Separation Technology in Dialysis

1. Separation Technology in Dialysis Allan P. Turner M.D. February 17,2006

2. Kidney Function

3. Kidney Function

4. Terms Used in Dialysis • Diffusion • Convection • Ultrafiltration • Clearance 100 ml/min 100mg/dl 100 ml/min 50 mg/dl Clearance=50 ml/min 100 ml/min 100mg/dl 100 ml/min 10 mg/dl Clearance=90 ml/min

5. Options for RRT • Hemodialysis • 3X a week for 3-4 hours • diffusive clearance with ultrafiltration of water • faster blood flow rates=less hemodynamic stability • CRRT(Hemodiafiltration) • a continuous process • used on critically ill patients in US • more convective clearance • lower blood flow rates and smaller filter=greater hemodynamic stability • Peritoneal Dialysis • peritoneal membrane used as semipermeable membrane • batch process

6. Description of Hemodialysis • Primarily diffusion • Dialysate • looks like blood of healthy patient • 3X week for 3-4 hours • Blood and dialysate flows are fast • QB=500 ml/min • QD=800 ml/min

7. Membrane(Dialyzer) • Hollow Fiber Design • Biologic vs synthetic • Reuse • Terms • Biocompatibility • High efficiency • High flux

8. Access • Difficult • Trade Offs • rapidity of use • chance of infection • patient comfort • need for addl procedures

9. Access(PermCath) • Use immediately • No needle sticks • High infection rate • High recirculation

10. Access(AV Graft) • Use in 2-3 weeks • Some infection risk • 2 needle sticks • low recirculation • numerous interventions to keep open

11. Access(AV Fistula) • 3-18 months to use • Minimal infection risk • Can last a lifetime

12. Anticoagulation • Blood clots • Heparin • discovered in 1926 • Partial clotting • limits diffusion • reduces surface area • Access must stop bleeding • Calcium • required for clotting

13. Dialysis Machine • Blood Circuit • anticoagulate • deliver blood to membrane • safely return blood to patient • Dialysate Circuit • deliver dialysate at proper temperature, concentration, and pH • control ultrafiltration

14. Dialysis Machine(Blood Circuit) • Roller pump • Heparin syringe pump • 2 air traps • Air detector • Venous line clamp

15. Dialysis Machine(Dialysate Circuit) • Warm, deaerate, mix concentrates, monitor conductivity and pH, pump • Detect blood leaks • Generate and monitor ultrafiltration

16. Dialysis Machine

17. Dialysis Machine

18. Dialysate

19. Urea Clearance • ?Urea = uremic toxin? • Diffusion • Urea: MW=60 (small) • KoA • Clearance of urea of 250ml/min • Native kidneys provide urea clearance of about 90-110ml/min

20. Urea Clearance

21. Clearance of Other Solutes • Urea(MW 60), creatinine(MW 113), B12 (MW=1355), ß2 microglobulin (MW=11,800), albumin (MW=80,000) • Middle molecules • Diffusion not effective

22. Hemofiltration • Convection to clear larger molecules • Replacement fluids without removed solute • Costly

23. Continuous Renal Replacement Therapy(CRRT) • Critically ill ICU patients • low BP • can’t tolerate large QB or large filter • often can’t be systemically anticoagulated • Continuous • low clearances but runs 24/7 • Anticoagulation • regional anticoagulation instead of systemic • Combine hemodialysis and hemofiltration • hemodiafiltration • increases clearances even of middle molecules • continuous venovenous hemodiafiltration(CVVHDF)

24. CRRT vs Hemodialysis Dialysate 40ml/min(2500ml/hr) Replacement fluid 1000ml/hr CRRT QB 150ml/hr Dialysate + Ultrafiltration +Replacement fluid Dialysate 800ml/min(48,000ml/hr) Hemodialysis QB 500ml/hr Dialysate + Ultrafiltration

25. CRRT Citrate Anticoagulation Tri-Sodium Citrate Blood C C From C C C C patient D Liver I A Citrate HCO3 L C Y Calcium Z C C E R Blood To C C C C C C patient

26. Prefilter Fluid: 4L bag Dialysate : 4 L bag 0.67% Trisodium Citrate Na 140 mEq /L + Citrate 23 mM /L 3- Cl 118.5 mEq /L - Na 140 mEq /L + HCO 25 mEq /L 3 K 4.0 mEq /L + Rate: 1000-1500 mL /hr Mg 1.16 mEql /L 24 mmol /h citrate Rate: 1000-2500 mL /hr Gambro Prisma Pre-Pump Pre- Q Q Dilution Set R D 2+ PF iCa (0.25-0.5 mmol /L) 2+ Ca Gluconate 78 mEq /L (20 g/L) in NS Rate: 80 mL /hr CRRT Gambro Prisma with V Gambro Prisma with V Patient M60 AN69 Filter M60 AN69 Filter Q B iCa 2+ 1.1-1.3 100-150 mL /min mmol /L (actual Q = Q – Q ) B B, machine R Q = Q Q Q + + E R FR D

27. CRRT

28. Peritoneal Dialysis(PD) • Salmon dialysis • Peritoneal membrane • Capillaries • Diffusion, ultrafiltration( ie osmosis), convection, and absorption

29. PD Membrane • Pd Membrane • surface area=BSA=1-2 m2 • heteroporus, heterogeneous semipermeable membrane with complex physiology • Blood Flow • approx. 50-100 ml/min • 3 pore model • large pores(macromolecules like proteins) • small pores(small solutes) • ultrapores(aquaporins)(water without solute)

30. PD Ultrafiltration • Dextrose(3 concentrations) added to provide gradient for UF(osmosis) • Glucose diffuses into blood and diminishes gradient • Absorption of dialysate occurs limiting UF • Newer agents

31. PD Clearance • High Transporters • dialyze well • ultrafilter poorly • ? Icodextran ? • best with freq. short dwells • High Avg/Low AVG transporters • Low Transporters • ultrafilter well • dialyze poorly • best with longer short dwells • Options • CAPD • CCPD

32. Future • Which separation techniques improve mortality • Less expensive RRT as population grows • Improve patients quality of life • Biological systems