Riveting hammer vibration damages mechanosensory nerve endings

Riveting hammer vibration damages mechanosensory nerve endings

Hand‐arm vibration syndrome (HAVS) is an irreversible neurodegenerative, vasospastic, and musculoskeletal occupational disease of workers who use powered hand tools. The etiology is poorly understood. Neurological symptoms include numbness, tingling, and pain. This study examines impact hammer vibra...

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Published in:Journal of the peripheral nervous system Vol. 25; no. 3; pp. 279 - 287
Main Authors: Zimmerman, Jordan J., Bain, James L. W., Wu, Chaowen, Lindell, Hans, Grétarsson, Snævar L., Riley, Danny A.
Format: Journal Article
Language:English
Published: Malden, USA Wiley Periodicals, Inc 01-09-2020
Wiley Subscription Services, Inc
Subjects:
Arm
Denervation
Etiology
Hair
Innervation
mechanosensory
Nerve endings
neurodegeneration
Occupational diseases
PGP9.5
shock wave
Vibration
vibration disease
Vibrations
shock wave
neurodegeneration
denervation
PGP9.5
mechanosensory
vibration disease
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Abstract Hand‐arm vibration syndrome (HAVS) is an irreversible neurodegenerative, vasospastic, and musculoskeletal occupational disease of workers who use powered hand tools. The etiology is poorly understood. Neurological symptoms include numbness, tingling, and pain. This study examines impact hammer vibration‐induced injury and recoverability of hair mechanosensory innervation. Rat tails were vibrated 12 min/d for 5 weeks followed by 5 week recovery with synchronous non‐vibrated controls. Nerve fibers were PGP9.5 immunostained. Lanceolate complex innervation was compared quantitatively in vibrated vs sham. Vibration peak acceleration magnitudes were characterized by frequency power spectral analysis. Average magnitude (2515 m/s2, root mean squared) in kHz frequencies was 109 times that (23 m/s2) in low Hz. Percentage of hairs innervated by lanceolate complexes was 69.1% in 5‐week sham and 53.4% in 5‐week vibration generating a denervation difference of 15.7% higher in vibration. Hair innervation was 76.9% in 5‐weeks recovery sham and 62.0% in 5‐week recovery vibration producing a denervation difference 14.9% higher in recovery vibration. Lanceolate number per complex (18.4 ± 0.2) after vibration remained near sham (19.3 ± 0.3), but 44.9% of lanceolate complexes were abnormal in 5 weeks vibrated compared to 18.8% in sham. The largest vibration energies are peak kHz accelerations (approximately 100 000 m/s2) from shock waves. The existing ISO 5349‐1 standard excludes kHz vibrations, seriously underestimating vibration injury risk. The present study validates the rat tail, impact hammer vibration as a model for investigating irreversible nerve damage. Persistence of higher denervation difference after 5‐week recovery suggests repeated vibration injury destroys the capability of lanceolate nerve endings to regenerate.
AbstractList Hand-arm vibration syndrome (HAVS) is an irreversible neurodegenerative, vasospastic and musculoskeletal occupational disease of workers using powered hand tools. The etiology is poorly understood. Neurological symptoms include numbness, tingling and pain. This study examines impact hammer vibration-induced injury and recoverability of hair mechanosensory innervation. Rat tails were vibrated 12 min/d for 5 wk followed by 5 wk recovery with synchronous non-vibrated controls. Nerve fibers were PGP9.5 immunostained. Lanceolate complex innervation was compared quantitatively in vibrated vs sham. Vibration peak acceleration magnitudes were characterized by frequency power spectral analysis. Average magnitude (2515 m/s , rms) in kHz frequencies was 109 times that (23 m/s ) in low Hz. Percentage of hairs innervated by lanceolate complexes was 69.1% in 5wk sham and 53.4% in 5wk vib generating a denervation difference of 15.7% higher in vibration. Hair innervation was 76.9% in 5wk recovery sham and 62.0% in 5wk recovery vibration producing a denervation difference 14.9% higher in recovery vibration. Lanceolate number per complex (18.4 ± 0.2) after vibration remained near sham (19.3 ± 0.3), but 44.9% of lanceolate complexes were abnormal in 5 wk vibrated compared to 18.8% in sham. The largest vibration energies are peak kHz accelerations (~ 100 000 m/s ) from shock waves. The existing ISO 5349-1 standard excludes kHz vibrations, seriously underestimating vibration injury risk. The present study validates the rat-tail, impact hammer vibration as a model for investigating irreversible nerve damage. Persistence of higher denervation difference after 5-week recovery suggests repeated vibration injury destroys the capability of lanceolate nerve endings to regenerate. This article is protected by copyright. All rights reserved.
Background and Aims Hand-arm vibration syndrome (HAVS) is an irreversible neurodegenerative, vasospastic and musculoskeletal occupational disease of workers using powered hand tools. The etiology is poorly understood. Neurological symptoms include numbness, tingling and pain. This study examines impact hammer vibration-induced injury and recoverability of hair mechanosensory innervation. Methods Rat tails were vibrated 12?min/d for 5 wk followed by 5 wk recovery with synchronous non-vibrated controls. Nerve fibers were PGP9.5 immunostained. Lanceolate complex innervation was compared quantitatively in vibrated vs sham. Vibration peak acceleration magnitudes were characterized by frequency power spectral analysis. Results Average magnitude (2515?m/s2, rms) in kHz frequencies was 109 times that (23?m/s2) in low Hz. Percentage of hairs innervated by lanceolate complexes was 69.1% in 5wk sham and 53.4% in 5wk vib generating a denervation difference of 15.7% higher in vibration. Hair innervation was 76.9% in 5wk recovery sham and 62.0% in 5wk recovery vibration producing a denervation difference 14.9% higher in recovery vibration. Lanceolate number per complex (18.4?±?0.2) after vibration remained near sham (19.3?±?0.3), but 44.9% of lanceolate complexes were abnormal in 5 wk vibrated compared to 18.8% in sham. Interpretation The largest vibration energies are peak kHz accelerations (~?100?000?m/s2) from shock waves. The existing ISO 5349-1 standard excludes kHz vibrations, seriously underestimating vibration injury risk. The present study validates the rat-tail, impact hammer vibration as a model for investigating irreversible nerve damage. Persistence of higher denervation difference after 5-week recovery suggests repeated vibration injury destroys the capability of lanceolate nerve endings to regenerate. 
Hand‐arm vibration syndrome (HAVS) is an irreversible neurodegenerative, vasospastic, and musculoskeletal occupational disease of workers who use powered hand tools. The etiology is poorly understood. Neurological symptoms include numbness, tingling, and pain. This study examines impact hammer vibration‐induced injury and recoverability of hair mechanosensory innervation. Rat tails were vibrated 12 min/d for 5 weeks followed by 5 week recovery with synchronous non‐vibrated controls. Nerve fibers were PGP9.5 immunostained. Lanceolate complex innervation was compared quantitatively in vibrated vs sham. Vibration peak acceleration magnitudes were characterized by frequency power spectral analysis. Average magnitude (2515 m/s2, root mean squared) in kHz frequencies was 109 times that (23 m/s2) in low Hz. Percentage of hairs innervated by lanceolate complexes was 69.1% in 5‐week sham and 53.4% in 5‐week vibration generating a denervation difference of 15.7% higher in vibration. Hair innervation was 76.9% in 5‐weeks recovery sham and 62.0% in 5‐week recovery vibration producing a denervation difference 14.9% higher in recovery vibration. Lanceolate number per complex (18.4 ± 0.2) after vibration remained near sham (19.3 ± 0.3), but 44.9% of lanceolate complexes were abnormal in 5 weeks vibrated compared to 18.8% in sham. The largest vibration energies are peak kHz accelerations (approximately 100 000 m/s2) from shock waves. The existing ISO 5349‐1 standard excludes kHz vibrations, seriously underestimating vibration injury risk. The present study validates the rat tail, impact hammer vibration as a model for investigating irreversible nerve damage. Persistence of higher denervation difference after 5‐week recovery suggests repeated vibration injury destroys the capability of lanceolate nerve endings to regenerate.
Hand‐arm vibration syndrome (HAVS) is an irreversible neurodegenerative, vasospastic, and musculoskeletal occupational disease of workers who use powered hand tools. The etiology is poorly understood. Neurological symptoms include numbness, tingling, and pain. This study examines impact hammer vibration‐induced injury and recoverability of hair mechanosensory innervation. Rat tails were vibrated 12 min/d for 5 weeks followed by 5 week recovery with synchronous non‐vibrated controls. Nerve fibers were PGP9.5 immunostained. Lanceolate complex innervation was compared quantitatively in vibrated vs sham. Vibration peak acceleration magnitudes were characterized by frequency power spectral analysis. Average magnitude (2515 m/s 2 , root mean squared) in kHz frequencies was 109 times that (23 m/s 2 ) in low Hz. Percentage of hairs innervated by lanceolate complexes was 69.1% in 5‐week sham and 53.4% in 5‐week vibration generating a denervation difference of 15.7% higher in vibration. Hair innervation was 76.9% in 5‐weeks recovery sham and 62.0% in 5‐week recovery vibration producing a denervation difference 14.9% higher in recovery vibration. Lanceolate number per complex (18.4 ± 0.2) after vibration remained near sham (19.3 ± 0.3), but 44.9% of lanceolate complexes were abnormal in 5 weeks vibrated compared to 18.8% in sham. The largest vibration energies are peak kHz accelerations (approximately 100 000 m/s 2 ) from shock waves. The existing ISO 5349‐1 standard excludes kHz vibrations, seriously underestimating vibration injury risk. The present study validates the rat tail, impact hammer vibration as a model for investigating irreversible nerve damage. Persistence of higher denervation difference after 5‐week recovery suggests repeated vibration injury destroys the capability of lanceolate nerve endings to regenerate.
Author Zimmerman, Jordan J.
Bain, James L. W.
Lindell, Hans
Wu, Chaowen
Grétarsson, Snævar L.
Riley, Danny A.
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  organization: Medical College of Wisconsin
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  surname: Wu
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  surname: Riley
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  email: darileyshuttle@gmail.com
  organization: Medical College of Wisconsin
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Keywords shock wave
neurodegeneration
denervation
PGP9.5
mechanosensory
vibration disease
Language English
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Notes Funding information
National Institute for Occupational Safety and Health, Grant/Award Number: R01OH003493; Sweden's Innovation Agency; Plastic Surgery Foundation; Wisconsin Space Grant Consortium Research Fellowship
Part of the research material was presented in abstract form at the 7th American Conference on Human Vibration, Seattle, WA on June 13, 2018.
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Snippet Hand‐arm vibration syndrome (HAVS) is an irreversible neurodegenerative, vasospastic, and musculoskeletal occupational disease of workers who use powered hand...
Hand-arm vibration syndrome (HAVS) is an irreversible neurodegenerative, vasospastic and musculoskeletal occupational disease of workers using powered hand...
Background and Aims Hand-arm vibration syndrome (HAVS) is an irreversible neurodegenerative, vasospastic and musculoskeletal occupational disease of workers...
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SubjectTerms Arm
Denervation
Etiology
Hair
Innervation
mechanosensory
Nerve endings
neurodegeneration
Occupational diseases
PGP9.5
shock wave
Vibration
vibration disease
Vibrations
Title Riveting hammer vibration damages mechanosensory nerve endings
URI https://onlinelibrary.wiley.com/doi/abs/10.1111%2Fjns.12393
https://www.ncbi.nlm.nih.gov/pubmed/32443170
https://www.proquest.com/docview/2439595599
https://search.proquest.com/docview/2406302675
https://urn.kb.se/resolve?urn=urn:nbn:se:ri:diva-45035
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