Ross Smith scite author profile

Ross Smith

5Publications

62Citation Statements Received

113Citation Statements Given

How they've been cited

How they cite others

129

Affiliations

University of Queensland, Royal Brompton Hospital, University of Memphis

Publications

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The energetic function of the human foot and its muscles during accelerations and decelerations

Smith

Lichtwark

Kelly

2021

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The human foot is known to aid propulsion by storing and returning elastic energy during steady-state locomotion. While its function during other tasks is less clear, recent evidence suggests the foot and its intrinsic muscles can also generate or dissipate energy based on the energetic requirements of the center of mass during non-steady state locomotion. In order to examine contributions of the foot and its muscles to non-steady state locomotion, we compared the energetics of the foot and ankle joint while jumping and landing before and after the application of a tibial nerve block. Under normal conditions, energetic contributions of the foot rose as work demands increased, while the relative contributions of the foot to center of mass work remained constant with increasing work demands. Under the nerve block, foot contributions to both jumping and landing decreased. Additionally, ankle contributions were also decreased under the influence of the block for both tasks. Our results reinforce findings that foot and ankle function mirror the energetic requirements of the center of mass and provide novel evidence that foot contributions remain relatively constant under increasing energetic demands. Also, while the intrinsic muscles can modulate the energetic capacity of the foot, their removal accounted for only a three-percent decrement in total center of mass work. Therefore, the small size of intrinsic muscles appears to limit their capacity to contribute to center of mass work. However, their role in contributing to ankle work capacity is likely important for the energetics of movement.

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Footwear and Sex Differences in Performance and Joint Kinetics During Maximal Vertical Jumping

Smith

Paquette

Harry

et al. 2020

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Smith, RE, Paquette, MR, Harry, JR, Powell, DW, and Weiss, LW. Footwear and sex differences in performance and joint kinetics during maximal vertical jumping. J Strength Cond Res XX(X): 000-000, 2018-This investigation examined the effects of footwear and sex on vertical jump displacement and joint power contributions. Twenty-three young adults with basketball experience performed 3 maximal countermovement vertical jumps in minimal and standard footwear. Ground reaction force and 3D kinematic data were collected during jumping. Footwear by sex analysis of variance for all dependent variables and effect sizes (d) was computed. An interaction effect showed that men produced greater lower-limb-positive work than women in standard footwear. Men jumped higher than women (d = 2.53) and produced greater peak ankle, knee and hip joint moments (d > 0.99), positive joint powers (d > 1.07) and, positive knee and hip joint work (d > 1.04) with no sex differences for negative joint powers and work (p > 0.05). Minimal footwear produced less peak-positive knee power (d = 0.27) and less positive ankle (d = 0.34) and knee (d = 0.21) joint work than standard footwear. Because negative joint power and work were similar between sexes, men may be better able to use the stretch-shortening cycle compared with women. Higher joint mechanical demands may provide a better vertical jumping training stimulus in standard compared with minimal footwear. Future studies should investigate footwear training effects on performance and joint mechanics during jumping.

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Examining the intrinsic foot muscles’ capacity to modulate plantar flexor gearing and ankle joint contributions to propulsion in vertical jumping

Smith

Lichtwark²,

Farris³

et al. 2023

Journal of Sport and Health Science

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Flexor digitorum brevis utilizes elastic strain energy to contribute to both work generation and energy absorption at the foot

Smith

Lichtwark

Kelly

2022

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The central nervous system utilizes tendon compliance of the intrinsic foot muscles to aid the foot's arch spring, storing and returning energy in its tendinous tissues. Recently, the intrinsic foot muscles have been shown to adapt their energetic contributions during a variety of locomotor tasks to fulfil centre of mass work demands. However, the mechanism by which the small intrinsic foot muscles are able to make versatile energetic contributions remains unknown. Therefore, we examined the muscle-tendon dynamics of the flexor digitorum brevis during stepping, jumping, and landing tasks to see whether the central nervous system regulated muscle activation magnitude and timing to enable energy storage and return to enhance energetic contributions. During step ups and jumps, energy was stored in the tendinous tissue during arch compression, and during arch recoil, the fascicles shortened at a slower rate than the tendinous tissues while the foot generated energy. During step downs and landings, the tendinous tissues elongated more and at greater rates than the fascicles during arch compression while the foot absorbed energy. These results indicate the central nervous system utilizes arch compression to store elastic energy in the tendinous tissues of the intrinsic foot muscles to add or remove mechanical energy when the body accelerates or decelerates. This study provides an adaptive mechanism used to enable the foot's energetic versatility and further indicates the value of tendon compliance in distal lower limb muscle tendon units in locomotion.

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Fitting Sense to Sound: Linguistic Aesthetics and Phonosemantics in the Work of J.R.R. Tolkien

Smith¹

2006

tks

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Ross Smith

The energetic function of the human foot and its muscles during accelerations and decelerations

Footwear and Sex Differences in Performance and Joint Kinetics During Maximal Vertical Jumping

Examining the intrinsic foot muscles’ capacity to modulate plantar flexor gearing and ankle joint contributions to propulsion in vertical jumping

Flexor digitorum brevis utilizes elastic strain energy to contribute to both work generation and energy absorption at the foot

Fitting Sense to Sound: Linguistic Aesthetics and Phonosemantics in the Work of J.R.R. Tolkien

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