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VIBO therapy
Muscle
Power and Strength
Adaptive responses of human skeletal muscle to vibration exposure.
Bosco C, et al.
Human
skeletal muscle structure and function preserved by vibration muscle
exercise following 55 days of bed rest. Blottner, et al.
The use of vibration training to enhance muscle strength and power.
Luo, et al.
Effect of whole body vibration stimulus and voluntary contraction on motoneuron pool.
Nishihira, et al.
Short-term effects of whole-body vibration on maximal voluntary isometric knee extensor
force and rate of force rise. de Ruiter, et al.
Effects on leg
muscular performance from whole-body vibration exercise: a
systematic review. Rehn et al.
High-frequency
vibration training increases muscle power in postmenopausal women.
Russo, et al.
Effect of a vibration exposure on muscular performance and body balance.
Torvinen, et al.
Bone
The anabolic activity of bone tissue, suppressed by disuse, is normalized by brief
exposure to extremely low-magnitude mechanical stimuli.
Rubin, et al.
Effect of whole body vibration on muscular performance, balance and bone.
Torvinen.
Low frequency vibratory exercise reduces the risk of bone fractures
more than walking. Gusi, et al.
Metabolic Changes
Hormonal responses to whole-body vibration in men. Bosco C, et al.
The
effects of vibration on human performance and hormonal profile.
Cardinale.
Whole-body vibration exercise leads to alterations in muscle blood volume.
Kerschan-Schindl, et al.
Oxygen uptake during whole-body vibration exercise: Comparison with squatting as a
slow voluntary movement. Rittweger.
Acute physiological effects of exhaustive whole-body vibration exercise in man.
Rittweger, et al.
Oxygen uptake in whole-body vibration exercise: Influence of vibration frequency,
amplitude and external load.
Rittweger, et al
Seniors
Performance
Controlled
whole body vibration to decrease fall risk and improve
health-related quality of life of nursing home residents.Bruyere, et al.
Efficacy of training program for ambulatory competence in elderly women.
Iwamoto, et al.
Whole-body vibration exercise in the elderly people.
Miyamoto, et al.
Balance training and exercise in geriatric patients. Runge, et al.
Lumbar Spine
The
effect of weight bearing exercise with low frequency, whole body vibration on lumbosacral
proprioception: A pilot study on normal subjects. Fontana, et
al.
Treatment of chronic lower back pain with lumbar extension and whole-body
vibration
exercise. Rittweger, et al.
Resistive Simulated Weightbearing Exercise With Whole Body Vibration Reduces Lumbar Spine Deconditioning in Bed-Rest.
Belavy, et al.
Neurological
Conditions
Effects
of whole-body vibration in patients with multiple sclerosis: A pilot study.
Schuhfried, et al.
Effects of random whole-body vibration on postural control in parkinson's
disease. Turbanski, et al.
Short-term effects of whole-body vibration on postural control in unilateral
chronic stroke patients. van Nes, et al.
Urinary
Incontinence
Effect on Muscles of mechanical vibrations produced by the Galileo 2000 in
combination with physical therapy in treating female stress urinary
incontinence.
Von der Heide, et al.
Athlete Performance
The influence of whole body vibration on jumping performance. Bosco C,
et al.
New trends in training science: The use of vibrations for enhancing performance. Bosco C,
et al.
Acute
whole body vibration training increases vertical jump and flexibility
performance in elite female field hockey players. Cochrane, et al.
Acute and residual effects of vibratory stimulation on explosive strength in elite and amateur athletes; Influence of vibration on mechanical power and electromyogram activity in human arm flexor muscles.
Issurin, et al.
Acute changes in neuromuscular excitability after exhaustive whole body
vibration exercise as compared to exhaustion by squatting exercise. Rittweger,
et al.
