PCRRT on ECMO

1. PCRRT on ECMO Norma J Maxvold Pediatric Critical Care

2. PCRRT on ECMO • What is the incidence of PCRRT in ECMO? • How does it differ to standard PCRRT • Where do you put the filter? • What are the risks? • What factors effect solute clearance? • Weaning ECMO in an anuric child • What outcome data is available?

3. PCRRT on ECMO • Incidence (ELSO registry 1997) • Neonatal ECMO = 14% require PCRRT • Pediatric ECMO = 31% require PCRRT

4. PCRRT on ECMO vs Standard PCRRT

5. PCRRT on ECMO vs Standard PCRRT

6. Hemofiltration on ECMO

7. Risks of PCRRT on ECMO • Excessive ultrafiltration (VA ECMO will support hemodynamics independent of volume status) • due to ultrafiltration controller error • due to higher then greater blood flow rate

8. RESULTS(Smoyer et al, CRRT 1997) Trilogy Pump: Accuracy over Range of Flow Rates % Error IV Pump Flow Rate (ml/hr)

9. Clinical Scenario • 3 kg infant on VA ECMO • SCUF for 4 days at 250 cc/day net • K 4.5 mEq/L, Phos 5.7 mg/dl • Albumin 3.8 gm/dl • Na prior to SCUF 139 • IVF were TPN, antibiotics

10. Clinical ScenarioLab data-4 days later • Euvolemic, Anuric • Na 118 mEq/L, Cl 74 mEq/L

11. Clinical Scenario • 3 kg child with intravascular blood volume of 240 ccs • Net Na loss was based upon Na content of ultrafiltrate/day ~120 mEq or 40 mEq/kg • Without adequate replacement fluid or counter current dialysis excessive solute loss occurs

12. What determines Solute Clearance? • Blood Flow Rate (BFR) • Dialysate Flow Rate (DxFR) in CVVHD or Replacement Flow Rate (ReplFR) in CVVH • Surface Area of membrane/porosity of the membrane

13. Comparison of Urea Clearance: CVVH vs CVVHD(Maxvold et al, Crit Care Med April 2000) p = NS Urea Clearance (mls/min/1.73 m2) BFR = 4 mls/kg/min FRF/Dx FR = 2 l/1.73 m2/hr SAM = 0.3 m2

14. Impact of Surface Area of hemofilter-1(Maxvold et al, ELSO 1994) • 70 kg child on VA ECMO and anuric • PCRRT BFR 200 mls/min • ccDx @ 2000 mls/hr • HF with 0.24 m2

15. Impact of Surface Area of hemofilter-2(Maxvold et al, ELSO 1994) • Over 24 hours of hemofiltration the following metabolic changes occurred • Bun dropped from 180-174 mg/dl • Potassium increased from 6.5-7.2 meq/l • HCO2 dropped from 19-22 meq/l • (we be in trouble!!)

16. Impact of Surface Area of hemofilter-3 • The hemofilter was changed from the 0.24 m2 to a 1.7 m2 HD membrane and over the next 24 hours • Bun dropped 174-84 mg/dl (to rapid of a shift) • K 7.2-3 meq/l • HCO2 22-> 40 meq/l • pH increase from 7.15 to 7.75

17. Metabolic consequences when weaning ECMO • Mixed metabolic and respiratory acidosis • hypotension • need for blood transfusions with secondary hypocalcemia and hyperkalemia

18. Anticipate Metabolic Consequences • plan to decrease the serum potassium • plan to make alkalotic • THESE ARE MOST IMPORTANT IN A PATIENT WHO IS ANURIC/OLIGURIC • COMMUNICATION PRIOR TO DECISION

19. Post ECMO Renal Effect(Meyers et al, Peds Crit Care Coll, Portland, OR 1999) • 35 children requiring HF on ECMO/8 yrs • 20 died (withdrawn) on ECMO and CRRT due to lack of recovery of underlying cause • 15 survived ECMO requiring ongoing PCRRT • 14/15 had recovery of renal function within 7-10 days post discontinuation of ECMO

20. PCRRT and ECMO • Especially in the smaller children and infants solute clearance on ECMO is greater then standard PCRRT due to the relatively high blood flow rates • Ultrafiltration error may not be easily recognized due to the maintenance of hemodynamic stability that ECMO gives

21. PCRRT and ECMO • These are the sickest of the sick • ECMO is not a substitution for dialysis • Recovery of renal function will occur in majority of patients within days in those who had normal renal function prior to need for ECMO