Literatures on acupuncture analgesia of the recent 30 years are analyzed through the target pain syndromes, points and tools selected for needling as well as the chosen direction, angle and depth of insertion. The rel...Literatures on acupuncture analgesia of the recent 30 years are analyzed through the target pain syndromes, points and tools selected for needling as well as the chosen direction, angle and depth of insertion. The relationship between effect of acupuncture analgesia and needling direction, angle as well as depth is initially optimized to enhance the analgesic effect. The result shows that the 3 factors are the key influences. However, studies on the above mentioned relation are still far from enough. Aiming at enhancing the effect of acupuncture analgesia and exploring the relative mechanism, it is held that multivariate analysis should be adopted to do systematic analysis on relationship between effect and mechanism of acupuncture analgesia and direction, angle and depth of the needle insertion.展开更多
Objective: To compare the risk angle and safety angle of n eedli ng Ya me n (GV 15) betwee n the atla nto-axial dislocati on (AAD) patients and healthy subjects. Methods: A total of 177 AAD patients diagnosed and trea...Objective: To compare the risk angle and safety angle of n eedli ng Ya me n (GV 15) betwee n the atla nto-axial dislocati on (AAD) patients and healthy subjects. Methods: A total of 177 AAD patients diagnosed and treated at the Center of Upper Cervical Vertebra of Beijing Chin a-Japa n Frie ndship Hospital betwee n January 2010 and January 2018 were in eluded in the AAD group. Ano ther 207 healthy subjects were included in the normal group. There were totally 191 males and 193 females. The MRI sean was performed for the cervical vertebrae to measure the risk angle and safety angle of acup un cture at Ya me n (GV 15) on the sagittal image. Results: In the AAD group, the risk angle was (13.14±3.99)° and the relative safety angle was (10.31±3.23)° for the perpendicular needling, while the oblique needling risk angle was (9.09±3.09)° for the male;the risk angle was (12.12±2.74)° and the relative safety angle was (10.56±2.09)° for the perpendicular needling, while the oblique needling risk angle was (9.70±2.95)° for the female. In the normal group, the risk angle was (7.89±1.59)° and the relative safety angle was (10.21±3.55)° for the perpendicular needling, while the oblique needling risk angle was (16.07±1.77)° for the male;the risk angle was (6.93±1.45)° and the relative safety angle was (10.70±2.94)° for the perpendicular needling, while the oblique needling risk angle was (14.89±2.18)° for the female. The perpendicular needling risk angles for the males and females in the AAD group were larger than those in the normal group, and the differences were statistically significant (both P<0.01);for the inner-group comparison, there was no sigrHficant difference in the perpendicular needling risk angle between the male and the female in the AAD group (P>0.05);however, the perpendicular needling risk angle for the male was larger than the female, and the differenee was statistically significant in the normal group (P<0.01). There were no sign讦icant differences in the relative safety angle for both the male and the female between the AAD group and the normal group (both P>0.05). For the inner-group comparison, there was no sign讦icant differenee in the relative safety angle between the male and the female (P>0.05). The oblique needling risk angles for both the males and females were smaller in the AAD group than those in the normal group, and the differences were statistically sign讦icant (both P<0.01);the oblique needling risk angle for the male was not significantly different from that for the female in the AAD group (P>0.05);in the normal group, the oblique needling risk angle for the male was larger than that for the female, and the differenee was statistically significant (P<0.01). Conclusion: Un der the AAD condition, the risk angle and safety angle of acup un cture at Ya me n (GV 15) cha nge significantly, perpe ndicular n eedli ng should be better if performed slightly lower tha n the horiz on tai di recti on, and the oblique needling should be safer across the occipital foramen toward the occipital bone.展开更多
文摘Literatures on acupuncture analgesia of the recent 30 years are analyzed through the target pain syndromes, points and tools selected for needling as well as the chosen direction, angle and depth of insertion. The relationship between effect of acupuncture analgesia and needling direction, angle as well as depth is initially optimized to enhance the analgesic effect. The result shows that the 3 factors are the key influences. However, studies on the above mentioned relation are still far from enough. Aiming at enhancing the effect of acupuncture analgesia and exploring the relative mechanism, it is held that multivariate analysis should be adopted to do systematic analysis on relationship between effect and mechanism of acupuncture analgesia and direction, angle and depth of the needle insertion.
文摘Objective: To compare the risk angle and safety angle of n eedli ng Ya me n (GV 15) betwee n the atla nto-axial dislocati on (AAD) patients and healthy subjects. Methods: A total of 177 AAD patients diagnosed and treated at the Center of Upper Cervical Vertebra of Beijing Chin a-Japa n Frie ndship Hospital betwee n January 2010 and January 2018 were in eluded in the AAD group. Ano ther 207 healthy subjects were included in the normal group. There were totally 191 males and 193 females. The MRI sean was performed for the cervical vertebrae to measure the risk angle and safety angle of acup un cture at Ya me n (GV 15) on the sagittal image. Results: In the AAD group, the risk angle was (13.14±3.99)° and the relative safety angle was (10.31±3.23)° for the perpendicular needling, while the oblique needling risk angle was (9.09±3.09)° for the male;the risk angle was (12.12±2.74)° and the relative safety angle was (10.56±2.09)° for the perpendicular needling, while the oblique needling risk angle was (9.70±2.95)° for the female. In the normal group, the risk angle was (7.89±1.59)° and the relative safety angle was (10.21±3.55)° for the perpendicular needling, while the oblique needling risk angle was (16.07±1.77)° for the male;the risk angle was (6.93±1.45)° and the relative safety angle was (10.70±2.94)° for the perpendicular needling, while the oblique needling risk angle was (14.89±2.18)° for the female. The perpendicular needling risk angles for the males and females in the AAD group were larger than those in the normal group, and the differences were statistically significant (both P<0.01);for the inner-group comparison, there was no sigrHficant difference in the perpendicular needling risk angle between the male and the female in the AAD group (P>0.05);however, the perpendicular needling risk angle for the male was larger than the female, and the differenee was statistically significant in the normal group (P<0.01). There were no sign讦icant differences in the relative safety angle for both the male and the female between the AAD group and the normal group (both P>0.05). For the inner-group comparison, there was no sign讦icant differenee in the relative safety angle between the male and the female (P>0.05). The oblique needling risk angles for both the males and females were smaller in the AAD group than those in the normal group, and the differences were statistically sign讦icant (both P<0.01);the oblique needling risk angle for the male was not significantly different from that for the female in the AAD group (P>0.05);in the normal group, the oblique needling risk angle for the male was larger than that for the female, and the differenee was statistically significant (P<0.01). Conclusion: Un der the AAD condition, the risk angle and safety angle of acup un cture at Ya me n (GV 15) cha nge significantly, perpe ndicular n eedli ng should be better if performed slightly lower tha n the horiz on tai di recti on, and the oblique needling should be safer across the occipital foramen toward the occipital bone.
