Johan Sellgren

Sympathetic Muscle Nerve Activity, Peripheral Blood Flows, and Baroreceptor Reflexes in Humans during Propofol Anesthesia and Surgery

BackgroundWith percutaneous recordings of muscle nerve sympathetic activity (MSA), it is possible to study interactions between the autonomic nervous system and anesthetics. This study describes the effects of propofol infusion both before and during microlaryngoscopy. MethodsNine patients participated. MSA was recorded, muscle and skin blood flows were measured. Sodium nitro-prusside-induced decreases in blood pressure were used to quantitate baroreceptor reflex sensitivity. ResultsDuring steady state propofol anesthesia (0.1 mg · kg−1. min−1), “total MSA‘’ (MSA burst area per minute) was 37% (P < 0.05) of awake control value; leg blood flow recorded by strain-gauge plethysmography was 227% (difference not significant); and skin blood flow recorded by laser Doppler flowmetry and finger pulse plethysmography was 300% (P < 0.05) and 376% (P < 0.05) of respective awake control values. During microlaryngoscopy, when mean arterial blood pressure was controlled as close as possible to mean arterial blood pressure in the awake state by individually adjusted propofol infusion rates (average 0.33 mg · kg−1. min−1) MSA was restored to 93% of the activity before anesthesia, and leg blood flow increased further. Both cardiac and muscle sympathetic baroreflex sensitivities were depressed by propofol. During surgery the cardiac baroreflex sensitivity decreased further, whereas the muscle sympathetic baroreflex sensitivity was unchanged. ConclusionsPropofol is a potent inhibitor of sympathetic neuronal activity and decreases the sensitivity of the baroreflex. When used to control the pressor response during surgery, the vasodilatating effect of propofol overrides the neural vasoconstriction induced by surgery, and a further inhibition of the cardiac baroreflex is observed.

Acute renal failure is NOT an "acute renal success"--a clinical study on the renal oxygen supply/demand relationship in acute kidney injury.

Objectives:Acute kidney injury occurs frequently after cardiac or major vascular surgery and is believed to be predominantly a consequence of impaired renal oxygenation. However, in patients with acute kidney injury, data on renal oxygen consumption (RVO2), renal blood flow, glomerular filtration, and renal oxygenation, i.e., the renal oxygen supply/demand relationship, are lacking and current views on renal oxygenation in the clinical situation of acute kidney injury are presumptive and largely based on experimental studies. Design:Prospective, two-group comparative study. Setting:Cardiothoracic intensive care unit of a tertiary center. Patients:Postcardiac surgery patients with (n = 12) and without (n = 37) acute kidney injury were compared with respect to renal blood flow, glomerular filtration, RVO2, and renal oxygenation. Interventions:None Measurements and Main Results:Data on systemic hemodynamics (pulmonary artery catheter) and renal variables were obtained during two 30-min periods. Renal blood flow was measured using two independent techniques: the renal vein thermodilution technique and the infusion clearance of paraaminohippuric acid, corrected for renal extraction of paraaminohippuric acid. The filtration fraction was measured by the renal extraction of 51Cr-EDTA and the renal sodium resorption was measured as the difference between filtered and excreted sodium. Renal oxygenation was estimated from the renal oxygen extraction. Cardiac index and mean arterial pressure did not differ between the two groups. In the acute kidney injury group, glomerular filtration (−57%), renal blood flow (−40%), filtration fraction (−26%), and sodium resorption (−59%) were lower, renal vascular resistance (52%) and renal oxygen extraction (68%) were higher, whereas there was no difference in renal oxygen consumption between groups. Renal oxygen consumption for one unit of reabsorbed sodium was 2.4 times higher in acute kidney injury. Conclusions:Renal oxygenation is severely impaired in acute kidney injury after cardiac surgery, despite the decrease in glomerular filtration and tubular workload. This was caused by a combination of renal vasoconstriction and tubular sodium resorption at a high oxygen demand.

Quality of life after cardiac surgery complicated by multiple organ failure

OBJECTIVE To evaluate quality of life after prolonged multiple system intensive care treatment in cardiac surgical patients. DESIGN A case-control study. SETTING Adult 12-bed thoracic intensive care unit (ICU) at a university teaching hospital. PATIENTS Forty-seven patients surviving multiple organ failure requiring intensive care treatment for > or = 5 days (ICU group). Patients with a completely uncomplicated postoperative course were matched to the study group with respect to gender, age, and type and date of surgery. The Nottingham Health Profile was used to assess quality of life at least 1 yr after complicated cardiac surgery. INTERVENTIONS Quality of life measures were collected at least 1 yr after discharge from the ICU. MEASUREMENTS AND MAIN RESULTS Seventy-five percent of the patients in the ICU group suffered from multiple organ failure involving at least three organ systems, with a mean stay in the ICU of 9.0 +/- 1.2 (SEM) days. Quality of life was considerably reduced in the ICU group, with a higher total mean score of all dimensions of quality of life (22.7 +/- 2.6) compared with the control group (13.2 +/- 2.4 [SEM])(p < .01). The Nottingham Health Profile score was higher in three of six dimensions of health--i.e., energy (p < .05), physical mobility (p < .05), and emotional reactions (p < .05)--compared with the control group. A higher percentage of patients reported problems in three of six important activities of daily life--housework (p < .05), hobbies (p < .01), and sex life (p < .01)--compared with the control group. CONCLUSION Patients treated with prolonged multiple system intensive care after heart surgery have a poor outcome with respect to quality of life measured at least 1 yr after discharge from the ICU.

Low-dose vasopressin increases glomerular filtration rate, but impairs renal oxygenation in post-cardiac surgery patients.

Background: The beneficial effects of vasopressin on diuresis and creatinine clearance have been demonstrated when used as an additional/alternative therapy in catecholamine‐dependent vasodilatory shock. A detailed analysis of the effects of vasopressin on renal perfusion, glomerular filtration, excretory function and oxygenation in man is, however, lacking. The objective of this pharmacodynamic study was to evaluate the effects of low to moderate doses of vasopressin on renal blood flow (RBF), glomerular filtration rate (GFR), renal oxygen consumption (RVO2) and renal oxygen extraction (RO2Ex) in post‐cardiac surgery patients.

Dopamine increases renal oxygenation: a clinical study in post-cardiac surgery patients.

Background: Imbalance of the renal medullary oxygen supply/demand relationship can cause ischaemic acute renal failure (ARF). The use of dopamine for prevention/treatment of ischaemic ARF has been questioned. It has been suggested that dopamine may increase renal oxygen consumption (RVO2) due to increased solute delivery to tubular cells, which may jeopardise renal oxygenation. Information on the effects of dopamine on renal perfusion, filtration and oxygenation in man is, however, lacking. We evaluated the effects of dopamine on renal blood flow (RBF), glomerular filtration rate (GFR), RVO2 and renal O2 demand/supply relationship, i.e. renal oxygen extraction (RO2Ex).

Bedside estimation of absolute renal blood flow and glomerular filtration rate in the intensive care unit. A validation of two independent methods.

ObjectiveTo evaluate various treatment strategies in critically ill patients with ischaemic acute renal failure, there is a need for reliable bedside measurements of total renal blood flow (RBF), glomerular filtration rate (GFR) and renal oxygen consumption without the need for urine collection.DesignThe continuous renal vein thermodilution method and the infusion clearance techniques were validated against the gold standard technique, the urinary clearance of paraaminohippurate (PAH) and chromium ethylenediaminetetraacetic acid, respectively.SettingUniversity hospital cardiothoracic ICU.PatientsSeventeen uncomplicated mechanically ventilated post-cardiac surgical patients.InterventionsNone.Measurements and resultsRenal blood flow, GFR and the renal filtration fraction (FF) were measured for two consecutive 30-min periods by urinary clearance and compared with simultaneous measurements made by the thermodilution and infusion clearance techniques. Urinary clearance for PAH was corrected for by renal extraction of PAH. The within-group error, repeatability coefficient and the coefficient of variation were highest for the thermodilution technique and lowest for the infusion clearance technique with regard to RBF, GFR and FF. The infusion clearance technique had a higher agreement with the urinary clearance method than the thermodilution method. For estimations of RBF and GFR, the between-group errors were 33% and 43% comparing infusion clearance with urinary clearance and 65% and 67% comparing thermodilution with urinary clearance.ConclusionsThe infusion clearance method had the highest reproducibility and the highest agreement with the urinary clearance reference method. The renal vein thermodilution technique is less reliable in the ICU setting due to poor repeatability and poor agreement with the reference method.

Effects of Cardiopulmonary Bypass on Renal Perfusion, Filtration, and Oxygenation in Patients Undergoing Cardiac Surgery

Background: Acute kidney injury is a common complication after cardiac surgery with cardiopulmonary bypass. The authors evaluated the effects of normothermic cardiopulmonary bypass on renal blood flow, glomerular filtration rate, renal oxygen consumption, and renal oxygen supply/demand relationship, i.e., renal oxygenation (primary outcome) in patients undergoing cardiac surgery. Methods: Eighteen patients with a normal preoperative serum creatinine undergoing cardiac surgery procedures with normothermic cardiopulmonary bypass (2.5 l · min−1 · m−2) were included after informed consent. Systemic and renal hemodynamic variables were measured by pulmonary artery and renal vein catheters before, during, and after cardiopulmonary bypass. Arterial and renal vein blood samples were taken for measurements of renal oxygen delivery and consumption. Renal oxygenation was estimated from the renal oxygen extraction. Urinary N-acetyl-&bgr;-D-glucosaminidase was measured before, during, and after cardiopulmonary bypass. Results: Cardiopulmonary bypass induced a renal vasoconstriction and redistribution of blood flow away from the kidneys, which in combination with hemodilution decreased renal oxygen delivery by 20%, while glomerular filtration rate and renal oxygen consumption were unchanged. Thus, renal oxygen extraction increased by 39 to 45%, indicating a renal oxygen supply/demand mismatch during cardiopulmonary bypass. After weaning from cardiopulmonary bypass, renal oxygenation was further impaired due to hemodilution and an increase in renal oxygen consumption, accompanied by a seven-fold increase in the urinary N-acetyl-&bgr;-D-glucosaminidase/creatinine ratio. Conclusions: Cardiopulmonary bypass impairs renal oxygenation due to renal vasoconstriction and hemodilution during and after cardiopulmonary bypass, accompanied by increased release of a tubular injury marker.

Aortic and radial pulse contour: different effects of nitroglycerin and prostacyclin.

UNLABELLED Through vasorelaxation, nitroglycerin is considered to reduce arterial wave reflection and to cause a more pronounced decrease in systolic pressure in the aorta (AoSAP) than in the radial artery (RaSAP). Our aim was to study how radial and aortic pulse wave configurations and the gradient (RaSAP-AoSAP) were affected by nitroglycerin and by prostacyclin, and how these changes correlated to stroke volume, vascular resistance/impedance, and wave reflection. Prostacyclin has not been studied in this context and was chosen because, in contrast to nitroglycerin, it does not reduce stroke volume and reduces afterload by arteriolar dilation. In 18 patients (53-81 yr old; heavily premedicated before coronary artery surgery), blood pressure was measured in both the radial artery and the ascending aorta (tipmanometry), and cardiac output was measured by thermodilution. Mean arterial pressure was reduced stepwise with each drug (mean total decrease 10-12 mm Hg). The initial RaSAP-AoSAP gradient (6 mm Hg) was increased 10 mm Hg by nitroglycerin and was not affected by prostacyclin. The nitroglycerin-induced increase in systolic gradient RaSAP-AoSAP correlated to decreases in stroke volume index, mean arterial pressure, and arterial elastance, but not to decrease in pulse wave augmentation. Thus, decreases in stroke volume index, not wave reflection, seem to be the main reason for an increased RaSAP-AoSAP when nitroglycerin is used in the elderly, hypertensive patient. IMPLICATIONS We studied ascending aortic and radial pulse contours in patients scheduled for coronary artery surgery. The radial pulse wave can be used for interpretation of central hemodynamic changes during nitroglycerin-, but not prostacyclin-, induced hypotension.

Effects of acute plasma volume expansion on renal perfusion, filtration, and oxygenation after cardiac surgery: a randomized study on crystalloid vs colloid

BACKGROUND In the present randomized study, we evaluated the differential effects of a colloid and a crystalloid fluid on renal oxygen delivery (RD(O2)), glomerular filtration (GFR), renal oxygen consumption ((RV(O2))), and the renal oxygen supply-demand relationship (i.e., renal oxygenation) after cardiac surgery with cardiopulmonary bypass. METHODS Thirty patients with normal preoperative renal function, undergoing uncomplicated cardiac surgery, were studied in the intensive care unit in the early postoperative period. Patients were randomized to receive a bolus dose of either a crystalloid (Ringers-acetate 20 ml kg(-1), n=15) or a colloid solution (Venofundin) 10 ml kg(-1), n=15). Systemic haemodynamics were measured via a pulmonary artery catheter. Renal blood flow and GFR were measured by the renal vein retrograde thermodilution technique and by renal extraction of 51Cr-EDTA (=filtration fraction). Arterial and renal vein blood samples were obtained for measurements of renal oxygen delivery (RD(O2)) and RV(O2). Renal oxygenation was estimated from the renal oxygen extraction. RESULTS Despite an increase in cardiac index and renal blood flow with both fluids, neither of the fluids improved RD(O2), because they both induced haemodilution. The GFR increased in the crystalloid (28%) but not in the colloid group. The crystalloid increased the filtration fraction (24%) and renal oxygen extraction (23%), indicating that the increase in GFR, the major determinant of RV(O2), was not matched by a proportional increase in RD(O2). CONCLUSIONS Neither the colloid nor the crystalloid improved RD(O2) when used for postoperative plasma volume expansion. The crystalloid-induced increase in GFR was associated with impaired renal oxygenation, which was not seen with the colloid. CLINICAL TRIAL REGISTRATION NCT01729364.

Interpretation of radial pulse contour during fentanyl/nitrous oxide anesthesia and mechanical ventilation

Background:  Peripheral arterial blood pressure is not a reliable substitute for proximal aortic pressure. Recognition of this phenomenon is important for correct appreciation of cardiac afterload. Our aim was to evaluate the utility of the radial pulse wave to better understand ventriculo‐vascular coupling during anesthesia.