Effect Observation of Process Diabetes Group Nursing on Patients with Diabetes Mellitus

Objective:Discuss the clinical effect of the process diabetes nurse group in the treatment of diabetes patients.Methods:A total of 58 patients with diabetes who received treatment in our hospital from January 2021 to June 2021 were selected,and the 58 patients were divided into two groups by random number table.In one group,29 patients were treated with process diabetes group nursing,which was recorded as the observation group;in the other group,29 patients were treated with conventional care,which was recorded as the control group.Nursing satisfaction,compliance behavior of patients,and adverse incidence were analyzed.Results:After nursing,the data of the two groups were summarized.The score of compliance behavior in the observation group was 91.23±4.56,which was significantly better than that in the control group(75.13土5.23).The t values of the score of compliance behavior were 12.4952,P<0.05.The qualified rate of fasting blood glucose in the observation group was 100%,which was significantly higher than that in the control group(62.07%),P<0.05.According to the questionnaire analysis,there were 18 patients in the observation group who were very satisfied,8 patients who were satisfied and 3 patients who were not satisfied,with a total satisfaction rate of 89.66%,and in the control group,there were 4 patients who were very satisfied,15 patients who were satisfied and 10 patients who were not satisfied,with a total satisfaction rate of 65.52%.The control group was significantly inferior to the observation group,and P<0.05 was regarded as statistically significant.Conclusion:Adopting the process of diabetes group nursing can effectively enhance the compliance behavior of patients,and effectively control the blood sugar index of patients,and improve the satisfaction degree of patients.

Fully solution processed liquid metal features as highly conductive and ultrastretchable conductors

Liquid metal represents a highly conductive and inherently deformable conductor for the development of stretchable electronics.The widespread implementations of liquid metal towards functional sensors and circuits are currently hindered by the lack of a facile and scalable patterning approach.In this study,we report a fully solution-based process to generate patterned features of the liquid metal conductor.The entire process is carried out under ambient conditions and is generally compatible with various elastomeric substrates.The as-prepared liquid metal feature exhibits high resolution(100μm),excellent electrical conductivity(4.15×10^(4)S cm^(−1)),ultrahigh stretchability(1000%tensile strain),and mechanical durability.The practical suitability is demonstrated by the heterogeneous integration of light-emitting diode(LED)chips with liquid metal interconnects for a stretchable and wearable LED array.The solution-based technique reported here is the enabler for the facile patterning of liquid metal features at low cost,which may find a broad range of applications in emerging fields of epidermal sensors,wearable heaters,advanced prosthetics,and soft robotics.