| Rank |
Title |
Journal |
Year |
PubWeight™‹?› |
|
1
|
Effect of parathyroid hormone (1-34) on fractures and bone mineral density in postmenopausal women with osteoporosis.
|
N Engl J Med
|
2001
|
16.81
|
|
2
|
Incidence and economic burden of osteoporosis-related fractures in the United States, 2005-2025.
|
J Bone Miner Res
|
2007
|
14.84
|
|
3
|
Effect of 6-month whole body vibration training on hip density, muscle strength, and postural control in postmenopausal women: a randomized controlled pilot study.
|
J Bone Miner Res
|
2003
|
2.47
|
|
4
|
Low-level, high-frequency mechanical signals enhance musculoskeletal development of young women with low BMD.
|
J Bone Miner Res
|
2006
|
2.22
|
|
5
|
Low magnitude mechanical loading is osteogenic in children with disabling conditions.
|
J Bone Miner Res
|
2004
|
2.15
|
|
6
|
Costs and quality of life associated with osteoporosis-related fractures in Sweden.
|
Osteoporos Int
|
2005
|
2.05
|
|
7
|
High-frequency vibration training increases muscle power in postmenopausal women.
|
Arch Phys Med Rehabil
|
2003
|
1.95
|
|
8
|
Maximizing bone mineral mass gain during growth for the prevention of fractures in the adolescents and the elderly.
|
Bone
|
2009
|
1.94
|
|
9
|
Effect of a vibration exposure on muscular performance and body balance. Randomized cross-over study.
|
Clin Physiol Funct Imaging
|
2002
|
1.94
|
|
10
|
Hormonal responses to whole-body vibration in men.
|
Eur J Appl Physiol
|
2000
|
1.92
|
|
11
|
Low-magnitude mechanical signals that stimulate bone formation in the ovariectomized rat are dependent on the applied frequency but not on the strain magnitude.
|
J Biomech
|
2006
|
1.87
|
|
12
|
Electromyography activity of vastus lateralis muscle during whole-body vibrations of different frequencies.
|
J Strength Cond Res
|
2003
|
1.72
|
|
13
|
Health-related quality of life and radiographic vertebral fracture.
|
Osteoporos Int
|
2003
|
1.70
|
|
14
|
Low-level mechanical vibrations can influence bone resorption and bone formation in the growing skeleton.
|
Bone
|
2006
|
1.69
|
|
15
|
The anabolic activity of bone tissue, suppressed by disuse, is normalized by brief exposure to extremely low-magnitude mechanical stimuli.
|
FASEB J
|
2001
|
1.68
|
|
16
|
Impact of hip and vertebral fractures on quality-adjusted life years.
|
Osteoporos Int
|
2001
|
1.66
|
|
17
|
Whole-body vibration exercise leads to alterations in muscle blood volume.
|
Clin Physiol
|
2001
|
1.60
|
|
18
|
Enhancement of the adolescent murine musculoskeletal system using low-level mechanical vibrations.
|
J Appl Physiol (1985)
|
2008
|
1.55
|
|
19
|
Whole body vibration exercise: are vibrations good for you?
|
Br J Sports Med
|
2005
|
1.55
|
|
20
|
Effects of training on bone mass in older adults: a systematic review.
|
Sports Med
|
2012
|
1.53
|
|
21
|
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.
|
Spine (Phila Pa 1976)
|
2003
|
1.41
|
|
22
|
Low-frequency vibratory exercise reduces the risk of bone fracture more than walking: a randomized controlled trial.
|
BMC Musculoskelet Disord
|
2006
|
1.38
|
|
23
|
Whole-body-vibration-induced increase in leg muscle activity during different squat exercises.
|
J Strength Cond Res
|
2006
|
1.17
|
|
24
|
Muscle activity and acceleration during whole body vibration: effect of frequency and amplitude.
|
Clin Biomech (Bristol, Avon)
|
2010
|
1.14
|
|
25
|
Back pain, disability, and radiographic vertebral fracture in European women: a prospective study.
|
Osteoporos Int
|
2004
|
1.10
|
|
26
|
Whole-body vibration in the skeleton: development of a resonance-based testing device.
|
Ann Biomed Eng
|
1997
|
1.06
|
|
27
|
Role for parathyroid hormone in mechanical responsiveness of rat bone.
|
Am J Physiol
|
1998
|
1.03
|
|
28
|
Local bone formation due to combined mechanical loading and intermittent hPTH-(1-34) treatment and its correlation to mechanical signal distributions.
|
J Biomech
|
2009
|
1.00
|
|
29
|
Teriparatide: a review of its use in osteoporosis.
|
Drugs
|
2008
|
1.00
|
|
30
|
Whole-body vibration therapy for osteoporosis: state of the science.
|
Ann Intern Med
|
2011
|
0.98
|
|
31
|
Vibration exercise makes your muscles and bones stronger: fact or fiction?
|
J Br Menopause Soc
|
2006
|
0.97
|
|
32
|
Parathyroid hormone enhances mechanically induced bone formation, possibly involving L-type voltage-sensitive calcium channels.
|
Endocrinology
|
2003
|
0.95
|
|
33
|
The effects of whole body vibration on humans: dangerous or advantageous?
|
Acta Physiol Hung
|
2003
|
0.94
|
|
34
|
Stochastic resonance in osteogenic response to mechanical loading.
|
FASEB J
|
2002
|
0.94
|
|
35
|
Good, good, good... good vibrations: the best option for better bones?
|
Lancet
|
2001
|
0.88
|
|
36
|
Whole-body vibration training for patients with neurodegenerative disease.
|
Cochrane Database Syst Rev
|
2012
|
0.87
|
|
37
|
Neuromuscular and hormonal responses to a single session of whole body vibration exercise in healthy young men.
|
Clin Physiol Funct Imaging
|
2007
|
0.85
|
|
38
|
Evaluation of muscle activity for loaded and unloaded dynamic squats during vertical whole-body vibration.
|
J Strength Cond Res
|
2010
|
0.85
|
|
39
|
Nutrition, physical activity, and bone health in women.
|
Int J Sport Nutr
|
1998
|
0.84
|
|
40
|
Loading and skeletal development and maintenance.
|
J Osteoporos
|
2010
|
0.80
|
|
41
|
Effects of vertical and side-alternating vibration training on fall risk factors and bone turnover in older people at risk of falls.
|
Age Ageing
|
2014
|
0.79
|