Surveillance for Hemodialysis Access Stenosis: Usefulness of Ultrasound Vector Volume Flow

Purpose To investigate if ultrasound vector-flow imaging (VFI) is equal to the reference method ultrasound dilution technique (UDT) in estimating volume flow and changes over time in arteriovenous fistulas (AVFs) for hemodialysis. Materials and methods From January 2014 to January 2015, patients with end-stage renal disease and matured functional AVFs were consecutively solicited to participate in this prospective study. All patients were included after written informed consent and approval by the National Committee on Biomedical Research Ethics and the local Ethics Committee (journal no. H-4-2014-FSP). VFI and UDT measurements were performed monthly over a six-month period. Nineteen patients were included in the study. VFI measurements were performed before dialysis, and UDT measurements after. Statistical analyses were performed with Bland-Altman plot, Student's t-test, four-quadrant plot, and regression analysis. Repeated measurements and precision analysis were used for reproducibility determination. Results Precision measurements for UDT and VFI were 32% and 20%, respectively (p = 0.33). Average volume flow measured with UDT and VFI were 1161 mL/min (±778 mL/min) and 1213 mL/min (±980 mL/(min), respectively (p = 0.3). The mean difference was -51 mL/min (CI: -150 mL/min to 46 mL/min) with limits of agreement from -35% to 54%, with a strong correlation (r2 = 0.87). A large change in volume flow between dialysis sessions detected by UDT was confirmed by VFI (p = 0.0001), but the concordance rate was poor (0.72). Conclusions VFI is an acceptable method for volume flow estimation and volume flow changes over time in AVFs.

[1]  L. Moist,et al.  Vascular access surveillance: an ongoing controversy. , 2012, Kidney international.

[2]  B. Boura,et al.  Long-term preservation of native arteriovenous dialysis fistulas. , 2014, Annals of vascular surgery.

[3]  J. Jensen,et al.  Investigation of transverse oscillation method , 2006, IEEE Transactions on Ultrasonics, Ferroelectrics and Frequency Control.

[4]  J A Jensen,et al.  In vivo comparison of three ultrasound vector velocity techniques to MR phase contrast angiography. , 2009, Ultrasonics.

[5]  Mads Møller Pedersen,et al.  Volume flow in arteriovenous fistulas using vector velocity ultrasound. , 2014, Ultrasound in medicine & biology.

[6]  Clark J Zeebregts,et al.  Within-session and between-session variability of haemodialysis shunt flow measurements. , 2005, Nephrology, dialysis, transplantation : official publication of the European Dialysis and Transplant Association - European Renal Association.

[7]  M Surlan,et al.  The role of interventional radiology in management of patients with end-stage renal disease. , 2003, European journal of radiology.

[8]  J. Jensen,et al.  A new method for estimation of velocity vectors , 1998, IEEE Transactions on Ultrasonics, Ferroelectrics and Frequency Control.

[9]  Kristoffer Lindskov Hansen,et al.  First report on intraoperative vector flow imaging of the heart among patients with healthy and diseased aortic valves. , 2015, Ultrasonics.

[10]  M. Bots,et al.  Hemodialysis arteriovenous fistula patency revisited: results of a prospective, multicenter initiative. , 2008, Clinical journal of the American Society of Nephrology : CJASN.

[11]  A. Ho,et al.  A Critical Review of the Ability of Continuous Cardiac Output Monitors to Measure Trends in Cardiac Output , 2010, Anesthesia and analgesia.

[12]  B. Nonnast-Daniel,et al.  Colour Doppler ultrasound in dialysis access. , 2004, Nephrology, dialysis, transplantation : official publication of the European Dialysis and Transplant Association - European Renal Association.

[13]  L. Lönn,et al.  Blood Flow Measurements during Hemodialysis Vascular Access Interventions - Catheter-Based Thermodilution or Doppler Ultrasound? , 2012, The journal of vascular access.

[14]  M. J. Pihl,et al.  3D vector velocity estimation using a 2D phased array , 2011, 2011 IEEE International Ultrasonics Symposium.

[15]  Michael Bachmann Nielsen,et al.  Accuracy and sources of error for an angle independent volume flow estimator , 2014, 2014 IEEE International Ultrasonics Symposium.

[16]  Jorgen Arendt Jensen Optimization of transverse oscillating fields for vector velocity estimation with convex arrays , 2013, 2013 IEEE International Ultrasonics Symposium (IUS).

[17]  J. Ibeas,et al.  Doppler Ultrasound: A Powerful Tool for Vascular Access Surveillance , 2015, Seminars in dialysis.

[18]  Kristoffer Lindskov Hansen,et al.  Intraoperative Cardiac Ultrasound Examination Using Vector Flow Imaging , 2013, Ultrasonic imaging.

[19]  T. Depner,et al.  Clinical measurement of blood flow in hemodialysis access fistulae and grafts by ultrasound dilution. , 1995, ASAIO journal.

[20]  Giovanni Morana,et al.  Diagnostic accuracy of ultrasound dilution access blood flow measurement in detecting stenosis and predicting thrombosis in native forearm arteriovenous fistulae for hemodialysis. , 2003, American journal of kidney diseases : the official journal of the National Kidney Foundation.

[21]  L. Critchley,et al.  A Meta-Analysis of Studies Using Bias and Precision Statistics to Compare Cardiac Output Measurement Techniques , 1999, Journal of Clinical Monitoring and Computing.

[22]  N M Krivitski,et al.  Theory and validation of access flow measurement by dilution technique during hemodialysis. , 1995, Kidney international.

[23]  C. Thomsen,et al.  In vivo validation of a blood vector velocity estimator with MR angiography , 2009, IEEE Transactions on Ultrasonics, Ferroelectrics and Frequency Control.

[24]  Marcello Tonelli,et al.  Associations between hemodialysis access type and clinical outcomes: a systematic review. , 2013, Journal of the American Society of Nephrology : JASN.

[25]  J. Kavan,et al.  Surveillance of Arteriovenous Accesses with the use of Duplex Doppler Ultrasonography , 2014, The journal of vascular access.

[26]  Richard Marais,et al.  Transonic, thermodilution, or ionic dialysance to manage vascular access: Which method is best? , 2014, Hemodialysis international. International Symposium on Home Hemodialysis.

[27]  W. Mali,et al.  Access flow measurements in hemodialysis patients: in vivo validation of an ultrasound dilution technique. , 1996, Journal of the American Society of Nephrology : JASN.

[28]  A. Redheuil,et al.  Geometry is a major determinant of flow reversal in proximal aorta. , 2014, American journal of physiology. Heart and circulatory physiology.

[29]  J. M. Hansen,et al.  Comparison of real-time in vivo spectral and vector velocity estimation. , 2012, Ultrasound in medicine & biology.

[30]  K. Hansen,et al.  Lack of agreement and trending ability of the endotracheal cardiac output monitor compared with thermodilution , 2012, Acta anaesthesiologica Scandinavica.

[31]  S F Stewart,et al.  Effects of transducer, velocity, Doppler angle, and instrument settings on the accuracy of color Doppler ultrasound. , 2001, Ultrasound in medicine & biology.

[32]  William L Whittier,et al.  Surveillance of Hemodialysis Vascular Access , 2009, Seminars in interventional radiology.

[33]  Michael Bachmann Nielsen,et al.  New Technology – Demonstration of a Vector Velocity Technique , 2011, Ultraschall in der Medizin.

[34]  J. Jensen,et al.  A new estimator for vector velocity estimation [medical ultrasonics] , 2001, IEEE Transactions on Ultrasonics, Ferroelectrics and Frequency Control.