Research on the Intervention of Internet+ Health Education Model on Hemodialysis Patients with Psychological Distress

Objective:To observe the status quo of patients’psychological distress,and to explore the effect of Internet+health education model(IHEM)on patients who experienced psychological distress during their first hemodialysis treatment,with the goal of reducing their psychological distress and improving their quality of life.Methods:IHEM was conducted on 120 first-time hemodialysis patients for 3 months while a distress thermometer and a list of questionnaires were used to screen patients and provide corresponding psychological intervention.The incidence rate of psychological distress was analyzed statistically to explore the difference in psychological distress at various periods.Results:The incidence rate(score≥4)of psychological distress in first-time hemodialysis patients was 46.67%,and their distress was mainly rooted in physical,emotional,practical problems(economy,time,and energy),etc.Through IHEM,the psychological distress scores of the patients decreased to 3.29±1.02 at one month after their discharge,and the incidence rate was 32.14%;the psychological distress scores of the patients were 2.29±1.02 at 3 months after their discharge,and the incidence rate was 21.14%.The difference before and after the intervention was statistically significant(P<0.05).Conclusion:A psychological distress thermometer can timely detect the degree and causes of psychological distress among first-time hemodialysis patients,and the use of IHEM may significantly alleviate the psychological distress among hemodialysis patients.

Application of Internet plus education in medical technical training

With the rapid development of Internet technology,the mode of medical education is constantly changing,and the training mode of traditional medical technology gradually reveals its shortcomings.Based on that,the staff combined the Internet technology and medical education,formed the"Internet+education"model,as the main way of medical technology training,so as to optimize the medical education system,improve the level of medical education,improve the interactive,real-time,science and technology and modernity of medical education,and further promote the construction and development of medical education in China.This article analyzes the application theory of the previous"Internet+education"in medical technology training,and proposes a set of theories that can supplement the lack of traditional medical technology training and education in order to integrate"Internet+education"in medical technology training To maximize the role of the role of China,and put forward their own hypotheses and ideas for future development.

Research on the Mixed Teaching Model in Colleges and Universities in the Context of"Internet+"

Under the tide of"Internet+education",the new means of information technology education is constantly used in education and teaching,and the traditional teaching models and teaching methods urgently need to be changed.There is no doubt about the integration of online teaching and offline teaching.On the basis of reviewing the research on the mixed teaching model at home and abroad,this paper puts forward the idea of constructing the mixed teaching model in colleges and universities in the context of"Internet+",and sets up the mixed teaching model in colleges and universities in the context of"Internet+".Through the detailed and concrete design of the operation process of the mixed teaching model,we can break the single shackles of online teaching and face-to-face teaching,and form an interactive and collaborative teaching ecosystem to realize the common development of online teaching and offline teaching.

IoTFLiP： IoT-based flipped learning platform for medical education

Case-Based Learning （CBL） has become an effective pedagogy for student-centered learning in medical education, which is founded on persistent patient cases. Flippped learning and Internet of Things （IoTs） concepts have gained significant attention in recent years. Using these concepts in conjunction with CBL can improve learning ability by providing real evolutionary medical eases. It also enables students to build confidence in their decision making, and efficiently enhances teamwork in the learning environment. We propose an IoT-based Flip Learning Platform, called IoTFLiP, where an IoT infrastrneture is exploited to support flipped case-based learning in a cloud environment with state of the art security and privacy measures for personalized medical data. It also provides support for application delivery in private, public, and hybrid approaches. The proposed platform is an extension of our Interactive Case-Based Flipped Learning Tool （ICBFLT）, which has been developed based on current CBL practices. ICBFLT formulates summaries of CBL cases through synergy between students＇ and medical expert knowledge. The low cost and reduced size of sensor device, support of IoTs, and recent flipped learning advancements can enhance medical students＇ academic and practical experiences. In order to demonstrate a working scenario for the proposed IoTFLiP platform, real-time data from IoTs gadgets is collected to generate a real-world case for a medical student using ICBFLT.