SPORTS PERFORMANCE RELATED • PHYSIOLOGIC RESPONSE
APPLICATIONS IN MEDICAL • CASE REHABILITATION
RESEARCH IN OSTEOPOROSIS • REVIEW STUDIES

 SPORTS PERFORMANCE RELATED

1. Effect of four-month Vertical Whole Body Vibration on Performance and Balance 

2. Strength Increase after Whole-Body Vibration Compared with Resistance Training

3. Improving Strength and Postural Control in Young Skiers: Whole-Body Vibration Versus Equivalent Resistance Training

4. on a Vibration Platform with Conventional Squats in Recreationally Resistance-Trained Men

5. The Effects of a Whole-Body Vibration Program on Muscle Performance and Flexibility in  Female Athletes

6. Vibrations and Their Applications in Sport: A Review

7. The Use of Vibration as an Exercise Intervention

PHYSIOLOGICAL RESPONSE

1. Acute Physiological Effects of Exhaustive Whole-Body Vibration Exercise in Man
    
2.  Electromyography Activity of Vastus Lateralis Muscle During Whole-Body Vibrations of Different Frequencies
    
3. Whole-Body Vibration Exercise Leads to Alternations in Muscle Blood Volume
    
4. Oxygen Uptake during Whole-Body Vibration Exercise: Comparison with Squatting as a Slow Voluntary Movement
    
5. Hormonal Responses to Whole-Body Vibration in Men 
    

APPLICATION IN MEDICAL CASES / REHABILITATION

1. The Effects of Random Whole-Body Vibration on Motor Symptoms in Parkinson’s Disease
    
2. Effects of Whole-Body Vibration Training on Postural Control in Older Individuals: A 1 Year Randomized Controlled Trial
    
3. Efficiency of Vibration Exercise for Glycemic Control in Type 2 Diabetes Patients
    
4. High-Frequency Whole-Body Vibration Improves Balancing Ability in Elderly Women. Abstract from  <"http://linkinghub.elsevier.com/retrieve/pii/S0003999307002584">

1. Effect of 6-Month Whole Body Vibration Training on Hip Density, Muscle Strength, and Postural Control in Postmenopausal Women: A Randomized Controlled Pilot Study 

2. Transmissibility of 15-Hertz to 35-Hertz Vibrations to the Human Hip and Lumbar Spine: Determining the Physiologic Feasibility of Delivering Low-Level Anabolic Mechanical Stimuli to Skeletal Regions at Greatest Risk of Fracture Because of Osteoporosis

3. The Feasibility of Whole Body Vibration in Institutionalised Elderly Persons and its Influence on Muscle Performance, Balance and Mobility: A Randomised Controlled Trial

4. Prevention of Postmenopausal Bone Loss by a Low-Magnitude, High-Frequency Mechanical Stimuli: A Clinical Trial Assessing Compliance, Efficacy, and Safety
    

1. Whole Body Vibration Exercise: Are Vibrations Good for You?
    
2. Vibration Training: An Overview of the Area, Training Considerations, and Future Considerations