BACKGROUND: The molecular adsorbent recirculating system (MARS) is an extracorporeal liver dialysis system that allows selective removal of bilirubin and other albumin-bound toxins. We reported here our experience with the use of this technique for management of liver failure at Queen Mary Hospital, Hong Kong. METHODS: From December 2002 to 2004, a total of 74 MARS sessions were performed on 22 patients. The cause of liver failure included acute liver failure (n = 2), acute on chronic liver failure (n = 12), posthepatectomy liver failure (n = 4), and posttransplantation allograft failure (n = 4). RESULTS: MARS treatment showed significant reduction in total bilirubin level, serum ammonia level and blood urea, and nitrogen (P < 0.001 for all three parameters). Five patients (22.7%) were able to bridge to transplantation and one patient (4.5%) made a spontaneous recovery. The 30-day mortality rate was 72.7%. CONCLUSIONS: Our results indicated that MARS can effectively improve serum biochemistry and is suitable for temporarily supporting patients with liver failure where transplantation is not immediately available. There is, however, no clear evidence showing that MARS can increase survival, improve the chance of transplantation or assist liver regeneration. Future studies in the form of randomized-controlled trials are crucial to characterize the true potential of this treatment.
BACKGROUND: The molecular adsorbent recirculating system (MARS) is an extracorporeal liver dialysis system that allows selective removal of bilirubin and other albumin-bound toxins. We reported here our experience with the use of this technique for management of liver failure at Queen Mary Hospital, Hong Kong. METHODS: From December 2002 to 2004, a total of 74 MARS sessions were performed on 22 patients. The cause of liver failure included acute liver failure (n = 2), acute on chronic liver failure (n = 12), posthepatectomy liver failure (n = 4), and posttransplantation allograft failure (n = 4). RESULTS: MARS treatment showed significant reduction in total bilirubin level, serum ammonia level and blood urea, and nitrogen (P < 0.001 for all three parameters). Five patients (22.7%) were able to bridge to transplantation and one patient (4.5%) made a spontaneous recovery. The 30-day mortality rate was 72.7%. CONCLUSIONS: Our results indicated that MARS can effectively improve serum biochemistry and is suitable for temporarily supporting patients with liver failure where transplantation is not immediately available. There is, however, no clear evidence showing that MARS can increase survival, improve the chance of transplantation or assist liver regeneration. Future studies in the form of randomized-controlled trials are crucial to characterize the true potential of this treatment.
Authors: Gabriele Donati; Andrea Angeletti; Lorenzo Gasperoni; Fabio Piscaglia; Anna Laura Croci Chiocchini; Anna Scrivo; Teresa Natali; Ines Ullo; Chiara Guglielmo; Patrizia Simoni; Rita Mancini; Luigi Bolondi; Gaetano La Manna Journal: J Nephrol Date: 2020-07-24 Impact factor: 3.902
Authors: Albert C Chan; Sheung Tat Fan; Chung Mau Lo; Chi Leung Liu; See Ching Chan; Kelvin K Ng; Boon Hun Yong; Alexander Chiu; Banny K Lam Journal: Hepatol Int Date: 2009-08-13 Impact factor: 6.047
Authors: Kamil Pufal; Alexander Lawson; James Hodson; Mansoor Bangash; Jaimin Patel; Chris Weston; Thomas van Gulik; Bobby Vm Dasari Journal: Ann Hepatobiliary Pancreat Surg Date: 2021-05-31