Transmission of Acceleration From a Synchronous Vibration Exercise Platform to the Head During Dynamic Squats

Caryn, Robert; Dickey, James P.

doi:10.1177/1559325819827467

Cited by 13 publications

(7 citation statements)

References 45 publications

Supporting

Mentioning

Contrasting

Unclassified

Order By: Relevance

“…Despite some contradictory results reported, Abercromby et al [51], using a fixed configuration (30 Hz and 4 mm), suggested that head acceleration seems to decrease when knee flexion angles are increased from 10 • to 30 • ; however, the authors suggested an increase an in transmissibility above 30 • of knee flexion. These results contrast with previous studies suggesting that flexing the knees results in reduced head transmissibility at all frequencies [48]. It seems that the transmission of vibration to the head is reduced with angles greater than 20 • [48]; in fact, it was recommended to avoid frequencies below 30 Hz, with small knee flexion angles (<40 • ) to reduce the risk of injury at the head level [48].…”

Section: Explanationcontrasting

confidence: 61%

“…These results contrast with previous studies suggesting that flexing the knees results in reduced head transmissibility at all frequencies [48]. It seems that the transmission of vibration to the head is reduced with angles greater than 20 • [48]; in fact, it was recommended to avoid frequencies below 30 Hz, with small knee flexion angles (<40 • ) to reduce the risk of injury at the head level [48]. These suggestions can also be applied to WBV using dynamic movements.…”

Section: Explanationmentioning

confidence: 64%

“…Mechanical energy transferred to the head can be hazardous, and it is well documented that frequency and knee flexion angles might affect acceleration transmission to the head [48]. As reported in Item 13, certain postures can increase the transmissibility to the head.…”

Section: Explanationmentioning

confidence: 99%

“…These suggestions can also be applied to WBV using dynamic movements. In a recent study, Caryn and Dickey [48] assessed transmissibility to the head (frequencies between 20 and 50 Hz) during dynamic squats and showed that the response to dynamic exercise is similar to static postures. Hence, summarized, vibration frequency and knee flexion angle interact to affect acceleration submission to the head.…”

Section: Explanationmentioning

confidence: 99%

See 3 more Smart Citations

Reporting Guidelines for Whole-Body Vibration Studies in Humans, Animals and Cell Cultures: A Consensus Statement from an International Group of Experts

Heuvelen

Rittweger

Judex

et al. 2021

Biology

View full text Add to dashboard Cite

Whole-body vibration (WBV) is an exercise modality or treatment/prophylaxis method in which subjects (humans, animals, or cells) are exposed to mechanical vibrations through a vibrating platform or device. The vibrations are defined by their direction, frequency, magnitude, duration, and the number of daily bouts. Subjects can be exposed while performing exercises, hold postures, sitting, or lying down. Worldwide, WBV has attracted significant attention, and the number of studies is rising. To interpret, compare, and aggregate studies, the correct, complete, and consistent reporting of WBV-specific data (WBV parameters) is critical. Specific reporting guidelines aid in accomplishing this goal. There was a need to expand existing guidelines because of continuous developments in the field of WBV research, including but not limited to new outcome measures regarding brain function and cognition, modified designs of WBV platforms and attachments (e.g., mounting a chair on a platform), and comparisons of animal and cell culture studies with human studies. Based on Delphi studies among experts and using EQUATOR recommendations, we have developed extended reporting guidelines with checklists for human and animal/cell culture research, including information on devices, vibrations, administration, general protocol, and subjects. In addition, we provide explanations and examples of how to report. These new reporting guidelines are specific to WBV variables and do not target research designs in general. Researchers are encouraged to use the new WBV guidelines in addition to general design-specific guidelines.

show abstract

Section: Explanationcontrasting

confidence: 61%

Section: Explanationmentioning

confidence: 64%

Section: Explanationmentioning

confidence: 99%

Section: Explanationmentioning

confidence: 99%

See 2 more Smart Citations

Reporting Guidelines for Whole-Body Vibration Studies in Humans, Animals and Cell Cultures: A Consensus Statement from an International Group of Experts

Heuvelen

Rittweger

Judex

et al. 2021

Biology

View full text Add to dashboard Cite

show abstract

“…In addition, whole-body vibration training in the static upright is likely to cause head discomfort in older adults. 35 Therefore, static upright and single-leg squats were excluded from the selection of vibration training positions. The study aimed to discuss the effects of whole-body vibration training on lower limb muscle activity in middle-aged and older women with different forms of contraction against self-gravity or with elastic band loading.…”

Section: Discussionmentioning

confidence: 99%

Effects of Whole-Body Vibration Training with Different Body Positions and Amplitudes on Lower Limb Muscle Activity in Middle-Aged and Older Women

2022

View full text Add to dashboard Cite

Purpose The present study was designed to investigate the electromyographic (EMG) response in leg muscles to whole-body vibration while using different body positions and vibration amplitudes. Methods: An experimental study with repeated measures design involved a group of community-dwelling middle-aged and older women (n = 15; mean age=60.8 ± 4.18 years). Muscle activity of the gluteus maximus (GM), rectus femoris (RF), vastus medialis (VM), vastus lateralis (VL), biceps femoris (BF), and gastrocnemius (GS) was measured by surface electromyography, which participants were performing three different body positions during three WBV amplitudes. The body positions included static semi-squat, static semi-squat with elastic band loading, and dynamic semi-squat. Vibration stimuli tested were 0 mm, 2 mm, and 4 mm amplitude and 30 Hz frequencies. And the maximum accelerations produced by vibration stimuli with amplitudes of 2 mm and 4 mm are approximately 1.83 g and 3.17 g. Results: Significantly greater muscle activity was recorded in VL, BF, and GS. When WBV was applied to training, compared with the same training without WBV ( P < .05). There were significant main effects of body positions on EMGrms for the GM, RF, and VM ( P < .05). Compared to static semi-squat, static semi-squat with elastic band significantly increased the EMGrms of GM, and dynamic semi-squat significantly increased the EMGrms of GM, RF and VM (P < .05). And there were significant main effects of amplitudes on EMGrms for the GM, RF, and VM ( P < .05). The EMGrms of the VL, BF, and GS at 4 mm were significantly higher than 0 mm, and the EMGrms of the VL and BF at 4 mm were significantly higher than 2 mm. There was no significant body interaction between body positions and amplitudes (P > .05). Conclusions: The EMG amplitudes of most leg muscles tested were significantly greater during WBV exposure than in the no-WBV condition. The dynamic semi-squat 4 mm whole-body vibration training is recommended for middle-aged and older women to improve lower limb muscle strength and function.

show abstract

Acceleration Transmission from an Oscillating Vibration Exercise Platform in Different Postures: A Pilot Study

Marchon

Machado

Moreira-Marconi

et al. 2019

Advances in Intelligent Systems and Computing

View full text Add to dashboard Cite

Transmission of Acceleration From a Synchronous Vibration Exercise Platform to the Head During Dynamic Squats

Cited by 13 publications

References 45 publications

Reporting Guidelines for Whole-Body Vibration Studies in Humans, Animals and Cell Cultures: A Consensus Statement from an International Group of Experts

Reporting Guidelines for Whole-Body Vibration Studies in Humans, Animals and Cell Cultures: A Consensus Statement from an International Group of Experts

Effects of Whole-Body Vibration Training with Different Body Positions and Amplitudes on Lower Limb Muscle Activity in Middle-Aged and Older Women

Acceleration Transmission from an Oscillating Vibration Exercise Platform in Different Postures: A Pilot Study

Contact Info

Product

Resources

About