急性胰腺炎早期胰腺微循环的改变

目的 探讨急性胰腺炎时胰腺微循环的变化。方法 采用文献回顾的方法．对有关急性胰腺炎时胰腺微循环变化进行综述。结果 在急性胰腺炎早期．胰腺微循环发生了一系列变化。主要表现为微血管收缩，血流速度减慢．血管壁通透性升高，白细胞在毛细血管后小静脉壁上黏附，胰腺灌注量减少等。结论 急性胰腺炎早期胰腺微循环紊乱在胰腺炎的发生、发展中起重要作用。     

Therapeutic effect of isovolemic hemodilution with dextran 60 on the impairment of pancreatic microcirculation in acute biliary pancreatitis.

Dextran of different molecular weight (Dx 40, Dx 60/70) has often been evaluated as adjunct treatment of experimental acute pancreatitis. A beneficial effect has been documented by a decrease in its lethality. However, the mechanism of action is poorly understood. A specific effect on the pancreatic microcirculation generally has not been documented and differentiation from unspecific improvement of pancreatic blood flow due to volume expansion has been difficult. This investigation was designed to quantify the effect of dextran on the impairment of pancreatic microcirculation during acute biliary pancreatitis by means of intravital microscopy. Dextran 60 (Dx 60, molecular weight 60,000) was chosen in light of the increase in vascular permeability in the early stage of pancreatitis as demonstrated previously in the same model. Isovolemic hemodilution, i.e., exchange of whole blood for Dx 60 was used as a mode of administration to achieve instantaneous onset of therapy without changes in intravascular volume. In the control group a progressive reduction of pancreatic capillary perfusion commenced 30 minutes after induction of acute pancreatitis, resulting in cessation of nutritive tissue perfusion after 3 hours. In the animals subjected to hemodilution, stabilization of the pancreatic microcirculation was accomplished throughout the observation period of 6 hours. Because volume-related effects could be excluded by the protocol and by monitoring central venous pressure and hematocrit, a specific effect of hemodilution with DX 60 on the pancreatic microcirculation is indicated by our results.     

Pancreatic microcirculation in acute pancreatitis

We present a review of the microvascular morphology of the pancreas and microstructure of the pancreatic lobule, and report our experimental results of the investigation of pancreatic microcirculation following acute pancreatitis. Impairment of pancreatic microcirculation in the early phase of acute pancreatitis may play a key role in the progression of this disease. Possible contributory mechanisms include increased vascular permeability, reduced blood flow, leukocyte-endothelial cell interaction and intravascular thrombus formation. Using an in-vivo microscope system and off-line computer analysis, we achieved direct visualization and quantification of changes in microvascular permeability and leukocyte behavior in pancreas with acute pancreatitis. Bradykinin and oxygen radicals have been demonstrated to be involved in the increase of vascular permeability in the early stage of caerulein pancreatitis. Leukocyte adherence to the vessels in the pancreatic microcirculation is a secondary event following permeability changes in acute pancreatitis. Leukocyte infiltration during exacerbation of acute pancreatitis is mediated by leukocyte-endothelial cell interaction via leukocyte integrin CD11b/18. Received for publication on Jan. 29, 1997; accepted on April 24, 1997     

Microcirculatory derangement and ischemia of the pancreas]

We present a review of the microvascular morphology of the pancreas and microstructure of the pancreatic lobule, and introduce our experimental results on pancreatic microcirculation following acute pancreatitis. Impairment of pancreatic microcirculation in the early phase of acute pancreatitis may play a key role in the progression of this disease. Possible contributory mechanisms include increased vascular permeability, reduced blood flow, leukocyte-endothelial cell interaction, and intravascular thrombus formation. We achieved direct-visualization and quantification of changes in microvascular permeability and leukocyte behavior in the pancreas with acute pancreatitis using an in vivo microscope system and off-line computer analysis. Bradykinin and oxygen radicals have been demonstrated to be involved in the increased vascular permeability in the early stage of cerulein pancreatitis. Gabexate mesilate (FOY) prevents the increase in vascular permeability, resulting in a decreased number of rolling leukocytes. Leukocyte adherence to the pancreatic microcirculation is a secondary event following permeability changes in acute pancreatitis. Leukocyte infiltration during aggravation of acute pancreatitis is mediated by leukocyte-endothelial cell interaction via leukocyte integrin CD11b/18. The diamino-pyridine derivative IS-741 inhibits the progression of pancreatic inflammation by down-regulating the expression of CD11b/18.     

Disturbances of the microcirculation in acute pancreatitis

BACKGROUND: Severe acute pancreatitis is characterized by pancreatic necrosis, resulting in local and systemic inflammation. Pancreatitis affects both the systemic and pancreatic vasculature. This review focuses on the underlying processes involved in the changes of microvascular anatomy following acute pancreatitis. METHODS: A Medline/PubMed search (January 1966 to December 2005) with manual cross-referencing was conducted. All relevant articles investigating the pancreatic microcirculatory anatomy and the effect of pancreatitis on the microcirculation were included. RESULTS: The pancreas is susceptible to ischaemic insult, which can exacerbate acute pancreatitis. There is also increasing evidence of pancreatic and systemic microvascular disturbances in the pathogenesis of pancreatitis, including vasoconstriction, shunting, inadequate perfusion, and increased blood viscosity and coagulation. These processes may be caused or exacerbated by ischaemia-reperfusion injury and the development of oxygen-derived free radicals. CONCLUSION: Acute pancreatitis impairs the pancreatic and systemic microcirculation, which is a key pathological process in the development of severe necrotizing disease.     

A method using laser Doppler flowmetry to study intestinal and pancreatic perfusion during an acute intestinal ischaemic injury in rats with pancreatitis.

Intestinal ischaemia is implicated in the pathogenesis of severe acute pancreatitis, a disorder characterized by acinar necrosis. To study the relationship between pancreatic and intestinal microvascular perfusion during 40 min of intestinal ischaemia and 30 min of reperfusion in rodents with acute pancreatitis, a model utilizing laser Doppler flowmetry was developed. It is reported here together with practical solutions for (1) a modified method of vessel cannulation; (2) a novel method for the temperature-controlled optical coupling between laser Doppler probes and rodent tissues, and (3) a simple technique of inducing intestinal ischaemia-reperfusion while continuously monitoring the microvascular perfusion in both pancreas and intestine. The utility of the model is demonstrated in a pilot study that showed that the pancreatic perfusion fell acutely to 58% (p = 0.029) of baseline during the intestinal reperfusion phase. This reduced perfusion continued for 30 min despite recovery of both the intestinal perfusion and the mean arterial blood pressure to baseline levels.     

Prediction of pancreatic necrosis by dynamic pancreatography.

Parenchymal necrosis has recently been recognized as the principal determinant of the incidence of secondary infection in acute pancreatitis. Because secondary infection of pancreatic necrosis accounts for more than 80% of all deaths from acute pancreatitis, a method for determining the presence or absence of parenchymal necrosis would offer considerable prognostic and therapeutic information. Thirty seven patients with unequivocal acute pancreatitis and five normal controls were prospectively studied with intravenous bolus, contrast-enhanced computed tomography (dynamic pancreatography). In the absence of pancreatic necrosis, there were no significant differences in parenchymal enhancement between any of the following patient groups: controls (5), uncomplicated pancreatitis (20), pancreatic abscess (7), or peripancreatic necrosis (4)(p less than 0.05). On the other hand, pancreatic parenchymal enhancement was significantly reduced or absent in all six patients with segmental or diffuse pancreatic necrosis (p less than 0.05). Postcontrast pancreatic parenchymal enhancement was also found to be inversely correlated with the number of Ranson signs (p less than 0.001). Dynamic pancreatography offers prognostic information and is a safe and reliable technique for predicting the presence or absence of pancreatic parenchymal necrosis.     

The relative safety of MRI contrast agent in acute necrotizing pancreatitis.

OBJECTIVE: To validate the safety of gadolinium-diethylenetriamine pentaacetic acid (GD-DTPA) by measuring its effect on pancreatic capillary perfusion and acinar injury in acute pancreatitis. BACKGROUND: Contrast-enhanced computed tomography (CECT) is proposed as a gold standard for early evaluation of acute necrotizing pancreatitis. However, iodinated contrast media used for CECT have been shown in these circumstances to reduce pancreatic capillary flow and increase necrosis and mortality. Recent reports suggest that post-GD MRI provides images comparable to CECT in the assessment of severe acute pancreatitis. METHODS: Necrotizing pancreatitis was induced in 14 Wistar rats by intraductal glycodeoxycholic acid (10 mM/L) and intravenous caerulein (5 microg/kg/h) over 6 hours. Intravital microscopic quantitation of pancreatic capillary blood flow was performed using fluorescein isothiocyanate-labeled erythrocytes after induction of pancreatitis and 30 and 60 minutes after an intravenous bolus of either Ringer's solution or GD-DTPA (0.2 mL/kg). RESULTS: The two study groups were comparable with regard to mean arterial pressure, heart rate, arterial blood gases, hematocrit, amylase, lipase, and trypsinogen activation peptide production throughout the experiment. GD-DTPA did not reduce capillary flow (1.93 +/- 0.05 nL/capillary/min) compared to animals infused with Ringer's solution (1.90 +/- 0.06 nL/capillary/min). CONCLUSIONS: Intravenous injection of GD-DTPA does not further impair pancreatic microcirculation or increase acinar injury in acute necrotizing pancreatitis. Because of this advantage over CT contrast medium, further development of MRI as a staging tool in acute pancreatitis seems desirable.     

Enzymatic and histologic investigations into the course of pancreatic alterations induced by anti-acinar-cell-antiserum.

A model of acute pancreatitis (AP) was developed by application of anti-acinar-cell-antiserum in rats. Within 24 h postoperatively the binding of antibodies to the pancreas, histological findings, and the activities of lipase and a-amylase in serum and pancreas were analyzed. While after intraaortic administration morphological alterations could not be observed, after single dose intraductal injection, typical macroscopical and histological signs of AP were found. This pancreatic injury was characterized by a mild and protracted course favoring investigations of the early phase of pathogenesis. As soon as 2 h after intraductal application of antiserum, serum amylase and lipase were already increased and microscopic examination of the pancreatic tissue revealed pancreatic edema, inflammatory infiltration and parenchymal necrosis. Intra- and extrapancreatic fat necrosis occurred at 16 h post injectionem. The results suggest that parenchymal damage plays an essential role in the manifestation of this experimental AP and that fat necrosis seems to be a secondary event.     

Enzymatic and histological alterations in the isolated perfused rat pancreas under conditions of oxidative stress

BACKGROUND: Oxidative stress is a relevant event in the pathogenesis of acute pancreatitis. Investigations in vivo are limited because of the complexity of the organism and the short half-life of free radicals. The isolated perfused rat pancreas could be useful for investigations in the early phase of acute pancreatitis especially under conditions of oxidative stress. METHODS: External perfusions of the pancreatic glands of Wistar rats were carried out using a modified Krebs-Ringer buffer including an additive of the detergents Triton X-100 and a perfusion including hydrogen peroxide (0.0012%) or tert-butylhydroperoxide (0.0042%) or xanthine oxidase (0.1 U/ml). Changes in amylase, lipase, LDH in the portal outflow fluid and for histological alterations were analyzed. RESULTS: Damage to pancreatic parenchyma using Triton X-100 was indicated by increased levels of pancreatic enzymes in the perfusion medium. During perfusion with hydrogen peroxide or tert-butylhydroperoxide we found no changes in pancreatic enzymes in the portal outflow. In contrast, perfusion with xanthine oxidase induced a significant elevation in lipase and amylase in the effusion fluid after 30 min. We found a significant increase in edema in the hydrogen peroxide and in the xanthine oxidase group. Focal necroses of the pancreatic parenchyma were detected in all groups of oxidative stress. CONCLUSIONS: The isolated perfused rat pancreas is a valuable experimental model for investigating the early phase of pathophysiology in acute pancreatitis, for instance, the effect of oxidative stress as an early event in acute pancreatitis. Using hydrogen peroxide tert-butylhydroperoxide or xanthine oxidase, only xanthine oxidase was able to induce a typical elevation in the pancreas enzymes in the effusion fluid.     

Caerulein or taurocholate induced enzymatic and histologic alterations in the isolated perfused rat pancreas

Background  Early events in the pathogenesis of experimental acute pancreatitis are intensively studied using isolated cells or animal models. However, the results and their interpretations are dependent on the complexity of biological structures. Therefore, we proposed that studies on isolated perfused pancreas can give additional information about processes leading to acinar cell injury. This hypothesis was examined adapting the well-established caerulein hyperstimulation model and the taurocholate model of acute pancreatitis to the extracorporeal perfused isolated rat pancreas. Materials and methods  The pancreas was removed with the duodenum including the arterial supply. A continuous perfusion of the organ was performed with a modified Krebs–Ringer bicarbonate buffer. Intraarterial caerulein application or an intraductal taurocholate (3.5%) application were used to induce acinar cell injury which was determined as the release of amylase, lipase and lactate dehydrogenase into the portal outflow medium and into the transudation fluid and by examination of histological alterations. Trypsinogen release and activation was followed by analysis of trypsinogen activation peptide (TAP) in the transudation fluid and in pancreatic tissue. Results  Perfusion of isolated rat pancreas with supramaximal concentrations of caerulein or retrograde injection of taurocholate (3.5%) resulted in acinar cell injury indicated by elevated levels of amylase and lipase into the perfusate and into the transudation fluid. TAP levels in the transudation fluid significantly increased after perfusion with caerulein or retrograde injection of taurocholate (3.5%). The histological alterations after taurocholate application include oedema and necrosis and show significant differences to the control perfusion. Extensive pancreatic necroses were not observed after caerulein hyperstimulation. Conclusions  The isolated perfused rat pancreas is a useful model to investigate pathophysiological mechanisms which are relevant for the early phase of acute pancreatitis. The caerulein and the taurocholate models are transferable to the isolated rat pancreas. Studies on isolated perfused rat pancreas enable pathophysiological investigations of the exocrine pancreas without influence of systemic components, but with preserved morphology.     

Isovolemic hemodilution with dextran 60 as treatment of pancreatic ischemia in acute pancreatitis. Clinical practicability of an experimental concept.

OBJECTIVE: This phase-I study transferred the concept of isovolemic hemodilution, which has been proven beneficial in the treatment of experimental acute pancreatitis to the patient. SUMMARY BACKGROUND DATA: Pancreatic ischemia represents one main mechanism in the pathogenesis of necrotizing pancreatitis. Isovolemic hemodilution with dextran 60 has been shown experimentally to limit the progression of pancreatic necrosis by improving pancreatic microcirculation. METHODS: Thirteen patients with clinically severe nonbiliary pancreatitis and CT-classification E according to Balthazar were enrolled. Exclusion criteria were anemia, coronary heart disease, chronic obstructive pulmonary disease, coagulopathies, and secondary referral. The volume of blood to be exchanged for dextran 60 was calculated from a nomogram based on body surface. Isovolemic hemodilution aimed at a hematocrit of 30%. Independent from the exchange procedure conventional fluid resuscitation was performed to adjust the central venous pressure at 6 +/- 2 mm Hg. RESULTS: Whole blood (750-1,700 mL) was exchanged for dextran 60 during 45 to 70 minutes. No adverse effect was encountered; central hemodynamics were not affected. Considering a mean Ranson score of 5, mortality was low (7.7%). Progression of pancreatic necrosis was registered in only two patients subsequently undergoing surgical treatment (15%). CONCLUSIONS: Isovolemic hemodilution is practicable in patients. A randomized trial has to prove whether isovolemic hemodilution can substantially alter the course of acute pancreatitis as anticipated from animal studies.     

不同途径灌注药物对大鼠胰腺炎模型微循环改变的观察

目的 探讨重症胰腺炎的发病机制.方法 胆胰管内逆行加压注射3.5%的牛磺胆酸钠复制大鼠胰腺炎模型,分别经腹主动脉及外周静脉灌注改善微循环药物,用活体显微镜及连续录像摄影观察胰腺等脏器的微循环和病理改变.结果 经腹主动脉灌注较外周静脉灌注药物微循环及病理变化改善显著.结论 胰腺等脏器的微循障碍是重症胰腺炎的始动因素,又是恶化因素.早期经腹主动脉灌注改善微循环药物,可防止重症胰腺炎发展.     

Etiology and pathogenesis of acute pancreatitis]

The pathogenesis of acute pancreatitis is based on the following principles: 1. Biliary. In biliary pancreatitis there is a causal relationship between the induction of acute pancreatitis and the migration of gallstones. The basic pathomechanism seems to be a combination of an increase in permeability and pressure in the ductal system. 2. Intraacinar. Caerulein-pancreatitis is a well established experimental model which reflects the intracellular/interstitial type of activation. Basolateral secretion of pancreatic enzymes into the interstitial space represents the initial event. Intracellular activation of trypsin by the fusion of zymogen-granules and lysosomes has been advocated as an alternative mechanism. 3. Alcohol. The acute alcohol pancreatitis comprises a combined pathogenesis. Obstruction and reflux as well as the cytotoxic effect of alcohol seem to be the main principles. 4. Disturbance of pancreatic microcirculation. Ischemia of the pancreas seems to play a key role in the transition from pancreatic edema to necrosis. Improvement of capillary perfusion by isovolemic hemodilution with dextran 60 has been shown to be an efficient therapeutic tool.     

Platelet function in acute experimental pancreatitis induced by ischaemia-reperfusion

BACKGROUND: Ischaemia-reperfusion (IR)-associated microcirculatory changes play a major role in acute post-transplantation pancreatitis. The pathophysiological role of platelets in these events is unknown. The aim of this study was to examine platelet adhesion and function during early reperfusion after pancreatic ischaemia. METHODS: Rats were subjected to warm pancreatic ischaemia by cross-clamping of the pancreatic vessels for 1 h. After 1 h of reperfusion, platelet-endothelium interaction was evaluated after platelet separation and staining by fluorescence microscopy. Amylase levels and pancreatic histology were evaluated 24 h after reperfusion. Animals treated according to an identical protocol, but without ischaemia, served as controls. RESULTS: Mild pancreatitis had developed by 24 h after IR; serum amylase levels were significantly higher than those in control animals. The numbers of adherent platelets in capillaries and venules were significantly increased, and platelet velocity in capillaries was significantly decreased, in the IR group compared with controls. There was significantly more oedema and inflammation in pancreatic tissue after IR. CONCLUSION: Warm ischaemia for 1 h followed by reperfusion for 24 h caused mild pancreatitis in this experimental model. The pancreatic microcirculation was characterized by pronounced platelet-endothelium interaction in capillaries and venules. These results suggest that platelet activation may play an important role in acute post-transplantation pancreatitis.     

Changes in high-energy phosphate metabolism and cell morphology in four models of acute experimental pancreatitis.

Previous studies using the isolated ex vivo perfused canine pancreatitis preparation showed that during a 4-hour perfusion pancreatitis (edema, weight gain, hyperamylasemia) can be induced by four different stimuli. The stimuli include the intra-arterial infusion of oleic acid (FFA), a 2-hour period of ischemia before perfusion (ISCH), partial obstruction of the pancreatic duct with secretin stimulation (POSS), and the intra-arterial infusion of cerulein at supramaximal doses (CER). In the present study, changes in high-energy phosphate metabolism, as determined by nuclear magnetic resonance spectroscopy, and changes in cellular structure, determined by light and electron microscopy, were documented for all four models of acute pancreatitis. The control preparations remained stable for the 4-hour perfusion period, with no decrease in adenosine triphosphate (ATP) levels. In the FFA preparations, ATP decreased to 36% of baseline levels during the 4-hour perfusion (p less than 0.001). In the ISCH preparations, ATP decreased to undetectable levels during the 2-hour period of ischemia, but recovered rapidly and remained at baseline levels during the perfusion. ATP levels remained stable in the remaining two models of pancreatitis (POSS, CER). Microscopy demonstrated that the initial injury was located chiefly in the capillaries (swollen endothelium, intravascular thrombi) in the FFA and ISCH preparations. In the POSS and CER preparations, capillary changes were minimal and the injury was located chiefly in the acinar cells (swollen endoplasmic reticulum, zymogen granule depletion, vacuolization). The POSS preparations also showed striking dilation of centroacinar lumens reflecting duct obstruction. In additional studies it was shown that the ATP decline in the FFA preparations could be significantly reduced by pretreatment with free radical scavengers. The morphologic changes could be reduced by free radical scavengers in the FFA and ISCH preparations. Any amelioration of morphologic injury in the POSS preparations was obscured by dilatation of centroacinar lumens in both treated and untreated groups. The morphologic changes in the CER preparations were reduced by treatment with a cholecystokinin inhibitor.     

Endotherapy for pancreatic necrosis and abscess: endoscopic drainage and necrosectomy

Pancreatic necrosis and abscess are among the most severe complications of acute pancreatitis. Endoscopic drainage of pancreatic fluid collections has been increasingly performed in many tertiary care centers. The type of fluid collection that is being intervened upon determines the outcome. The development of endoscopic ultrasonography (EUS) has expanded the safety and efficacy of this modality by allowing one to access and drain more challenging fluid collections. The technique and review of current literature regarding endoscopic therapy of pancreatic necrosis and abscess will be discussed.     

Therapy for microcirculatory disorders in severe acute pancreatitis: Effectiveness of platelet-activating factor receptor blockade vs. endothelin receptor blockade

Many of the complications of severe acute pancreatitis are the result of the amplifying effects of microcirculatory disruption. The factors causing microcirculatory disorders in acute pancreatitis involve vasoactive mediators such as platelet-activating factor (PAF) and endothelin-1 (ET) activated during the inflammatory response to pancreatic injury. To further evaluate the potential therapeutic role of specific receptor antagonists (RA) to these mediators, the present study compares the effect of PAF and ET receptor blockade on microcirculation and organ function in a well-established rodent model of severe acute pancreatitis. Six hours after acute pancreatitis induction, rats were randomized to therapy with ET-RA (50 mg/kg LU-135252), PAF-RA (82 μg/kg WEB-2170), or NaCl 0.9% (volume equivalent). After 18 hours of fluid resuscitation, animals were relaparototnized for intravital microscopic determination of capillary blood flow, leukocyte rolling, and capillary permeability in the pancreas and colon. Other measurements included cardiorespiratory parameters, hematocrit, pleural effusions, ascites, urine production, and survival. Compared to saline treatment both ET-RA and PAF-RA significantly improved capillary blood flow in the pancreas and colon, reduced leukocyte rolling, and stabilized capillary permeability. The beneficial effects of receptor antagonist treatment on microcirculation were associated with decreased fluid loss into the third space, improved renal and respiratory function, and survival. Although both receptor antagonists likewise improved capillary blood flow, ET-RA was significantly more effective in counteracting leukocyte rolling and capillary leakage, thereby further reducing fluid sequestration. The present study confirms the beneficial effects of PAF and ET receptor blockade on microcirculation inside and outside the pancreas, organ function, and survival when given at the early stage of severe pancreatitis. Because ET-RA was more effective in stabilizing capillary permeability and avoiding subsequent fluid loss into the third space, we propose that ET-RA should be tested in a clinical trial (either in comparison or in addition to PAF-RA). Presented at the Thirty-Ninth Annual Meeting of The Society for Surgery of the Alimentary Tract, New Orleans, La., May 17–20, 1998.     

Thoracic epidural analgesia augments ileal mucosal capillary perfusion and improves survival in severe acute pancreatitis in rats

BACKGROUND: Acute pancreatitis has been linked to intestinal barrier dysfunction and systemic inflammatory response with high mortality. Thoracic epidural analgesia improves intestinal perfusion. The authors hypothesized that thoracic epidural analgesia influences microcirculation injury, inflammatory response, and outcome of acute pancreatitis in rats. METHODS: Control groups underwent a sham procedure or untreated pancreatitis induced by intraductal taurocholate injection. In the treatment groups, epidural analgesia was commenced immediately or after a 7-h delay. Fifteen hours after injury, the ileal mucosal perfusion was assessed by intravital microscopy. Thereby, the intercapillary area between all perfused capillaries and between continuously perfused capillaries only was used to differentially quantify total and continuous capillary mucosal perfusion. Villus blood flow and serum levels of amylase, lactate, and interleukin 6 were determined, and pancreatic injury was scored histologically. Seven-day survival was recorded in an additional 30 rats undergoing untreated pancreatitis or pancreatitis with epidural analgesia. RESULTS: In untreated pancreatitis, decreased total capillary perfusion increased the total intercapillary area by 24%. Furthermore, loss of continuous perfusion increased continuous intercapillary area to 228%. After immediate and delayed epidural analgesia, continuous perfusion was restored (P < 0.05). Blood flow decreased 50% in untreated pancreatitis but was preserved by epidural analgesia (P < 0.05). Biochemical and histologic signs of pancreatitis were not affected by epidural analgesia. Lactate and interleukin-6 levels increased in untreated pancreatitis, which was prevented in the treatment groups (P < 0.05). Epidural analgesia increased 7-day survival from 33% to 73% (P < 0.05). CONCLUSION: Thoracic epidural analgesia attenuated systemic response and improved survival in severe acute pancreatitis. These effects might be explained by improved mucosal perfusion.     

Effects of combined nutritional therapy on acute necrotizing pancreatitis in rats in the early phase of the disease

The aim of this study was to investigate the influence of a small amount of enteral nutrition along with parenteral nutrition on acute necrotizing pancreatitis (ANP) induced by glycodeoxycholic acid in rats in the early phase of disease. The induction of ANP resulted in a significant increase in mortality rate, intestinal permeability, bacterial infection in the pancreas and extrapancreatic organs, pancreatic necrosis and serum activity of urea and amylase, and a significant decrease in concentrations of calcium, protein and albumin. But no difference was observed between the pancreatitis groups. Significant hyperglycemia and increased liver transaminase activity were observed in rats treated with combined nutritional therapy (CNT). CNT did not improve the course of acute pancreatitis, intestinal permeability, bacterial translocation, or reduce the extent of acinar cell injury in ANP and is therefore unlikely to be of benefit in patients with pancreatitis in the early period.