ObjectiveTo study the current situation of WeChat public platforms in 15 provincial hospitals in Hubei Province.MethodsWe searched the website of National Health Commission of the People’s Republic of China, website of Health Commission of Hubei Province, and the official website of each hospital. The WeChat public platforms of 15 provincial hospitals in Hubei Province was determined as the research object. Samples were taken in July, 2019 and the observation cut-off point was on October 30, 2019. All the contents released by the WeChat public platforms in July were counted. Literature research, descriptive statistics, content analysis, WeChat transmission index analysis, observation indicators and other methods were used for analysis and research.ResultsAmong the 15 hospitals, 14 hospitals (93.3%) had established 20 WeChat public platforms, and 5 hospitals (33.3%) simultaneously opened service accounts and subscription accounts. The functions of serving the patients’ medical experience mainly included identity registration, appointment registration, information inquiry, patient feedback, intelligent medical guidance, etc. WeChat tweets were mainly divided into 38.0% of popular medical science, 11.4% of hospital news, 15.8% of medical service, 13.6% of party and government construction, and 21.2% of patient interaction. The monthly push times of 6 WeChat public platforms (30.0%) were less than 4 times. The monthly original rate of WeChat public platform tweets was 16.3%. Among the top 10 WeChat public platforms in the WeChat communication index, 8 (80.0%) were service accounts. There was a big gap in the dissemination effect of tweets.ConclusionsThe WeChat public platform of provincial hospitals in Hubei Province has problems such as single type of WeChat public platform, imperfect service functions, unreasonable tweets frequency, insufficient originality of tweets, and uneven communication effects. It is necessary to enrich platform types, improve platform functions, ameliorate the frequency of tweets, improve the originality of tweets, and pay attention to communication effects.
As a science which focuses on evidence, the decision making process of evidence medicine encounters an opportunity for development in the big data era. The starting point is shifting forward from evidence to data. The big data technology is playing an active role in evidence's collection, process and utilization. Evidence is more objective, righteous, authentic, transparent and easier to collect. Thus, to initiate evidence-based medicine research in the big data era and to structure an evidence-based medicine intelligent service platform, a full-scaled strategy should be developed in order to improve the quality of evidence. To promote the complete publicity of clinical research data, structuralized clinical data standard should be constructed. To provide a pathway to patients' follow-up data, portable and wearable monitoring devices should be popularized. To avoid risks from utilization of clinical research big data, regulations of clinical data usage should be implemented.
ObjectiveTo summarize the research progress of tissue engineered bile duct in recent years.MethodsThis paper summarized recently-published papers related to tissue-engineered bile duct on in vitro test platform, scaffold materials, acquisition methods of seed cells, and in vivo repair effectiveness after the fusion of seed cells and materials, in an attempt to review the basic and clinical application studies of tissue-engineered bile duct.ResultsTissue-engineered bile duct had been developing rapidly. At present, great progress had been made in the fields of in vitro test platform, scaffold materials, seed cells, and repair effectiveness in animal models. However, further study was still needed in terms of its clinical application. The external bile duct platform included 3D printing and biological simulation; in the aspect of scaffold material, apart from the progress of various artificial materials, acellular matrix was introduced; the selection of seed cells included the induction and differentiation of bile duct-derived stem cells, human bone marrow mesenchymal stem cells (hMSCs), hepatic oval cell (HOC), pluripotent stem cells (PSCs), and other stem cells; animal models of tissue-engineered bile ducts had also achieved good results in animals such as pigs and dogs.ConclusionThe development of tissue-engineered bile duct will promote the progress of fundamental in vitro studies on extrahepatic biliary tract diseases, thus introducing new options to the clinical treatment of extrahepatic biliary tract injuries.
With the continuous advancement of internet technology and the improvement of internet literacy among the general population, the concept of online-offline integration in internet hospitals has gradually gained acceptance and has been applied and developed both domestically and internationally. In thoracic surgery, the applicability of this model lies in enhancing efficiency and delivering comprehensive, diversified, and personalized medical services to address complex and severe conditions. However, challenges such as hardware limitations and diagnostic/treatment risks persist during the implementation of internet hospitals. Through future in-depth and localized research, the online-offline integration of internet hospitals is expected to undergo further development and refinement. This progress will facilitate its integration into clinical practice in thoracic surgery, ultimately providing patients with improved medical care services.
In order to promote the effective development of hospital day surgery mode, a construction method of information management platform that meets the characteristics of day surgery mode is presented. By analyzing the business process of the day surgery mode, the system architecture of the information platform is given; according to the difficulty of the surgical scheduling, the two-stage surgical scheduling algorithm based on the ranking theory is given; by analyzing the day surgery data statistically, a multi-angle surgical index analysis module is provided. The information management of the day surgery mode has been realized, and the work efficiency has been improved. A reasonable day surgery information platform construction can help to optimize the daytime surgical procedure and promote the smooth development of day surgery.
ObjectiveTo investigate the effectiveness of rotating-platform prosthesis for valgus knee deformity in total knee arthroplasty (TKA). MethodsA retrospective analysis was made on the clinical date of 25 cases (28 knees) of valgus deformity undergoing primary TKA by using Gemini MK II rotating-platform prosthesis. There were 6 males (7 knees) and 19 females (21 knees), aged from 47 to 82 years, with an average age of 64.8 years. The unilateral knee was involved in 22 cases and the bilateral knees in 3 cases. The causes included osteoarthritis in 20 cases (22 knees), rheumatoid arthritis in 4 cases (5 knees), and traumatic arthritis in 1 case (1 knee). The disease duration was 2-22 years (mean, 10.4 years). The main clinical symptoms were arthralgia combined with limited movement. According to the Keblish grade, there were 13 knees of mild deformity, 11 knees of moderate deformity, and 4 knees of severe deformity. ResultsAll incisions healed by first intension. No complications of infection, cutaneous necrosis, deep venous thrombosis, and pulmonary embolism occurred. The postoperative follow-up duration was 12-60 months (mean, 25.4 months). Medial instability and palsies of nervus peroneus communis occurred in 1 and 2 cases respectively, and all were cured after symptomatic treatment. No patellar and polysthylene insert dislocation, prosthetic loosening or infection was observed. The Hospital for Special Surgery (HSS) score, femoral tibial angle, maximun flexion and extension angles, knee range of motion, and patellar score were significantly improved at last follow-up when compared with preoperative ones (P<0.01). ConclusionThe rotating-platform prosthesis for valgus deformity can obtain satisfactory effectiveness, but it requires precise soft tissue balancing technology, and the long-term effectiveness remains further observation.
Objective To analyze the current state, evaluate the accuracy, and determine the influencing factors of hypertension-related subscriptions from official health WeChat accounts. Methods The 36 official health WeChat accounts on the WeChat official accounts monthly list │ September 2022 China WeChat Top 500·New Rank certification were searched using the term "hypertension". We identified diabetes-related subscriptions published from April 1, 2022 to September 30, 2022. The accuracy of subscriptions was analyzed according to the consistency with clinical practice guidelines and was independently assessed by two specialists. SPSS 22.0 software was used for data analysis. Results One hundred and one subscriptions from 36 official health WeChat accounts were included. Forty-seven (46.5%) subscriptions were evaluated as consistent, seven (6.9%) subscriptions were evaluated as inconsistent, and forty-seven (46.5%) subscriptions were evaluated as unconfirmed. The differences between the numbers of reads, "wow" and "like" per thousand reads, were statistically significant. Consistency rates were higher for tweets backed by evidence and experts, and for tweets posted by public figures with the accreditation type "government". Conclusion Hypertension tweets have a good audience base, some of the content is inconsistent with current clinical guideline recommendations, and readers have little ability to screen them. There is a need to develop and improve the review mechanism for writing and publishing hypertension tweets on WeChat.
ObjectiveExplore the impact of a digital-intelligence-based quality control platform for thyroid cancer on the effectiveness of clinical diagnosis and treatment quality management. MethodsThe digital-intelligence-based quality control platform for thyroid cancer at Zhejiang Provincial People’s Hospital was launched at the end of July 2022. In its initial phase, six quality control indicators related to the standardized diagnosis and treatment of thyroid cancer were deployed. This study analyzed the changes in these six quality control indicators between January 2022 and November 2023, comparing data before and after the platform’s implementation. ResultsCompared with the period from January to July 2022 (prior to the platform’s launch), the rates of preoperative cytopathological examination (t=–8.490, P<0.001) and postoperative pTNM staging for thyroid cancer patients (t=–3.027, P=0.013) increased from July to November 2023 (one year post-launch). However, the proportion of minimally invasive surgeries among thyroid cancer patients (t=4.085, P=0.002) decreased. The linear regression model results indicated that, following the platform’s launch, there was a gradual increase over time in both the preoperative cytopathological examination rate for thyroid cancer (P=0.001) and the postoperative pTNM staging rate (P=0.049). ConclusionPreliminary results of this study suggest that the thyroid cancer digital-intelligence-based quality control platform developed by our team can effectively enhance the standardized quality control of clinical diagnosis and treatment for thyroid cancer.
The human skeletal muscle drives skeletal movement through contraction. Embedding its functional information into the human morphological framework and constructing a digital twin of skeletal muscle for simulating physical and physiological functions of skeletal muscle are of great significance for the study of "virtual physiological humans". Based on relevant literature both domestically and internationally, this paper firstly summarizes the technical framework for constructing skeletal muscle digital twins, and then provides a review from five aspects including skeletal muscle digital twins modeling technology, skeletal muscle data collection technology, simulation analysis technology, simulation platform and human medical image database. On this basis, it is pointed out that further research is needed in areas such as skeletal muscle model generalization, accuracy improvement, and model coupling. The methods and means of constructing skeletal muscle digital twins summarized in the paper are expected to provide reference for researchers in this field, and the development direction pointed out can serve as the next focus of research.
ObjectiveTo break through the key problem in the process of ambulatory surgery operation and management, improve the operational efficiency of hospital, and ensure the quality and safety of medical care through new established ambulatory surgery informative platform.MethodsThrough the analysis of medical requirements and process optimization in ambulatory surgery in Xiangya Hospital, Central South University from March to April, 2020, we constructed an ambulatory surgery informative platform centered on patient behavior tracking.ResultsThere wasa significant difference in the reception time of different appointment modes before and after the launch of information platform [(290.45±50.35) vs. (158.58±40.27) s; t=16.040, P<0.001]. After the platform system went online, patients’ satisfaction with the treatment process, appointment waiting time, and overall satisfaction were higher than before (P<0.05); there was no significant difference in patients’ attitude towards medical staff before and after the system went online (P>0.05). The results of medical staff’s work experience after the system went online showed that the use of information platform could make the work more efficient (91.09%), the process more reasonable (91.09%), accurately and timely grasp the patient’s information (95.05%), guarantee the medical quality and safety (96.04%), and reduce the medical cost (88.12%).ConclusionThe ambulatory surgery informative platform improved our work efficiency and patients’ satisfaction, assured the quality and safety of medical care, and strengthen the multi-disciplinary synergy at the same time.