Clinical Research Directory

Deep Breathing Exercises and Incentive Spirometry After Rib Fracture

Chest trauma patients constitute approximately 10-15% of all traffic accidents. Many complications may occur after chest trauma, including rib fracture, pneumothorax, hemothorax, lung contusion, flail chest, atelectasis, respiratory failure and even death. Atelectasis is the most common of these complications. This study planned to investigate the effects of spirometry and deep breathing exercises on oxygenation after rib fracture.

Induction Agent Choice With Early Mortality and Prognostic Outcomes in Critically Ill Patients

The aim of this retrospective cohort study is to compare the safety and efficacy of induction agents for tracheal intubation in critically ill adult patients.

EIT vs Dynamic Compliance Guided PEEP Titration During Laparoscopic Gynecological Surgery

The goal of this randomized controlled clinical trial is to compare the pulmonary protective effects of two different positive end-expiratory pressure (PEEP) titrating methods in patients with non-injured lungs undergoing laparoscopic gynecological surgery. Despite dynamic pulmonary compliance (Cdyn) guided lung protective ventilation has several proven advantages, the investigators hypothesize that optimizing intraoperative mechanical ventilation using electrical impedance tomography (EIT) may further improve patient outcomes, enhance postoperative recovery, shorten in-hospital stay and reduce healthcare related costs. The main questions aim to answer are: * May EIT-guided PEEP titration reduce the mechanical power of ventilation and improve oxygenation more significantly than the Cdyn-guided method? * What effect might a decrease in mechanical power of ventilation have on postoperative pulmonary complications? Participants will: * Receive an EIT-guided or a Cdyn-guided PEEP titration procedure during laparoscopic gynecological surgery. * Be assessed for mechanical power of ventilation, oxygenation, atelectasis and postoperative pulmonary complications during and 2 days after surgery. * Be followed-up for mortality until the 28th postoperative day.

The Impact of Remimazolam Tosilate on Oxygenation and Postoperative Cognitive Function in Elderly Patients Undergoing Thoracoscopic Lobectomy

Background: During thoracoscopic lobectomy in elderly patients, one-lung ventilation (OLV) is a common procedure. However, this process is prone to cause hypoxemia and postoperative cognitive dysfunction (POCD), which seriously affect the postoperative recovery and prognosis of patients. At present, there is still a need for further exploration and optimization of effective anesthetic drugs and regimens to improve intraoperative oxygenation and reduce the occurrence of POCD in such patients. Remimazolam besylate, as a novel anesthetic drug, has not yet had its advantages in thoracoscopic surgery in elderly patients fully clarified. This study is conducted to explore its effects on oxygenation and postoperative cognitive function in this specific surgical setting, so as to provide new references for clinical drug use and improve the perioperative management and postoperative outcomes of elderly patients. Objective:To mainly investigate the effects of remimazolam besylate on oxygenation and intrapulmonary shunting during one-lung ventilation in elderly patients undergoing thoracoscopic surgery, as well as its impact on postoperative cognitive dysfunction. Research Content:The research content includes the observation and evaluation of oxygenation index, shunt fraction, cognitive function status, intraoperative conditions (such as OLV duration, blood loss, etc.),hemodynamic indicators, blood gas analysis indicators, serum indicators, and postoperative recovery status (such as postoperative sedation, pain, adverse reactions, pulmonary complications, hospital stay duration, etc.) in elderly patients undergoing thoracoscopic lobectomy. Research Methods: Study Design: A randomized controlled study will be adopted. Case Selection: Inclusion Criteria: Patients aged 65-75 years old, with a BMI of 18-30 kg/m², ASA classification of I-III, no contraindications to related drugs, and consent from the patient and their family to participate in the study and sign the informed consent form, who are scheduled for thoracoscopic surgery under general anesthesia at the First Affiliated Hospital of Kunming Medical University from December 2024 to December 2025, will be selected. Exclusion Criteria: Patients with severe arrhythmias, preoperative respiratory tract infections, central nervous system diseases, hepatic or renal insufficiency, immune system diseases, a history of preoperative radiotherapy or chemotherapy, communication barriers, etc., will be excluded. Exclusion Criteria: Patients with OLV duration less than 60 minutes or conversion to thoracotomy, intraoperative blood loss greater than 1000 ml, and those transferred to the ICU after surgery will be excluded. Grouping and Anesthesia Methods: Patients will be randomly divided into three groups: Remimazolam Group (R Group), Propofol Group (P Group), and Remimazolam Combined with Propofol Group (C Group), with 50 cases in each group. After anesthesia induction, the three groups will be maintained with different drugs and doses until 10 minutes before the end of the surgery, while remifentanil will be combined, and the infusion rate of the drugs will be adjusted according to the BIS value. Data Collection: Detailed records will be kept of the patient's general information, intraoperative conditions, perioperative cardiovascular reactions, blood gas analysis indicators, serum indicators, as well as postoperative cognitive function assessment, sedation and pain assessment, adverse reactions, and complications. Sample Size Calculation: Based on the oxygenation index at 60 minutes of OLV, which is the primary endpoint, and in combination with relevant literature and statistical requirements, the sample size for each group is calculated to be 58. Considering the dropout and withdrawal rates, the final sample size for each group is determined to be 70. Statistical Analysis: SPSS 27.0 software will be used. Normal distribution measurement data, non-normal distribution measurement data, and count data will be analyzed using independent sample t-test, Wilcoxon rank-sum test, and chi-square test or Fisher's exact probability method, respectively. A P value less than 0.05 will be considered statistically significant. Technical and Feasibility Assurance: Relying on the clinical resources and technical platform of the First Affiliated Hospital of Kunming Medical University, as well as the research team's proficiency in thoracic anesthesia techniques and the operation of related equipment, the smooth conduct of the study will be ensured.

Neonatal Oximeter Bias Study

The study aims to determine if there is a systematic difference (bias) between pulse oximeters used in control systems for automated oxygen delivery (A-FiO2) and those used in monitoring systems. When using A-FiO2 systems there are commonly two oximeter probes on the infant with two difference readouts. Nurses report frustration that the two readings are often markedly different. It is understandable that physiological differences between sensor sites might reflect different regional oxygen saturation levels. It is also possible that there is a relevant systematic bias between difference monitors and sensors. Therefore, a large systematic multicenter study is needed to determine whether these frequent differences should be ignored as physiological noise or considered clinically relevant.

High-Flow Nasal Oxygen for Preoxygenation in Emergency Surgery Patients With Full Stomachs

Patients with full stomachs face a high risk of regurgitation and aspiration under general anesthesia. To minimize the time between the loss of airway protective reflexes and successful tracheal intubation, rapid sequence induction intubation is commonly used. However, these patients are particularly vulnerable to hypoxemia during anesthesia induction, especially in emergency cases. Pre-oxygenation before induction is crucial for ensuring patient safety during apnea. High-flow nasal oxygen (HFNO) therapy, which consists of an air/oxygen blender, an active humidifier, and a single heated circuit, has recently gained widespread use in intensive care units (ICUs) for managing hypoxemic respiratory failure. HFNC can deliver a constant fraction of inspired oxygen (FiO₂) from 0.21 to 1.0 at high flow rates (up to 60 L/min or higher). Its advantages include generating continuous positive airway pressure, reducing anatomical dead space, improving ventilation-perfusion matching, enhancing mucociliary clearance, and decreasing the work of breathing. Given these benefits, HFNO has the potential to improve pre-oxygenation before and during anesthesia induction in emergency surgery patients with full stomachs.