Correlation of the Cerebral Microvascular Blood Flow with Brain Temperature and Electro-Acupuncture Stimulation
Objective:To investigate the relationship between the temperature and the microvascular blood flow of the cerebral cortex, and the influence of electro-acupuncture (EA) on the cortical microcirculation. Methods: High temperature spots on the anterior ectosylvian and low temperature spots on the post...
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| Published in | Journal of traditional Chinese medicine Vol. 30; no. 4; pp. 243 - 248 |
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| Main Author | |
| Format | Journal Article |
| Language | English |
| Published |
China
01.12.2010
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| Subjects | |
| Online Access | Get full text |
| ISSN | 0255-2922 |
| DOI | 10.1016/S0254-6272(10)60050-7 |
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| Abstract | Objective:To investigate the relationship between the temperature and the microvascular blood flow of the cerebral cortex, and the influence of electro-acupuncture (EA) on the cortical microcirculation. Methods: High temperature spots on the anterior ectosylvian and low temperature spots on the posterior suprasylvian on the cortical surface of 20 cats were identified using cortical infrared thermography (CIT); the blood flow in the microcirculation on these spots was measured with laser-Doppler flowmetry. EA was given at Zusanli (ST 36) and changes in the blood flow in the cerebral cortex microcirculation were detected. Results: 1) The mean temperatures on the high (34.83±0.24°C) and low (32.28±0.27°C) temperature spots were significantly different (P〈0.001); this was indicative of a temperature difference on the cortical surface; 2) The average blood flow in the microcirculation of the high (266.8±19.2 PU) and low (140.8±9.9 PU) temperature spots was significantly different (P〈0.001). 3) On the cortical high temperature spots, the mean blood flow in the microcirculation significantly increased from 266.8±86.8 PU before EA, to 422.5±47.4 PU following 5 minutes of EA (58.35%; P〈0.01), and 431.8±52.8 PU 5 minutes after ceasing EA (61.84%; P〈0.01). 4) On the low temperature spots, there were no significant differences in blood flow following 5 minutes of EA (146.3±11.5 PU), and 5 minutes after ceasing EA (140.5±11.6 PU), when compared with that before acupuncture (140.8±9.9 PU; P〉0.9). Conclusion: The high temperature spots of the cortex are active functional regions of neurons with higher blood flow and a stronger response to EA. EA induces a significant increase in blood flow in the high temperature spots of the cortex. |
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| AbstractList | To investigate the relationship between the temperature and the microvascular blood flow of the cerebral cortex, and the influence of electro-acupuncture (EA) on the cortical microcirculation.OBJECTIVETo investigate the relationship between the temperature and the microvascular blood flow of the cerebral cortex, and the influence of electro-acupuncture (EA) on the cortical microcirculation.High temperature spots on the anterior ectosylvian and low temperature spots on the posterior suprasylvian on the cortical surface of 20 cats were identified using cortical infrared thermography (CIT); the blood flow in the microcirculation on these spots was measured with laser-Doppler flowmetry. EA was given at Zusanli (ST 36) and changes in the blood flow in the cerebral cortex microcirculation were detected.METHODSHigh temperature spots on the anterior ectosylvian and low temperature spots on the posterior suprasylvian on the cortical surface of 20 cats were identified using cortical infrared thermography (CIT); the blood flow in the microcirculation on these spots was measured with laser-Doppler flowmetry. EA was given at Zusanli (ST 36) and changes in the blood flow in the cerebral cortex microcirculation were detected.1) The mean temperatures on the high (34.83 +/- 0.24 degrees C) and low (32.28 +/- 0.27 degrees C) temperature spots were significantly different (P < 0.001); this was indicative of a temperature difference on the cortical surface; 2) The average blood flow in the microcirculation of the high (266.8 +/-19.2 PU) and low (140.8 +/- 9.9 PU) temperature spots was significantly different (P < 0.001). 3) On the cortical high temperature spots, the mean blood flow in the microcirculation significantly increased from 266.8 +/- 86.8 PU before EA, to 422.5 +/- 47.4 PU following 5 minutes of EA (58.35%; P < 0.01), and 431.8 +/- 52.8 PU 5 minutes after ceasing EA (61.84%; P < 0.01). 4) On the low temperature spots, there were no significant differences in blood flow following 5 minutes of EA (146.3 +/- 11.5 PU), and 5 minutes after ceasing EA (140.5 +/- 11.6 PU), when compared with that before acupuncture (140.8 +/- 9.9 PU; P > 0.9).RESULTS1) The mean temperatures on the high (34.83 +/- 0.24 degrees C) and low (32.28 +/- 0.27 degrees C) temperature spots were significantly different (P < 0.001); this was indicative of a temperature difference on the cortical surface; 2) The average blood flow in the microcirculation of the high (266.8 +/-19.2 PU) and low (140.8 +/- 9.9 PU) temperature spots was significantly different (P < 0.001). 3) On the cortical high temperature spots, the mean blood flow in the microcirculation significantly increased from 266.8 +/- 86.8 PU before EA, to 422.5 +/- 47.4 PU following 5 minutes of EA (58.35%; P < 0.01), and 431.8 +/- 52.8 PU 5 minutes after ceasing EA (61.84%; P < 0.01). 4) On the low temperature spots, there were no significant differences in blood flow following 5 minutes of EA (146.3 +/- 11.5 PU), and 5 minutes after ceasing EA (140.5 +/- 11.6 PU), when compared with that before acupuncture (140.8 +/- 9.9 PU; P > 0.9).The high temperature spots of the cortex are active functional regions of neurons with higher blood flow and a stronger response to EA. EA induces a significant increase in blood flow in the high temperature spots of the cortex.CONCLUSIONThe high temperature spots of the cortex are active functional regions of neurons with higher blood flow and a stronger response to EA. EA induces a significant increase in blood flow in the high temperature spots of the cortex. Objective:To investigate the relationship between the temperature and the microvascular blood flow of the cerebral cortex, and the influence of electro-acupuncture (EA) on the cortical microcirculation. Methods: High temperature spots on the anterior ectosylvian and low temperature spots on the posterior suprasylvian on the cortical surface of 20 cats were identified using cortical infrared thermography (CIT); the blood flow in the microcirculation on these spots was measured with laser-Doppler flowmetry. EA was given at Zusanli (ST 36) and changes in the blood flow in the cerebral cortex microcirculation were detected. Results: 1) The mean temperatures on the high (34.83±0.24°C) and low (32.28±0.27°C) temperature spots were significantly different (P〈0.001); this was indicative of a temperature difference on the cortical surface; 2) The average blood flow in the microcirculation of the high (266.8±19.2 PU) and low (140.8±9.9 PU) temperature spots was significantly different (P〈0.001). 3) On the cortical high temperature spots, the mean blood flow in the microcirculation significantly increased from 266.8±86.8 PU before EA, to 422.5±47.4 PU following 5 minutes of EA (58.35%; P〈0.01), and 431.8±52.8 PU 5 minutes after ceasing EA (61.84%; P〈0.01). 4) On the low temperature spots, there were no significant differences in blood flow following 5 minutes of EA (146.3±11.5 PU), and 5 minutes after ceasing EA (140.5±11.6 PU), when compared with that before acupuncture (140.8±9.9 PU; P〉0.9). Conclusion: The high temperature spots of the cortex are active functional regions of neurons with higher blood flow and a stronger response to EA. EA induces a significant increase in blood flow in the high temperature spots of the cortex. To investigate the relationship between the temperature and the microvascular blood flow of the cerebral cortex, and the influence of electro-acupuncture (EA) on the cortical microcirculation. High temperature spots on the anterior ectosylvian and low temperature spots on the posterior suprasylvian on the cortical surface of 20 cats were identified using cortical infrared thermography (CIT); the blood flow in the microcirculation on these spots was measured with laser-Doppler flowmetry. EA was given at Zusanli (ST 36) and changes in the blood flow in the cerebral cortex microcirculation were detected. 1) The mean temperatures on the high (34.83 +/- 0.24 degrees C) and low (32.28 +/- 0.27 degrees C) temperature spots were significantly different (P < 0.001); this was indicative of a temperature difference on the cortical surface; 2) The average blood flow in the microcirculation of the high (266.8 +/-19.2 PU) and low (140.8 +/- 9.9 PU) temperature spots was significantly different (P < 0.001). 3) On the cortical high temperature spots, the mean blood flow in the microcirculation significantly increased from 266.8 +/- 86.8 PU before EA, to 422.5 +/- 47.4 PU following 5 minutes of EA (58.35%; P < 0.01), and 431.8 +/- 52.8 PU 5 minutes after ceasing EA (61.84%; P < 0.01). 4) On the low temperature spots, there were no significant differences in blood flow following 5 minutes of EA (146.3 +/- 11.5 PU), and 5 minutes after ceasing EA (140.5 +/- 11.6 PU), when compared with that before acupuncture (140.8 +/- 9.9 PU; P > 0.9). The high temperature spots of the cortex are active functional regions of neurons with higher blood flow and a stronger response to EA. EA induces a significant increase in blood flow in the high temperature spots of the cortex. |
| Author | 张栋 李林 马慧敏 叶翠飞 王淑友 陈丁生 |
| AuthorAffiliation | Institute of Acupuncture and Moxibustion, China Academy of Chinese Medical Sciences, Beijing 100700, China Beijing Key Laboratory of Brain Aging, Xuanwu Hospital of Capital Medical University, Beijing 100053, China |
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| Notes | cerebral cortex Q426 TQ051.1 11-2167/R brain temperature, micro-circulation perfusion, electro-acupuncture infrared thermography, laser-Doppler technique cerebral cortex; brain temperature, micro-circulation perfusion, electro-acupuncture; infrared thermography, laser-Doppler technique ObjectType-Article-1 SourceType-Scholarly Journals-1 ObjectType-Feature-2 content type line 23 |
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| SubjectTerms | Animals Blood Circulation Time Brain - blood supply Brain - physiology Cats Cerebrovascular Circulation Electroacupuncture Female Laser-Doppler Flowmetry Male Microcirculation Regional Blood Flow Temperature 大脑皮质 平均气温 微血管 液流量 电针刺激 聚氨酯 血流量 表面温度 |
| Title | Correlation of the Cerebral Microvascular Blood Flow with Brain Temperature and Electro-Acupuncture Stimulation |
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