Active Circulating Blood Volume During Hemodialysis: A Bench Model.

Intradialytic hypotension due to excessive fluid removal is a common complication of hemodialysis. A bench model was constructed to evaluate quantification of active circulating blood volume (ACBV). The model included a central pump representing the heart and compartments to represent the central and peripheral circulation.

New noninvasive methodology to measure cardiac output in veno-venous extracorporeal membrane oxygenation patients.

Introduction: Cardiac output (CO) measurement is vital in veno-venous extracorporeal membrane oxygenation patient population to evaluate oxygen delivery and to early identify right heart failure. Standard clinical methods like pulmonary artery thermodilution and transpulmonary thermodilution are known to be inaccurate in the veno-venous extracorporeal membrane oxygenation setting, especially at high levels of recirculation.

Objective: The aim of the study was to develop a simple noninvasive method to measure CO in patients during veno-venous extracorporeal membrane oxygenation.

Accuracy of the transpulmonary ultrasound dilution method for detection of small anatomic shunts.

The purpose of this study was to investigate the qualitative and quantitative accuracy of transpulmonary ultrasound dilution (UD) (COstatus™, Transonic Systems) for the detection of small anatomic shunts. It was a prospective, observational study in a multi-disciplinary pediatric intensive care unit. Seventy-three critically ill children (67 post cardiac surgery), with a median (IQR) age of 10 (3-50.

Why vascular access trials on flow surveillance failed.

Introduction: Since the introduction of access flow surveillance technology for routine patient screening in 1995, more than 30 clinical trials have been presented in peer reviewed journals. Despite overall positive outcomes, some trials, including randomized control trials (RCTs), failed to produce positive outcomes for access surveillance. The purpose of this study is to analyze published data related to the main component of access surveillance--adequate increase of access flow after percutaneous transluminal angioplasty (PTA).

Measurement of renovascular circulating volume during hypothermic organ perfusion.

Background: Kidney donation after cardiac death leads to vascular damage as a result of warm ischemia, affecting renovascular circulating volume. Novel ultrasound dilution techniques may be used to measure renovascular circulating volumes during hypothermic machine perfusion of donor kidneys.

Methods: Renovascular circulating volumes of machine-perfused porcine kidneys were repeatedly measured by ultrasound dilution at different perfusion pressures (30, 40, 50, and 60 mm Hg), durations of perfusion (1 and 24 hr), and warm ischemia times (15 and 45 min).

Theory and in vitro validation of a new extracorporeal arteriovenous loop approach for hemodynamic assessment in pediatric and neonatal intensive care unit patients.

Objectives: No simple method exists for repeatedly measuring cardiac output in intensive care pediatric and neonatal patients. The purpose of this study is to present the theory and examine the in vitro accuracy of a new ultrasound dilution cardiac output measurement technology in which an extracorporeal arteriovenous tubing loop is inserted between existing arterial and venous catheters.

Design: Laboratory experiments.

Determining lung water volume in stable hemodialysis patients.

Lung water (LW) reflects the water content of the lung interstitium. Because hemodialysis patients have expanded total body water (TBW) they may also have increased LW. Hypertonic saline promotes a flux of water from lung to blood, which is measured by ultrasound flow probes on hemodialysis tubing.

Arteriovenous fistula-associated high-output cardiac failure: a review of mechanisms.

High-output cardiac failure can be a rare complication of high-output arteriovenous fistula. The authors present a case in which a hemodialysis patient with a high-flow arteriovenous fistula has cardiac failure that improves with fistula closure. The hemodynamic effects of a fistula are reviewed, and the hemodialysis literature regarding high-output cardiac failure is summarized.

Access flow measurement during surveillance and percutaneous transluminal angioplasty intervention.

The introduction of routine access flow measurement methodology has enabled accurate identification of problematic accesses and provided a means for follow-up evaluation. These methods have uncovered, in some cases, that interventions are either immediately unsuccessful or that they fail within 3 months to maintain flow above preintervention levels. The purpose of this article is to analyze the main problems that occur at each step in the loop of flow surveillance-intervention-follow-up and to provide suggestions for improving outcomes.

Relationship between vascular access flow and hemodynamically significant stenoses in arteriovenous grafts.

Background: Vascular access dysfunction is a major source of hemodialysis patient morbidity. The NKF K/DOQI Guidelines promote access flow monitoring as the most preferred access surveillance method and have established access flow thresholds for fistulography: an absolute threshold of 600 ml/min and a dynamic threshold of flow less than 1000 ml/min that has decreased by more than 25% over 4 months. The Guidelines apply universally to accesses of different types, sizes, locations, and initial flow rates.

Quantification of lung microvascular injury with ultrasound.

Quantification of water and solute exchange rates across the lung microvascular barrier (LMB) may be an important early-warning indicator of pulmonary microvascular diseases such as acute respiratory distress syndrome. Our objective was to determine the degree to which osmotic water movement across the LMB induced by injection of hypertonic solutions of NaCl and glucose could be detected downstream from the lung with a specialized ultrasonic velocity (USV) transducer manufactured by Transonic Systems. We hypothesized that mathematical modeling of the osmotic transients (OT) would yield estimates of osmotic exchange parameters that were sensitive to microvascular injury.

Use of a catheter-based system to measure blood flow in hemodialysis grafts during angioplasty procedures.

Purpose: The goals of this investigation were to evaluate the accuracy and reliability of the Angioflow meter system with use of in vitro and in vivo methods and to compare it to the standard Transonics HD01 system in a clinical setting.

Materials And Methods: The Angioflow meter system consists of a 6-F endovascular catheter and a laptop computer containing proprietary software for this application. Bench-top testing with use of a flow model was performed to determine the accuracy of the Angioflow meter system.

Extravascular lung water in the exercising horse.

Seven Standardbred horses were exercised on a treadmill at speeds (approximately 12 m/s) producing maximal heart rate, hypoxemia, and a mean pulmonary arterial pressure of approximately 75 mmHg. Extravascular lung water was measured by using transients in temperature and electrical impedance of the blood caused by a bolus injection of cold saline solution. Lung water was approximately 3 ml/kg body wt when standing but did not increase significantly with exertion.

Access flow measurement as a predictor of hemodialysis graft thrombosis: making clinical decisions.

Since the introduction of dilution methods for measurement of vascular access blood flow during hemodialysis, more than 170 publications addressing the accuracy, prognostic value, and economic impact of the technology have been presented. Recently researchers (Paulson et al.) have raised concerns about the accuracy of access flow measurements in predicting thrombosis.

Cardiac output and central blood volume during hemodialysis: methodology.

Cardiovascular disease is the leading cause of mortality in patients whose lives depend on hemodialysis. We developed a method for measuring cardiac output (CO) and central blood volume (CBV) in hemodialyzed patients that may help to elucidate the mechanisms and consequences of cardiac disease in this population. This report describes the technique, focusing on the main sources of error and how they can be prevented.

Extracorporeal recording of mouse hemodynamic parameters by ultrasound velocity dilution.

The use of mice as models for cardiovascular studies has traditionally been difficult because of their small size and the lack of appropriate instrumentation to perform fundamental measurements of cardiac output (CO) and total blood volume (TBV). The advent of transgenic techniques to develop mouse strains that mimic human disease makes the development of this instrumentation crucial. The current study outlines a novel technique for the determination of CO and TBV in the mouse using an extracorporeal arteriovenous (A-V) shunt, combined with the measurement of ultrasound dilution after the intravenous administration of small volumes of isotonic saline.