Hideo Ando1, Ryo Noguchi, Tatsuya Ishitake. 1. Department of Environmental Medicine, Kurume University School of Medicine, Japan. hando@med.kurume-u.ac.jp
Abstract
OBJECTIVES: This study attempted to elucidate the effects of hand-arm vibration frequency on palmar sweating response. METHODS: Palmar sweating was measured before and during vibration exposure on the right palm of six healthy men. The left hand was exposed for 3 minutes to the following root mean square (rms) acceleration magnitudes and frequencies of vibration: 5 m/s2 at 31.5 Hz, 10 m/s2 at 63 Hz, 20 m/s2 at 125 Hz, 40 m/s2 at 250 Hz, and 50 m/s2 at 315 Hz. According to international standard ISO 5349, these vibration levels generate the same frequency-weighted acceleration magnitude of 2.5 m/s2 rms. A control condition consisted of grasping a handle without vibration. As the index of the activated central nervous system, plasma 3-methoxy-4-hydroxyphenylglycol (MHPG) was measured before and immediately after each vibration exposure. RESULTS: Each condition of vibration induced a palmar sweating response. Among the six vibration conditions, vibration of 125 Hz and 63 Hz caused large palmar sweating responses compared with those of 315 Hz andthe control condition. Plasma MHPG did not increase significantly after either vibrationexposure. CONCLUSIONS: The palmar sweating response to vibration with the same frequency-weightedacceleration magnitude suggested dependency on frequency. The study suggests that the somatosympathetic reflex is associated with different palmar sweating responses.
OBJECTIVES: This study attempted to elucidate the effects of hand-arm vibration frequency on palmar sweating response. METHODS: Palmar sweating was measured before and during vibration exposure on the right palm of six healthy men. The left hand was exposed for 3 minutes to the following root mean square (rms) acceleration magnitudes and frequencies of vibration: 5 m/s2 at 31.5 Hz, 10 m/s2 at 63 Hz, 20 m/s2 at 125 Hz, 40 m/s2 at 250 Hz, and 50 m/s2 at 315 Hz. According to international standard ISO 5349, these vibration levels generate the same frequency-weighted acceleration magnitude of 2.5 m/s2 rms. A control condition consisted of grasping a handle without vibration. As the index of the activated central nervous system, plasma 3-methoxy-4-hydroxyphenylglycol (MHPG) was measured before and immediately after each vibration exposure. RESULTS: Each condition of vibration induced a palmar sweating response. Among the six vibration conditions, vibration of 125 Hz and 63 Hz caused large palmar sweating responses compared with those of 315 Hz andthe control condition. Plasma MHPG did not increase significantly after either vibrationexposure. CONCLUSIONS: The palmar sweating response to vibration with the same frequency-weightedacceleration magnitude suggested dependency on frequency. The study suggests that the somatosympathetic reflex is associated with different palmar sweating responses.
Authors: Eva Tekavec; Lotta Löfqvist; Anna Larsson; Karin Fisk; Jakob Riddar; Tohr Nilsson; Catarina Nordander Journal: J Occup Med Toxicol Date: 2021-04-29 Impact factor: 2.646