Abstract
The number of patients with end-stage renal disease continues to grow worldwide, placing increasing demands on dialysis technologies. Conventional hemodialysis remains the dominant modality but is often limited by frequent intradialytic hypotension and the insufficient removal of medium-sized toxins. Intermittent infusion hemodiafiltration (I-HDF) is an emerging, hybrid dialysis technique that combines standard hemodialysis with the cyclic backfiltration of ultrapure dialysate. This approach enables dynamic blood volume control and periodic backflushing of the dialyzer membrane. Recent clinical studies demonstrate that I-HDF can reduce intradialytic hypotension incidence, improve systemic and microcirculatory perfusion, and enhance the clearance of middle molecules such as β(2)-microglobulin, while minimizing albumin loss. These benefits are particularly relevant to toxin clearance and hemodynamic stabilization, key priorities in optimizing dialysis outcomes. Large-scale cohort data suggest that I-HDF may be linked to improved long-term survival in dialysis patients. Given its physiological advantages and operational flexibility, I-HDF may also offer a practical solution in healthcare systems with limited access to high-volume online hemodiafiltration or kidney transplantation. Further research is warranted to develop individualized infusion protocols and validate its broader applicability.