Patiromer in a Patient with Severe Hyperkalemia on Incremental Hemodialysis with 1 Session per Week: A Case Report and Literature Review

Hyperkalemia is common in patients with ESRD, undergoing hemodialysis (HD), and is associated with an increase in hospitalization and mortality. Residual kidney function in long-term dialysis patients is associated with lower morbidity and mortality in HD patients. Although the 2015 National Kidney Foundation-Kidney Disease Outcomes Quality Initiate (NKD-KDOQI) guidelines allow the reduction in the weekly HD dose for patients with a residual kidney urea clearance (Kur) >3 mL/min/1.73 m2, very few centers adjust the dialysis dose based on these criteria. In our center, the pattern of incremental hemodialysis (iHD) with once-a-week schedule (1 HD/W) has been an option for a group of patients showing very good results. This pattern is maintained as long as residual diuresis is >1,000 mL/24 h, Kur is >4 mL/min, and there is no presence of edema or volume overload, as well as no analytical parameters persistently outside the advisable range (serum phosphorus >6 mg/dL or potassium [K+] >6.5 mmol/L). Management of hyperkalemia in HD patients includes reduction of dietary intake, dosing of medications that contribute to hyperkalemia, and use of cation-exchange resins such as calcium or sodium polystyrene sulfonate. Two newer potassium binders, patiromer sorbitex calcium and sodium zirconium cyclosilicate, have been safely used for potassium imbalance treatment in patients with ESRD in HD with a conventional regimen of thrice weekly, but has not yet been studied in 1 HD/W schedules. We present the case of a 76-year-old woman in iHD (1 HD/W) treated with patiromer for severe HK and describe her clinical characteristics and outcomes. In addition, we review the corresponding literature. Based on these data, it can be anticipated that the use of patiromer may overcome the risk of hyperkalemia in patients with incident ESRD treated with less-frequent HD regimens.

[1]  D. Raj,et al.  The potassium regulator patiromer affects serum and stool electrolytes in patients receiving hemodialysis. , 2020, Kidney international.

[2]  A. Davenport,et al.  Impact of incremental versus conventional initiation of haemodialysis on residual kidney function: study protocol for a multicentre feasibility randomised controlled trial , 2020, BMJ Open.

[3]  B. Palmer Potassium Binders for Hyperkalemia in Chronic Kidney Disease-Diet, Renin-Angiotensin-Aldosterone System Inhibitor Therapy, and Hemodialysis. , 2020, Mayo Clinic proceedings.

[4]  J. L. Lerma,et al.  IHDIP: a controlled randomized trial to assess the security and effectiveness of the incremental hemodialysis in incident patients , 2019, BMC Nephrology.

[5]  W. Winkelmayer,et al.  Real-World Evaluation of Patiromer for the Treatment of Hyperkalemia in Hemodialysis Patients , 2018, Kidney international reports.

[6]  B. Pitt,et al.  The tolerability and safety profile of patiromer: a novel polymer-based potassium binder for the treatment of hyperkalemia , 2018, Expert opinion on drug safety.

[7]  Miguel Hernandez,et al.  Incremental Hemodialysis: The University of California Irvine Experience , 2017, Seminars in dialysis.

[8]  P. Rossignol,et al.  Patiromer Decreases Serum Potassium and Phosphate Levels in Patients on Hemodialysis. , 2016, American journal of nephrology.

[9]  T. D. Ivanov KDOQI clinical practice guideline for hemodialysis adequacy: 2015 update , 2016 .

[10]  G. Bakris,et al.  Treatment with patiromer decreases aldosterone in patients with chronic kidney disease and hyperkalemia on renin-angiotensin system inhibitors. , 2016, Kidney international.

[11]  K. Kalantar-Zadeh,et al.  Preservation of residual kidney function in hemodialysis patients: reviving an old concept. , 2016, Kidney international.

[12]  L. Laurin,et al.  Randomized Clinical Trial of Sodium Polystyrene Sulfonate for the Treatment of Mild Hyperkalemia in CKD. , 2015, Clinical journal of the American Society of Nephrology : CJASN.

[13]  Connie M. Rhee,et al.  Incremental Hemodialysis, Residual Kidney Function, and Mortality Risk in Incident Dialysis Patients: A Cohort Study. , 2015, American journal of kidney diseases : the official journal of the National Kidney Foundation.

[14]  M. Freeman,et al.  Effect of Patiromer on Serum Potassium Level in Patients With Hyperkalemia and Diabetic Kidney Disease: The AMETHYST-DN Randomized Clinical Trial. , 2015, JAMA.

[15]  G. Bakris,et al.  Patiromer in patients with kidney disease and hyperkalemia receiving RAAS inhibitors. , 2015, The New England journal of medicine.

[16]  Aasim Ahmad,et al.  Treatment of hyperkalemia in patients with chronic kidney disease: a comparison of calcium polystyrene sulphonate and sodium polystyrene sulphonate. , 2014, Journal of Ayub Medical College, Abbottabad : JAMC.

[17]  K. Kalantar-Zadeh,et al.  Association of Initial Twice-Weekly Hemodialysis Treatment with Preservation of Residual Kidney Function in ESRD Patients , 2014, American Journal of Nephrology.

[18]  K. Kalantar-Zadeh,et al.  Twice-weekly and incremental hemodialysis treatment for initiation of kidney replacement therapy. , 2014, American journal of kidney diseases : the official journal of the National Kidney Foundation.

[19]  Connie M. Rhee,et al.  Infrequent Dialysis: A New Paradigm for Hemodialysis Initiation , 2013, Seminars in dialysis.

[20]  T. Lennie,et al.  Depressive symptoms and dietary adherence in patients with end-stage renal disease. , 2011, Journal of renal care.

[21]  J. Townend,et al.  Effect of spironolactone on left ventricular mass and aortic stiffness in early-stage chronic kidney disease: a randomized controlled trial. , 2009, Journal of the American College of Cardiology.

[22]  M. Zhan,et al.  The frequency of hyperkalemia and its significance in chronic kidney disease. , 2009, Archives of internal medicine.

[23]  S. Greenland,et al.  Serum and dialysate potassium concentrations and survival in hemodialysis patients. , 2007, Clinical journal of the American Society of Nephrology : CJASN.

[24]  Ho-Jung Kim Pathogenesis and Treatment of Dyskalemia in Maintenance Hemodialysis and CAPD , 2006, Electrolyte & blood pressure : E & BP.

[25]  S. Mcligeyo,et al.  Treatment of hyperkalaemia by altering the transcellular gradient in patients with renal failure: effect of various therapeutic approaches. , 1997, East African medical journal.

[26]  K. Iseki,et al.  Impact of the initial levels of laboratory variables on survival in chronic dialysis patients. , 1996, American journal of kidney diseases : the official journal of the National Kidney Foundation.

[27]  G I Sandle,et al.  Evidence for large intestinal control of potassium homoeostasis in uraemic patients undergoing long-term dialysis. , 1987, Clinical science.

[28]  J. L. Merino,et al.  Aplicación de una pauta de hemodiálisis incremental, basada en la función renal residual, al inicio del tratamiento renal sustitutivo , 2017 .

[29]  J. L. Teruel-Briones,et al.  Maintaining residual renal function in patients on haemodialysis: 5-year experience using a progressively increasing dialysis regimen. , 2012, Nefrologia : publicacion oficial de la Sociedad Espanola Nefrologia.

[30]  B. Pitt,et al.  PEARL-HF: prevention of hyperkalemia in patients with heart failure using a novel polymeric potassium binder, RLY5016. , 2012, Future cardiology.