Objective To explore the value of gemstone spectral imaging (GSI)in quantitative evaluation of Lauren classification of gastric cancer.Methods Fifty-two patients with gastric cancer confirmed by gastroscopy underwent contrast-enhanced spectral CT imaging preoperatively.The monoergic and iodine-based images were obtained by GSI Viewer software,CT value and iodine concentration (IC)of the lesions were measured,and normalized iodine concentration (NIC)was calculated.With the reference of postoperative pathology,data were analyzed by LSD method of one-way analysis of variance.Results The IC,NIC,spectrum curve slope of 40-70 keV,40-140 keV and 70-140 keV energy range of intestinal type,mixed type and diffuse type carcinoma in the arterial phase were 12.86±6.80 (100 μg/mL),0.13±0.06 ,2.50±1.26 ,0.99±0.51 ,0.34±0.20 ,18.54±6.49 (100 μg/mL),0.19±0.07, 3.56±1.24,1.42±0.50,0.50±0.18 and 24.52±9.68 (100 μg/mL),0.24±0.09,4.73±1.76,1.90±0.73,0.68±0.29,respectively. The values of intestinal type were all significantly lower than those of diffuse type (P <0.05).Comparison between intestinal-mixed type and mixed-diffuse type,the other parameters were no significant differences except IC between intestinal-mixed type (P=0.037).Conclusion The slope of spectrum curve,iodine concentration,and normalized iodine concentration could be helpful for preoperative evaluation of Lauren classification of gastric cancer.

Objective To design a temperature control strategy for wave bioreactors.Methods According to the requirements of temperature control precision and response speed of wave bioreactors,the traditional PID control method was combined with fuzzy control method which was used to adjust the parameters of the PID control in real time online in order to strengthen the ability of the temperature control strategy to regulate temperature.Results A fuzzy PID controller was completed and simulation results were compared with the traditional PID controller.Conclusion The fuzzy PID control method has a smaller overshoot and shorter stability than the traditional one, so it has a higher temperature control performance.

Objective To design a temperature control strategy for riptide bioreactor to eliminate integral saturation by conventional proportion integration differentiation (PID) control.Methods According to the requirement of the riptide bioreactor for the temperature control,the temperature control system model determined by experiment was got,then the effectiveness of the integral limiter PID control method was verified,and finally the integral limiter PID control method wasimproved further using the integral separation combined with the actual experimental results and its effectiveness was tested.Results The simulation results showed that the control effects of the integral limiter PID was good.However,the actual tests proved that there was still deficiencies in large overshoot and long stable time,and good experimental results were obtainedafter improving the integral limiter PID by the integral separation method.Conclusion The improved integral limiter PID control method effectively avoids the overshoot of the system caused by the integral saturation,achieves high control precision,has a very good control performance for the temperature control of riptide bioreactor,and well meets the requirements of mammalian cell culture.