Systemic and Regional Blood Flow During Epidural Anesthesia with Epinephrine in the Rhesus Monkey

Hemodynamic and regional blood flow measurements were made in five rhesus monkeys before and 10, 20, 40 and 80 min after induction of high epidural anesthesia (T1) with lidocaine (1%) containing 1:200,000 epinephrine. Following induction of epidural anesthesia with epinephrine, there were significant decreases in heart rate, mean arterial pressure, cardiac output and myocardial and renal blood flow. The percentage of cardiac output received by the brain was significanly increased following epidural anesthesia with epinephrine, thus evidencing autoregulation to maintain cerebral blood flow. Vascular resistance in the lower extremity was significantly decreased during anesthesia, indicating arteriolar dilatation. Also, during anesthesia, the lungs received a significantly increased proportion of the microspheres, suggesting an increased peripheral arteriovenous shunting of microspheres due to the arteriolar dilatation.     

Decreased cardiac output in humans during laparoscopic antireflux surgery: direct measurements

OBJECTIVE: In a porcine model, we demonstrated that laparoscopic Nissen fundoplication causes a significant drop in cardiac output (30%) because it exposes both the peritoneal cavity and the mediastinum to CO(2) under pressure. To determine if this occurs in humans, we examined cardiovascular physiology during laparoscopic Nissen fundoplication. Because of invasiveness required in this pilot trial, only six patients were studied. METHODS: The arterial blood pressure (via radial arterial catheter) and the pulmonary artery diastolic pressure and cardiac index (via pulmonary artery thermodilution catheter) were measured at seven points in time during each laparoscopic Nissen fundoplication. RESULTS: The systolic blood pressure decreased in all patients, and the cardiac index decreased in all but one patient. The exception was a patient with Huntington disease, in whom the cardiac output did not decrease. In four of the five patients, the cardiac output was lowest during hiatal dissection, and in the fifth, it was lowest after reverse Trendelenburg positioning. No significant change in the pulmonary artery diastolic pressure was noted. All patients received adequate intravenous fluid replacement (average, 58 +/- 16 mL/kg) to support blood pressure. In one patient, with a particularly large paraesophageal hernia, profound hypotension (40/25 mm Hg) developed during the mediastinal phase of the procedure, and this patient required alpha-adrenergic support followed by laparotomy to eliminate a surgical cause (none found). CONCLUSIONS: Although it is a tremendous advance for patients, laparoscopic Nissen fundoplication can be associated with a significant reduction in cardiac output and blood pressure. Surgeons and anesthesiologists must be alert to changes reflecting these decreases during procedures, which violate both the peritoneal cavity and the mediastinum. We propose careful hemodynamic monitoring during these procedures, especially in patients with coronary artery disease or significant left ventricular dysfunction.     

Effects of traumatic hypovolemic shock on renal function

Renal and systemic hemodynamic evaluations were made in 16 patients within 12- to 72-hr after injury in an effort to determine the effects of severe traumatic hypovolemic shock on renal function. Eleven patients were again studied in the convalescent period. All patients had stable vital signs at time of renal evaluation and no patient received vasopressors or diuretics within 24 hr of study.The early postresuscitative period was associated with a significant reduction in effective renal plasma flow, true renal plasma flow, true renal blood flow, renal oxygen consumption, and the percentage of renal blood flow compared to the total cardiac output; renal vascular resistance, osmolar clearance, and sodium clearance were increased at this time. The glomerular filtration rate, extracellular fluid space, cardiac output, and total peripheral resistance remained normal.All abnormal renal parameters returned to normal with convalescence except in those patients who developed nonoliguric renal failure which was associated with a persistant decrease in glomerular filtration rate and effective renal plasma flow during convalescence.The clinical significance of these findings including the roles of loop diuretics and vasodilators are discussed.     

后腔镜三套管自制套索控制肾血管下肾脏肿瘤切除术

目的：探讨后腔镜下肾脏肿瘤切除术中使用三套管自制套索控制肾血管临床应用的可行性。方法：后腔镜三套管自制套索控制肾血管下行肾脏肿瘤切除术5例。5例患者术前无或仅有轻微腰痛，无肉眼血尿及腰部包块，经肾脏B超、CT、MRI检查明确肾脏肿块。结果：本组5例手术均获得成功。手术时间130～180min，平均145min。术中出血量50～150m1，平均85ml。术后住院时间7～9天，平均为8天。肾周引流管留置5天，无并发症。随访4～12个月，B超、CT检查未见肿瘤复发。结论：后腔镜肾肿瘤切除术具有患者创伤小，出血少，康复快，并发症少等优点，而采用三套管自制套索控制肾血管具有操作简单，干扰少，经济等优点。     

Effects of indomethacin on hemodynamics of dogs in refractory hemorrhagic shock.

We examined the effects of indomethacin upon anesthetized control dogs and dogs in refractory hemorrhagic shock. Systemic arterial pressure, central venous pressure, cardiac output, and blood flow to the kidney, the heart, the brain, a small intestinal segment, and a piece of skeletal muscle were measured. Systemic vascular resistance and resistances of the vascular beds of the kidney, the heart, the brain, a small intestinal segment, and a piece of skeletal muscle were calculated. Blood flow distribution within the renal cortex was also examined. Indomethacin treatment had little effect upon dogs that were not in shock. Blood flow to the skeletal muscle was decreased. There was also a redistribution of blood flow within the renal cortex with a greater proportion of renal cortical flow going to the outer cortex. However, systemic vascular resistance, cardiac output, and blood flow to the heart, kidneys, brain, and small intestine were unchanged.The refractory shock state was characterized by low systemic arterial pressure and cardiac output with vascular resistance identical to control. Blood flow to the kidney and brain appears to be decreased while coronary flow is maintained. In addition, the ratio of outer renal cortical blood flow to inner renal cortical blood flow, which in the control dog was about 1.5, decreases to 1.Indomethacin treatment largely reversed the hypotension of refractory shock. The increase in arterial pressure following indomethacin treatment is the result of an increase in systemic vascular resistance. Indomethacin treatment had no effect upon cardiac output. The vascular resistances of the kidney, heart, brain, and small intestine increased following treatment of dogs in refractory shock with indomethacin. Renal blood flow was decreased 57%. The renal cortical blood flow distribution was shifted toward the outer cortex as in the controls.Substances dependent upon prosta glandin synthetase may be involved in the hypotension that is characteristic of refractory hemorrhagic shock and may be important in maintaining blood flow to the kidneys and gut.     

Effects of peritoneal insufflation on hepatic and renal blood flow

The effects of peritoneal insufflation with carbon dioxide on hepatic and renal blood flow have not been reported hitherto. We evaluated these effects in a porcine model of abdominal laparoscopic surgery. Seven anesthetized pigs underwent peritoneal insufflation in a step-wise manner to create intraabdominal pressures of 6, 12, 18 and 24 mmHg, and changes in the arterial and venous pressure, arterial blood gases, and hepatic and renal blood flow were monitored. Both the hepatic and renal blood flow decreased as the intraabdominal pressure increased. Therefore, in order to carry out laparoscopic abdominal surgery safely in patients with hepatic or renal impairment, low intraabdominal pressures or noninsufflating techniques are recommended.     

Detection of organ ischemia during hemorrhagic shock

BACKGROUND: In a porcine hemorrhagic shock model we aimed to determine: (a) whether blood flow to the intestine and kidney was more reduced than cardiac output; (b) whether parameters of anaerobic metabolism correlated with regional blood flow; and (c) whether metabolic parameters in intestine, kidney and skeletal muscles detected a compromised metabolic state at an earlier stage than did systemic parameters. METHODS: In an animal research laboratory at a university hospital six domestic pigs were subjected to volume-controlled hemorrhage. Every 30 min samples of blood were withdrawn. Systemic and regional hemodynamic parameters and tissue levels of PCO2 were monitored. Whole body and organ-specific oxygen consumption (VO2) and veno-arterial (VA) differences of lactate, glucose, potassium (K+), PCO2, H+ and base excess (BE) were calculated every 30 min. RESULTS: With progressive hemorrhage, intestinal blood flow decreased to the same extent as cardiac output, whereas the reduction in renal blood flow was more pronounced. We found a concomitant reduction in VO2 (onset of supply dependent metabolism) in intestine, kidney and skeletal muscles. In muscular tissue PCO2 increased to levels three times higher than baseline, while renal and intestinal PCO2 increased eightfold. Supply dependency was associated with a concomitant increase in VA CO2 and VA H+. Also, VA lactate increased, mostly in intestine and least in skeletal muscle. Intestinal and renal VA K+ increased, while muscular VA K+ decreased. Arterial lactate and H+ increased considerably, whereas arterial BE decreased. CONCLUSION: With progressive hemorrhage, renal blood flow, but not intestinal and skeletal muscle blood flow, was reduced more than cardiac output. Supply dependent oxygen metabolism (VO2) and organ acidosis occurred simultaneously in the three organs, despite differences in blood flow reductions. Organ ischemia coincided with a pronounced change in arterial lactate and systemic acid base parameters.     

Laparoscopic cholecystectomy and time-course changes in renal function

Background: Recently, the retraction method has been used to reduce intraabdominal pressure (IAP) during laparoscopic surgery. The purpose of this study was to determine the serial changes in renal function during laparoscopic cholecystectomy (LC) using the retraction method. Methods: Urine output, effective renal plasma flow (ERPF), and glomerular filtration rate (GFR) were measured serially in seven patients who underwent LC with 12 mmHg pneumoperitoneum (High-IAP group) and five who underwent LC using the retraction method with 4 mmHg pneumoperitoneum (Low-IAP group). Results: Urine output, ERPF, and GFR were decreased during pneumoperitoneum in the High-IAP group, whereas no significant changes in any of these parameters were observed in the Low-IAP group. Conclusions: Our findings demonstrate that reduction of IAP to 4 mmHg using the retraction method prevents the transient renal dysfunction caused by prolonged 12 mmHg pneumoperitoneum during LC, suggesting that the retraction method reduces the risk of perioperative renal dysfunction during laparoscopic surgery. Received: 26 March 1996/Accepted: 27 July 1996     

The influence of periarterial papaverine application on intraoperative renal function and blood flow during laparoscopic donor nephrectomy in a pig model

Background: The transplantation of live donor kidneys harvested laparoscopically is associated with a higher incidence of delayed graft function than the transplantation of grafts harvested via the open technique. The delay is believed to be due to a decrease in renal blood flow during laparoscopic donor nephrectomy (LDN). The aim of this study was to evaluate whether renal function and blood perfusion can be enhanced by the periarterial application of papaverine during LDN. Methods: Renal function and blood flow were studied in a porcine model that included a total of 24 pigs (20–30 kg). In 12 of the pigs, urine output and creatinine clearance were determined as measures of renal function. In the other 12 pigs, renal blood flow was determined using fluorescent-labeled microspheres. In each group, the pigs were randomized into two subgroups, one with and one without a perivascular injection of 50 mg papaverine. Results: As compared to the controls, the animals receiving papaverine had a significantly higher urine output (3.1 ± 1.6 vs 0.9 ± 0.45 ml/h/kg; p = 0.02), superior creatinine clearance (2.22 ± 0.5 vs 0.95 ± 0.1 ml/min/kg; p = 0.038), and enhanced renal blood flow (4.9 ± 2.2 vs 2.1 ± 0.8 ml/min/g; p = 0.008). Conclusions: When applied to the tissue surrounding the renal artery, papaverine substantially improves renal function and blood flow during laparoscopic live kidney donation. Whether graft optimization during kidney procurement also translates into improved posttransplantation function remains to be established. Presented at the 8th World Congress of Endoscopic Surgery, Society of American Gastrointestinal Endoscopic Surgeons (SAGES) meeting, New York, NY, USA, 13–16 March     

Central and peripheral adverse hemodynamic changes during laparoscopic surgery and their reversal with a novel intermittent sequential pneumatic compression device

OBJECTIVE: To study the influence of a novel intermittent sequential pneumatic compression device (Lympha-press) on the adverse cardiac and peripheral hemodynamic changes induced by positive-pressure pneumoperitoneum (PPPn) in laparoscopic surgery. SUMMARY BACKGROUND DATA: Creation of PPPn is known to cause adverse central and peripheral hemodynamic changes. An intrasubject observational study was undertaken to quantitate these adverse changes and to assess the influence of an intermittent sequential pneumatic compression system on these adverse hemodynamic changes during laparoscopic surgery with PPPn. METHODS: The study involved 16 consecutive patients undergoing laparoscopic surgery with PPPn of 12 mmHg and 30 degrees head-up tilt position. The following peripheral hemodynamic recordings were made using Doppler ultrasound: peak systolic velocity (PSV), end diastolic velocity (EDV), and cross-sectional area of the femoral vein. Central monitoring included cardiac output and stroke volume by transesophageal Doppler, blood pressure, and pulse. The hemodynamic state based on these parameters was assessed before induction of PPPn with the anesthetized patient in the supine position, after induction of PPPn and head-up tilt position with Lympha-press off, and during PPPn and head-up tilt position with Lympha-press on, and after desufflation with the patient in the supine position under general anesthesia. RESULTS: Positive-pressure pneumoperitoneum and the head-up tilt position resulted in a 33% reduction in PSV, a 21% reduction in EDV, and a 29% increase in cross-sectional area of the femoral vein. This was associated with a 20% reduction in cardiac output and an 18% reduction in stroke volume. Activation of Lympha-press during PPPn and the head-up tilt position resulted in a 129% increase in PSV and a 55% increase in EDV by 55%. It also increased the cardiac output by 27% and stroke volume by 16%, with no effect on cross-sectional area. Compared with the pre-PPPn stage, there was no difference in cardiac output or stroke volume, but the PSV was higher by 78% and the EDV by 32%. After abdominal desufflation in the supine position, the cardiac output and stroke volume were restored to the pre-PPPn level, but persistent and significant elevations were observed during the period of study in PSV, EDV, and cross-sectional area. CONCLUSIONS: Significant and individually variable central and peripheral hemodynamic changes are encountered during laparoscopic surgery with PPPn and the head-up tilt position. These are reversed by intermittent sequential pneumatic compression using Lympha-press.     

Adenosine in myocardial protection given through three windows of opportunity. An experimental study with pigs

OBJECTIVE: Adenosine (ADO) has been shown to have beneficial effects against tissue injury after myocardial ischemia. However, the timing and dose of ADO administration have not been defined. This study was designed to determine the cardioprotective effect of exogenous ADO in an experimental open heart surgery model in pigs. DESIGN: The animals were openly divided into two groups both undergoing 30 min of total cardiac arrest. In the control group animals received cold crystalloid cardioplegic solution. In the ADO group ADO was added to cardioplegic solution and in addition ADO was infused to the superior vena cava for 2 h starting 30 min before cardiac arrest. The pumping function of the heart was measured with echocardiography and myocardial blood flow was measured with microspheres and positron emission tomography (PET). Cardiomyocyte apoptosis was detected and tumor necrosis factor (TNF) levels were measured. RESULTS: Better post-ischemic pumping function was found in the ADO group (relative decrease 43.7% vs 55.4%, p = 0.20 between the groups). The cardiac output decreased significantly from the baseline values (p < 0.05 in both groups). There was a temporary decrease in myocardial blood flow post-ischemically, followed by a compensatory increase during the later reperfusion period. The cardiomyocyte apoptosis was induced significantly in both groups. CONCLUSIONS: In this experiment two important details were noticed. Firstly, cardiomyocyte apoptosis is involved in ischemia-reperfusion injury associated with open heart surgery. Secondly, PET is a comparable method with the microsphere technique when coronary flow is studied. No significant effects of ADO against ischemia-reperfusion injury could be shown. However, there were some signsof positive outcome, even though statistical significance could not be reached.     

Periarterial papaverine application improves intraoperative kidney function during laparoscopic donor nephrectomy

BACKGROUND: Laparoscopic donor nephrectomy decreases disincentives to donation frequently associated with the disadvantages of open surgery. However, concerns have been raised regarding graft quality, since the incidence of delayed graft function is higher when compared with open procedures. This may be caused by amelioration of kidney perfusion due to the elevated intraabdominal pressure and to a mechanically induced renal angiospasm during donation. This study was addressed to reveal whether the renal periarterial application of papaverine is able to enhance renal blood flow during laparoscopic nephrectomy. MATERIALS AND METHODS: Twelve male piglets underwent left laparoscopic donor nephrectomy after endoscopic occlusion of the right renal vessels and ureter. Urine output and creatinine clearance were determined as indicators of renal blood flow. In the treatment group (n = 6) papaverine hydrochloride was administered to the tissue surrounding the renal artery prior to preparation of the vessels and results were compared with those of controls (n = 6). Free sodium excretion was measured to preclude prerenal failure. RESULTS: In the control group the mean urine output was 0.015 ml/min/kg and the mean creatinine clearance was 0.95 ml/min/kg. In pigs treated with papaverine the mean urine output was 0.052 ml/min/kg and the mean creatinine clearance was 2.22 ml/min/kg. The differences were significant (urine output, P = 0.02; creatinine clearance, P = 0.038). CONCLUSIONS: Papaverine improves renal function during laparoscopic kidney harvest when applied in the vicinity of the renal artery prior to vascular preparation.     

Renal blood flow distribution in septic hyperdynamic pigs

Acute hyperdynamic sepsis in man is associated with increased renal blood flow (RBF) and polyuria, presumably due to high RBF to the medulla causing washout of interstitial osmoles. This presumption was studied in 14 hyperdynamic piglets with hindlimb sepsis and compared to 11 control piglets. RBF distribution was measured by ⁵¹Cr-labeled microspheres previously injected into the left ventricle and compared to cardiac output measured by rate of isotope disappearance.Both septic and control piglets had comparable vital signs at the time of the study. Cardiac output and RBF were significantly increased in septic piglets; cortical flow was also significantly increased whereas medullary flow was only slightly increased. These data demonstrate that polyuria in hyperdynamic septic piglets is not due to interstitial medullary washout secondary to increased medullary flow. Polyuria probably reflects tubular dysfunction unrelated to renal hemodynamic changes.     

THE EFFECT OF INFRARENAL AORTIC CROSS CLAMPING AND DECLAMPING ON RENAL FUNCTION IN THE PIG

Renal insufficiency following periods of infrarenal aortic cross clamping has been reported by some investigators but not by others, and conflicting views have been expressed concerning the ability of renal autoregulation to overcome the adverse circulatory effects of cross clamping. The object of this study was to examine the blood flow distribution to four layers within the renal cortex (subcapsular to juxtamedullary) and measure global renal function following application and release of an aortic cross clamp after 90 min. Nine juvenile female pigs weighing 25 to 50 kg were anaesthetized and subjected to intensive physiological monitoring. Throughout the study the blood pressure and cardiac output were maintained as close as possible to control levels by fluid administration and varying the depth of anaesthesia. Renal cortical blood flow was estimated by means of radionuclide labelled microspheres and global renal function was determined by the measurement of creatinine clearance. The aortic cross clamp was applied for 90 min immediately distal to the renal arteries and proximal to the inferior mesenteric artery. Cardiovascular and renal parameters were recorded on four occasions during each experiment, prior to, 10 and 60 min after cross clamping, and 30 min after clamp release. No significant changes in cardiac output, systemic blood pressure or global renal function were recorded during the study. There was. however, a significant fall in renal blood flow following release of the aortic cross clamp but this was not associated with any significant redistribution of blood flow within the renal cortex. In the pigs studied, the application of an infrarenal aortic cross clamp did not have any adverse effects on the cardiovascular system or on global renal function. Following release of the clamp, however, there was a significant fall in renal cortical blood flow to which, presumably, could predispose postoperative renal insufficiency. It is proposed that intensive cardiovascular monitoring coupled with appropriate corrective therapy would substantially reduce the risk of this complication.     

Effects of indomethacin on blood flow in the normal pancreas in conscious dogs

In anesthetised animals basal pancreatic blood flow, both in the normal gland and in acute pancreatitis, and basal renal blood flow have been shown to be dependent on prostaglandins (PGs). However, in conscious dogs it has been demonstrated that the reliance of basal renal blood flow on PGs is only apparent, and probably due to the effect of anesthesia and surgery stimulating PG synthesis through enhanced stimulation of the sympathetic nervous system. This study was undertaken to investigate the changes in mean blood pressure, cardiac output, and pancreatic arterial blood flow, relative to the cardiac output, in the normal pancreas, with and without PG synthesis inhibition (indomethacin) in conscious dogs. Blood flows were measured with electromagnetic flow probes. The effects of indomethacin were measured over a 2-hr period and compared to a control group. The results show that the relative pancreatic blood flow is not affected by doses of indomethacin which decrease cardiac output (P less than 0.5). It is suggested that PGs may have no effect on blood flow in the normal pancreas in conscious animals.     

The effects of vasoactive drugs on hepatic blood flow changes induced by CO2 laparoscopy: an animal study.

Laparoscopic surgery is associated with systemic and splanchnic hemodynamic alterations. Recent data suggest that small-dose dobutamine may attenuate the reduction in splanchnic blood flow associated with increments in intraabdominal pressure. We conducted this study to analyze the effects of dopamine and dobutamine on the hepatic circulation in this setting. Twenty-one pigs were anesthetized and mechanically ventilated. A flow-directed pulmonary artery and carotid artery catheters were inserted. Perivascular flow probes were placed around the main hepatic artery and the portal vein. CO2 was insufflated into the peritoneal cavity to reach an intraabdominal pressure of 15 mm Hg. After 60 min, animals received dopamine (5 microg x kg(-1) x min(-1); n = 8), dobutamine (5 microg x kg(-1) x min(-1); n = 8), or saline (n = 5) for 30 min. Pneumoperitoneum induced significant increases in heart rate, mean arterial pressure, and systemic vascular resistance, with decreases in cardiac output and hepatic artery and portal vein blood flows. Dobutamine infusion, in contrast to dopamine, corrected, at least in part, cardiac output, systemic vascular resistance, and hepatic artery blood flow alterations, but neither drug restored total hepatic blood flow. IMPLICATIONS: Hepatic blood flow decreases during laparoscopic surgery. A small-dose infusion of neither dobutamine nor dopamine corrects the total hepatic blood flow impairment, but the former is able to restore the hepatic arterial blood supply in an animal model mimicking this condition.     

The effect of somatostatin on central hemodynamics, renal blood flow, and renal function in dogs

We investigated the effects of infusion of somatostatin (200 and 500 ng/kg/min) on central hemodynamics and renal blood flow measured with radioactive microspheres. At the lower dose infusion rate somatostatin did not alter any hemodynamic parameter, but at 500 ng/kg/min somatostatin caused minor transient bradycardia, lowered cardiac output, and increased peripheral resistance. Both infusions inhibited renal arterial flow, with decreases noted in both cortical and medullary components. The 20% fall in renal perfusion was confirmed by the hippurate clearance technique, and there was a corresponding 17% decrease in the glomerular filtration rate. In contrast, no changes were noted in urine output, urinary concentrations of sodium or potassium, or urine osmolarity. These hemodynamic and renal side effects might limit the therapeutic usefulness of somatostatin infusion.     

Low arginine plasma levels do not aggravate renal blood flow after experimental renal ischaemia/reperfusion.

BACKGROUND: Ischaemic renal dysfunction is present in many clinical settings, including cardiovascular surgery. Renal hypoperfusion seems to be the most important pathophysiologic mechanism. Arginine plasma levels are rate limiting for NO synthesis, and low arginine plasma levels are seen after major vascular surgery. OBJECTIVE: to establish the effects of low arginine plasma levels on renal blood flow after renal ischaemia/reperfusion. DESIGN: Wistar rats were used in this unilateral renal ischaemia/reperfusion model. After 70 min of ischaemia, the kidney was reperfused for 150 min. Arginase infusion was used to lower arginine plasma levels. Blood flow measurement was performed at the end of the experiment using radiolabelled microspheres. Additional experiments were performed for histopathology. RESULTS: Arginase efficiently decreased arginine plasma levels to about 50% of normal. There was a lower blood flow in the ischaemic kidney than the contralateral (non-ischaemic) kidney. Lowering arginine plasma levels did not reduce renal blood flow in the ischaemic kidney. Renal histopathology was not influenced by lowered arginine plasma levels. CONCLUSIONS: Lowering arginine plasma levels did not affect blood flow or histology following renal ischaemia and reperfusion.     

Comparative analysis about hemodynamic and renal blood flow effects during open versus laparoscopic nephrectomy. An experimental study

BackgroundThe increase of intraabdominal pressure to 10 mmHg provokes a decrease of renal blood flow (RBF). Pneumoperitoneum during laparoscopic techniques with intra-abdominal pressure (IAP) to 15 mmHg, results in a decrease in RBF, urine output and glomerular filtration rate (GFR).PurposeAnalyze the changes in RBF, urine output an GFR in a porcine experimental model during open vs laparoscopic nephrectomy.Materials and methods30 pigs (medium weigh= 22.6+3.2 Kg) were divided into two groups: Laparoscopic nephrectomy was performed using 15 pigs and open nephrectomy in 15 pigs, following a living donor nephrectomy autotransplantation model. Study parameters were urine volume and GFR baseline values, 30 and 60 minutes during nephrectomy. RBF was measured using an electromagnetic flow catheter around the main renal artery during the initial 60 minutes of nephrectomy.ResultsThe laparoscopic technique was associated with a significant reduction of RBF (80+2.7 vs 262+3 ml/min) (p < 0.005), diuresis (42%) and GFR (38%), vs the open group.ConclusionsLaparoscopic nephrectomy involves a significant reduction of RBF, GFR and diuresis, which is potentially transcendent in living donor nephrectomy and kidney transplantation.