Author: Taliercio, Jonathan J.; Nakhoul, Georges; Vachharajani, Tushar J.; Layne, Matthew; Sedor, John; Thomas, George; Mehdi, Ali; Heyka, Robert; Demirjian, Sevag
Title: The Production, Efficacy, and Safety of Machine-Generated Bicarbonate Solution for Continuous Venovenous Hemodialysis (CVVHD): The Cleveland Clinic Method Cord-id: xi5usxpo Document date: 2021_3_10
ID: xi5usxpo
Snippet: RATIONALE & OBJECTIVE: Since 1994, the Nephrology and Hypertension Department at the Cleveland Clinic has prepared and used bicarbonate-based solution for continuous venovenous hemodialysis (CVVHD) using a standard volumetric hemodialysis machine rather than purchasing from a commercial vendor. This report describes the process of producing Cleveland Clinic UltraPure Solution (CCUPS), quality and safety monitoring, economic costs, and clinical outcomes. STUDY DESIGN: Retrospective study. SETTING
Document: RATIONALE & OBJECTIVE: Since 1994, the Nephrology and Hypertension Department at the Cleveland Clinic has prepared and used bicarbonate-based solution for continuous venovenous hemodialysis (CVVHD) using a standard volumetric hemodialysis machine rather than purchasing from a commercial vendor. This report describes the process of producing Cleveland Clinic UltraPure Solution (CCUPS), quality and safety monitoring, economic costs, and clinical outcomes. STUDY DESIGN: Retrospective study. SETTING & PARTICIPANTS: CVVHD experience at Cleveland Clinic, focusing on dialysate production, institutional factors, and patients requiring continuous kidney replacement therapy. Production is shown at www.youtube.com/watch?v=WGQgephMEwA. OUTCOMES: Feasibility, safety , and cost. RESULTS: Of 6,426 patients treated between 2011 and 2019 with continuous kidney replacement therapy, 59% were men, 71% were White, 40% had diabetes mellitus, and 74% presented with acute kidney injury. 98% of patients were treated with CVVHD using CCUPS, while the remaining 2% were treated with either continuous venovenous hemofiltration or continuous venovenous hemodiafiltration using commercial solution. The prescribed and delivered effluent doses were 24.8 (IQR) versus 20.7 mL/kg/h (IQR), respectively. CCUPS was as effective in restoring electrolyte and serum bicarbonate levels and reducing phosphate, creatinine, and serum urea nitrogen levels as compared with packaged commercial solution over a 3-day period following initiation of dialysis, with a comparable effluent dose. Among those with acute kidney injury, mortality was similar to that predicted with the 60-day acute kidney injury predicted mortality score (r = 0.997; CI: 0.989-0.999). At our institution, the cost of production for 1 L of CCUPS is $0.67, which is considerably less than the cost of commercially purchased fluid. LIMITATIONS: Observational design without a rigorous control group. CONCLUSIONS: CVVHD using locally generated dialysate is safe and cost-effective.
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