Clinical physiological parameters for the prediction of gram-negative bacterial infection in the emergency department.

BACKGROUND: Early detection and treatment of Gram-negative bacteria (GNB), major causative pathogens of sepsis (a potentially fatal condition caused by the body's response to an infection), may benefit a patient's outcome, since the mortality rate increases by 5-10% for each hour of delayed therapy. Unfortunately, GNB diagnosis is based on bacterial culture, which is time consuming. Therefore, an economic and effective GNB (defined as a positive blood, sputum, or urine culture) infection detection tool in the emergency department (ED) is warranted. METHODS: We conducted a retrospective cohort study in the ED of a university-affiliated medical center between January 01, 2014 and December 31, 2017. The inclusion criteria were as follows: (1) age ≥ 18; (2) clinical suspicion of bacterial infection; (3) bacterial culture from blood, sputum, or urine ordered and obtained in the ED. Descriptive statistics was performed on patient demographic characteristics, vital signs, laboratory data, infection sites, cultured microorganisms, and clinical outcomes. The accuracy of vital signs to predict GNB infection was identified via univariate logistic regression and receiver operating characteristic (ROC) curve analysis. RESULTS: A total of 797 patients were included in this study; the mean age was 71.8 years and 51.3% were male. The odds ratios of patients with body temperature ≥ 38.5 °C, heart rate ≥ 110 beats per minute, respiratory rate ≥ 20 breaths per minute, and Glasgow coma scale (GCS) < 14, in predicting GNB infection were found to be 2.3, 1.4, 1.9, and 1.6, respectively. The area under the curve values for ROC analysis of these measures were 0.70, 0.68, 0.69, and 0.67, respectively. CONCLUSION: The four physiological parameters were rapid and reliable independent predictors for detection of GNB infection.

Can EMS providers and emergency department nurses work together to identify home risk factors for falls in older people?

Taiwan is an aging society and the ratio of falls among the older persons is high. Most falls occur at home, and multiple risk factors including home safety are involved. We propose a novel model of emergency medical technicians (EMTs) to assess home safety using scalable checklists. This study was conducted to evaluate its feasibility. This study was conducted between April 1, 2020 and March 31, 2021. The development of the risk factor assessment scale for falls in the home environment was divided into 2 stages. In stage 1, 2 researchers reviewed the extant literature. In stage 2, 6 experts judged the content validity index. According to EMT findings, emergency department (ED) nurses checked the items in the Checklist of Risk Factors for Falls in the Home Environment. The checklists were provided to the geriatric care manager (GCM) in the ED, who then discussed potential solutions with the patients or primary caregivers. A total of 235 participants were enrolled, and EMTs carried out environment assessment for 93.2% (219/235) of them. A total of 207 participants were at risk of falls at home and 79.7% (165/207) of them received intervention measures from the GCM according to the risk items. Education was the main intervention method, with 158 subjects. Moreover, seven subjects (4.2%, 7/165) were provided long-term care resources by the GCM with occupational therapists to help improve the environment at home. Our study provides an efficient method for EMTs to assess home fall hazards.

Using Container Houses to Reduce the Risks to Health-Care Workers While Performing the Throat Swab Test and Blood Sampling for SARS-CoV-2.

Coronavirus disease 2019 (COVID-19) is still pandemic all over the world. Patients requesting screening in emergency departments (ED) have continually increased. Establishing additional screening stations outside of the ED to increase the number of patients tested and protect the safety of health care workers poses an urgent challenge. We employed a container house near the entrance of an ED to create an outdoor screening station, which separates suspected patients of COVID-19 from regular emergency patients to prevent cross infections. In our experience, a container house station can not only provide additional screen area but also reduce the consumption of personal protective equipment. Container houses are sturdier than tents and can be fully assembled rapidly. Appropriate protective equipment can be installed with them to fulfi ll demands for COVID-19 screening.

Use of Plastic Bag to Reduce Risks in Operators During Endotracheal Intubation of Patients With Coronavirus Disease 2019.

The rapid spread of coronavirus disease 2019 (COVID-19) has led to a large number of patients being admitted to hospitals, resulting in a near collapse of the medical system. The shortage of negative pressure isolation rooms and personal protective equipment is a potential problem. It is a pressing challenge to prevent the risk of infection in emergency physicians (EPs) during the endotracheal intubation of patients with COVID-19. We used a large clear plastic bag, cut an opening that covered the patient's head, and created a negative pressure environment inside the plastic bag using the hospital's medical gas pipeline system; thus reducing the amount of virus-containing aerosols leaked out and the risk of infection in the operators performing intubation. The video (http://www.caregiver.com.tw/Article.asp?ID=1258#article) about the detailed preparation of the plastic bag intubation kit (PBIK) has been posted on the website. This technique for safe endotracheal intubation in patients with COVID-19 is being used not only by EPs in Taiwan, but also by physicians and paramedics from other countries. Regarding designing the PBIK, our original intention was to use readily available materials to make tools that can improve the safety of the operators performing the intubations in situations where medical resources are exhausted. However, due to limited time and patients, further research is needed for validation.

Comprehensive residency-based point-of-care ultrasound training program increases ultrasound utilization in the emergency department.

ABSTRACT: Point-of-care ultrasonography (POCUS) is a prompt and simple tool for the urgent diagnosis and treatment of patients in the emergency department (ED). We developed a comprehensive residency-based POCUS training program for ED residents and determined its effect on ultrasound utilization in the ED.We conducted a retrospective cohort study in the ED of a university-affiliated medical center, to evaluate a centralized residency-based POCUS training course for ED residents, which included 12 core ultrasound applications, from July 2017 to June 2018. Each application comprised a combined lecture and hands-on practice session that lasted for 2 hours. Pre-tests and post-tests, including still image and video interpretation, were performed. The use of POCUS (number of ultrasound studies performed divided by the number of patients each resident saw in 1 year) among ED residents, before and after the POCUS training course (July 2016-June 2017 and July 2018-June 2019), was calculated and analyzed using the Wilcoxon signed-rank test.Sixteen residents participated and completed the entire training course. The post-test score was significantly better than the pre-test score, by a median of 12 points (P = .04). Utilization of POCUS among the ED residents increased significantly, from 0.15 ultrasound studies per patient per year to 0.41 ultrasound studies per patient per year (P < .01), after completion of the entire training course. Increased POCUS scanning percentages over the cardiac tissue, soft tissue, abdominal region, vascular system, procedural guidance, and ocular regions were also noted after providing the curriculum.Conducting a comprehensive POCUS education program may enhance POCUS utilization among residents in the ED.