Effects of Transcutaneous Xenon Light Irradiation around the Stellate Ganglion on Autonomic Functions
[Purpose] The purpose of the present study was to investigate the effects of transcutaneous xenon light irradiation around the stellate ganglion on autonomic functions. [Subjects] Thirty healthy volunteers were the subjects. [Methods] The subjects underwent two experimental sessions: 1) 10-minute xe...
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| Published in | Journal of Physical Therapy Science Vol. 21; no. 1; pp. 1 - 6 |
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| Main Authors | , , |
| Format | Journal Article |
| Language | English |
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The Society of Physical Therapy Science
2009
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| Online Access | Get full text |
| ISSN | 0915-5287 2187-5626 |
| DOI | 10.1589/jpts.21.1 |
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| Abstract | [Purpose] The purpose of the present study was to investigate the effects of transcutaneous xenon light irradiation around the stellate ganglion on autonomic functions. [Subjects] Thirty healthy volunteers were the subjects. [Methods] The subjects underwent two experimental sessions: 1) 10-minute xenon light irradiation to the bilateral stellate ganglions in a comfortable supine position (Xe-LISG); and 2) 10-minute rest in the same position as Xe-LISG (control). The low frequency (0.04-0.15 Hz) power (LF) and ratio of LF to the high frequency (0.15-0.40 Hz) power (LF/HF) obtained from power spectral analysis of R-R intervals and skin temperatures of the upper and lower extremities (UE and LE) were examined. [Results] Although no significant changes of HF and LF/HF were observed before and after the control, HF after Xe-LISG was significantly increased compared with that before Xe-LISG, and LF/HF after Xe-LISG was significantly decreased compared with that before Xe-LISG. Additionally, although the UE skin temperature during Xe-LISG tended to be higher than that during the control, the LE skin temperature during Xe-LISG tended to be lower than that during the control. [Conclusion] These results suggest that Xe-LISG inhibits sympathetic activity and induces not only an increase in the UE skin blood flow, but also a decrease in the LE skin blood flow. |
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| AbstractList | [Abstract.] [Purpose] The purpose of the present study was to investigate the effects of transcutaneous xenon light irradiation around the stellate ganglion on autonomic functions. [Subjects] Thirty healthy volunteers were the subjects. [Methods] The subjects underwent two experimental sessions: 1) 10-minute xenon light irradiation to the bilateral stellate ganglions in a comfortable supine position (Xe-LISG); and 2) 10-minute rest in the same position as Xe-LISG (control). The low frequency (0.04-0.15 Hz) power (LF) and ratio of LF to the high frequency (0.15-0.40 Hz) power (LF/HF) obtained from power spectral analysis of R-R intervals and skin temperatures of the upper and lower extremities (UE and LE) were examined. [Results] Although no significant changes of HF and LF/HF were observed before and after the control, HF after Xe-LISG was significantly increased compared with that before Xe-LISG, and LF/HF after Xe-LISG was significantly decreased compared with that before Xe-LISG. Additionally, although the UE skin temperature during Xe-LISG tended to be higher than that during the control, the LE skin temperature during Xe-LISG tended to be lower than that during the control. [Conclusion] These results suggest that Xe-LISG inhibits sympathetic activity and induces not only an increase in the UE skin blood flow, but also a decrease in the LE skin blood flow. [Purpose] The purpose of the present study was to investigate the effects of transcutaneous xenon light irradiation around the stellate ganglion on autonomic functions. [Subjects] Thirty healthy volunteers were the subjects. [Methods] The subjects underwent two experimental sessions: 1) 10-minute xenon light irradiation to the bilateral stellate ganglions in a comfortable supine position (Xe-LISG); and 2) 10-minute rest in the same position as Xe-LISG (control). The low frequency (0.04-0.15 Hz) power (LF) and ratio of LF to the high frequency (0.15-0.40 Hz) power (LF/HF) obtained from power spectral analysis of R-R intervals and skin temperatures of the upper and lower extremities (UE and LE) were examined. [Results] Although no significant changes of HF and LF/HF were observed before and after the control, HF after Xe-LISG was significantly increased compared with that before Xe-LISG, and LF/HF after Xe-LISG was significantly decreased compared with that before Xe-LISG. Additionally, although the UE skin temperature during Xe-LISG tended to be higher than that during the control, the LE skin temperature during Xe-LISG tended to be lower than that during the control. [Conclusion] These results suggest that Xe-LISG inhibits sympathetic activity and induces not only an increase in the UE skin blood flow, but also a decrease in the LE skin blood flow. |
| Author | Yoshida, Hideki Denpouya, Toshimitsu Nagata, Naoya |
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| Cites_doi | 10.1093/ptj/68.2.223 10.1111/j.1601-0825.2004.01001.x 10.1272/jnms.74.23 10.1126/science.6166045 10.1213/00000539-197509000-00002 10.1016/j.clineuro.2008.04.004 10.1089/pho.2006.24.17 10.1148/radiology.188.3.8351337 10.1002/1096-9101(2000)26:5<485::AID-LSM8>3.0.CO;2-6 10.1161/01.RES.59.2.178 10.1007/BF02032427 10.1016/S1344-6223(99)80048-0 |
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| References | 18) Kuwabara S, Tamura N, Yamanaka Y, et al.: Sympathetic sweat responses and skin vasomotor reflexes in carpal tunnel syndrome. Clin Neurol Neurosurg, 2008, 110: 691-695. 11) Akselrod S, Gordon D, Ubel FA, et al.: Power spectrum analysis of heart rate fluctuation: a quantitative probe of beat-to-beat cardiovascular control. Science, 1981, 10: 220-222. 10) Guyton AC: Muscle blood flow during exercise; cerebral, splanchnic, and skin blood flows. In: Textbook of medical physiology (5th ed). Philadelphia: W.B. Saunders Company, 1976, pp370-383. 17) Sun L, Watanabe I, Mano Y: Immunological and physiological effect by polarized infrared light irradiation near the stellate ganglion. J Jpn Assoc Phys Med Balnel Climatol, 2003, 66: 185-193 (in Japanese). 8) Lee CH, Chen GS, Yu HS: Effect of linear polarized light irradiation near the stellate ganglion in skin blood flow of fingers in patients with progressive systemic sclerosis. Photomed Laser Surg, 2006, 24: 17-21. 14) Safavi-Farokhi Z, Bakhtiary AH: The effect of infrared laser on sensory radial nerve electrophysiological parameters. Electromyogr Clin Neurophysiol, 2005, 45: 353-356. 15) Guyton AC: The autonomic nervous system; the adrenal medulla. In: Textbook of medical physiology (5th ed). Philadelphia: W.B. Saunders Company, 1976, pp768-781. 1) Carron H, Litwiller R: Stellate ganglion block. Anesth Analg, 1975, 54: 567-570. 5) Mii S, Kim C, Matsui H, et al.: Increases in central retinal artery blood flow in humans following carotid artery and stellate ganglion irradiation with 0.6 to 1.6 microm irradiation. J Nippon Med Sch, 2007, 74: 23-29. 7) Walsh DM, Baxter GD, Allen JM: Lack of effect of pulsed low-intensity infrared (820 nm) laser irradiation on nerve conduction in the human superficial radial nerve. Lasers Surg Med, 2000, 26: 485-490. 3) Kashiwagi M, Ikeda N, Tsuji A, et al.: Sudden unexpected death following stellate ganglion block. Leg Med (Tokyo), 1999, 1: 262-265. 9) Hori K, Watanabe I, Mano Y: The changes of peripheral temperature by the ray irradiation for the neck ganglion. Biomedical Thermology, 2001, 21: 119-121 (in Japanese). 13) Snyder-Mackler L, Bork CE: Effect of helium-neon laser irradiation on peripheral sensory nerve latency. Phys Ther, 1988, 68: 223-225. 6) Nakase M, Okumura K, Tamura T, et al.: Effects of near-infrared irradiation to stellate ganglion in glossodynia. Oral Dis, 2004, 10: 217-220. 2) Erickson SJ, Hogan QH: CT-guided injection of the stellate ganglion: description of technique and efficacy of sympathetic blockade. Radiology, 1993, 188: 707-709. 4) King PR: Low level laser therapy-a review. Lasers Med Sci, 1989, 4: 141-150. 12) Pagani M, Lombardi F, Guzzetti S: Power spectral analysis of heart rate and arterial pressure variabilities as a marker of sympatho-vagal interaction in man and conscious dog. Circ Res, 1986, 59: 178-193. 16) Guyton AC: Body temperature, temperature regulation, and fever. In: Textbook of medical physiology (5th ed). Philadelphia: W.B. Saunders Company, 1976, pp955-969. 11 12 13 14 15 16 17 18 1 2 3 4 5 6 7 8 9 10 |
| References_xml | – reference: 2) Erickson SJ, Hogan QH: CT-guided injection of the stellate ganglion: description of technique and efficacy of sympathetic blockade. Radiology, 1993, 188: 707-709. – reference: 9) Hori K, Watanabe I, Mano Y: The changes of peripheral temperature by the ray irradiation for the neck ganglion. Biomedical Thermology, 2001, 21: 119-121 (in Japanese). – reference: 11) Akselrod S, Gordon D, Ubel FA, et al.: Power spectrum analysis of heart rate fluctuation: a quantitative probe of beat-to-beat cardiovascular control. Science, 1981, 10: 220-222. – reference: 18) Kuwabara S, Tamura N, Yamanaka Y, et al.: Sympathetic sweat responses and skin vasomotor reflexes in carpal tunnel syndrome. Clin Neurol Neurosurg, 2008, 110: 691-695. – reference: 8) Lee CH, Chen GS, Yu HS: Effect of linear polarized light irradiation near the stellate ganglion in skin blood flow of fingers in patients with progressive systemic sclerosis. Photomed Laser Surg, 2006, 24: 17-21. – reference: 14) Safavi-Farokhi Z, Bakhtiary AH: The effect of infrared laser on sensory radial nerve electrophysiological parameters. Electromyogr Clin Neurophysiol, 2005, 45: 353-356. – reference: 13) Snyder-Mackler L, Bork CE: Effect of helium-neon laser irradiation on peripheral sensory nerve latency. Phys Ther, 1988, 68: 223-225. – reference: 15) Guyton AC: The autonomic nervous system; the adrenal medulla. In: Textbook of medical physiology (5th ed). Philadelphia: W.B. Saunders Company, 1976, pp768-781. – reference: 5) Mii S, Kim C, Matsui H, et al.: Increases in central retinal artery blood flow in humans following carotid artery and stellate ganglion irradiation with 0.6 to 1.6 microm irradiation. J Nippon Med Sch, 2007, 74: 23-29. – reference: 4) King PR: Low level laser therapy-a review. Lasers Med Sci, 1989, 4: 141-150. – reference: 10) Guyton AC: Muscle blood flow during exercise; cerebral, splanchnic, and skin blood flows. In: Textbook of medical physiology (5th ed). Philadelphia: W.B. Saunders Company, 1976, pp370-383. – reference: 12) Pagani M, Lombardi F, Guzzetti S: Power spectral analysis of heart rate and arterial pressure variabilities as a marker of sympatho-vagal interaction in man and conscious dog. Circ Res, 1986, 59: 178-193. – reference: 16) Guyton AC: Body temperature, temperature regulation, and fever. In: Textbook of medical physiology (5th ed). Philadelphia: W.B. Saunders Company, 1976, pp955-969. – reference: 3) Kashiwagi M, Ikeda N, Tsuji A, et al.: Sudden unexpected death following stellate ganglion block. Leg Med (Tokyo), 1999, 1: 262-265. – reference: 6) Nakase M, Okumura K, Tamura T, et al.: Effects of near-infrared irradiation to stellate ganglion in glossodynia. Oral Dis, 2004, 10: 217-220. – reference: 17) Sun L, Watanabe I, Mano Y: Immunological and physiological effect by polarized infrared light irradiation near the stellate ganglion. J Jpn Assoc Phys Med Balnel Climatol, 2003, 66: 185-193 (in Japanese). – reference: 7) Walsh DM, Baxter GD, Allen JM: Lack of effect of pulsed low-intensity infrared (820 nm) laser irradiation on nerve conduction in the human superficial radial nerve. Lasers Surg Med, 2000, 26: 485-490. – reference: 1) Carron H, Litwiller R: Stellate ganglion block. Anesth Analg, 1975, 54: 567-570. – ident: 17 – ident: 13 doi: 10.1093/ptj/68.2.223 – ident: 6 doi: 10.1111/j.1601-0825.2004.01001.x – ident: 5 doi: 10.1272/jnms.74.23 – ident: 11 doi: 10.1126/science.6166045 – ident: 10 – ident: 16 – ident: 1 doi: 10.1213/00000539-197509000-00002 – ident: 14 – ident: 15 – ident: 18 doi: 10.1016/j.clineuro.2008.04.004 – ident: 8 doi: 10.1089/pho.2006.24.17 – ident: 2 doi: 10.1148/radiology.188.3.8351337 – ident: 7 doi: 10.1002/1096-9101(2000)26:5<485::AID-LSM8>3.0.CO;2-6 – ident: 12 doi: 10.1161/01.RES.59.2.178 – ident: 9 – ident: 4 doi: 10.1007/BF02032427 – ident: 3 doi: 10.1016/S1344-6223(99)80048-0 |
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| Title | Effects of Transcutaneous Xenon Light Irradiation around the Stellate Ganglion on Autonomic Functions |
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