1.A design of automatic classification system for leukocyte
China Medical Equipment 2017;14(3):16-20
Objective:To design a automatic classification system for leukocytes in order to increase detection speed of manual microscope inspection and reduce the inaccurate detected results in clinical laboratory; and to evaluate this system.Methods: In this system, the image processing and algorithm classifying were achieved by MATLAB software consisted of digital image processing module and automatic classification module. Classification decision for discrimination function and simulated detection for this system were achieved by using automatic classification module.Results: In the simulation experiments, the detection results for sample cell demonstrated the recognition accuracy can achieve to 93% and the speed can achieve to 97.8 cells per second for this system.Conclusion: The automatic recognition and classification system for leukocyte not only reduces human consumption, but also improves the detection accuracy and detection speed for leukocyte, and it has some significant in clinical application.
2.A design and analysis of a monitoring system for muscle relaxation
China Medical Equipment 2017;14(5):3-6
Objective:To design and analyze a muscle relaxation monitoring system so as to increase the anesthesia efficiency and safety.Methods: The hardware design of system was based on single chip machine (STC89C52RC), and it has the function of LCD real-time display for pressure change and the printing function. The design of software mainly included the system main program design, pressure sensor subroutine, A/D conversion subroutine, LCD real-time display subroutine and printer subroutine, etc.Results:Through the multiple times of test and improvement for the system, the system has achieved stably run, and the pressure value could achieve accurately display between 0-100N.Conclusion: The monitoring system of muscular relaxation has series of advantages, such as simple circuit design, low cost, higher reliability and practicability and so on. It can real-timely and effectively monitor the change of the indexes of muscular relaxation for patients during operation. And the anesthesiologist can effectively control and change medication for patients. In this way, the monitoring system can increase the anesthetic efficiency and decrease the incidence of postoperative residual muscle relaxant.
3.Effects of different reconstruction algorithms on the image quality of CTA with low dose on head and neck
China Medical Equipment 2017;14(6):14-17
Objective:To discuss the effect of different reconstruction algorithms for the image quality of the computed tomographic angiography (CTA) with low dose on head and neck through comparing the images obtained from different reconstruction algorithms, which included filtering and reflection projection technique (FBP), adaptive statistical iterative (ASIR) model and based on iterative reconstruction (MBIR) after CTA with low dose was applied on head and neck.Methods:30 patients who were implemented the CTA on head and neck were enrolled in this study. The gem energy spectrum CT was applied to scan their head and neck, and the tube voltage was set in low dose (80 kVp), and 60-80 mL contrast agent (350 mg I/mL) was injected in elbow vein as 4mL/s. The other parameters were chosen as routine requirement. The obtained original images were reconstructed by using FBP, 60% ASIR and MBIR, and then the three kinds images were compared and scored by using relative statistical analysis.Results: For the using of different reconstruction algorithms (FBP, 60% ASIR and MBIR), the results of image noise showed MBIR<60% ASIR
4.A design of dynamic intelligent management system for patients in mental hospital based on RFID technique
Huifen SHI ; Tianbai QI ; Junlin HOU
China Medical Equipment 2017;14(7):118-121
Objective: To implement dynamic intelligent management system for patients in mental hospital based on RFID technique so as to achieve safe management for patients and contribute to grasp the patient's status in real time. Methods: The hardware of the designed dynamic intelligent management system was consisted of patient's wristbands (electronic tags), locator, reader and the server. The architecture, hardware and function modules of the system were procedural designed. Results: The new design has changed the traditional supervised situation for psychopath which need many manpower and material resources, and reduced the burden of paramedical staff, and decreased the pressure of management for psychopath and enhanced the management level of modernization in hospital. Conclusion: The dynamic intelligent management system based on RFID technique can enhance the management level of hospital, and accelerate the construction of informatization for hospital and improve the image of hospital.