key: cord-0726427-c12aq90r authors: Cao, Jun; Ge, Zi; Zhao, Hui; Ma, Ke; Xia, Zhijie title: Practice and Evaluation of a Protocol for Collating Information Related to the Emergency Clinical Pathway for Patients With Acute ST-Segment Elevation Myocardial Infarction date: 2022-04-27 journal: Front Cardiovasc Med DOI: 10.3389/fcvm.2022.840715 sha: 3a152ec4733b9a37a991c12bd1c2c85c55881a75 doc_id: 726427 cord_uid: c12aq90r Acute ST elevation myocardial infarction (STEMI) is a common acute and critical disease that requires rapid treatment within a limited window of time. In this study, we attempt to introduce a clinical pathway for the whole-process management of emergency STEMI based on the creation of a specific information system that matches the characteristics of emergency clinical work and evaluates their clinical value by quality control analysis. We deployed this system for 3 years and found that complications, heart failure, and medical costs during hospitalization were significantly reduced (p = 0.019) in patients with STEMI. By analyzing each link in the clinical pathway, our research indicates the clear clinical importance of developing methods to continuously improve data quality. Collectively, out research led to the optimization of an information system that will facilitate the clinical management of patients with STEMI. Acute ST-segment elevation myocardial infarction (STEMI) is one of the most critical diseases that requires emergency quality control. The area affected by myocardial necrosis is known to be linearly correlated with the duration of time elapsed during myocardial infarction (1) . Delaying reperfusion of the coronary artery is known to increase the incidence of heart failure and death (2, 3) . Mortality of STMEI is 4-5% (4) . Therefore, it is critical that we diagnose STEMI as early as possible as there is a very high requirement for timely therapeutic intervention. In China, we have some standards to evaluate the effectiveness of treatment and management. Some diseases such as STEMI and stroke are under control. We send these data each year to health superior. In order to improve the efficiency of emergency management, reduce clinical errors, standardize clinical management strategies, and ensure the safety of patients, we investigated the "single disease management" of hospitalized patients and proposed the concept of a "Clinical Pathway for STEMI in the Emergency Department" based on the clinical characteristics of patients in the emergency room. In January 2018, we constructed an emergency clinical pathway information system to promote the continuous improvement of diagnosis and therapy. In the present study, we evaluated the implementation of our emergency clinical pathway and the practical a value of the system by following-up and analyzing the clinical data from a cohort of emergency STEMI patients between January 2015 and December 2020. This was a retrospective cohort study. The diagnostic criteria used for STEMI was in accordance with the global definition of myocardial infarction (4-7). We screened all emergency patients who had been diagnosed with STEMI between January 2015 and December 2020. The diagnostic criteria of STEMI is severe squeezing pain in the retrosternal or precordial area (usually more than 10-20 min), which can radiate to the left upper arm, mandible, neck, back, or shoulder; often accompanied by nausea, vomiting, sweating and dyspnea. Some patients may have syncope, and nitroglycerin cannot completely relieve the symptom. Electrocardiography (ECG) will show ST-segment arch elevation (monophasic curve) with or without pathological Q wave and depressed R wave, often accompanied by mirror ST segment depression in corresponding leads. If the first ECG could not help diagnosis, it should be reexamined in 15-30 min. The follow-up time nodes were calculated based on the confirmed ECG. Patients with thoracic pain caused by non-coronary artery disease (CAD) and non-ST-segment elevation myocardial infarction (NSTEMI) were excluded. The primary endpoint of our evaluation was death, the discontinuation of treatment, or the reperfusion of vessel, including thrombolysis and direct percutaneous coronary intervention (PCI). All enrolled patients were divided into Group 1 (prior to the implementation of the emergency clinical pathway; 2015-2017) and Group 2 (after the implementation of the emergency clinical pathway; 2018-2020). We developed an information system for the STEMI clinical pathway so that we could grade the management of emergency patients, improve disease assessments, and guide clinical physicians to standardize therapy. First, we separated the entire clinical sequence into several different components and generated a flowchart (Figure 1) . Then, we focused on three key components within the system to become the focal area for quality control (Figure 2) , including the time of first grading, electrocardiogram (ECG) completion, and door-toballoon (DTB). The function of this information system was to facilitate the collection of first-hand clinical data and analysis during the course of management. This system was designed in a specific format and linked to a standard database which provided up-to-date clinical guidelines for the treatment and management of STEMI. To demonstrate the continuity of quality control, we collected a range of emergency data over a 6 year period, baseline demographics (gender, age, previous medical history), the time of symptom onset, the time to arrive at the emergency room, the time of the first ECG and PCI, the length of stay in the hospital, cost, and the incidence of complications or mortality. The complications are pathologic processes that affect patients after STEMI and require medical interventions. They may be related to the disease or the treatment. Complications included heart failure, arrhythmia, dysfunction in other organs (infection of the respiratory system, gastrointestinal bleeding, renal failure, and cerebral hemorrhage) and adverse drug reactions during STEMI treatment. Heart failure could be recognized by the clinical symptoms and signs such as shock, shortness of breath, rales in ausculation after STEMI. All these were related to pump failure and acute cardiogenic pulmonary edema. In statistics, continuous variables are expressed as mean with standard deviation (SD) and categorical data are expressed as percentages. The independent Student's t-test or Mann-Whitney U-test was used to compare continuous variables when appropriate, and the Chi-squared test or Fisher's exact test was used to compare categorical variables between two groups. Statistical tests were two-sided and p < 0.05 was considered statistically significant. All statistical analysis was conducted using SPSS 24.0 (IBM SPSS statistics, United States). Table 1 shows the total number of emergency visits, STEMI patients, and patients who received PCI between 2015 and 2020. A total of 243 patients were included in this study. Table 2 shows a comparison of the demographic characteristics between the two groups. There were no significant differences between the two groups in terms of age, gender, and basic diseases, except for the history of CAD (1.6% vs. 8.5%, p < 0.05). However, time to visit emergency was different significantly between two groups while the time in group 2 was shorter obviously (p = 0.024). There was no significant difference between the two groups in terms of ECG completion time. The mean DTB times for group 1 and group 2 were 152.3 ± 106.1 min and 111.1 ± 56.1 min, respectively; these were significantly different (p < 0.05) ( Table 3 ). The incidence of complications and heart failure events were significantly reduced in the STEMI patients in group 2, although there was no significant difference between the two groups in terms of mortality and length during hospitalization ( Table 4 ). We also found that delayed DBT time was positively correlated with medical costs during hospitalization (Figures 3, 4) . Next, we analyzed the reasons for a delay in door-to-balloon time and identified three main factors: (1) patients were hesitant with regards to receiving PCI treatment (22.7%), (2) critical illness with complications requiring initial cardiopulmonary resuscitation (63.6%), and (3) occupation of the PCI room and the availability of the PCI team (13.6%). Our analysis showed that the morbidity of patients with STEMI remained stable over 6 years, although the total number of visits to the emergency room in 2020 was lower than that in previous years, presumably due to the COVID-19 pandemic. The proportion of cases involving PCI increased year by year. Two of the most important time points in the pathway, ECG and DTB, showed improvement after our emergency information system was deployed. Although, there was no significant difference with regards to ECG time, this change achieved our goal for quality control. Because the total number of deaths remained low in both groups, we compared survival data to identify potential advantages of this information system with regards to complications, hospital admission duration, and medical costs. The new information system also helped to reduce the incidence of complication and events associated with heart failure by achieving better temporal control. Furthermore, the new system also helped us to control hospitalization expenses. The diagnosis and treatment of STEMI patients is subject to specific published guidelines (4-7). The core guidelines for STEMI therapy are relatively fixed, although the implementation of any diagnosis and treatment is not a simple medical decision, especially for emergency clinicians in a complex and changing environment. In addition to the objective state of illness, medical decision making also involves the cognitive ability, economic endurance, emergency response, professional judgment, and the ability of coordinated departments to respond rapidly, including the triage system, medical laboratory, imaging facility, and cardiovascular specialty; this pathway also involves nonmedical personnel who facilitate the transfer of information). The behavior of patients from different sources (urban and rural locations) and different disease histories will also affect the follow-up treatment (8) . Medical staff from different backgrounds may also make different decisions when dealing with the same patient. Medical behavior affects prognosis, and errors in medical behavior can be an important factor that leads to death. Previous researchers have made several attempts to reduce clinical errors and optimize the management of STEMI patients (9) (10) (11) (12) (13) (14) (15) (16) (17) (18) . These efforts have included value judgment from a single indicator such as troponin (19) , the improvement of a single factor (such as deciding who initiates the PCI response) (20) , simulation of the treatment process for a single case (21), evaluation of a chest pain center (22) , and improvements in the health system (23) . In order to change the prognosis of patients and promote human health, it is not only necessary to find new techniques and new ideas in clinic, it is also vital that we carry out reasonable actions at the appropriate times (24) . The introduction of a clinical pathway would reduce the subjective influence of medical personnel, avoid errors, improve the efficiency of diagnosis and treatment, and reduce the cost of operation (25) . In 2009, the Ministry of Health in China promoted the management of "Single disease species" with each disease being associated with a matching clinical path. However, researchers have yet to consider the management of timeeffective requirements for inpatients with STEMI. Therefore, in this study, we created an emergency clinical pathway to improve the management of patients with STEMI. In order to promote the use of this emergency clinical pathway, improve the enthusiasm of medical staff, and reduce workload, we constructed an information system that could be operated at the bedside. The format and logic of our emergency clinical pathway were specifically designed to improve the efficiency and accuracy of information flow. The emergency clinical pathway for STEMI emphasizes the control of time nodes (26) and highlights the requirements for specific quality control points, including the time of completion for the first ECG, the time of anti-thrombotic treatment, the time of consultation, and the door-to-balloon time. Particular emphasis was placed on the timing of ECG and DTB for PCI treatment. Data showed that our information system reduced these critical times and reduced the incidence of complications and the costs involved. Repetition of the diagnostic and treatment process will lead to more standardized care and help to educate patients, so that decisions can be made rapidly and effectively. The value of a clinical pathway is not only to ensure that we can meet the "90 min of DTB time" goal (4), but also to analyze the factors that might influence each link, particularly in cases where the goal is not achieved, thus ensuring the continuous promotion of quality control. Clinical pathway research aims to provide a comprehensive analysis of various behaviors involved in diagnosis and treatment (27) . The results of this study showed that emergency activities, such as ECG and antithrombotic treatment, can be completed within the required time frame, and that the main factors responsible for a delay in the door-to-balloon time were patient hesitancy, a lack of knowledge with regards to the severity of the disease, fear of surgery, or limited economic conditions. It is important that we highlight that our hospital is located in the suburbs. With the promotion of municipal reconstruction projects, a large proportion of the population are introduced to our district every year, including those from urban populations and other provinces. There are highly significant differences between these populations in terms of culture, this may affect the time required for pre-operative conversation. In view of this, our hospital has undertaken various forms of health publicity activities, emphasizing the urgency for critical cardiovascular disease in the emergency department and the need to shorten the time before surgery as much as possible. In this study, we found that the interval from symptom onset to the ER had been reduced and also that the proportion of PCI procedures had increased significantly. This reflects the increased understanding and vigilance of STEMI patients in our region. This improvement of great significance to treatment efficacy and the reduction of complications. In order to ensure that PCI is performed in good time, our clinical pathway information system showed that ECG time and DTB time both need to be improved. Via continuous data analysis and consideration of the actual situation in our hospital, the entire process of diagnosis and treatment was improved in a three-dimensional manner by five mechanisms. First, the 120 warning: the initial diagnosis and ECG carried out in the ambulance created first-hand data. The 120 warning was sent to the emergency triage system directly by telephone and started the green channel immediately. Second, the combination of the emergency clinical pathway, the emergency diagnosis system, and the green channel system, ensures that patients with STEMI do not have to wait. Third, ECG examinations were carried out sooner; patients with chest pain were guided by a nurse to complete ECG examinations as soon as possible so as to avoid a delay in treatment and promote the rapid progression of follow-up diagnosis and treatment. Fourth, the use of point of care testing (POCT) such as rapid TnI represents a valuable step. Finally, antiplatelet drugs are provided in one box so that they can be located quickly. The emergency clinical pathway includes different aspects of clinical and nursing work. Medical staff actively participate in the continuous quality improvement of the STEMI management process and jointly promote the realization of treatment objectives; this system is highly advantageous for the patients involved. It is relatively common for patients with STEMI to experience serious complications. Some patients suffer from malignant arrhythmia and cardiogenic shock when they first arrive at the emergency room. Due to their critical condition, emergency physicians should commence the rescue process according to the emergency information system. The emergency physician should establish a vein pathway and protect the airway and circulation. PCI is now performed for vascular reperfusion by cardiologists under monitoring. The rapid availability of emergency physicians provides a guarantee for follow-up treatment. Efficient cooperation between departments is vital if we are to ensure the safety of patients. Another factor that affects the goal time is the initiation of PCI. This requires that equipment and professionals can become available rapidly. The hospital manager should ensure that the arrangement of the PCI room is appropriate and that there is a specific emergency plan in place; this will allow the PCI team to respond rapidly. The hospital should formulate a series of management systems and provide training for relevant departments, especially with regards to professional skills in the emergency department. The hospital should also organize emergency drills on a regular basis. The realization of this part requires decision-making and persistent promotion at senior levels within the hospital. Information system records can provide effective data feedback to evaluate the efficacy of the improvement measures. The vitality of a clinical pathway is reflected in the continuous self-evaluation and renewal of clinical practice. The proportion of patients who were transferred to another hospital during the initial phases was high but improved over time. There are some limitations to our information system that need to be considered. For example, the software is operated independently by emergency physicians independently; however, the clinical pathway for STEMI begins with getting the patients to hospital. An ideal information system should begin with pre-inspection, timing at every point, and information should be transferred by the unit at the next level. Each member of personnel completed the work within the period required by quality control requirements and submitted the reasons for any deviations from the clinical pathway. The final receiver was able to review all details of the process to formulate more individualized treatment plans for patients. This type of system will integrate all participants in diagnosis and treatment into one system to improve handover efficiency and reduce the errors caused by link changes, thus leading to a safer and more effective protocol. This study applied a new emergency clinical pathway to STEMI patients over a specific period of time and generated an information system for emergency situations according to a specific clinical pathway. The efficacy of the clinical pathway in flow management was evaluated over 6 years of data. The system is highly advantageous in that it considers each link in the clinical process for STEMI and continuously improves data quality. The raw data supporting the conclusions of this article will be made available by the authors, without undue reservation. ZX and JC analyzed and revised the manuscript. ZG and HZ collected the data. JC, KM, and ZX designed the study. All authors contributed to the article and approved the submitted version. 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