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IS ADAPTED APD THEORETICALLY MORE EFFICIENT THAN CONVENTIONAL APD?

Bengt Rippe, Carl M Öberg

Peritoneal dialysis international : journal of the International Society for Peritoneal Dialysis 2016 Feb 4


filter terms:
  • APD (10)
  • capillary (1)
  • dialysis (2)
  • dwell times (1)
  • minor (2)
  • sodium (3)
  • vein (1)
    • Sizes of these terms reflect their relevance to your search.

    ♦ Background: A modified version of automated peritoneal dialysis (APD) using not only variable dwell times but also variable fill volumes has been tested against conventional APD (cAPD) with fixed dwell volumes in a randomized controlled clinical study. The results have indicated that the modified schedule for APD, denoted adapted APD (aAPD), can lead to improved small solute clearances, and, above all, a markedly increased sodium removal (NaR). To theoretically test these results, we have modeled aAPD vs cAPD in computer simulations using the 3-pore model (TPM). ♦ Methods: The TPM, modified by including a transient, initial inflation of small solute mass transfer area coefficients (PS values), was employed. For simulations of osmotic ultrafiltration (UF), the TPM uses a constantly inflated value for PS for glucose and also a reduced value for PS for Na+, setting the peritoneal lymphatic reabsorption term at 0.3 mL/min. The simulations were performed by assuming that increases in intraperitoneal hydrostatic pressure (IPP) are transmitted to the capillary level (via vein compression) and therefore do not significantly affect the Starling balance. Furthermore, the effective peritoneal surface area (A) was set to be variable as a function of intraperitoneal volume (IPV). ♦ Results: The simulations demonstrated a minor improvement of small solute clearances (~0.7 - 1.6%) and a very small improvement of UF and NaR in aAPD compared to cAPD. ♦ Conclusions: Due mainly to the increased fill volumes in 3 out of 5 dwells in aAPD, this modality caused minor increases in small solute clearances and marginal effects on UF and NaR. The computer simulations point to a need for accurate sodium determinations in aAPD, considering all the methodological problems and pitfalls relevant to determining dialysate Na+ concentrations and peritoneal sodium mass balance.

    Citation

    Bengt Rippe, Carl M Öberg. IS ADAPTED APD THEORETICALLY MORE EFFICIENT THAN CONVENTIONAL APD? Peritoneal dialysis international : journal of the International Society for Peritoneal Dialysis. 2016 Feb 4


    PMID: 26847586

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