Continuous renal replacement therapy and hypophosphatemia_West China Medical Journal

Authors：

CHENG Lixin ,  ZHANG Ling

Department of Nephrology, West China Hospital, Sichuan University, Chengdu, Sichuan 610041, P. R. China;

Corresponding author：

ZHANG Ling, Email: zhanglinglzy@163.com

Keywords：

Continuous renal replacement therapy; hypophosphatemia; prognosis

DOI：

10.7507/1002-0179.202206056

Video：

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Hypophosphatemia is a common and potentially serious complication during continuous renal replacement therapy (CRRT), which is often underestimated and ignored. This article systematically searched and reviewed the relevant literature on previous CRRT and hypophosphatemia, and summarized the risk factors affecting hypophosphatemia during CRRT, the impact on the body, and the existing phosphorus supplement scheme during CRRT, so as to attract everyone’s attention to hypophosphatemia during CRRT in clinical work.

Citation： CHENG Lixin, ZHANG Ling. Continuous renal replacement therapy and hypophosphatemia. West China Medical Journal, 2022, 37(8): 1248-1252. doi: 10.7507/1002-0179.202206056 Copy

1.	Kovvuru K, Velez JCQ. Complications associated with continuous renal replacement therapy. Semin Dial, 2021, 34(6): 489-494.
2.	Takeda E, Taketani Y, Sawada N, et al. The regulation and function of phosphate in the human body. Biofactors, 2004, 21(1/2/3/4): 345-355.
3.	Yang Y, Zhang P, Cui Y, et al. Hypophosphatemia during continuous veno-venous hemofiltration is associated with mortality in critically ill patients with acute kidney injury. Crit Care, 2013, 17(5): R205.
4.	Demirjian S, Teo BW, Guzman JA, et al. Hypophosphatemia during continuous hemodialysis is associated with prolonged respiratory failure in patients with acute kidney injury. Nephrol Dial Transplant, 2011, 26(11): 3508-3514.
5.	Lim C, Tan HK, Kaushik M. Hypophosphatemia in critically ill patients with acute kidney injury treated with hemodialysis is associated with adverse events. Clin Kidney J, 2017, 10(3): 341-347.
6.	张瑞, 石松菁. 低磷血症对危重症患者影响的研究进展. 创伤与急诊电子杂志, 2015, 3(1): 1-3, 15.
7.	Crook M, Swaminathan R. Disorders of plasma phosphate and indications for its measurement. Ann Clin Biochem, 1996, 33(Pt 5): 376-396.
8.	Manghat P, Sodi R, Swaminathan R. Phosphate homeostasis and disorders. Ann Clin Biochem, 2014, 51(Pt 6): 631-656.
9.	Bergwitz C, Jüppner H. Regulation of phosphate homeostasis by PTH, vitamin D, and FGF23. Annu Rev Med, 2010, 61: 91-104.
10.	Fall P, Szerlip HM. Continuous renal replacement therapy: cause and treatment of electrolyte complications. Semin Dial, 2010, 23(6): 581-585.
11.	门莉, 王绍锋. 慢性阻塞性肺疾病患者并发低磷血症 105 例分析. 实用临床医学, 2003, 4(6): 84.
12.	Hendrix RJ, Hastings MC, Samarin M, et al. Predictors of hypophosphatemia and outcomes during continuous renal replacement therapy. Blood Purif, 2020, 49(6): 700-707.
13.	Kim SY, Kim YN, Shin HS, et al. The influence of hypophosphatemia on outcomes of low- and high-intensity continuous renal replacement therapy in critically ill patients with acute kidney injury. Kidney Res Clin Pract, 2017, 36(3): 240-249.
14.	孙汀, 任玉倩, 王斐, 等. 危重症患儿连续性血液净化与低磷血症的相关性分析. 中华儿科杂志, 2018, 56(4): 284-288.
15.	Heung M, Mueller BA. Prevention of hypophosphatemia during continuous renal replacement therapy-an overlooked problem. Semin Dial, 2018, 31(3): 213-218.
16.	Geerse DA, Bindels AJ, Kuiper MA, et al. Treatment of hypophosphatemia in the intensive care unit: a review. Crit Care, 2010, 14(4): R147.
17.	Song YH, Seo EH, Yoo YS, et al. Phosphate supplementation for hypophosphatemia during continuous renal replacement therapy in adults. Ren Fail, 2019, 41(1): 72-79.
18.	Santiago MJ, López-Herce J, Urbano J, et al. Hypophosphatemia and phosphate supplementation during continuous renal replacement therapy in children. Kidney Int, 2009, 75(3): 312-316.
19.	Broman M, Carlsson O, Friberg H, et al. Phosphate-containing dialysis solution prevents hypophosphatemia during continuous renal replacement therapy. Acta Anaesthesiol Scand, 2011, 55(1): 39-45.
20.	Godaly G, Carlsson O, Broman M. Phoxilium(®) reduces hypophosphataemia and magnesium supplementation during continuous renal replacement therapy. Clin Kidney J, 2016, 9(2): 205-210.
21.	Pistolesi V, Zeppilli L, Fiaccadori E, et al. Hypophosphatemia in critically ill patients with acute kidney injury on renal replacement therapies. J Nephrol, 2019, 32(6): 895-908.
22.	Chua HR, Schneider AG, Baldwin I, et al. Phoxilium vs Hemosol-B0 for continuous renal replacement therapy in acute kidney injury. J Crit Care, 2013, 28(5): 884.e7-14.
23.	Thompson Bastin ML, Adams PM, Nerusu S, et al. Association of phosphate containing solutions with incident hypophosphatemia in critically ill patients requiring continuous renal replacement therapy. Blood Purif, 2022, 51(2): 122-129.
24.	Kim DW, Kim HJ, Kim JM, et al. Effect of Phoxilium on prognostic predictors in patients undergoing continuous venovenous hemodiafiltration. Kidney Res Clin Pract, 2021, 40(3): 457-471.

1. Kovvuru K, Velez JCQ. Complications associated with continuous renal replacement therapy. Semin Dial, 2021, 34(6): 489-494.
2. Takeda E, Taketani Y, Sawada N, et al. The regulation and function of phosphate in the human body. Biofactors, 2004, 21(1/2/3/4): 345-355.
3. Yang Y, Zhang P, Cui Y, et al. Hypophosphatemia during continuous veno-venous hemofiltration is associated with mortality in critically ill patients with acute kidney injury. Crit Care, 2013, 17(5): R205.
4. Demirjian S, Teo BW, Guzman JA, et al. Hypophosphatemia during continuous hemodialysis is associated with prolonged respiratory failure in patients with acute kidney injury. Nephrol Dial Transplant, 2011, 26(11): 3508-3514.
5. Lim C, Tan HK, Kaushik M. Hypophosphatemia in critically ill patients with acute kidney injury treated with hemodialysis is associated with adverse events. Clin Kidney J, 2017, 10(3): 341-347.
6. 张瑞, 石松菁. 低磷血症对危重症患者影响的研究进展. 创伤与急诊电子杂志, 2015, 3(1): 1-3, 15.
7. Crook M, Swaminathan R. Disorders of plasma phosphate and indications for its measurement. Ann Clin Biochem, 1996, 33(Pt 5): 376-396.
8. Manghat P, Sodi R, Swaminathan R. Phosphate homeostasis and disorders. Ann Clin Biochem, 2014, 51(Pt 6): 631-656.
9. Bergwitz C, Jüppner H. Regulation of phosphate homeostasis by PTH, vitamin D, and FGF23. Annu Rev Med, 2010, 61: 91-104.
10. Fall P, Szerlip HM. Continuous renal replacement therapy: cause and treatment of electrolyte complications. Semin Dial, 2010, 23(6): 581-585.
11. 门莉, 王绍锋. 慢性阻塞性肺疾病患者并发低磷血症 105 例分析. 实用临床医学, 2003, 4(6): 84.
12. Hendrix RJ, Hastings MC, Samarin M, et al. Predictors of hypophosphatemia and outcomes during continuous renal replacement therapy. Blood Purif, 2020, 49(6): 700-707.
13. Kim SY, Kim YN, Shin HS, et al. The influence of hypophosphatemia on outcomes of low- and high-intensity continuous renal replacement therapy in critically ill patients with acute kidney injury. Kidney Res Clin Pract, 2017, 36(3): 240-249.
14. 孙汀, 任玉倩, 王斐, 等. 危重症患儿连续性血液净化与低磷血症的相关性分析. 中华儿科杂志, 2018, 56(4): 284-288.
15. Heung M, Mueller BA. Prevention of hypophosphatemia during continuous renal replacement therapy-an overlooked problem. Semin Dial, 2018, 31(3): 213-218.
16. Geerse DA, Bindels AJ, Kuiper MA, et al. Treatment of hypophosphatemia in the intensive care unit: a review. Crit Care, 2010, 14(4): R147.
17. Song YH, Seo EH, Yoo YS, et al. Phosphate supplementation for hypophosphatemia during continuous renal replacement therapy in adults. Ren Fail, 2019, 41(1): 72-79.
18. Santiago MJ, López-Herce J, Urbano J, et al. Hypophosphatemia and phosphate supplementation during continuous renal replacement therapy in children. Kidney Int, 2009, 75(3): 312-316.
19. Broman M, Carlsson O, Friberg H, et al. Phosphate-containing dialysis solution prevents hypophosphatemia during continuous renal replacement therapy. Acta Anaesthesiol Scand, 2011, 55(1): 39-45.
20. Godaly G, Carlsson O, Broman M. Phoxilium(®) reduces hypophosphataemia and magnesium supplementation during continuous renal replacement therapy. Clin Kidney J, 2016, 9(2): 205-210.
21. Pistolesi V, Zeppilli L, Fiaccadori E, et al. Hypophosphatemia in critically ill patients with acute kidney injury on renal replacement therapies. J Nephrol, 2019, 32(6): 895-908.
22. Chua HR, Schneider AG, Baldwin I, et al. Phoxilium vs Hemosol-B0 for continuous renal replacement therapy in acute kidney injury. J Crit Care, 2013, 28(5): 884.e7-14.
23. Thompson Bastin ML, Adams PM, Nerusu S, et al. Association of phosphate containing solutions with incident hypophosphatemia in critically ill patients requiring continuous renal replacement therapy. Blood Purif, 2022, 51(2): 122-129.
24. Kim DW, Kim HJ, Kim JM, et al. Effect of Phoxilium on prognostic predictors in patients undergoing continuous venovenous hemodiafiltration. Kidney Res Clin Pract, 2021, 40(3): 457-471.

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