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Hemodynamic Profiles (hemodynamic + profile)

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Medical Sciences100%

Selected Abstracts

Hemodynamic profile and tissular oxygenation in orthotopic liver transplantation: Influence of hepatic artery or portal vein revascularization of the graft

LIVER TRANSPLANTATION, Issue 11 2006
Carlos Moreno
We performed a prospective, randomized study of adult patients undergoing orthotopic liver transplantation, comparing hemodynamic and tissular oxygenation during reperfusion of the graft. In 30 patients, revascularization was started through the hepatic artery (i.e., initial arterial revascularization) and 10 minutes later the portal vein was unclamped; in 30 others, revascularization was started through the portal vein (i.e., initial portal revascularization) and 10 minutes later the hepatic artery was unclamped. The primary endpoints of the study were mean systemic arterial pressure and the gastric-end-tidal carbon dioxide partial pressure (PCO2) difference. The secondary endpoints were other hemodynamic and metabolic data. The pattern of the hemodynamic parameters and tissue oxygenation values during the dissection and anhepatic stages were similar in both groups At the first unclamping, initial portal revascularization produced higher values of mean pulmonary pressure (25 ± 7 mm of Hg vs. 17 ± 4 mm of Hg; P < 0.05) and wedge and central venous pressures. At the second unclamping, initial portal revascularization produced higher values of cardiac output and mean arterial pressure (87 ± 15 mm of Hg vs. 79 ± 15 mm of Hg; P < 0.05) and pulmonary blood pressure. Postreperfusion syndrome was present in 13 patients (42.5%) in the arterial group and in 11 patients (36%) in the portal group. During revascularization, the values of gastric and arterial pH decreased in both groups and recovered at the end of the procedure, but were more accentuated in the initial arterial revascularization group. In conclusion, we found that initial arterial revascularization of the graft increases pulmonary pressure less markedly, so it may be indicated for those patients with poor pulmonary and cardiac reserve. Nevertheless, for the remaining patients, initial portal revascularization offers more favorable hemodynamic and metabolic behavior, less inotropic drug use, and earlier normalization of lactate and pH values. Liver Transpl, 2006. © 2006 AASLD. [source]

Transcatheter versus Surgical Closure of Secundum Atrial Septal Defect in Adults: Impact of Age at Intervention.

CONGENITAL HEART DISEASE, Issue 3 2007
A Concurrent Matched Comparative Study
Abstract Objectives., To compare the short- and mid-term outcomes of surgical (SUR) vs. transcatheter closure of secundum atrial septal defect (ASD) using Amplatzer septal occluder (ASO) in adults with a very similar spectrum of the disease; and to identify predictors for the primary end point. Design., Single-center, concurrent comparative study. Surgically treated patients were randomly matched (2:1) by age, sex, date of procedure, ASD size, and hemodynamic profile. Setting., Tertiary referral center. Patients., One hundred sixty-two concurrent patients with ASD submitted to ASO (n = 54) or SUR closure (n = 108) according with their preferences. Main Outcome Measures., Primary end point was a composite index of major events including failure of the procedure, important bleeding, critical arrhythmias, serious infections, embolism, or any major cardiovascular intervention-related complication. Predictors of these major events were investigated. Results., Atrial septal defects were successfully closed in all patients, and there was no mortality. The primary event rate was 13.2% in ASO vs. 25.0% in SUR (P = .001). Multivariate analysis showed that higher rate of events was significantly associated with age >40 years; systemic/pulmonary output ratio <2.1; and systolic pulmonary arterial pressure >50 mm Hg; while in the ASO group the event rate was only associated with the ASD size (>15 cm2/m2; relative risk = 1.75, 95% confidence interval 1.01,8.8). There were no differences in the event-free survival curves in adults with ages <40 years. Conclusions., The efficacy for closure ASD was similar in both groups. The higher morbidity observed in SUR group was observed only in the patients submitted to the procedure with age >40 years. The length of hospital stay was shorter in the ASO group. Surgical closure is a safe and effective treatment, especially in young adults. There is certainly nothing wrong with continuing to do surgery in countries where the resources are limited. [source]

Effects of Norepinephrine and Combined Norepinephrine and Fenoldopam Infusion on Systemic Hemodynamics and Indices of Renal Function in Normotensive Neonatal Foals

JOURNAL OF VETERINARY INTERNAL MEDICINE, Issue 5 2008
A.R. Hollis
Background: Norepinephrine increases arterial blood pressure but may have adverse effects on renal blood flow. Fenoldopam, a dopamine-1 receptor agonist, increases urine output in normotensive foals. The combination of norepinephrine and fenoldopam may lead to improved renal perfusion compared with an infusion of norepinephrine alone. The combined effects of these drugs have not been reported in the horse. Hypothesis: Norepinephrine will alter the hemodynamic profile of foals without affecting renal function. Addition of fenoldopam will change the renal profile during the infusions without changing the hemodynamic profile. Animals: Five conscious pony foals. Methods: Each foal received norepinephrine (0.3 ,g/kg/min), combined norepinephrine (0.3 ,g/kg/min) and fenoldopam (0.04 ,g/kg/min), and a control dose of saline in a masked, placebo-controlled study. Heart rate (HR), arterial blood pressure (direct), and cardiac output (lithium dilution) were measured, and systemic vascular resistance (SVR), stroke volume, cardiac index (CI), and stroke volume index were calculated. Urine output, creatinine clearance, and fractional excretion of electrolytes were measured. Results: Norepinephrine and a combined norepinephrine and fenoldopam infusion increased arterial blood pressure, SVR, urine output, and creatinine clearance and decreased HR and CI compared with saline. The combination resulted in higher HR and lower arterial blood pressure than norepinephrine alone. Conclusions and Clinical Importance: Norepinephrine might be useful for hypotensive foals, because in normal foals, this infusion rate increases SVR without negatively affecting renal function (creatinine clearance increased). Fenoldopam does not provide additional benefit to renal function. These findings warrant further investigation. [source]

Rapid clinical assessment of hemodynamic profiles and targeted treatment of patient with acutely decompensated heart failure

CLINICAL CARDIOLOGY, Issue S5 2004
Greegg C. Fonarow M.D.
Abstract Acutely decompensated heart failure (ADHF) is characterized by hemodynamic abnormalities and neurohormonal activation that contribute to heart failure (HF) symptoms, end-organ dysfunction, arrhythmias, and progressive cardiac failure. The management of ADHF in the emergency department (ED) can be simplified and improved by a 2-min bedside assessment that identifies any of four possible hemodynamic profiles on the basis of clinical signs and symptoms. The profiles are based on whether congestion is present or absent (wet or dry) and perfusion is adequate or limited (warm or cold). A wet-warm profile is seen more frequently in the ED than any of the other three profiles (wet-cold, dry-warm, and dry-cold). The four clinically determined profiles have been shown to predict clinical outcomes and may be used to guide initial HF therapy. The goals of treating ADHF are to stabilize the patient, reverse acute hemodynamic abnormalities, rapidly reverse dyspnea and/or hypoxemia caused by pulmonary congestion, and initiate treatments that will decrease disease progression and improve survival. An ideal agent for the wet-warm profile would rapidly reduce pulmonary congestion, produce balanced arterial and venous dilation, promote natriuresis, lack direct positive inotropic effects, and not cause reflex neuroendocrine activation. Intravenous nesiritide in conjunction with loop diuretics has been found safe and effective as initial treatment for patients with the wet-warm profile. For the wet-cold profile, more intensive therapy and invasive hemodynamic monitoring may prove useful. This review will discuss the rapid clinical determination of hemodynamic profiles in patients presenting to the ED with ADHF and the options for their initial medical management. Case studies representing the wet-warm, wet-cold, dry-warm, and dry-cold profiles will be presented and discussed. [source]