View clinical trials related to Laparoscopic Hepatectomy.
Filter by:Patients meeting enrollment criteria will be randomized 1:1 to either the dobutamine or the control group. In the dobutamine group, 3~6μg/kg/min dobutamine will be injected intravenously after anesthesia induction until hemostasis is completed. To ensure preload, transesophageal echocardiography (TEE) will be used to monitor left ventricular end-diastolic volume (LVEDV) and stroke volume (SV). In the control group, 3mL/h normal saline will be injected intravenously after anesthesia induction until hemostasis is completed, and the liquid will be restricted according to the currently commonly used principle of low central venous pressure(LCVP), nitroglycerin can be used if necessary.
Postoperative pain after laparoscopic hepatectomy is composed of multiple factors, and the peak pain of postoperative pain mainly occurs within the first 24 hours, so it is particularly important to find an appropriate analgesic method. Transversus abdominis plane block (TAPB) and Rectus sheath blocks (RSB) are widely used in abdominal surgery, but too deep a needle tip during RSB may puncture abdominal organs. TAPB and RSB can only provide somatic analgesia, but lack visceral analgesia. Recently, Erector spinae plane block (ESPB) has been used in some studies for analgesia after abdominal surgery. The purpose of this study is to compare the analgesic effect and postoperative recovery effect of erector spinae plane block and transverse abdominis plane block combined with rectus sheath block in patients undergoing laparoscopic hepatectomy. Therefore, this study has important clinical implications.
Achievement of tumor-free resection margin with the largest possible remnant liver parenchyma is the major challenge in hepatic surgery. Therefore, perioperative tumor detection, anatomical mapping of liver segments and also nearby structures are vital to improve the short- and long-term surgical outcomes. Over last decades, several real-time methods have been introduced for this purpose. These methods are mostly based on the utilizing of traceable dyes, which are excreted into the biliary tract. With the advances in minimal invasive surgery and video technology, indocyanine green became the most used dye in this manner. It has been demonstrated that using indocyanine green, small liver tumors can be detected, which cannot be identified using conventional intraoperative methods. Based on the literature, the reported sensitivity of tumor detection using indocyanine green is ranging between 98%-100%, while conventional methods could not reach 90% sensitivity. Posthepatectomy bile leakage, as well as in- or outflow distributions due to the potential vascular reconstructions, are some of the most common complications that can occur especially after complex liver surgeries. Beside the abovementioned advantages of indocyanine green, several researchers have also shown the feasibility of indocyanine green to identify the intraoperative bile leaks and any in- or outflow distributions. Nevertheless, laparoscopic assisted liver surgery is technically challenging, mostly because of the restricted degrees of instrument movements, camera instability, and loss of depth perception. In particular, the loss of depth perception and inaccurate object localization can lead to intraoperative complications and a long learning curve. Advances in video technology, namely 4K ultra-high-definition imaging have been developed to reduce perioperative complications and to shorten the learning curve during laparoscopic liver surgery. This is the first prospective study evaluating the impact of indocyanine green imaging during 4K laparoscopic liver surgery on real-time tumor detection and surgical outcomes.
The objective of this study is to test the technical feasibility of LapAR visualization system for guiding laparoscopic surgeries and to gather clinical feedback on the use of this tool.
Hepatectomy is the preferred method for the treatment of liver tumors. Since the liver is a double blood supply organ, massive hemorrhage during hepatectomy may lead to hemodynamic instability, prolonged portal vein occlusion and increased ischemia-reperfusion injury. In addition, bleeding during hepatectomy, intraoperative and postoperative blood transfusion are the main causes of postoperative morbidity and mortality. Therefore, bleeding control during liver resection is a critical technique. Based on the fact that liver is more tolerant to warm ischemia and hypoxia, a variety of techniques have been widely used for hepatic blood flow occlusion. With the prevalence of laparoscopy, more patients received laparoscopic resection of liver cancer. Bleeding has become a major constraint, so how to reduce the bleeding and preserve liver function has always been surgeons' concern.As conventional hepatic portal blood flow blocking technology is more mature, the risk of bleeding during laparoscopic liver resection mainly comes from hepatic veins in the process of hepatic parenchymal isolation. Although Ultrasound scalpel and Ligasure have been widely accepted in the treatment of laparoscopic hepatectomy, due to the thin hepatic vein and the high intraluminal pressure, it is also difficult to control the bleeding during surgery. How to prevent hepatic venous hemorrhage has become the key to reduce the bleeding . As sinusoidal pressure is affected by intrahepatic pressure, which is directly related to central venous pressure (CVP), reducing CVP can reduce the pressure in the hepatic veins and sinusoids hence reducing bleeding when the hepatic parenchyma is severed. That is the rationale of controlled low central venous pressure CLCVP) to reduce the risk of hepatectomy, which have been used maturely in open hepatectomy. Due to the low risk of hepatic and renal insufficiency and gas embolism in liver surgery, there is a potential risk of laparoscopic pneumoperitoneum and the risk of laparoscopic pneumoperitoneum is further increased. Therefore, how to implement CLCVP in laparoscopic surgery to reduce the risk of bleeding, also avoiding complications such as bleeding gas embolism, is a clinical problem to be solved, is rarely reported. A prospective randomized controlled trial (RCT) will be performed for laparoscopic hepatectomy in patients combine intraoperative combined hilar intermittent (Pringle method) with or without CLCVP to reduce the bleeding. This study was to investigate the safety and efficacy of CLCVP in combination with intermittent Pringle.
Recent clinical experience showed that laparoscopic hepatectomy has advantages of minimally invasive compared to open liver resection, however, laparoscopic liver resection is still difficult and risky. Currently it is only carried out in a few large medical centers with slow development. The related research studies were retrospective analysis, there were no prospective randomized controlled multi-center study reported. Because of its relatively simple anatomical advantages, left liver seems to be as the best platform to ensure maximum safety and feasibility of prospective randomized study for laparoscopic hepatectomy .This project intends to carry out a prospective randomized controlled multi-center study to look for evidence of safety, efficacy and minimally invasive of laparoscopic left liver resection, evaluate the long-term efficacy including overall survival, disease-free survival as well as time to disease recurrence for the left liver carcinoma.
In the past, the investigators often treated giant cavernous hemangiomas of the liver by hepatectomy.Recently RFA and laparoscopic hepatectomy are also available and could be applied to cure this disease.But we can't get a clear answer about their effectiveness and safety. Hence the investigators conduct this study to explore the effectiveness and efficiency of the these two methods and compare their short to mid-term outcomes.