According to the requirements for the “three districts and two channels” in the sanitary industry standard Technique Standard for Isolation in Hospitals, combining with the spirit of current documents related to the prevention and control of coronavirus disease 2019, in order to guide medical institutions at all levels to conduct standardized design of fever clinics in accordance with the principle of “combining normal time and epidemic period”, this article explains the design points of the fever clinics for the prevention and control of coronavirus disease 2019, introduces the specific methods for the fever clinics to achieve “three districts and two channels”, draws a schematic diagram of the fever clinics in general hospitals, and explains the functional layout and medical procedures of the clean area, potential contaminated area, and contaminated area in detail; at the same time, a schematic diagram of the change of fever clinics from “normal” to “during the epidemic” is drawn, and the ideas for the conversion and the process after the conversion are introduced. It proposes design ideas and drawing references for the construction, transformation, and expansion of fever clinics.
After more than 30 years of localized development of infection prevention and control in China, a prevention and control system in line with China’s conditions has been established. Since the coronavirus disease 2019 pandemic began, with the unprecedented attention paid to healthcare associated infection by health administrative departments at all levels, the awareness of infection prevention and control of various personnel has been continuously strengthened, which has promoted the cross-integration and development of infection prevention and control-related disciplines. However, under the normalized pandemic prevention and control, infection prevention and control work also faces enormous pressure and challenges. This paper summarizes the opportunities for infection prevention and control in the new era, analyzes the current challenges in the field of infection prevention and control, and aims to provide some ideas for the future development of infection prevention and control.
With nearly four decades of progress in healthcare-associated infection prevention and control in China, the national quality control efforts in this field have been ongoing for the past ten years, advancing rapidly with significant achievements. Over the last decade, the team of infection control professionals involved in quality management and control in China has consistently expanded, accompanied by an enhancement of their skills. Management capabilities have steadily grown, and operational mechanisms have been continuously refined. As public hospitals transition into a new phase of high-quality development, emphasizing refined management models and intrinsic development of medical quality, it becomes crucial to further fortify the foundation and foster innovation in infection control work to ensure quality. This article provides an overview of the establishment and implementation of the National Center for Quality Control of Infection Prevention and Control, examines the current shortcomings and challenges in the field, and collectively explores the positioning and direction of the development of quality control efforts for infection prevention and control in China.
PURPOSE:To observe the effect of laser/photocoagulation on prevention of recurrence of retinal datachment following removal of intraocular silicone oil. METHODS:Laser photocoagulation was performed in a series of 24 cases (24 eyes)which had been formerly operated on with vitreoretinal surgery and intraocular silicone oil tamponade for retinal datachment,2 weeks to 3 months before intraocular silicone oil removal. Argon green or krypton red laser photocoagulation were done in whole or half cycle scattered laser burns behind the sclera! ridge. RESULT:Among the 24 eyes ,after the intraocular silicone oil had been removed, 22 (91.7%)eyes had their retinas retained in normal position. CONCLUSION :Laser photocoagulation before removal of intraocular silicone oil might be helpful in avoiding the recurrence of retinal detachment. (Chin J Ocul Fundus Dis,1997,13: 197-198)
Surgical site infections are the common healthcare-associated infections. This article introduced the guidelines on the prevention and control of surgical site infection in using from background, making progress, and recommendations, to give directions for clinicians and infection prevention and control professionals choosing appropriately for decreasing surgical site infection risks.
ObjectiveTo analyze the relevant factors for surgical site infection. MethodsA total of 677 cases of surgery in one hospital from July 1 to December 31 in 2012 were surveyed (not including implant and cardiac intervention surgeries), which were divided into different groups according to the preoperative incision contamination level, and the postoperative healing of incisions were observed closely. After the patients were discharged, we investigated the situation of incisions by phone or periodic review, and forms were filled in on schedule. ResultsBy follow-up evaluation of the 677 cases, the incisions in 12 cases were infected and the infection rate was 1.77%. Polluted and infected (14.28%, 30.76%) incisions caused more infection than the clean and clean-polluted incisions (0.00%, 0.59%). The patients who stayed in hospital for 4 or more than 4 days before surgeries (infection rate was 4.55%) took more risk of infection than the patients whose preoperative time in hospital were 2-3 days (infection rate was 0.60%) and 1 or shorter than 1 day (0.68%). Perioperative use of antibiotics for longer than 72 hours will increase the risk of incision infection than those within 48 hours (7.69%, 0.00%; P=0.002). ConclusionSurgical site infection is related to the incision type. Shortening the preoperative in-hospital time will reduce the risk of infection. Long time use of antibiotics in perioperative period cannot prevent the postoperative infection effectively, but may increase the risk of infection.
World Health Organization (WHO) published Core Competencies of Infection Prevention and Control Practitioners in 2020. This WHO document is a very useful guide for implementing the core competencies among infection prevention and control professionals (IPCPs). It is useful for standardisation of the competencies in the field of infection control through relevant formal training, practicum and assessment. This paper explains the framework of the WHO-list of core competencies in relation to the role and responsibilities of IPCPs. The value of introducing core competencies to IPCPs is really vital in the recognition of infection prevention and control as a medical specialty field. The IPCPs core competencies is also an essential guide for practitioners to advance in their professional and career development from novice to expert in the infection prevention and control field.
Objective To understand the influence of organisational support and professional identity of hospital infection prevention and control (HIPC) practitioner in public hospitals. Methods HIPC practitioner of the public medical institutions secondary level and above in Neijiang City, Sichuan Province were used as the research object. A questionnaire survey was used to analyze their organizational support and professional identity in May 2022, to compare the differences in organizational support and professional identity among HIPC practitioner with different positions, working ages, and majors, and analyze the correlation between organizational support and professional identity among HIPC practitioner. Results A total of 90 valid questionnaires were retrieved from investigation. The average scores for organizational support and professional identity among HIPC practitioner were (3.409±0.625) and (2.518±0.504) points. Among them, the organizational support of intermediate professional title personnel [(3.155±0.785) points], personnel with 5-10 years of service [(3.071±0.696) points], and clinical physicians [(3.342±0.860) points] were the lowest; the professional identity of personnel with intermediate professional titles [(2.357±0.477) points], those with more than 10 years of service[(2.431±0.454) points], and other professionals [(2.471±0.260) points] were the lowest. The Pearson correlation analysis results showed that there was a positive correlation between organizational support and professional identity (r=0.490, P<0.05), self-identity and work support (r=0.364, P<0.05), and environmental identity and relationship interests (r=0.698, P<0.05). Conclusions Due to the low level of organizational support, there is a decrease in professional identity and significant job burnout, which in turn leads to an increase in the turnover rate of infection control professionals. Therefore, it is necessary to enhance the sense of organizational support for specialized personnel in infection control to promote their professional identity and stabilize the infection control team. Suggest providing necessary support at the organizational level and self-improvement at the individual level.