics ( Baker et al, 1999 ; Kendal and Sanders, 1992 ; Lopez Lopez and Ribas Serna, 2011 ; Sanders and Kendal, 1992 ) and kinetics ( Aitken and Neal, 1992 ; Gomes et al, 2015 ; Mononen et al, 1995 ; Mononen and Viitasalo, 1995 ; Petrovic et al, 2021 ; OnariciGüngöret al, 2023), with attention of the research centring on the upper limbs and the paddle. Focus upon force production and the motion of the paddle, resulting from occlusion of the lower limbs by the kayak shell and the significant association between the magnitude of paddle force and average velocity ( Mononen et al, 1995 ; Mononen and Viitasalo, 1995 ),means the contribution of the legs and the trunk is less well understood.…”

Section: Introductionmentioning

confidence: 99%

Contribution of Trunk Rotation and Abdominal Muscles to Sprint Kayak Performance

Brown,

Peters,

Lauder

2023

Journal of Human Kinetics

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Over the past two decades the importance of trunk contribution to sporting performance has been highlighted through the expanse of literature concerning core stability and strength. However, the role of trunk motion and the abdominal muscles are yet to be established during sprint kayak performance. The purpose of this study was to determine the associations among trunk rotation, kayak velocity, and abdominal muscle activity during on-water sprint kayaking. Eight international paddlers completed five 150 m sprint trials. During each trial peak muscle activation (peak root-mean-squared electromyogram) of the latissimus dorsi, rectus abdominus, external obliques and rectus femoris for ipsilateral (stroke side) and contralateral (opposite side) were recorded as the paddler passed through a 5-m calibrated volume, in conjunction with upper and lower trunk rotation and kayak velocity. Results indicated a significant strong negative relationship between lower trunk rotation and peak velocity (r = −0.684, p < 0.05). Furthermore, a significant strong positive relationship (p < 0.05) with mean velocity was identified for the contralateral rectus abdominus and multiple significant associations between the rectus femoris, rectus abdominus and external obliques during the paddle stroke. Findings indicate that limiting the rotation of the lower trunk will increase both the peak and the mean velocity, with the rectus abdominus, external oblique and rectus femoris combining to assist in this process. Training should therefore focus on developing the strength of these muscle groups to enhance performance.

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Force-Velocity Profile of Competitive Kayakers: Evaluation of a Novel Single Kayak Stroke Test

Cited by 5 publications

References 31 publications

Specificity of weightlifting bench exercises in kayaking sprint performance: A perspective for neuromuscular training

Specificity of weightlifting bench exercises in kayaking sprint performance: A perspective for neuromuscular training

Association of Anthropometrics and Body Composition with Maximal and Relative Force and Power of Kayak Stroke in Competitive Kayak Athletes

Contribution of Trunk Rotation and Abdominal Muscles to Sprint Kayak Performance

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