Information construction helps hospitals to accurately manage the blood glucose levels of hospitalized patients and improve the quality and safety of medical care. In July 2022, a large tertiary public hospital launched an information management of perioperative patient blood glucose. By establishing a multidisciplinary support and information management team, building an information-based blood glucose management system, establishing standardized management processes, implementing automatic hierarchical blood glucose warning, blood glucose critical value warning and control, abnormal blood glucose consultation, and insulin pump management, the hospital had achieved the information sharing of blood glucose perioperative patients, as well as timely warning and handling of abnormal blood glucose, ensuring patient safety. As of June 2023, the hospital had deployed a total of 364 intelligent blood glucose meters in clinical departments, and monitored blood glucose levels for 12 216 perioperative patients. The blood glucose compliance rate of perioperative patients increased from 81.81% in July 2022 to 82.95% in June 2023. This practice brought convenience to the work of clinical departments, improved the overall quality of medical services in hospitals, and could provide references for other hospitals to carry out blood glucose information management.

Objective To understand the homology of sequence type 562 (ST562) strains of Burkholderia pseudomallei which circulated in two separate continents (Asia and Australia) at different times.Methods Spe Ⅰ restriction fragments and 4-locus multiple locus variable number tandem repeat analysis (MLVA-4) profiles were extracted from MSHR5858 (ST562 Australia strain) and 350105 (ST562 historical strain of Hainan) genomes respectively by in silico analysis and then compared with the PFGE and MLVA-4 results of five ST562 clinical isolates from Hainan to test their homology.Synteny and homology between MSHR5858 and 350105 genomes were evaluated with bioinformatics methods.Results Five ST562 clinical strains from Hainan shared same PFGE pattern (similarity ＞97％) and this pattern coincided to the map of Spe Ⅰ restriction fragments of Australian strain MSHR5858.The amounts of genomic restriction fragments (Spe Ⅰ) for MSHR5858 and 350105 were 31 and 34 respectively,with 31 of them matched by each other.Five ST562 clinical strains of Hainan were distinct by MLVA-4 profiles,among which HPPH43 (MLVA-4 profile:10,8,10,8) was close to Australia strain MSHR5858 (10,8,8,6),containing identical repeat numbers at VNTR loci 2341k and 1788k;while HK003 (11,8,15,7) and HK061 (11,8,17,7) similar to Hainan historical strain 350105 (11,8,11,8),with same repeat numbers at loci 2341k and 1788k also.High-degree synteny and consistency on genomic contents were observed between 350105 and MSHR5858,indicating a similar origin for the 2 strains.Conclusion All inter-continental and historical ST562 strains ofB.pseudomallei had similar genomic characteristics,supporting the assumption that they had a common origin.Also,it is possible that Hainan historical strain 350105 is the ancestor of all circulating ST562 strains.