Acute Pancreatitis Clinical Trial
Official title:
The Application of Thoracic Epidural Analgesia in Patients With Acute Pancreatitis: A Prospective, Multicenter, Randomized, Parallel-Controlled Clinical Study
Acute pancreatitis (AP) is one of the most common diseases of the digestive system, with its incidence increasing year by year. 15%-25% of patients will develop severe acute pancreatitis (SAP), characterized by necrosis and infection of the pancreas and surrounding tissues, as the investigators as multiple organ dysfunction syndrome (MODS), with a mortality rate as high as 17%. Currently, there is a lack of effective measures in clinical practice to regulate the early inflammation and immune response in acute pancreatitis. Animal experimental studies have confirmed that TEA, by blocking the abdominal sympathetic nerves, increases arterial blood flow and venous capacity, improves pancreatic perfusion insufficiency caused by AP, and alleviates metabolic acidosis. Simultaneously, TEA can suppress the secretion of catecholamines during the stress state of acute pancreatitis, reducing the release of inflammatory mediators and thereby inhibiting the inflammatory response. Our team's earlier animal experiments have further confirmed that TEA improves intestinal inflammation in mice with pancreatitis. This improvement is marked by a significant reduction in the concentrations of inflammatory cytokines such as IL-1β and TNF-α. Additionally, there is an observed alteration in the intestinal microbiota, characterized by an increase in the proportion of beneficial bacteria. Based on these findings, it is speculated that TEA, by reducing catecholamine release and downregulating sympathetic activity, effectively mitigates inflammation and stress responses in patients with pancreatitis. Furthermore, TEA dilates small arteries in blocked segments, thereby improving blood flow and microcirculation within the affected area. Indirectly, TEA increases vagal nerve activity, which in turn slows down the progression of intestinal ischemia, consequently reducing the impact of the "second hit" caused by the translocation of intestinal bacteria and endotoxins into the bloodstream, which exacerbates acute pancreatitis. Despite these promising results, clinical data on the efficacy of TEA in acute pancreatitis remains insufficient. Moreover, the precise mechanisms by which TEA influences the progression and severity of acute pancreatitis are yet to be fully elucidated. In order to further validate the clinical therapeutic effects of TEA and gain a deeper understanding of its mechanisms, the investigators have conducted this clinical study.
Acute pancreatitis (AP) is one of the most common diseases of the digestive system, with its incidence increasing year by year. 15%-25% of patients will develop severe acute pancreatitis (SAP), characterized by necrosis and infection of the pancreas and surrounding tissues, as the investigators as multiple organ dysfunction syndrome (MODS), with a mortality rate as high as 17%. This poses a serious threat to public health and also imposes a heavy burden on medical resources. Further improving the treatment level of acute pancreatitis (especially severe cases) is an urgent problem that needs to be addressed. Acute pancreatitis is a systemic disease. In the early stages of onset, along with local inflammation in the pancreas, there is a release of a large number of inflammatory mediators, leading to systemic inflammatory response syndrome (SIRS). This can subsequently affect multiple systems including respiratory, circulatory, urinary, digestive, and nervous systems, with severe cases leading to multiple organ dysfunction syndrome (MODS). The necrosis and infection of the pancreas and surrounding tissues can lead to a series of local and systemic complications. It has been confirmed that necrosis, infection, and organ dysfunction are the main reasons for the poor prognosis of pancreatitis. During the acute phase of pancreatitis, systemic inflammatory cells become excessively activated and release large amounts of cytokines, triggering a cascade reaction of inflammatory mediators, leading to systemic inflammatory response syndrome (SIRS) and subsequently inducing multiple organ dysfunction syndrome (MODS). The release of inflammatory factors also leads to damage to the intestinal mucosal barrier, allowing harmful substances or bacteria to pass through the damaged intestinal mucosal barrier into the bloodstream or invade other organs outside the intestines, further exacerbating the development of acute pancreatitis. Following the initial phase of acute inflammation and subsequent translocation of intestinal bacteria and endotoxins into the bloodstream, creating a "second hit," the mortality rate of pancreatitis can reach as high as 10-24%. Currently, there is a lack of effective measures in clinical practice to regulate the early inflammation and immune response in acute pancreatitis. In recent years, studies have shown that the nervous, endocrine, and immune systems can interact with each other, exerting mutual constraints and playing important roles in the inflammatory stress response6. Thoracic Epidural Anesthesia (TEA) is a commonly used method of nerve blockade in anesthesia. It involves injecting local anesthetic drugs into the epidural space to block the nerve roots, resulting in paralysis of the innervated area. TEA is widely used for postoperative pain management in thoracic and abdominal surgeries. In patients with acute pancreatitis (AP), TEA can block the transmission pathway of visceral sensory pancreatic pain fibers to the brain, thereby reducing the patient's pain and stress response caused by pain, and alleviating the patient's suffering. Low concentrations of local anesthetics can effectively block the sympathetic nerves corresponding to the segment, by reducing sympathetic nerve tension, dilating small arteries in the corresponding segment, and improving blood flow and microcirculation in the blocked area. Animal experimental studies have confirmed that TEA, by blocking the abdominal sympathetic nerves, increases arterial blood flow and venous capacity, improves pancreatic perfusion insufficiency caused by AP, and alleviates metabolic acidosis. Simultaneously, TEA can suppress the secretion of catecholamines during the stress state of acute pancreatitis, reducing the release of inflammatory mediators and thereby inhibiting the inflammatory response. Furthermore, the excessive release of early inflammatory factors in acute pancreatitis (AP) and ischemia-reperfusion injury, among other factors, lead to the release of intestinal bacterial endotoxins into the bloodstream. This triggers a burst release of pro-inflammatory cytokines such as IL-1β and IL-18, which further exacerbates the damage to the intestinal mucosal barrier. Consequently, this imbalance in the microecological environment causes intestinal mucosal edema, erosion, and initiates a vicious cycle of systemic inflammatory response, leading to multi-organ damage and dysfunction. This cycle is a significant contributor to the high mortality and disability rates associated with severe acute pancreatitis. TEA selectively blocks the efferent sympathetic nerve fibers in the thoracic and abdominal segments, indirectly increasing vagal nerve activity. This promotes gastrointestinal motility, improves intestinal blood circulation, slows down the progression of acute intestinal ischemia, and prevents the translocation of intestinal bacteria and endotoxins across the intestinal mucosa. Our team's earlier animal experiments have further confirmed that TEA improves intestinal inflammation in mice with pancreatitis. This improvement is marked by a significant reduction in the concentrations of inflammatory cytokines such as IL-1β and TNF-α. Additionally, there is an observed alteration in the intestinal microbiota, characterized by an increase in the proportion of beneficial bacteria. Based on these findings, it is speculated that TEA, by reducing catecholamine release and downregulating sympathetic activity, effectively mitigates inflammation and stress responses in patients with pancreatitis. Furthermore, TEA dilates small arteries in blocked segments, thereby improving blood flow and microcirculation within the affected area. Indirectly, TEA increases vagal nerve activity, which in turn slows down the progression of intestinal ischemia, consequently reducing the impact of the "second hit" caused by the translocation of intestinal bacteria and endotoxins into the bloodstream, which exacerbates acute pancreatitis. Despite these promising results, clinical data on the efficacy of TEA in acute pancreatitis remains insufficient. Moreover, the precise mechanisms by which TEA influences the progression and severity of acute pancreatitis are yet to be fully elucidated. In clinical practice, epidural blockade often employs low-concentration local anesthetics combined with opioid medications. Hydromorphone, a semi-synthetic potent opioid, when administered perispinally, not only enhances analgesic effects but also exhibits superior vasodilatory properties compared to other opioids such as epidural morphine and fentanyl. This carries particular clinical significance in improving pancreatic microcirculation in patients with acute pancreatitis (AP). In this study, the investigators propose employing ropivacaine in combination with hydromorphone for TEA. Our aim is to analyze the inflammatory response and clinical efficacy in patients with acute pancreatitis following the early application of TEA, and to elucidate its protective mechanisms. ;
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