BACKGROUND:Three-dimensional(3D)Motion Capture Technology can build accurate,objective,and quantized medical virtual simulation model,which is conducive to clinical learners'precise and in-depth understanding and mastery of various traditional therapies.The virtual simulation model of traditional Chinese medicine based on the 3D Motion Capture Technology has been reported,but such a system of traditional Mongolian medicine therapy has not been reported.OBJECTIVE:To construct an interactive 3D visualization virtual simulation model based on the 3D Motion Capture Technology.METHODS:Motion capture data of the professor of Mongolian Medicine Department were collected using the 3D optical motion capture system(Motion Analysis)and Plantar Force Platform.The 3D motion model of brain vibration therapy was constructed using Motion Builder software,and the role model was constructed using Maya software matched with the action model.Unity3D software was used to build a virtual simulation system of Mongolian medical brain vibration therapy.The system integrated information on 3D animation,kinematic and dynamic parameters of Mongolian medical brain vibration therapy.RESULTS AND CONCLUSION:By using 3D Motion Capture Technology and Computer Simulation Technology to reconstruct the operation of Mongolian medical brain vibration therapy,it can display the posture of the operator and subject and record the key parameters of spatial position and changes of joint motion to obtain kinematic and dynamic parameters.The interactive 3D virtual simulation technology is used to realize the visual presentation of 3D virtual simulation of Mongolian medical brain vibration therapy.It lays a foundation for the standardization,digitization and visualization of Mongolian medical brain vibration therapy.

BACKGROUND:Three-dimensional(3D)Motion Capture Technology can build accurate,objective,and quantized medical virtual simulation model,which is conducive to clinical learners'precise and in-depth understanding and mastery of various traditional therapies.The virtual simulation model of traditional Chinese medicine based on the 3D Motion Capture Technology has been reported,but such a system of traditional Mongolian medicine therapy has not been reported.OBJECTIVE:To construct an interactive 3D visualization virtual simulation model based on the 3D Motion Capture Technology.METHODS:Motion capture data of the professor of Mongolian Medicine Department were collected using the 3D optical motion capture system(Motion Analysis)and Plantar Force Platform.The 3D motion model of brain vibration therapy was constructed using Motion Builder software,and the role model was constructed using Maya software matched with the action model.Unity3D software was used to build a virtual simulation system of Mongolian medical brain vibration therapy.The system integrated information on 3D animation,kinematic and dynamic parameters of Mongolian medical brain vibration therapy.RESULTS AND CONCLUSION:By using 3D Motion Capture Technology and Computer Simulation Technology to reconstruct the operation of Mongolian medical brain vibration therapy,it can display the posture of the operator and subject and record the key parameters of spatial position and changes of joint motion to obtain kinematic and dynamic parameters.The interactive 3D virtual simulation technology is used to realize the visual presentation of 3D virtual simulation of Mongolian medical brain vibration therapy.It lays a foundation for the standardization,digitization and visualization of Mongolian medical brain vibration therapy.

Objective To observe the effect of vibration therapy of Mongolian medicine on headache and vertigo in concussion patients.Method A hundred eligible subjects with concussion were randomized into a treatment group of 50 cases and a control group of 50 cases. The treatment group was intervened by brain vibration therapy of Mongolian medicine, while the control group was treated with Piracetam tablets. The scores of headache and vertigo in the two groups were observed before the treatment and respectively after 3-day, 6-day, and 9-day treatment. Result After 3-day, 6-day, and 9-day treatment, respectively, the scores of headache and vertigo were significantly different from those before the treatment in both groups (P<0.05). The scores of headache and vertigo respectively after 3-day, 6-day and 9-day treatment in the treatment group were significantly different from those in the control group (P<0.05). Conclusion The brain vibration therapy of Mongolian medicine is effective in treating headache and vertigo in concussion.

Adhesion molecules (AM) are a class of molecules that can mediate cell-to-cell and cell-to-matrix interaction. They participate in the cellular recognition, signal transduction, cell proliferation and differentiation, cell stretching and movement through ligand-to-receptor interaction. AM are the molecular basis of immune response, inflammation, blood coagulation, tumor metastasis, wound healing and a series of physiological and pathological processes. Kawasaki disease (KD) is an acute systemic small vasculitis syndrome, mainly affecting coronary artery. KD is the main cause for acquired heart disease in children. To study the relationship between AM and pathogenesis of KD is important in the understanding of KD pathogenesis, prevention and treatment of coronary artery lesions complicated with KD. This review focused on the relationship between AM and pathogenesis of KD.