Skeletal site-specific effects of whole body vibration in mature rats: From deleterious to beneficial frequency-dependent effects

Skeletal site-specific effects of whole body vibration in mature rats: From deleterious to beneficial frequency-dependent effects

Abstract Whole body vibration (WBV) is receiving increasing interest as an anti-osteoporotic prevention strategy. In this context, selective effects of different frequency and acceleration magnitude modalities on musculoskeletal responses need to be better defined. Our aim was to investigate the bon...

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Published in:Bone (New York, N.Y.) Vol. 55; no. 1; pp. 69 - 77
Main Authors: Pasqualini, Marion, Lavet, Cédric, Elbadaoui, Mohamed, Vanden-Bossche, Arnaud, Laroche, Norbert, Gnyubkin, Vasily, Vico, Laurence
Format: Journal Article
Language:English
Published: Amsterdam Elsevier Inc 01-07-2013
Elsevier
Subjects:
Acceleration
Aging - physiology
Animals
Biological and medical sciences
Bone and Bones - diagnostic imaging
Bone and Bones - physiology
Bone μCT
Frequency
Fundamental and applied biological sciences. Psychology
Histomorphometry
Male
Mature rat
Organ Specificity
Orthopedics
Rats
Rats, Wistar
Spine - diagnostic imaging
Spine - physiology
Tibia - diagnostic imaging
Tibia - physiology
Tomography, X-Ray Computed
Vertebrates: anatomy and physiology, studies on body, several organs or systems
Vibration
Whole body vibration
Whole body vibration
Frequency
Mature rat
Bone μCT
Histomorphometry
Vibration
Rat
Rodentia
Vertebrata
Mammalia
Animal
Morphology
Skeleton
Whole body
Bone
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Abstract Abstract Whole body vibration (WBV) is receiving increasing interest as an anti-osteoporotic prevention strategy. In this context, selective effects of different frequency and acceleration magnitude modalities on musculoskeletal responses need to be better defined. Our aim was to investigate the bone effects of different vibration frequencies at constant g level. Vertical WBV was delivered at 0.7 g (Peak acceleration) and 8, 52 or 90 Hz sinusoidal vibration to mature male rats 10 min daily for 5 days/week for 4 weeks. Peak accelerations measured by skin or bone-mounted accelerometers at L2 vertebral and tibia crest levels revealed similar values between adjacent skin and bone sites. Local accelerations were greater at 8 Hz compared with 52 and 90 Hz and were greater in vertebra than tibia for all the frequencies tested. At 52 Hz, bone responses were mainly seen in L2 vertebral body and were characterized by trabecular reorganization and stimulated mineral apposition rate (MAR) without any bone volume alteration. At 90 Hz, axial and appendicular skeletons were affected as were the cortical and trabecular compartments. Cortical thickness increased in femur diaphysis (17%) along with decreased porosity; trabecular bone volume increased at distal femur metaphysis (23%) and even more at L2 vertebral body (32%), along with decreased SMI and increased trabecular connectivity. Trabecular thickness increased at the tibia proximal metaphysis. Bone cellular activities indicated a greater bone formation rate, which was more pronounced at vertebra (300%) than at long bone (33%). Active bone resorption surfaces were unaffected. At 8 Hz, however, hyperosteoidosis with reduced MAR along with increased resorption surfaces occurred in the tibia; hyperosteoidosis and trend towards decreased MAR was also seen in L2 vertebra. Trabecular bone mineral density was decreased at femur and tibia. Thus the most favorable regimen is 90 Hz, while deleterious effects were seen at 8 Hz. We concluded that the skeleton is frequency-scalable, thus highlighting the importance of WBV regimen conditions and suggesting that cautions are required for frequencies less than 10 Hz, at least in rats.
AbstractList Whole body vibration (WBV) is receiving increasing interest as an anti-osteoporotic prevention strategy. In this context, selective effects of different frequency and acceleration magnitude modalities on musculoskeletal responses need to be better defined. Our aim was to investigate the bone effects of different vibration frequencies at constant g level. Vertical WBV was delivered at 0.7 g (peak acceleration) and 8, 52 or 90 Hz sinusoidal vibration to mature male rats 10 min daily for 5 days/week for 4 weeks. Peak accelerations measured by skin or bone-mounted accelerometers at L2 vertebral and tibia crest levels revealed similar values between adjacent skin and bone sites. Local accelerations were greater at 8 Hz compared with 52 and 90 Hz and were greater in vertebra than tibia for all the frequencies tested. At 52 Hz, bone responses were mainly seen in L2 vertebral body and were characterized by trabecular reorganization and stimulated mineral apposition rate (MAR) without any bone volume alteration. At 90 Hz, axial and appendicular skeletons were affected as were the cortical and trabecular compartments. Cortical thickness increased in femur diaphysis (17%) along with decreased porosity; trabecular bone volume increased at distal femur metaphysis (23%) and even more at L2 vertebral body (32%), along with decreased SMI and increased trabecular connectivity. Trabecular thickness increased at the tibia proximal metaphysis. Bone cellular activities indicated a greater bone formation rate, which was more pronounced at vertebra (300%) than at long bone (33%). Active bone resorption surfaces were unaffected. At 8 Hz, however, hyperosteoidosis with reduced MAR along with increased resorption surfaces occurred in the tibia; hyperosteoidosis and trend towards decreased MAR was also seen in L2 vertebra. Trabecular bone mineral density was decreased at femur and tibia. Thus the most favorable regimen is 90 Hz, while deleterious effects were seen at 8 Hz. We concluded that the skeleton is frequency-scalable, thus highlighting the importance of WBV regimen conditions and suggesting that cautions are required for frequencies less than 10 Hz, at least in rats.
Whole body vibration (WBV) is receiving increasing interest as an anti-osteoporotic prevention strategy. In this context, selective effects of different frequency and acceleration magnitude modalities on musculoskeletal responses need to be better defined. Our aim was to investigate the bone effects of different vibration frequencies at constant g level. Vertical WBV was delivered at 0.7g (Peak acceleration) and 8, 52 or 90Hz sinusoidal vibration to mature male rats 10min daily for 5days/week for 4weeks. Peak accelerations measured by skin or bone-mounted accelerometers at L2 vertebral and tibia crest levels revealed similar values between adjacent skin and bone sites. Local accelerations were greater at 8Hz compared with 52 and 90Hz and were greater in vertebra than tibia for all the frequencies tested. At 52Hz, bone responses were mainly seen in L2 vertebral body and were characterized by trabecular reorganization and stimulated mineral apposition rate (MAR) without any bone volume alteration. At 90Hz, axial and appendicular skeletons were affected as were the cortical and trabecular compartments. Cortical thickness increased in femur diaphysis (17%) along with decreased porosity; trabecular bone volume increased at distal femur metaphysis (23%) and even more at L2 vertebral body (32%), along with decreased SMI and increased trabecular connectivity. Trabecular thickness increased at the tibia proximal metaphysis. Bone cellular activities indicated a greater bone formation rate, which was more pronounced at vertebra (300%) than at long bone (33%). Active bone resorption surfaces were unaffected. At 8Hz, however, hyperosteoidosis with reduced MAR along with increased resorption surfaces occurred in the tibia; hyperosteoidosis and trend towards decreased MAR was also seen in L2 vertebra. Trabecular bone mineral density was decreased at femur and tibia. Thus the most favorable regimen is 90Hz, while deleterious effects were seen at 8Hz. We concluded that the skeleton is frequency-scalable, thus highlighting the importance of WBV regimen conditions and suggesting that cautions are required for frequencies less than 10Hz, at least in rats. •The skeleton of unchallenged mature rats responds to whole body vibration (0.7g ‘Peak acceleration’).•Vertebra, where in situ accelerations are greater, is more affected than long bones.•8Hz frequency is deleterious leading to hyperosteoidosis and decreased bone mineral density.•52Hz has an effect only in vertebra where trabecular microarchitecture is reorganized and bone formation enhanced.•90Hz induces the most beneficial effects both in cortical and trabecular compartments in long bones and vertebra.
Whole body vibration (WBV) is receiving increasing interest as an anti-osteoporotic prevention strategy. In this context, selective effects of different frequency and acceleration magnitude modalities on musculoskeletal responses need to be better defined. Our aim was to investigate the bone effects of different vibration frequencies at constant g level. Vertical WBV was delivered at 0.7g (Peak acceleration) and 8, 52 or 90Hz sinusoidal vibration to mature male rats 10min daily for 5days/week for 4weeks. Peak accelerations measured by skin or bone-mounted accelerometers at L2 vertebral and tibia crest levels revealed similar values between adjacent skin and bone sites. Local accelerations were greater at 8Hz compared with 52 and 90Hz and were greater in vertebra than tibia for all the frequencies tested. At 52Hz, bone responses were mainly seen in L2 vertebral body and were characterized by trabecular reorganization and stimulated mineral apposition rate (MAR) without any bone volume alteration. At 90Hz, axial and appendicular skeletons were affected as were the cortical and trabecular compartments. Cortical thickness increased in femur diaphysis (17%) along with decreased porosity; trabecular bone volume increased at distal femur metaphysis (23%) and even more at L2 vertebral body (32%), along with decreased SMI and increased trabecular connectivity. Trabecular thickness increased at the tibia proximal metaphysis. Bone cellular activities indicated a greater bone formation rate, which was more pronounced at vertebra (300%) than at long bone (33%). Active bone resorption surfaces were unaffected. At 8Hz, however, hyperosteoidosis with reduced MAR along with increased resorption surfaces occurred in the tibia; hyperosteoidosis and trend towards decreased MAR was also seen in L2 vertebra. Trabecular bone mineral density was decreased at femur and tibia. Thus the most favorable regimen is 90Hz, while deleterious effects were seen at 8Hz. We concluded that the skeleton is frequency-scalable, thus highlighting the importance of WBV regimen conditions and suggesting that cautions are required for frequencies less than 10Hz, at least in rats.
Abstract Whole body vibration (WBV) is receiving increasing interest as an anti-osteoporotic prevention strategy. In this context, selective effects of different frequency and acceleration magnitude modalities on musculoskeletal responses need to be better defined. Our aim was to investigate the bone effects of different vibration frequencies at constant g level. Vertical WBV was delivered at 0.7 g (Peak acceleration) and 8, 52 or 90 Hz sinusoidal vibration to mature male rats 10 min daily for 5 days/week for 4 weeks. Peak accelerations measured by skin or bone-mounted accelerometers at L2 vertebral and tibia crest levels revealed similar values between adjacent skin and bone sites. Local accelerations were greater at 8 Hz compared with 52 and 90 Hz and were greater in vertebra than tibia for all the frequencies tested. At 52 Hz, bone responses were mainly seen in L2 vertebral body and were characterized by trabecular reorganization and stimulated mineral apposition rate (MAR) without any bone volume alteration. At 90 Hz, axial and appendicular skeletons were affected as were the cortical and trabecular compartments. Cortical thickness increased in femur diaphysis (17%) along with decreased porosity; trabecular bone volume increased at distal femur metaphysis (23%) and even more at L2 vertebral body (32%), along with decreased SMI and increased trabecular connectivity. Trabecular thickness increased at the tibia proximal metaphysis. Bone cellular activities indicated a greater bone formation rate, which was more pronounced at vertebra (300%) than at long bone (33%). Active bone resorption surfaces were unaffected. At 8 Hz, however, hyperosteoidosis with reduced MAR along with increased resorption surfaces occurred in the tibia; hyperosteoidosis and trend towards decreased MAR was also seen in L2 vertebra. Trabecular bone mineral density was decreased at femur and tibia. Thus the most favorable regimen is 90 Hz, while deleterious effects were seen at 8 Hz. We concluded that the skeleton is frequency-scalable, thus highlighting the importance of WBV regimen conditions and suggesting that cautions are required for frequencies less than 10 Hz, at least in rats.
Author Vanden-Bossche, Arnaud
Pasqualini, Marion
Laroche, Norbert
Gnyubkin, Vasily
Vico, Laurence
Lavet, Cédric
Elbadaoui, Mohamed
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  fullname: Vico, Laurence
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Issue 1
Keywords Whole body vibration
Frequency
Mature rat
Bone μCT
Histomorphometry
Vibration
Rat
Rodentia
Vertebrata
Mammalia
Animal
Morphology
Skeleton
Whole body
Bone
Language English
License CC BY 4.0
Copyright © 2013 Elsevier Inc. All rights reserved.
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Snippet Abstract Whole body vibration (WBV) is receiving increasing interest as an anti-osteoporotic prevention strategy. In this context, selective effects of...
Whole body vibration (WBV) is receiving increasing interest as an anti-osteoporotic prevention strategy. In this context, selective effects of different...
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SubjectTerms Acceleration
Aging - physiology
Animals
Biological and medical sciences
Bone and Bones - diagnostic imaging
Bone and Bones - physiology
Bone μCT
Frequency
Fundamental and applied biological sciences. Psychology
Histomorphometry
Male
Mature rat
Organ Specificity
Orthopedics
Rats
Rats, Wistar
Spine - diagnostic imaging
Spine - physiology
Tibia - diagnostic imaging
Tibia - physiology
Tomography, X-Ray Computed
Vertebrates: anatomy and physiology, studies on body, several organs or systems
Vibration
Whole body vibration
Title Skeletal site-specific effects of whole body vibration in mature rats: From deleterious to beneficial frequency-dependent effects
URI https://www.clinicalkey.es/playcontent/1-s2.0-S8756328213001300
https://dx.doi.org/10.1016/j.bone.2013.03.013
https://www.ncbi.nlm.nih.gov/pubmed/23545229
https://search.proquest.com/docview/1349702075
https://search.proquest.com/docview/1627985988
Volume 55
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