TCM service trades grew rapidly and enjoyed optimistic future during the 12th five-year period, which was in good development trend. However, it is still in its primary stage of development and facing various challenges. This article argued that the development of TCM service trades will meet great opportunities, such as governmental policy encouragement, cooperation with other industries, the increasing acceptance of international market and the acceleration of internationalization of TCM. Meanwhile, there are also some difficulties - small industry scale and weak brand management, absence of legislation, lack of qualified professionals and various service trade barriers.

Objective: To explore the role of a customized 3D printing guide in total hip arthroplasty (THA). Methods: A retrospective analysis was performed of the 60 patients who had been treated by THA for avascular necrosis of the femoral head at Department of Orthopaedics and Traumatology, Foshan Hospital of Traditional Chinese Medicine from January 2018 to May 2019. Half of them used the personalized 3D printing guide in THA and half did not. In the guide group there were 17 men and 13 women with an age of 53.4±8.9 years while in the conventional group 19 men and 11 women with an age of 54.7±9.4 years. The acetabular cups were orientated at an abduction angle of 40° and an anteversion angle of 15°. The intraoperative blood loss, operation time and acetabular abduction angle were compared between the 2 groups. Results: The 2 groups were comparable due to insignificant differences between them in gender, age, body mass, cause of disease or staging of avascular necrosis of the femoral head (P>0.05). The guide group had significantly less intraoperative blood loss (286.7±150.8 mL) and operation time (90.5±34.4 min) than the conventional group did (438.3±292.6 mL and 115.6±58.6 min) (P< 0.05). The acetabular cup abduction was 38.9°±4.2° in the guide group and 37.2°±5.5° in the conventional group, showing no significant difference(t=1.315, P=0.194). Conclusion Use of a personalized 3D printing guide in THA can shorten the time for installation of an acetabular prosthesis and reduce the amount of intraoperative blood loss, but it leads to insignificant difference in the postoperative acetabular cup abduction compared with no use of the guide.

Weightlessness in the space environment affects astronauts' learning memory and cognitive function. Repetitive transcranial magnetic stimulation has been shown to be effective in improving cognitive dysfunction. In this study, we investigated the effects of repetitive transcranial magnetic stimulation on neural excitability and ion channels in simulated weightlessness mice from a neurophysiological perspective. Young C57 mice were divided into control, hindlimb unloading and magnetic stimulation groups. The mice in the hindlimb unloading and magnetic stimulation groups were treated with hindlimb unloading for 14 days to establish a simulated weightlessness model, while the mice in the magnetic stimulation group were subjected to 14 days of repetitive transcranial magnetic stimulation. Using isolated brain slice patch clamp experiments, the relevant indexes of action potential and the kinetic property changes of voltage-gated sodium and potassium channels were detected to analyze the excitability of neurons and their ion channel mechanisms. The results showed that the behavioral cognitive ability and neuronal excitability of the mice decreased significantly with hindlimb unloading. Repetitive transcranial magnetic stimulation could significantly improve the cognitive impairment and neuroelectrophysiological indexes of the hindlimb unloading mice. Repetitive transcranial magnetic stimulation may change the activation, inactivation and reactivation process of sodium and potassium ion channels by promoting sodium ion outflow and inhibiting potassium ion, and affect the dynamic characteristics of ion channels, so as to enhance the excitability of single neurons and improve the cognitive damage and spatial memory ability of hindlimb unloading mice.
Animals ; Mice ; Transcranial Magnetic Stimulation ; Hindlimb Suspension ; Neurons ; Cognitive Dysfunction ; Brain