View clinical trials related to Pneumoperitoneum.
Filter by:The turbine-based insufflator for minimal access surgery provides a new technological basis for minimal invasive surgery insufflation. Turbine technology permits highly accurate pressure control, an intra-abdominal volume that is dynamically adapted to ventilation, and oscillometric measurements of abdominal compliance. This first-in-human study aims to evaluate technologic feasibility in terms of pressure stability performance and the safety of the device.
The aim of this study is to evaluate the effect of deep neuromuscular block on postoperative pain, duration of surgery, quality of surgical field, length of recovery room stays, Total amount of rescue analgesic, postoperative nausea/vomiting, and length of hospital stay.
The objective of this prospective, international cohort is to incorporate the low stable pressure (using Airseal Insufflator) approach and its associated parameters into the early rehabilitation program after colorectal surgery so as to shorten hospitalization up to the ambulatory care and reduce postoperative pain and opioid consumption.
Commonly the pressure of about 14 mmHg is applied during laparoscopic liver resection (LLR) with moderate neuromuscular blockade. Lowering the pneumoperitoneum pressure combined with deep neuromuscular blockade may sustain optimal operating space with providing better short-term postoperative results. It has been proved in randomized controlled trials in colorectal or bariatric patients, however there is lack of similar data for laparoscopic liver resection. Doubts about lowering the pneumoperitoneum pressure too hasty are supported by apprehension of worse bleeding control during liver parenchyma transection and its impact on postoperative results. The aim of the trial is to assess the impact of standard (14 mmHg; arm 1) versus low (10 mmHg; arm 2) pneumoperitoneum pressure on intraoperative blood loss, what will be the primary outcome. As secondary endpoints following outcomes will be measured: quality of operating space, intraoperative adverse events, quality of recovery, postoperative renal function, 30-day postoperative complications rate, length of hospital stay. The investigators assume that lower pneumoperitoneum provides non-inferior blood loss control during laparoscopic liver resection with better postoperative results.
The present investigation is focused to assess the effects of positive end-expiratory pressure (PEEP) on respiratory system compliance in obese patients invasive mechanical ventilation for laparoscopic or robotic surgery with pneumoperitoneum
The purpose of this study is to asses whether the pressure used for the pneumoperitoneum during laparoscopic surgery in children affects their postoperative pain levels.
This study targets patients undergoing laparoscopic gastric cancer surgery. The investigators would like to compare two factors that influence intracranial pressure through optic nerve sheath diameter measurement. First factor is intraperitoneal pressure. Second factor is epidural pressure. The investigators divided the patients into three groups. Group A is patients with laparoscopic gastric surgery who received epidural injection through an thoracic epidural catheter. Group B is patients with laparoscopic gastric surgery who don't received epidural injection through an thoracic epidural catheter. Group C is patients with open gastric surgery.
This RCT aims to investigate the real surgical effects of MBP prior to the gynecological laparoscopic surgeries. Those effects include lowest pneumoperitoneum pressure, lowest Trendelenburg inclination angle, the ease of the surgical view and the preferences of the patients with objective measures.
The present study is designed to investigate the short-term and long-term renoprotective role of pneumoperitoneum preconditioning in patients undergoing laparoscopic partial nephrectomy.
The proposed study aims to assess the effect of different levels of muscle relaxation on the success of low-pressure insufflation, surgical conditions and patient recovery following laparoscopic repair of a ventral hernia (VHR) between 2 and 10cm in diameter. Patients will be randomized to moderate (TOF 1-2) or deep (post tetanic count 1-2) relaxation. Specific Aim 1. Compare two different modes of neuromuscular blockade (moderate and deep) on the ability to maintain low insufflation pressure during laparoscopic VHR. All procedures will start with low-pressure insufflation (8 mm Hg). Surgeon assessment of the conditions will be serially performed during surgery on an established visual scale. If conditions are deemed less than adequate (score 1-2), insufflation pressure will incrementally increase up to 15 mm Hg. Outcome for this specific aim will be the mean insufflation pressure during each procedure, and the ability to perform low-pressure laparoscopic VHR. Specific Aim 2. Evaluate the success of moderate neuromuscular blockade on the ability to maintain good conditions (visual scale grade 4 or 5) for each. Surgical conditions will be considered successful when scores are maintained at 4 or 5 throughout the duration of the procedure. Outcome for this aim will be the mean score for surgical condition assessment for each procedure, using a previously published surgeon-driven scoring system (score 4-5 will be used as a surrogate of good visualization). Specific Aim 3. Assess patient recovery with low and high insufflation pressures during laparoscopic VHR. Patient overall satisfaction with recovery, pain level, pain medication requirement, PONV incidence and severity will be assessed in multiple time points following surgery. Outcomes for this aim will be mean pain (visual scale), PONV severity (analogue score) and incidence (binary outcome), and patient satisfaction using the QoR-15 survey. Assessments will be performed at 30 minutes, 1, 12 and 24 hours following surgery.