Basics of CRRT: Terminology

Slides:

Advertisements

Similar presentations

Continuous Renal Replacement Therapy

Advertisements

Renal replacement therapy

Renal Replacement Therapy Options for Children

Continuous Renal Replacement Therapy

Dialysis in the Critically Ill

Pediatric CRRT: Terminology and Physiology

Hemodiafiltration and Hemofiltration

Definition Continuous Renal Replacement Therapy (CRRT)

CRRT Machines Evolution of CRRT and machines Ideal CRRT machine

CVVH vs CVVHD Does it Matter?

Continuous Veno-venous Hemodiafiltration Therapy for Acute Decompensation with Cerebral Edema in Maple Syrup Urine Disease Joshua J. Zaritsky M.D., Julian.

Sodium flux during dialysis

MANAGEMENT OF CONTINUOUS HEMODIALYSIS

Continuous Renal Replacement Therapy. Why continuous Therapies? Continuous therapies closely mimic the GFR of native kidneys Large amounts of fluid.

Dr Umut Selda Bayrakçı Yıldırım Beyazıt University, Dept of Pediatric Nephrology, Ankara, Turkey * Basics of CRRT Terminology.

RENAL REPLACEMENT THERAPY

Anatomy and Physiology of Peritoneal Dialysis

Types of Dialysis  1. Hemodialysis  2. Peritoneal dialysis – just be aware of it’s existence.

Pediatric CRRT: The Prescription

Md.Kausher ahmed Electrical department. Biomedical engineering Code:6875.

Dialysis and Replacement Solutions for Pediatric CRRT

Practical Considerations for CRRT Helen Currier RN, BSN, CNN Nancy McAfee RN, BSN, CNN.

Common Prescription Errors in Pediatric CRRT: a “Top 10 List” Jordan M. Symons, MD University of Washington School of Medicine Seattle Children’s Hospital.

University of Pittsburgh

Common Terminology Used and Physiology in CRRT Jordan M. Symons, MD University of Washington School of Medicine Seattle Children’s Hospital Seattle, WA.

PCRRT Multi-Center Registry Data Effective April 1, 2002 Multi-Center Pediatric CRRT Registry Stuart L. Goldstein, MD Assistant Professor of Pediatrics.

PCRRT Tûr'mə-nŏl'ə-jē Helen Currier BSN, RN, CNN Assistant Director, Renal/Pheresis Texas Children’s Hospital Houston, Texas.

Continuous Renal Replacement Therapy Developed by: Critical Care and Hemodialysis Educators, February 2009 King Faisal Specialist Hospital and Research.

CRRT TERMINOLOGY Stefano Picca, MD

DEPARTMENT NAME Jennifer L. Morris, PharmD, BCPS Clinical Pharmacy Specialist – Pediatric Critical Care April 14, 2016 MEDICATION CONSIDERATIONS IN EXTRACORPOREAL.

BASIC PRINCIPLES OF DIALYSIS

CONTINUOUS RENAL REPLACEMENT THERAPY

Continuous renal replacement therapy

CRRT Fundamentals Pre- and Post- Test

CRRT (Continuous Renal Replacement Therapy)

RENAL REPLACEMENT THERAPY

Fluid, Electrolyte Balance

RENAL REPLACEMENT THERAPIES

Including: Anticoagulation Prescribing Protocol

HAEMODIALYSIS Shofa chasani.

Quantification and Dosing of Renal Replacement Therapy in Acute Kidney Injury: A Reappraisal Blood Purif 2017;44: DOI: / Fig.

Spotlight on general principles of hemodialysis

Hemodialysis Lecture (2).

Devices use for Neonatal AKI

Vascular Access and Infused Fluids for Pediatric CRRT

Practical Considerations for CRRT

CRRT Fundamentals Pre- and Post- Test Answers

OUTCOMES OF REGIONAL CITRATE ANTICOAGULATION (RCA) IN PEDIARTIC CONTINUOUS RENAL REPLACEMENT THERAPY (pCRRT) IN A SINGLE CENTER Issa Alhamoud, Diane Gollhofer,

Downloadable computer models for renal replacement therapy

Volume 54, Issue 1, Pages (July 1998)

3.4 Diffusion and Osmosis KEY CONCEPT Materials move across membranes because of concentration differences.

Unique Considerations in Renal Replacement Therapy in Children: Core Curriculum 2014 Sidharth Kumar Sethi, MD, Timothy Bunchman, MD, Rupesh Raina, MD,

Volume 54, Issue 3, Pages (September 1998)

Pediatric CRRT Terminology

Continuous Dialysis Therapies: Core Curriculum 2016

Effects of a reduced inner diameter of hollow fibers in hemodialyzers

Continuous Renal Replacement Therapy

SCUF Slow Continuous Ultrafiltration

Children’s Memorial Hospital Northwestern University

What is Diffusion? What does it mean to diffuse?

Effects of a reduced inner diameter of hollow fibers in hemodialyzers

Movement Across the Membrane

Volume 70, Issue 7, Pages (October 2006)

CRRT dialysis circuit using regional citrate anticoagulation with the Gambro Prisma machine. CRRT dialysis circuit using regional citrate anticoagulation.

Joachim Böhler, M.D., Johannes Donauer, Frieder Keller

Volume 68, Issue 2, Pages (August 2005)

Confounding factors in the assessment of delivered hemodialysis dose

University of Alabama at Birmingham continuous venovenous hemodiafiltration (CVVHDF) protocol for 0.67 and 0.5% citrate. University of Alabama at Birmingham.

RCA in continuous RRT: basic principles

Renal replacement therapy using an in-line hemofilter during extracorporeal membrane oxygenation (ECMO). Renal replacement therapy using an in-line hemofilter.

Presentation transcript:

Basics of CRRT: Terminology Theresa Mottes, MSN, RN, CPNP-AC Cincinnati Children’s Hospital Center for Acute Care Nephrology

Standardization of Terminology Patient safety Comparing modalities Common language I want to thank the planning committee for the opportunity to present at this conference. I’m honored to be following in Jordan Symons foot steps in presenting on this topic. Also for sharing his slides as well. The importance of understanding the current terminology, both within your institutions as well as in the literature.

Diffusion or Convection Continuous Renal Replacement Therapy Extracorporeal circuit Continuous in nature Particle removal Diffusion or Convection Fluid removal via ultrafiltration

Nomenclature for CRRT Modalities SCUF Slow Continuous Ultrafiltration CVVH Continuous Veno-Venous Hemofiltration CVVHD Continuous Veno-Venous Hemodialysis CVVHDF Continuous Veno-Venous Hemodiafiltration

Basis for Nomenclature V H Interval Therapy Blood Access Method of Solute Removal

CRRT Schematic SCUF CVVH CVVHD CVVHDF

Convection Small/large molecules move equally Limit is cut-off size of membrane Higher UF rate yields higher convection but risk of hypotension May need to Replace excess UF volume Net Pressure H2O H2O H2O H2O

Diffusion Dialysate required Small molecules diffuse easily Concentration gradient Faster dialysate flow increases mass transfer Small molecules diffuse easily Larger molecules diffuse slowly

CRRT Dose = Effluent Flow Rate QR 600ml/hr QB 150ml/min QD 600ml/hr Effluent 1200ml/hr +

Effluent Flow Rate is Limiting Factor in CRRT QR 1000ml/hr QB 150ml/min QD 1000ml/hr Effluent 2000ml/hr +

Fluid Removal via CRRT Ultrafiltration Rate = Patient Fluid Removal Rate Movement of fluid (plasma water) by a pressure gradient Net Fluid Balance Even Positive Negative

Rate Limitations of Volume Removal BP Extra-Vascular Compartment Vascular Compartment

Improved Volume Removal with Slower Ultrafiltration Rates Vascular Compartment Extra-Vascular Compartment BP Stable

CRRT Pressure Related Terms Arterial/Access/Pull/Inlet Blood moving from patient to extracorporeal circuit Venous/Return/Push/Outlet Blood moving from the extracorporeal circuit to the patient

CRRT Pressure Related Terms Transmembrane Pressure Reflects the efficiency of the filter fibers Pressure Drop Reflect the ability of the blood to pass through the membrane fibers

Summary CRRT modalities differ based on solute transport: SCUF, CVVH, CVVHD, CVVHDF Solution rates drive clearance rates Standardize your institutional language Align your language with your machinery

Thank You Questions?