Nicole M. Sauls scite author profile

Nicole M. Sauls

5Publications

45Citation Statements Received

39Citation Statements Given

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California State University, San Bernardino

Publications

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Effects of Lower-Body Muscular Fatigue on Vertical Jump and Balance Performance

Cooper

Dabbs

Davis

et al. 2020

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Cooper, CN, Dabbs, NC, Davis, J, and Sauls, NM. Effects of lower-body muscular fatigue on vertical jump and balance performance. J Strength Cond Res 34(10): 2903–2910, 2020—Lower-body fatigue can lead to a decline in vertical jump (VJ) and balance performance due to decreased motor control and coordination. The purpose is to determine the effects of lower-body fatigue on VJ and balance performance. Twenty-four recreationally trained individuals participated in a single 1-hour familiarization and testing session. Participants were familiarized with balance, countermovement vertical jump (CMVJ), and static vertical jump (SVJ) using the Vertec. Three trials of static and dynamic balance tests were completed. Three trials of a SVJ and CMVJ were completed in a randomized order pre/post fatigue protocol. Three trials of double-leg and single-leg tests were performed. Dependent t tests analyzed differences between pre/post fatigue protocol for jumping and balance measures. There was a significant (p < 0.001) difference between pre/post measures for SVJ-H (height), CMVJ-H, and CMVJ peak power (PP). Results showed an interaction (p < 0.05) for group by time for CMVJ-H, CMVJ-peak force (PF), SVJ-PF, and SVJ-PP. There were no main effects (p > 0.05) for time or group for SVJ-rate of velocity development and SVJ-impact force (IF). There were no interactions, time effects, and group effects for balance variables (p > 0.05). Bosco protocol decreased VJ height and PF in SVJ, and VJ height and PF, IF, peak velocity, and PP for CMVJ potentially due to decreased muscle control, coordination, and force-generating capacity after fatigue. Practitioners should consider fatiguing effects on individuals performing jumping motions but it seems that fatigue has no effect on balance.

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Balance Performance in Collegiate Athletes: A Comparison of Balance Error Scoring System Measures

Dabbs

Sauls

Zayer

et al. 2017

JFMK

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Abstract:The assessment of balance among athletes is essential for training, prevention and rehabilitation of injuries resulting from postural instability. The purpose of the investigation was to validate the Sway Medical Balance Application (SMBA) against the Biodex Balance System (BBS) during the Balance Error Scoring System (BESS) protocol. One hundred and eighty-four Division-II male and female athletes from different sporting disciplines were evaluated using SMBA and BBS while performing all five testing conditions of the BESS. Pearson's r correlations were used to determine the relationship between the two systems during each of the five conditions and an overall score. The significant relationship and very high correlation between the two systems validates the SMBA as a valid tool that can be used to assess balance in a time-and cost-effective manner in any setting with ease.

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Differences In Male Collegiate And Recreationally Trained Soccer Players On Balance, Agility, And Vertical Jump Performance

Sauls

Dabbs

2017

IJKSS

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Objective: The purpose of this investigation was to determine the differences in collegiate and recreationally trained soccer players in sprint, vertical jump, and balance performance. Methods: Twenty-one soccer players, twelve Division II collegiate and nine recreationally trained volunteered to participate. Session one acted as a familiarization day, where the participants were familiarized with testing day protocols. During testing day, participants performed a dynamic warm-up, followed by balance measurements, three countermovement vertical jumps, and pro-agility shuttle test. Results: There were no significant (p>0.05) differences between groups in the all balance variables. Collegiate soccer players had a significantly (p<0.05) greater peak velocity in vertical jump then recreationally trained soccer players. There were significant differences (p<0.05) between groups for maximum for split velocities, where collegiate soccer players were greater than recreationally trained soccer players. There were no significant (p>0.05) differences in groups in all other variables. Conclusion: These results indicate that collegiate, Division II, soccer players had greater vertical jumping and sprinting velocities when compared to recreationally trained soccer players. These results may have been impacted by the lack of resistance training background in either of the two groups. With the addition of more time on a collegiate resistance training program, it is very likely the Division II athletes will see a significant increase in all balance, sprint, and vertical jump performance measures compared to recreationally trained players who receive little to no specialized resistance training.

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Comparison of Sprint Agility Performance in Recreationally Trained Soccer and Basketball Players

Bocanegra

Nario

Sauls

et al. 2015

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Differences in Recreationally Trained Male Soccer and Basketball Players on Balance Measures

Sauls

Bocanegra

Nario

et al. 2015

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Nicole M. Sauls

Effects of Lower-Body Muscular Fatigue on Vertical Jump and Balance Performance

Balance Performance in Collegiate Athletes: A Comparison of Balance Error Scoring System Measures

Differences In Male Collegiate And Recreationally Trained Soccer Players On Balance, Agility, And Vertical Jump Performance

Comparison of Sprint Agility Performance in Recreationally Trained Soccer and Basketball Players

Differences in Recreationally Trained Male Soccer and Basketball Players on Balance Measures

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