View clinical trials related to Hepatectomy.
Filter by:RAISE is a multicenter randomized controlled trial to assess the efficacy of adjuvant radiotherapy for controlling postsurgical recurrence in HCC patients with narrow margin (≤ 1 cm) after curative resection.
This project proposes to compare epidural versus spinal anesthesia in patients having liver resection surgery. The investigators hypothesize that spinal anesthesia will result in improved blood pressure control postoperatively and reduce the amount of intravenous fluids required after surgery. Spinal anesthesia is expected to provide the same pain control benefits as epidurals, with faster recovery of function. Spinal anesthesia may be a simple and effective way to improve and enhance the recovery in the increasing number of patients requiring liver resection.
The prognosis of small liver cancer (≤5 cm) with stereotactic body radiotherapy (SBRT) is encouraging, the 1-year local control rate has been reported to be 95-100%, 3-year local control rate about 91%, and 3-year overall survival rate around 70%. So far, there is no randomized controlled study comparing SBRT and surgical treatment for early-stage liver cancer. It is hoped that this study will further compare the efficacy of SBRT and surgery for early stage liver cancer.
Pain after hepatectomy can interfere with the patients' recovery and may contribute to developing long term pain. Opioids, e.g. morphine, fentanyl, sufentanil, works well for postoperative analgesia, but have several side effects such as nausea, vomiting and itching which may be severe enough to affect patients' recovery. In some cases, opioids may cause constipation and urinary retention within the first 24 hours after surgery. Thus, several ultrasound-guided nerve block procedures have been applied to provide postoperative analgesia. Ultrasound-guided thoracic paravertebral block (TPVB) is one of the most used nerve block methods using for post-hepatectomy analgesia. However, in some cases, ultrasound-guided TPVB can cause pneumothorax, hemopneumothorax, and higher block level. The quadratus lumborum block (QLB) is a new developed nerve block which can provide a widespread analgesic effect from T7 to L1. Therefore, this study is to determine whether QLB or TPVB have a better pain control with fewer side effects and complications after laparoscopic and open hepatectomy. The adequate pain control will be assessed by their visual analogue score (VAS) and the postoperative quality of recovery scale (QoR-15, Chinese Version). Additionally, the side effect and complications profile of these two nerve block techniques will also be recorded and compared.
- Previous in vitro and in vivo studies detected the Hemopatch Sealing Hemostat® to be a new versatile, self-adhering hemostatic sealing pad consisting of a polyethylene glycol-coated collagen. - Initial study assessed that Hemopatch Sealing Hemostat® can be applied to seal almost any bleeding surface encountered during a range of procedures. The Authors shown that the device is eminently capable in both via laparotomy and laparoscopic approaches, and in patients with impaired coagulation or highly variable anatomies. They support the ease-of-use, application, and immediate hemostatic effect of the patch across a broad range of surgical settings and clinical applications, including solid organ, gastrointestinal, biliopancreatic, endocrine, cardiovascular, and urologic surgeries. - In a recent published case report the authors reported the feasibility in using Hemopatch Sealing Hemostat® for the management of a myocardial wound, performing the procedure on cardiopulmonary bypass, which meant the patient had to be heparinized. Despite these major risk factors for bleeding Hemopatch Sealing Hemostat® managed to contain bleeding and seal the wound without needing any suture. These initial results lead up to future randomized clinical trials with more extensive follow-up to assess which is the real contribution of Hemopatch Sealing Hemostat to reduce postoperative bleeding complications in cases where mechanical or energy-driven hemostasis is not possible or insufficient.
RAMEC is a phase II, multi-center, randomized trial with a safety test. There will be a safety test to establish the safety and tolerability of Neo-MASCT treatment and assess the immune response to the treatment.The randomized trial will assess DFS and immune response.
The purpose of this study is to determine the influence of moderate FiO2 and the lung protective ventilation on postoperative pulmonary complications following hepatic resection surgery.
Blood loss in hepatic surgery is the main factor of postoperative morbidity. The use of the most effective possible tool for hemostasis allows a bleeding decrease during liver transection and thus could reduce postoperative morbidity. In the past decade, the improvement of techniques of transection of the hepatic parenchyma was one of the most important factors to ensure the hepatectomy safety. But the clinical performances of these technological innovations (ultrasound dissectors, monopolar radiofrequency probes and dissection devices using pressurized water) remain still unclear. The medical device of hemostasis Aquamantys® (Salient company, Innopath) use the technology of "transcollation" combining a source of radiofrequency associated with a conductive liquid (NaCl 0.9% solution). The system consists of a specific generator (Aquamantys Pump Generator®) and single-use probes (Aquamantys 2.3 BipolarSealer®). The energy of radiofrequency is delivered by two bipolar electrodes. The innovative aspect of this device consists in maintaining the tissue to a temperature of 100°C, while using a conductive liquid which acts as process of cooling and avoids the drying out of tissues, smoke, risks of electric arc and overheating met with conventional electrosurgery. This device allows the coagulation of blood vessels but also bile ducts. The Aquamantys® system could decrease the postoperative morbidity and mortality due to a decrease of blood loss and biliary leak. These clinical benefits could be translated by an improvement of the direct and indirect costs associated to the surgery. However the Aquamantys® technology has not been scientifically validated in the context of the hepatic surgery, and this technology is expensive due to the purchase of single-use bipolar probes (Aquamantys 2.3 BipolarSealer®) and to the investment in a generator (Aquamantys Pump Generator®). Consequently, it is essential to realize a study measuring the clinical and medical economic impact of the transcollation technology (Aquamantys® device) in the hepatic surgery.
The aim of this study is to characterize Kupffer cell activity and activation of the innate immune response in the early phase of liver regeneration after right hepatectomy. The investigators hypothesise that liver regeneration after right hepatectomy in humans is associated with Kupffer cell activation and initiation of the innate immune response and that impaired liver regeneration, liver failure and sepsis following liver resection are associated with Kupffer cell dysfunction and an impaired innate immune response. The objectives for this study are to characterise Kupffer cell activity and the innate immune response in human liver before and after right hepatectomy.