View clinical trials related to Anesthesia.
Filter by:Patients undergoing thoracotomy in thoracic surgery are prone to have complications of delayed recovery from general anesthesia and perioperative instable hemodynamics due to the relatively invasive procedures and patient's underlying morbidity. Therefore, intraoperative monitoring and corresponding management are of great importance to prevent relevant complications in thoracic surgery. This study aims to investigate the clinical benefits of two intraoperative monitoring techniques in patients undergoing thoracotomy surgery, including depth of anesthesia and minimally invasive cardiac output monitoring. First, M-Entropy system will be used to measure the depth of anesthesia and be evaluated regarding the effect of spectral entropy guidance on postoperative recovery. Second, we will apply ProAQT device in guiding goal-directed hemodynamic therapy and assess its impact on occurrence of postoperative pulmonary complications and recovery. In this study, we will conduct a factorial parallel randomized controlled trial and use the method of stratified randomization to evaluate both two monitoring technologies in the same patient group. The results of this study will provide important evidence and clinical implication for precision anesthesia and enhanced recovery after surgery (ERAS) protocol in thoracic surgery.
This study aims to investigate the association between hyperlactatemia and neurological disability, length-of-stay and mortality in patients who undergo tumorcraniotomy. The risk factors that induce lactat accumulation will also be explored.
The process of surgery is a controlled trauma to the body. Trauma induces changes in metabolic function that have evolved to help the body survive injury. The normal balance among use of sugar, fat, and protein for energy production is thought to change during trauma and surgery. This altered metabolic function may contribute to adverse outcomes from surgical procedures especially in the setting of patients with obesity or Type 2 Diabetes Mellitus. However, very little is known about the specific changes in metabolism that occur during surgical procedures. The main objective of this project is to describe the metabolic changes that occur during a typical surgical procedure in detail. In order to measure the alterations in the balanced use of sugar, fat, and protein during surgery we will collect blood samples from patients before, during, and after spinal surgical procedures. Subjects will be enrolled in the pre-operative hold area, give informed consent, and have a dedicated peripheral IV catheter placed. We will recruit patients who are normal weight without diabetes, obese without diabetes, and obese with diabetes. The first specific aim is to characterize the metabolic changes in sugar, fat, and protein balance during surgery in metabolically normal subjects. The second specific aim to examine if there are differences in these changes in subjects who are obese or have diabetes. The final specific aim is to measure the changes in metabolism at high resolution using a method called metabolomics, which is analogous to genome profiling. This method measures hundreds of compounds produced in different amounts as metabolic balance changes. The major impacts that may be derived from these data range from a more thorough understanding of metabolism under trauma to identification of new markers for risk stratification and intervention to improve clinical outcomes. These data will help build the foundation for new approaches to understanding the physiological and metabolic responses to stress and trauma.
Obese patients have a higher risk of anesthesia compared to the non-obese, including difficult intubation, rapid desaturation, difficult vascular access, and delayed recovery from anesthesia. This study aims to investigate the optimal anesthesia strategy for morbidly obese patients undergoing bariatric surgery in airway management, preoxygenation, arterial cannulation, and type of volatile anesthetic with M-Entropy guidance. The investigators will conduct a two-year clinical trial using permuted block randomization to evaluate multiple outcomes in patients undergoing laparoscopic sleeve gastrectomy (LSG) at Shuang Ho Hospital, Taipei Medical University. Particularly, the investigators will explore the role of ultrasound, an easily accessible modality for anesthesiologists, in examining upper airway anatomy and guiding arterial cannulation. The investigators will also assess the effectiveness of high-flow nasal cannula as a preoxygenation tool in preventing desaturation.
The purpose of this study is to determine if a single dose of sublingual sufentanil given 15-30 minutes prior to wake up is efficacious at reducing recovery room time.
To find out the risk factors for postoperative shoulder-tip pain after laparoscopic surgery undergoing general anesthesia.
NIPE monitor is the recently developed pediatric version of the ANI monitor, which is used in adults to monitor analgesia during general anesthesia. In adults, under general anesthesia, ANI decreases after a nociceptive stimulation. The amplitude of this decrease is related to the intensity of the stim. This study aims to investigate if NIPE index decreases in the same manner after stimulations in anesthetized children.
This study aim is to compare the efficiency and safety of segmental epidural block versus general anesthesia in cancer patients undergoing surgical feeding jejunostomy
This is a prospective study that will compare the blood pressure readings from an arterial cannula with those obtained non-invasively by the NICCI device. The study will enroll 50 patients into each of three weight ranges: 10-20 kg, 20-40 kg, and 40-80 kg. The NICCI, Pulsion/GETINGE uses novel technology to provide a continuous estimation of BP displayed as a waveform similar to that seen with an invasive arterial cannula, but is totally non-invasive by using the fingers. The patient rests their hand on the device, which is about the size of a computer mouse, and then a blood pressure cuff goes around their upper arm.
Compares the patients' scores of UPDRS-III before and six-month after receiving deep brain stimulation for Parkinson's disease under MAC or AAA anesthesia.