Cardiovascular Response to Whole-Body Vibration on an Automobile Seat

Over the last decade, the use of vibration-supported therapeutic measures has been increased. There are many devices in the market that generate whole body vibration, but they can be divided into three groups due to the frequency, amplitude and direction of the vibrations being applied to the body. The aim of the work is to analyze the results of the most important works discussing the use and effectiveness of the therapeutic effect of vibrations on the human body. The studies are indicative of favourable changes to the symptoms of neurodegenerative diseases, neurological dysfunctions, incomplete spinal cord injury, sarcopenia and senile age disorders, osteoporosis, sports injuries. The use of whole body vibration does not result in significant changes to the hemodynamic function during therapy, although appropriate stimulation parameters may induce sufficient cardiovascular response to improve overall physical fitness. In the physiotherapy procedure, the whole body vibration is another means of increasing the effect of the therapy used.

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Acute Cardiovascular Response during Resistance Exercise with Whole-body Vibration in Sedentary Subjects: A Randomized Cross-over Trial

Research in Sports Medicine ◽

10.1080/15438627.2015.1040921 ◽

2015 ◽

Vol 23 (3) ◽

pp. 253-264 ◽

Cited By ~ 3

Author(s):

Thaisa Dias ◽

Marcos Polito

Keyword(s):

Resistance Exercise ◽

Cardiovascular Response ◽

Whole Body Vibration ◽

Whole Body ◽

Body Vibration ◽

Sedentary Subjects

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Cardiac responses of dogs to nonsynchronous and heart synchronous whole-body vibration

Journal of Applied Physiology ◽

10.1152/jappl.1979.46.3.549 ◽

1979 ◽

Vol 46 (3) ◽

pp. 549-555

Author(s):

A. Bhattacharya ◽

C. F. Knapp ◽

E. P. McCutcheon ◽

J. M. Evans

Keyword(s):

Cardiac Function ◽

Cardiac Cycle ◽

Cardiovascular Response ◽

Whole Body Vibration ◽

Whole Body ◽

Frequency Synchronization ◽

Body Vibration ◽

Cardiac Responses ◽

Forcing Function ◽

Acceleration Amplitude

Changes in cardiac function produced by synchronizing vibration-induced forces with events in the cardiac cycle were compared to those for the nonsynchronous case in eight chronically instrumented, tranquilized dogs. The supine animals received sinusoidal, whole-body vibration (along the spinal +/- Gz axis) at a constant acceleration amplitude (+/- 0.75 G). The vibration frequency (2–3 Hz) was set equal to the paced heart frequency. Synchronization between vibration and cardiac cycles on a beat-by-beat basis produced a specific and sustained cardiovascular response; such a sustained response was not possible with nonsynchronous vibration. With synchronization, relationships could be found and sustained in which changes either exceeded or were below mean nonsynchronous levels, in some cases below previbration values. For the synchronous vs. nonsynchronous states, significant modification of cardiac function was reflected in parameters such as coronary flow (+15% to -34%) and myocardial oxygen consumption (+21% to -51%). Thus, whole-body oscillation acceleration (vibration) is a forcing function that can produce and maintain a particular cardiovascular response.

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Acute Effects of Whole-Body Vibration Training on Endothelial Function and Cardiovascular Response in Elderly Patients with Cardiovascular Disease

International Heart Journal ◽

10.1536/ihj.18-592 ◽

2019 ◽

Vol 60 (4) ◽

pp. 854-861 ◽

Cited By ~ 1

Author(s):

Akihiro Aoyama ◽

Minako Yamaoka-Tojo ◽

Shinichi Obara ◽

Erika Shimizu ◽

Kazuhiro Fujiyoshi ◽

...

Keyword(s):

Cardiovascular Disease ◽

Elderly Patients ◽

Endothelial Function ◽

Cardiovascular Response ◽

Whole Body Vibration ◽

Whole Body ◽

Acute Effects ◽

Body Vibration ◽

Vibration Training ◽

Whole Body Vibration Training

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Physiological Response to Whole-Body Vibration in Athletes and Sedentary Subjects

Physiological Research ◽

10.33549/physiolres.932628 ◽

2014 ◽

pp. 779-792

Author(s):

B. GOJANOVIC ◽

F. FEIHL ◽

G. GREMION ◽

B. WAEBER

Keyword(s):

Heart Rate ◽

Metabolic Response ◽

Cardiovascular Response ◽

Whole Body Vibration ◽

Peak Oxygen Consumption ◽

Whole Body ◽

Body Vibration ◽

Fitness Level ◽

Young Subjects ◽

Sedentary Subjects

Whole-body vibration (WBV) is a new exercise method, with good acceptance among sedentary subjects. The metabolic response to WBV has not been well documented. Three groups of male subjects, inactive (SED), endurance (END) and strength trained (SPRINT) underwent a session of side-alternating WBV composed of three 3-min exercises (isometric half-squat, dynamic squat, dynamic squat with added load), and repeated at three frequencies (20, 26 and 32 Hz). VO2, heart rate and Borg scale were monitored. Twenty-seven healthy young subjects (10 SED, 8 SPRINT and 9 END) were included. When expressed in % of their maximal value recorded in a treadmill test, both the peak oxygen consumption (VO2) and heart rate (HR) attained during WBV were greatest in the SED, compared to the other two groups (VO2: 59.3 % in SED vs 50.8 % in SPRINT and 48.0 % in END, p<0.01; HR 82.7 % in SED vs 80.4 % in SPRINT and 72.4 % in END, p<0.05). In conclusions, the heart rate and metabolic response to WBV differs according to fitness level and type, exercise type and vibration frequency. In SED, WBV can elicit sufficient cardiovascular response to benefit overall fitness and thus be a potentially useful modality for the reduction of cardiovascular risk.

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