Intra- and inter-operator reproducibility of automated cloud-based carotid lumen diameter ultrasound measurement

Background Common carotid artery lumen diameter (LD) ultrasound measurement systems are either manual or semi-automated and lack reproducibility and variability studies. This pilot study presents an automated and cloud-based LD measurements software system (AtheroCloud) and evaluates its: (i) intra/inter-operator reproducibility and (ii) intra/inter-observer variability. Methods 100 patients (83 M, mean age: 68 ± 11 years), IRB approved, consisted of L/R CCA artery (200 ultrasound images), acquired using a 7.5-MHz linear transducer. The intra/inter-operator reproducibility was verified using three operator’s readings. Near-wall and far carotid wall borders were manually traced by two observers for intra/inter-observer variability analysis. Results The mean coefficient of correlation (CC) for intra- and inter-operator reproducibility between all the three automated reading pairs were: 0.99 (P < 0.0001) and 0.97 (P < 0.0001), respectively. The mean CC for intra- and inter-observer variability between both the manual reading pairs were 0.98 (P < 0.0001) and 0.98 (P < 0.0001), respectively. The Figure-of-Merit between the mean of the three automated readings against the four manuals were 98.32%, 99.50%, 98.94% and 98.49%, respectively. Conclusions The AtheroCloud LD measurement system showed high intra/inter-operator reproducibility hence can be adapted for vascular screening mode or pharmaceutical clinical trial mode.

On construction of a cloud based storage platform for teaching resource of obstetrics and gynecology / 中华医学教育探索杂志

Lack of sufficient technical supports for sharing and management of current curriculum resource, which leads to inefficiency in searching curriculum information, has become a common issue in current higher medical education. The key to best use of increasing digital medical teaching resource lies in coping with the problems of sharing and integration. A cloud based storage platform is built to manage the teaching resource of obstetrics, which enables the efficiently sharing and integration of obstetrics related courses. The achievements gained from the platform have demonstrated to improve the work efficacy of teachers and provide students with the opportunity of systematically learning, both of which ultimately con-tribute to the improvement of the quality of theoretical and clinic teaching on obstetrics and gynecology.

Construction and application of cloud-based hospital information system / 医疗卫生装备

Objective To explore the construction and application of cloud-based healthcare information system (CHIS).Methods The process of CHIS employment and implementation for primary-level medical and healthcare institutions was elaborated by the example of a city after the analysis and comparison of mode difference between traditional and cloud construction.Results CHIS integrated regional medical resources and realized integrated application of medical and public healthcare resources,mobile integration of regional operation and continuous innovation in construction mode,and facilitated uniformed management,high-efficiency running and maintenance as well as business development.Conclusion CHIS contributes to enhancing medical inforrnatization in primary institutions,promoting continuous medical innovation and innovating medical informatization mode.