Objective:To construct a maintenance management system based on Total Productive Maintenance(TPM)theory for large-scale medical equipment,and explore its application effect in the management for large-scale medical equipment.Methods:By building TPM management team,predicting equipment's failures,planning TPM management pathway for equipment,and implementing quality control to construct TPM management system for the large-scale medical equipment.A total of 547 large-scale medical equipment that were used in clinical practice at the First Affiliated Hospital of Harbin Medical University from February 2022 to July 2024 were selected.They were divided into conventional management mode(272 equipment)and TPM management mode(275 equipment)by using random number table method.The TPM management mode conducted management on the basis of TPM management system for large-scale medical equipment.The equipment configuration,operational quality,effectiveness of equipment maintenance,and maintenance quality of the two kinds of management modes were compared.Using a self-made satisfaction questionnaire to evaluate the satisfaction of management personnel who used equipment for the service quality of maintenance management of two management modes for medical equipment.Results:The average configuration rate,utilization rate,and operation rate of equipment that using TPM management mode were(4.81±0.94)%,(97.98±0.67)%,and(89.15±4.78)%,respectively,all which were higher than those that using conventional management mode.However,the average failure rate was(1.72±0.12)%,which was lower than that of using conventional management mode.The differences of the above indicators were statistically significant(t=39.942,80.213,23.188,71.723,P<0.05).The average values of the efficiency of equipment maintenance,the standardization of usage,timeliness of maintenance,and pass rate of quality inspection of TPM management mode were all higher than those of conventional management mode,and the differences were statistically significant(t=36.893,22.913,17.948,21.553,P<0.05).The response time,average repair rate of failure,and delivery cycle of accessories of equipment maintenance of TPM management mode were all lower than those of conventional management mode,while the quality score of maintenance service was higher than that of conventional management mode,and the differences were statistically significant(t=37.332,25.116,53.265,55.988,P<0.05).The satisfactions of management personnel who used equipment for preventive maintenance,preventive repair,usage management,fault repair,quality inspection,and post maintenance of equipment that adopted TPM management mode were all higher than those that adopted conventional management mode,and the differences were statistically significant(t=24.218,21.408,19.706,27.141,38.149,46.434,P<0.05).Conclusion:The maintenance management system based on TPM theory for large-scale medical equipment can effectively improve operation efficiency and maintenance quality of equipment,and reduce equipment's failure rate,and enhance the timeliness of maintenance services for equipment,and increase the satisfaction of management personnel in using equipment.

Objective:To isolate Yersinia enterocolitica phage and study its biological and genomic characteristics, and explore its application value. Methods:Phages were isolated from cecum of Apodemus chevrieri in the plague focus of wild rodent in Lijiang employing Yersinia enterocolitica (CMCC52301) as the host strain. After purification, proliferation and concentration, the morphology was observed by transmission electron microscope, and the host spectrum of the phage was determined by double-layer plate method. Phage DNA was extracted and sequenced, and the raw sequences data were assembled and visually analyzed, also performed genome functional annotation, phage classification status, phylogenetic tree, genome collinearity analysis, etc. Results:One strain of Yersinia enterocolitica phage was isolated and named vB_Yen_YN301-151, which had a head and a contractile tail. The phage only lysed Yersinia enterocolitica, and could not lyse other tested strains. And at a lysis temperature of 37 ℃, more transparent plaques were observed compared to at a lysis temperature of 21 ℃. The gene structure of this phage was double-stranded DNA, with a genome length of 51 176 bp and a GC content of 46.96%, and 95 genes were predicted to encode 15 structural morphological related proteins, 9 proteins involved in replication and metabolism, 3 DNA assembly functional proteins, 1 phage lysis related protein, and 67 hypothetical proteins. It was identified that the phage belong to the Drexlerviridae family of the Caudoviricetes class, clustered with vB_YenM_534, vB_Yen_X1, vB_YenM_281, and vB_YenM_531 in the phylogenetic tree and exhibited good collinearity with PY100, vB_YenM_ 25, and vB_Yen_X1. Conclusions:The successfully isolated vB_Yen_YN301-151 is a novel phage belonging to the Drexlerviridae family, and its gene encoded proteins are mostly hypothetical proteins. It only lyses Yersinia enterocolitica, with host specificity and has the potential to be used as diagnostic phage for screening Yersinia enterocolitica.

Objective:To isolate Yersinia enterocolitica phage and study its biological and genomic characteristics, and explore its application value. Methods:Phages were isolated from cecum of Apodemus chevrieri in the plague focus of wild rodent in Lijiang employing Yersinia enterocolitica (CMCC52301) as the host strain. After purification, proliferation and concentration, the morphology was observed by transmission electron microscope, and the host spectrum of the phage was determined by double-layer plate method. Phage DNA was extracted and sequenced, and the raw sequences data were assembled and visually analyzed, also performed genome functional annotation, phage classification status, phylogenetic tree, genome collinearity analysis, etc. Results:One strain of Yersinia enterocolitica phage was isolated and named vB_Yen_YN301-151, which had a head and a contractile tail. The phage only lysed Yersinia enterocolitica, and could not lyse other tested strains. And at a lysis temperature of 37 ℃, more transparent plaques were observed compared to at a lysis temperature of 21 ℃. The gene structure of this phage was double-stranded DNA, with a genome length of 51 176 bp and a GC content of 46.96%, and 95 genes were predicted to encode 15 structural morphological related proteins, 9 proteins involved in replication and metabolism, 3 DNA assembly functional proteins, 1 phage lysis related protein, and 67 hypothetical proteins. It was identified that the phage belong to the Drexlerviridae family of the Caudoviricetes class, clustered with vB_YenM_534, vB_Yen_X1, vB_YenM_281, and vB_YenM_531 in the phylogenetic tree and exhibited good collinearity with PY100, vB_YenM_ 25, and vB_Yen_X1. Conclusions:The successfully isolated vB_Yen_YN301-151 is a novel phage belonging to the Drexlerviridae family, and its gene encoded proteins are mostly hypothetical proteins. It only lyses Yersinia enterocolitica, with host specificity and has the potential to be used as diagnostic phage for screening Yersinia enterocolitica.

Objective:To construct a maintenance management system based on Total Productive Maintenance(TPM)theory for large-scale medical equipment,and explore its application effect in the management for large-scale medical equipment.Methods:By building TPM management team,predicting equipment's failures,planning TPM management pathway for equipment,and implementing quality control to construct TPM management system for the large-scale medical equipment.A total of 547 large-scale medical equipment that were used in clinical practice at the First Affiliated Hospital of Harbin Medical University from February 2022 to July 2024 were selected.They were divided into conventional management mode(272 equipment)and TPM management mode(275 equipment)by using random number table method.The TPM management mode conducted management on the basis of TPM management system for large-scale medical equipment.The equipment configuration,operational quality,effectiveness of equipment maintenance,and maintenance quality of the two kinds of management modes were compared.Using a self-made satisfaction questionnaire to evaluate the satisfaction of management personnel who used equipment for the service quality of maintenance management of two management modes for medical equipment.Results:The average configuration rate,utilization rate,and operation rate of equipment that using TPM management mode were(4.81±0.94)%,(97.98±0.67)%,and(89.15±4.78)%,respectively,all which were higher than those that using conventional management mode.However,the average failure rate was(1.72±0.12)%,which was lower than that of using conventional management mode.The differences of the above indicators were statistically significant(t=39.942,80.213,23.188,71.723,P<0.05).The average values of the efficiency of equipment maintenance,the standardization of usage,timeliness of maintenance,and pass rate of quality inspection of TPM management mode were all higher than those of conventional management mode,and the differences were statistically significant(t=36.893,22.913,17.948,21.553,P<0.05).The response time,average repair rate of failure,and delivery cycle of accessories of equipment maintenance of TPM management mode were all lower than those of conventional management mode,while the quality score of maintenance service was higher than that of conventional management mode,and the differences were statistically significant(t=37.332,25.116,53.265,55.988,P<0.05).The satisfactions of management personnel who used equipment for preventive maintenance,preventive repair,usage management,fault repair,quality inspection,and post maintenance of equipment that adopted TPM management mode were all higher than those that adopted conventional management mode,and the differences were statistically significant(t=24.218,21.408,19.706,27.141,38.149,46.434,P<0.05).Conclusion:The maintenance management system based on TPM theory for large-scale medical equipment can effectively improve operation efficiency and maintenance quality of equipment,and reduce equipment's failure rate,and enhance the timeliness of maintenance services for equipment,and increase the satisfaction of management personnel in using equipment.