Cardiac arrest most commonly occurs outside of the hospital, known as out-of-hospital cardiac arrest (OHCA), and is an important global health problem. Approximately 40% of cardiac arrest has no clear cause. Hereditary arrhythmias and cardiomyopathies factors contribute to cardiac arrest. The identification of genetic factors for cardiac arrest after its occurrence is of great value not only for the individual, but also for relatives who may be at risk for the disease in their family. In the United States, there are over 350?000 cases of OHCA and over 200?000 cases of in-hospital cardiac arrest (IHCA) each year, and in Western Europe, cardiac arrest accounts for 15%-20% of all adult natural deaths and 50% of all cardiovascular deaths. In order to reduce the burden caused by cardiac arrest within society, it is essential to further understand its etiological factors, such as incidence in different regions, risk factors, and populations at higher risk. For each individual, cardiac arrest is the result of a complex interaction of genetic and acquired factors. Understanding the complex interplay of pathogenic factors in cardiac arrest and the development of individualized prevention and treatment approaches requires the collection of clinical data from cardiac arrest populations and multimodal analysis in order to identify epidemiological features and risk factors for cardiac arrest. Recently, cardiac arrest-related data are being collected and integrated in Europe in different regions and populations. As a result of the commitment to the creation of large datasets of clinical information on cardiac arrest populations, the knowledge of the pathology of cardiac arrest pathogenesis as well as risk factors is steadily increasing. This article reviews the epidemiologic data of cardiac arrest in recent years and the associated risk factors, thus providing ideas for developing better strategies for the prevention and treatment of cardiac arrest.

Objective:To investigate the current situation and influencing factors of patients′ satisfaction with nursing humanistic care, and to provide reference for improving the quality of such care provided by hospitals.Methods:From July to August 2022, outpatients and inpatients in 30 provinces were selected by multi-stage stratified sampling as the survey objects. A cross-sectional survey was conducted on an online platform, using the general information questionnaire and Chinese version of methodist health care system nurse caring instrument revised by the research group. The latter instrument consists of 12 dimensions. namely care coordination, competence, teaching/learning, emotional support, respect for individuality, physical comfort, availability, helping/trusting relationship, patient/family engagement, physical environment, spiritual environment and outcomes. Descriptive analysis was performed on the data collected by the questionnaires, and independent sample t-test and one-way ANOVA were used to analyze the influencing factors of patient satisfaction. Results:A total of 107 hospitals were selected for questionnaire survey, including 86 tertiary hospitals and 21 secondary hospitals, and 29 108 valid questionnaires were recovered. The patient satisfaction with nursing humanistic care scored (5.40±0.86); the top three dimensions were competence (5.50±0.89), emotional support (5.47±0.88) and helping/trusting relationship (5.46±0.86); the lowest scoring dimensions were teaching/learning (5.38±1.01), spiritual environment (5.36±1.04) and patient/family engagement (5.11±1.28). Differences with gender, age, marital status, child status, educational level, occupation, place of residence, economic region, per capita monthly income of the family, type of medical insurance, medical department visited and surgery or not presented significant differences on the patient satisfaction with nursing humanistic care scores ( P<0.05). Conclusions:The satisfaction of patients with hospital′s nursing humanistic care in China was at the middle to upper level. In the future, health education for patients should be strengthened, and a mode of family-engaged nursing humanistic care should be constructed in line with the Chinese cultural background. In the process of nursing services, the particularity of patient groups should be considered to better meet their needs.

Cardiac fibrosis is a cause of morbidity and mortality in people with heart disease. Anti-fibrosis treatment is a significant therapy for heart disease, but there is still no thorough understanding of fibrotic mechanisms. This study was carried out to ascertain the functions of cytokine receptor-like factor 1 (CRLF1) in cardiac fibrosis and clarify its regulatory mechanisms. We found that CRLF1 was expressed predominantly in cardiac fibroblasts. Its expression was up-regulated not only in a mouse heart fibrotic model induced by myocardial infarction, but also in mouse and human cardiac fibroblasts provoked by transforming growth factor-‍β1 (TGF‍-‍β1). Gain- and loss-of-function experiments of CRLF1 were carried out in neonatal mice cardiac fibroblasts (NMCFs) with or without TGF-‍β1 stimulation. CRLF1 overexpression increased cell viability, collagen production, cell proliferation capacity, and myofibroblast transformation of NMCFs with or without TGF‍-‍β1 stimulation, while silencing of CRLF1 had the opposite effects. An inhibitor of the extracellular signal-regulated kinase 1/2 (ERK1/2) signaling pathway and different inhibitors of TGF-‍β1 signaling cascades, comprising mothers against decapentaplegic homolog (SMAD)‍-dependent and SMAD-independent pathways, were applied to investigate the mechanisms involved. CRLF1 exerted its functions by activating the ERK1/2 signaling pathway. Furthermore, the SMAD-dependent pathway, not the SMAD-independent pathway, was responsible for CRLF1 up-regulation in NMCFs treated with TGF-‍β1. In summary, activation of the TGF-‍β1/SMAD signaling pathway in cardiac fibrosis increased CRLF1 expression. CRLF1 then aggravated cardiac fibrosis by activating the ERK1/2 signaling pathway. CRLF1 could become a novel potential target for intervention and remedy of cardiac fibrosis.
Animals ; Humans ; Mice ; Disease Models, Animal ; Fibroblasts/metabolism* ; Fibrosis ; MAP Kinase Signaling System ; Mitogen-Activated Protein Kinase 3/metabolism* ; Myocardial Infarction/metabolism* ; Receptors, Cytokine/metabolism* ; Signal Transduction ; Transforming Growth Factor beta1/pharmacology*

Humans ; Siblings ; Gene Frequency ; Microsatellite Repeats

Objective:To analized brain function monitoring results with amplitude- integrated electroencephalogram (aEEG) in neonatal ward.Methods:The clinical data of 1 370 newborns received aEEG monitoring in Neonatal Department of our hospital from September 2017 to August 2019 were retrospectively analyzed.Results:Among 1 370 neonates undergoing aEEG examination,abnormalities were demonstrated in 308 cases with an overall abnormal rate of 22.5%. The abnormal rate in critical neonates was 27.7% (240/868),while that in non-critical neonates was 13.6% (68/502) (χ2=36.304, P<0.01). Neonates with convulsion had the highest aEEG abnormal rate (57.1%, 16/28), followed by small for gestational age (SGA) (48.8%, 20/41), asphyxia (41.5%, 49/118), premature (31.1%, 92/296)and erythrocytosis (29.7%, 11/37). Among 308 cases of abnormal aEEG, the main types of abnormalities were abnormal background activity in 229 cases (74.4%),insignificant sleep-wake cycles in 139 cases (45.1%) and abnormal original EEG in 117 cases (40.0%). Among 308 cases of abnormal aEEG, 38.0%(117 cases) had corresponding clinical manifestations and 62.0%(191 cases) had no clinical manifestations. The sensitivity of aEEG monitoring is 73.6%(117/159), and the specificity is 84.2%(1 020/1 211). Conclusions:The abnormal rate of aEEG is high in hospitalized neonates,especially in critically ill neonates. It is necessary to carry out routine aEEG examination for hospitalized neonates in order to early detect brain function damage.

For a long time, C-reactive protein (CRP)and procalcitonin(PCT) have been widely used as sensitive indicators in the diagnosis of bacterial pneumonia.Since the development of lung ultrasound, our group found that in the diagnosis of bacterial pneumonia of the newborn, lung ultrasound is not only superior to the traditional chest X-ray, but also the abnormal signs of lung ultrasound in neonates with pneumonia appear earlier than the traditional sensitive indicators such as CRP and PCT.In this paper, it is introduced through typical cases.

Objective:Lung ultrasound (LUS) has been used in the diagnosis of neonatal respiratory distress syndrome(RDS) successfully, but there have been no multicenter prospective studies to verify its reliability or determine how to grade RDS with LUS findings.This study aimed to discuss the necessity and feasibility of using LUS findings to determine RDS grades through a multicenter prospective study.Methods:Every researcher participated in the National Neonatal Lung Ultrasound Training Course and receiving 3-6 months of lung ultrasound system training at the National Neonatal Lung Ultrasound Training Center.Patients between June 2018 and May 2020 who met the RDS ultrasound diagnostic criteria and had full available clinical data were included in this study.The LUS examination was completed immediately after the patients were admitted to the hospital.Some of them also underwent chest X-ray examination.Arterial blood gas analysis was completed immediately before or after the LUS ultrasound examination.RDS grading was performed according to the LUS findings and whether the patient had serious complications.Results:A total of 275 qualifying cases were included in this study, which included 220 premature infants and 55 full-term infants, and the primary RDS occurred in 117 cases (42.5%), and secondary RDS occurred in 158 cases (57.5%). LUS manifestations of RDS patients can be divided into three categories: (1)A ground-glass opacity sign: which could be found among 50 infants when they were admitted to the hospital (that was, at their first LUS examination). Twenty-eight of these infants were considered to have wet lungs and were not sent for special management on admission, but LUS showed typical snowflake-like lung consolidation within 0.5 to 4 hours.Twenty-two of them were given mechanical ventilation with exogenous pulmonary surfactant; Eighteen cases were controlled within 6-12 hours, but the lung lesions became more severe in the other 4 infants (due to severe intrauterine infection). (2)Snowflake-like lung consolidations: the first LUS on admission showed typical snowflake-like lung consolidation involving areas ranging from 1-2 intercostal spaces to 12 lung divisions in 204 cases.Thirty-eight infants among them the lung consolidation only had involvement of 1-2 intercostal spaces at the time of admission; Fifteen of them received invasive respiratory support and recovered within 4-12 hours.Twelve patients received noninvasive respiratory support; Seven of them recovered, while five cases developed severe lung illness.The remaining 11 patients who were not given any form of ventilator support developed severe conditions within 1-4 hours.Thirty of them showed snowflake signs involving 12 lung regions at admission.The remaining 136 patients had lung consolidation degree between the two degree above condition.(3)Snowflake-like sign with complications: Twenty-one patients had severe complications such as pneumothorax, pulmonary hemorrhage or/and persistent pulmonary hypertension of the newborn or large area atelectasis, etc, although snowflake lung consolidation did not involve all lung regions.Conclusion:(1) LUS is reliable and accurate for diagnosing RDS.RDS has the same characteristics on ultrasound for both preterm and full-term infants, both primary and secondary RDS.(2) To facilitate the management of RDS, it is necessary to classify RDS according to the ultrasound findings and the presence of severe complications.(3) Based on the results of this study, it is recommended that RDS can be divided into mild, moderate and severe degrees.The exact standards for grading are as follows: Mild RDS: the early stage of RDS, in which lung consolidation shows as a ground-glass opacity sign on ultrasound; Moderate RDS: lung consolidation shows a snowflake sign on ultrasound, not all of the lung fields are involved; Severe RDS meets one or more of the following criteria: lung consolidation shows as a snowflake sign on ultrasound and all lung regions are involved, or regardless of its degree and extent, lung consolidation has caused serious complications, such as pulmonary hemorrhage, pneumothorax, persistent pulmonary hypertension of the newborn, or/and a large area of pulmonary atelectasis.

Objective:To investigate the feasibility and characteristics of ultrasound imaging in diagnosing fractures in neonates.Methods:Thirty neonates with bone fracture in Beijing Chaoyang District Maternal and Child Healthcare Hospital during January 2018 to June 2019 were retrospectively recruited. The causes and ultrasound imaging features of these cases were analyzed. The ultrasound findings were compared with the results of X-ray examination.Results:Among the 30 cases, 29 (96.7%) were diagnosed as fracture due to birth trauma, including 28 (93.3%) of clavicle fracture and one (3.3%) of humerus fracture, and one (3.3%) with rib fracture probably caused by metabolic osteopathy. The ultrasound imaging characteristics included interruption of bone continuity, dislocation and/or angulation of fracture ends, and callus formation during recovery. All of the 30 cases were diagnosed by ultrasound. However, X-ray examination failed in the diagnosis of one clavicle fracture.Conclusions:Ultrasound is an accurate and reliable method for the diagnosis of neonatal fracture. The main characteristics of ultrasound imaging include interruption of bone continuity, dislocation and/or angulation of fracture ends and callus formation.

Both respiratory distress syndrome of newborn and wet lung of newborn are the common reasons of neonatal respiratory dyspnea,but their treatments and prognosis are much different. It is difficult to differentiate them by clinical features and chest X-ray while the lung ultrasound can do it easily. In lung ultra-sonography images,the wet lung mainly manifestsd with pulmonary edema,while the respiratory distress syn-drome of newborn mainly manifested with lung consolidation with air bronchograms. Thus,it is important to perform lung ultrasound routinely at the bed side. It is suggested that neonatologist should master certain lung ultrasound skills,so as to facilitate the real-time monitoring of the changes of neonatal lung ultrasound.

Objective To summarize the routine application of neonatal lung ultrasound in neonatal and NICU department of our hospital in the past 2 years,and to explore the feasibility of using ultrasound in-stead of X-ray in diagnosing pulmonary diseases in neonatal ward. Methods From March 2017 to May 2019,a total of 2 874 children hospitalized in the department of neonatology in our hospital were collected to analyze the types of pulmonary diseases and the reliability of lung ultrasound diagnosis. Results A total of 2 874 children received lung ultrasound examination for 7 902 times,including 1 040 patients(36. 2%) with pulmonary disease and 1 834 patients(63. 8%)without pulmonary disease. There were 152 cases of neonatal respiratory distress syndrome,112 cases of wet lung,652 cases of pneumonia,87 cases of meconium aspira-tion syndrome,12 cases of pneumothorax ( including 1 case with mediastinal emphysema),and 25 cases of pulmonary hemorrhage. Among the 2 874 children,106 received X-ray examination of the lungs before admis-sion,and received dynamic monitoring of lung ultrasound. Ninety-six cases were found to have pulmonary lesions,among which 8 cases were diagnosed with neonatal respiratory distress syndrome by X-ray examina-tion and wet lung by lung ultrasound,and recovered quickly after treatment according to wet lung. In 2 cases, X-ray examination showed no pneumonia complicated with pneumothorax,while ultrasound diagnosis showed a small amount of pneumothorax, and ultrasound diagnosis showed pneumonia complicated with a small amount of pleural effusion in 1 case. The diagnostic coincidence rate was 91. 7%. Conclusion It is feasible to use ultrasound instead of X-ray to diagnose pulmonary diseases in neonatal wards. Ultrasonic diagnosis of neonatal pulmonary diseases is worth promoting.