Lumbar back muscle activity of helicopter pilots and whole-body vibration
Lumbar back muscle activity of helicopter pilots and whole-body vibration
Several studies have attributed the prevalence of low back pain (LBP) in helicopter pilots mainly to poor posture in-flight and whole-body vibration, with the latter hypothesis particularly related to a cyclic response of the erector spine (ES) muscle to vibration. This work aims to determine if helicopter vibration and the pilot's normal posture during flight have significant effects on the electromyogram (EMG) of the ES muscle. The bilateral surface EMG of the ES muscle at the L3 level was collected in 10 young pilots before and during a short flight in UH-50 helicopters. The vibration was monitored by a triaxial accelerometer fixed to the pilots’ seat. Prior to the flight, the EMG was recorded for relaxed seated and standing postures with 0° (P0) and 35° (P35) of trunk flexion. The effect of the posture during the flight was tested by comparing left and right EMG (normalized with respect to P35). The in-flight muscle stress was evaluated by histograms of EMG activity, and compared to P0 values. Only one pilot in ten showed significant (p<0.05) correlation between the vibration and the EMG over cycles of vibration, and no consistent causal effect was found. The pilots’ posture did not show significant asymmetric muscular activity, and low EMG levels were observed during most of the duration of the flight. The results do not provide evidence that LBP in helicopter pilots is caused by ES muscle stress in the conditions studied.
electromyography, helicopter vibration, low-back pain, pilots, whole-body vibration
1309-1315
de Oliveira, Carlos Gomes
7985f89c-829d-4d30-a9d8-b82416e919c0
Simpson, David Martin
53674880-f381-4cc9-8505-6a97eeac3c2a
Nadal, Jurandir
c8c482d9-eb4c-4a42-8996-54d05b8d35dc
2001
de Oliveira, Carlos Gomes
7985f89c-829d-4d30-a9d8-b82416e919c0
Simpson, David Martin
53674880-f381-4cc9-8505-6a97eeac3c2a
Nadal, Jurandir
c8c482d9-eb4c-4a42-8996-54d05b8d35dc
de Oliveira, Carlos Gomes, Simpson, David Martin and Nadal, Jurandir
(2001)
Lumbar back muscle activity of helicopter pilots and whole-body vibration.
Journal of Biomechanics, 34 (10), .
(doi:10.1016/S0021-9290(01)00090-2).
Abstract
Several studies have attributed the prevalence of low back pain (LBP) in helicopter pilots mainly to poor posture in-flight and whole-body vibration, with the latter hypothesis particularly related to a cyclic response of the erector spine (ES) muscle to vibration. This work aims to determine if helicopter vibration and the pilot's normal posture during flight have significant effects on the electromyogram (EMG) of the ES muscle. The bilateral surface EMG of the ES muscle at the L3 level was collected in 10 young pilots before and during a short flight in UH-50 helicopters. The vibration was monitored by a triaxial accelerometer fixed to the pilots’ seat. Prior to the flight, the EMG was recorded for relaxed seated and standing postures with 0° (P0) and 35° (P35) of trunk flexion. The effect of the posture during the flight was tested by comparing left and right EMG (normalized with respect to P35). The in-flight muscle stress was evaluated by histograms of EMG activity, and compared to P0 values. Only one pilot in ten showed significant (p<0.05) correlation between the vibration and the EMG over cycles of vibration, and no consistent causal effect was found. The pilots’ posture did not show significant asymmetric muscular activity, and low EMG levels were observed during most of the duration of the flight. The results do not provide evidence that LBP in helicopter pilots is caused by ES muscle stress in the conditions studied.
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Published date: 2001
Keywords:
electromyography, helicopter vibration, low-back pain, pilots, whole-body vibration
Organisations:
Human Sciences Group
Identifiers
Local EPrints ID: 10580
URI: http://eprints.soton.ac.uk/id/eprint/10580
ISSN: 0021-9290
PURE UUID: 6e0a1275-4ab0-40d9-8940-9705de61ff6e
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Date deposited: 06 Feb 2006
Last modified: 16 Mar 2024 03:29
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Author:
Carlos Gomes de Oliveira
Author:
Jurandir Nadal
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