1.Design and Application of Pre-dispensing Management Mode and Computer System in Outpatients Dispensary
Fan XU ; Guili XU ; Qing ZHANG ; Fang YU ; Fanfan KONG
China Pharmacy 2005;0(22):-
OBJECTIVE:To esbablish pre-dispensing management mode and computer system in outpatient dispensary to facilitate the practice of hospital pharmaceutical care.METHODS:The establisment and application of the pre-dispensing management mode and computer system in outpatient dispensary were analyzed from aspects of hardware preparation,design of system framework and functional modules of the system.RESULTS:The application of pre-dispensing management system brought down the dispensing error rate and reduced patients' waitting time.The stability of the computer system was the key to ensure smooth operation of the pre-dispensing management mode.CONCLUSION:The practice of the pre-dispensing management mode facilitates the formation of good pharmaceutical care system and is a good dispensing managment mode suitable for sound development of hospital pharmacy.
2.Quality control measures of thermoluminescent dosimetry system used in environmental radiation monitoring
Li YANG ; Lijiao WANG ; Minggang SHAO ; Fanfan KONG ; Zhongwen WANG
Chinese Journal of Radiological Health 2021;30(4):457-462
Objective To discuss the quality control measures of the thermoluminescent dosimetry system and to verify its propriety of when used in environmental radiation monitoring. Methods The quality control measures included the stability test, the dispersibility screening and the uncertainty evaluation of measurement results of the TLD reader and TLD detector, in addition, the environmental radiation accumulated dose monitoring results obtained by the high pressure ionization chamber were compared with those by the thermoluminescent dosimetry system. Results The variation range of TLD reader’s light source coefficient is within 0.070 ~ 0.073 during the preheating and measuring process, which meets the requirements of stability; The χ2 value of the TLD detector is 2.088, which obeys the normal distribution; The thermoluminescent dosimetry system’s nonlinear response, coefficient of variation and energy response meet the measurement requirements; There is a deviation of −6.58% the largest between the cumulative dose obtained by TLD and the high pressure ionization chamber. Conclusion The quality control measures discussed in this paper can be used as a reference for similar thermoluminescent dosimetry system. Our system has passed all the tests and can meet the environmental radiation cumulative dose monitoring requirements.