Impact of needle type on substitution volume during online hemodiafiltration: plastic cannulae versus metal needles

Background Plastic cannulae have attracted increasing interest as an alternative to traditional metal needles with the aim of reducing cannulation-related complications. We investigated whether the substitution volumes during hemodiafiltration differ using these two types of needles in dialysis patients. Methods An intervention study involving 26 hemodialysis patients was conducted in Korea between March and September in 2021. Patients first received online hemodiafiltration using traditional metal needles, and thereafter plastic cannulae were used in a stepwise protocol. Repeated-measures design and linear mixed-effect models were used to compare substitution volumes between the two needle types with the same inner diameter. Results The mean patient age was 62.7 years, and their mean dialysis vintage was 95.2 months. Most patients (92.3%) had an arteriovenous fistula as the vascular access. The substitution volume increased as blood flow and needle size increased for both plastic cannulae and metal needles. The substitution volume was significantly higher with 17-gauge (G) plastic cannulae than with 16-G metal needles at blood flow rates of 280, 300, and 330 mL/min. Similar results were obtained for 15-G metal needles and 16-G plastic cannulae at a blood flow rate of 330 mL/min. However, the patient ratings of pain on a visual analogue scale were higher for plastic cannulae. Conclusion Higher substitution volumes were obtained at the same prescribed blood flow rate with plastic cannulae than with metal needles during online hemodiafiltration. Plastic cannulae are an option for achieving high-volume hemodiafiltration for patients with low blood flow rates.

[1]  Y. Choi,et al.  Efficacy and Safety of Plastic Cannulae Compared with Metal Needles in the Initial Use of an Arteriovenous Fistulae in Incident Hemodialysis Patients: A Randomized Controlled Study , 2021, American Journal of Nephrology.

[2]  H. Park,et al.  Stepwise achievement of high convection volume in post‐dilution hemodiafiltration: A prospective observational study , 2021, Seminars in dialysis.

[3]  S. Choi,et al.  Comparison of dynamic arterial and venous pressure between metal needles and plastic cannulas in incident hemodialysis patients with arteriovenous graft , 2020, The journal of vascular access.

[4]  M. Wakabayashi,et al.  Effect of Early Cannulation with Plastic Cannula on Arteriovenous Fistula Patency in Hemodialysis Patients , 2019, Blood Purification.

[5]  H. Schiffl Online hemodiafiltration and mortality risk in end-stage renal disease patients: A critical appraisal of current evidence , 2019, Kidney research and clinical practice.

[6]  S. Nakai,et al.  Predilution online hemodiafiltration is associated with improved survival compared with hemodialysis. , 2019, Kidney international.

[7]  K. Sakurai,et al.  Current approaches to middle molecule removal: room for innovation , 2018, Nephrology, dialysis, transplantation : official publication of the European Dialysis and Transplant Association - European Renal Association.

[8]  Michael R. Moreno,et al.  Validation of Digital Visual Analog Scale Pain Scoring With a Traditional Paper-based Visual Analog Scale in Adults , 2018, Journal of the American Academy of Orthopaedic Surgeons. Global research & reviews.

[9]  Douglas E Schaubel,et al.  US Renal Data System 2017 Annual Data Report: Epidemiology of Kidney Disease in the United States. , 2018, American journal of kidney diseases : the official journal of the National Kidney Foundation.

[10]  C. Ronco,et al.  Fistula Cannulation with a Novel Fistula Cannula: A Review of Cannulation Devices and Procedures , 2018, Blood Purification.

[11]  M. Picot,et al.  Treatment tolerance and patient-reported outcomes favor online hemodiafiltration compared to high-flux hemodialysis in the elderly. , 2017, Kidney international.

[12]  M. Bots,et al.  Achieving high convection volumes in postdilution online hemodiafiltration: a prospective multicenter study , 2017, Clinical kidney journal.

[13]  S. Peters,et al.  Mortality reduction by post‐dilution online‐haemodiafiltration: a cause‐specific analysis , 2016, Nephrology, dialysis, transplantation : official publication of the European Dialysis and Transplant Association - European Renal Association.

[14]  T. D. Ivanov KDOQI clinical practice guideline for hemodialysis adequacy: 2015 update , 2016 .

[15]  C. Jacquelinet,et al.  Hemodiafiltration Versus Hemodialysis and Survival in Patients With ESRD: The French Renal Epidemiology and Information Network (REIN) Registry. , 2016, American journal of kidney diseases : the official journal of the National Kidney Foundation.

[16]  F. Pelliccia,et al.  Haemodialysis Plastic Cannulae - a Possible Alternative to Traditional Metal Needles? , 2016, The journal of vascular access.

[17]  M. Woodward,et al.  Haemodiafiltration and mortality in end-stage kidney disease patients: a pooled individual participant data analysis from four randomized controlled trials. , 2016, Nephrology, dialysis, transplantation : official publication of the European Dialysis and Transplant Association - European Renal Association.

[18]  M. Schoch,et al.  Plastic Cannula use in Hemodialysis Access , 2016, The journal of vascular access.

[19]  R. Marticorena,et al.  Impact of Needles in Vascular Access for Hemodialysis , 2016, The journal of vascular access.

[20]  T. Akizawa,et al.  Clinical Expectation of Online Hemodiafiltration: A Japanese Perspective , 2015, Blood Purification.

[21]  A. Davenport,et al.  Optimization of the convection volume in online post-dilution haemodiafiltration: practical and technical issues , 2015, Clinical kidney journal.

[22]  D. Marcelli,et al.  High-volume postdilution hemodiafiltration is a feasible option in routine clinical practice , 2014, Artificial organs.

[23]  M. V. van Loon How to improve vascular access care. , 2015, Contributions to nephrology.

[24]  Maria Teresa Parisotto,et al.  Cannulation technique influences arteriovenous fistula and graft survival , 2014, Kidney international.

[25]  A. Davenport,et al.  Clinical Evidence on Hemodiafiltration: A Systematic Review and a Meta‐analysis , 2014, Seminars in dialysis.

[26]  F. Cavatorta,et al.  The Buttonhole Technique for Fistula Cannulation: Pros and Cons , 2014 .

[27]  B. Jaber,et al.  Convective therapies versus low-flux hemodialysis for chronic kidney failure: a meta-analysis of randomized controlled trials. , 2013, Nephrology, dialysis, transplantation : official publication of the European Dialysis and Transplant Association - European Renal Association.

[28]  J. Tattersall,et al.  Online haemodiafiltration: definition, dose quantification and safety revisited. , 2013, Nephrology, dialysis, transplantation : official publication of the European Dialysis and Transplant Association - European Renal Association.

[29]  H. Schmid,et al.  Hemodiafiltration and survival of end-stage renal disease patients: the long journey goes on , 2012, International Urology and Nephrology.

[30]  M. Bots,et al.  Effect of online hemodiafiltration on all-cause mortality and cardiovascular outcomes. , 2012, Journal of the American Society of Nephrology : JASN.

[31]  Davina J. Tai,et al.  A simple method to create buttonhole cannulation tracks in a busy hemodialysis unit , 2009, Hemodialysis international. International Symposium on Home Hemodialysis.

[32]  M. Bots,et al.  Patient- and treatment-related determinants of convective volume in post-dilution haemodiafiltration in clinical practice. , 2009, Nephrology, dialysis, transplantation : official publication of the European Dialysis and Transplant Association - European Renal Association.

[33]  Michiel F. Reneman,et al.  Reliability and validity of the visual analogue scale for disability in patients with chronic musculoskeletal pain , 2008, International journal of rehabilitation research. Internationale Zeitschrift fur Rehabilitationsforschung. Revue internationale de recherches de readaptation.

[34]  C. Wanner,et al.  EBPG on Vascular Access. , 2007, Nephrology, dialysis, transplantation : official publication of the European Dialysis and Transplant Association - European Renal Association.

[35]  L. Ball The buttonhole technique for arteriovenous fistula cannulation. , 2006, Nephrology nursing journal : journal of the American Nephrology Nurses' Association.

[36]  Francesco Locatelli,et al.  Effect of dialysis dose and membrane flux in maintenance hemodialysis. , 2003, The New England journal of medicine.

[37]  B. Canaud,et al.  Effective flow performances and dialysis doses delivered with permanent catheters: a 24-month comparative study of permanent catheters versus arterio-venous vascular accesses. , 2002, Nephrology, dialysis, transplantation : official publication of the European Dialysis and Transplant Association - European Renal Association.

[38]  B. Canaud,et al.  Effective blood flow and recirculation rates in internal jugular vein twin catheters: measurement by ultrasound velocity dilution. , 1998, American journal of kidney diseases : the official journal of the National Kidney Foundation.

[39]  J. Bergström,et al.  NO CHANGE IN CORRECTED β2-MICROGLOBULIN CONCENTRATION AFTER CUPROPHANE HAEMODIALYSIS , 1987, The Lancet.