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01-05-2015 | Original Article

Short-term survival of hyperammonemic neonates treated with dialysis

Authors: Stefano Picca, Carlo Dionisi-Vici, Andrea Bartuli, Tommaso De Palo, Francesco Papadia, Giovanni Montini, Marco Materassi, Maria Alice Donati, Enrico Verrina, Maria Cristina Schiaffino, Carmine Pecoraro, Emilia Iaccarino, Enrico Vidal, Alberto Burlina, Francesco Emma

Published in: Pediatric Nephrology | Issue 5/2015

Abstract

Background

In severe neonatal hyperammonemia, extracorporeal dialysis (ECD) provides higher ammonium clearance than peritoneal dialysis (PD). However, there are limited outcome data in relation to dialysis modality.

Methods

Data from infants with hyperammonemia secondary to inborn errors of metabolism (IEM) treated with dialysis were collected in six Italian centers and retrospectively analyzed.

Results

Forty-five neonates born between 1990 and 2011 were enrolled in the study. Of these, 23 were treated with PD and 22 with ECD (14 with continuous venovenous hemodialysis [CVVHD], 5 with continuous arteriovenous hemodialysis [CAVHD], 3 with hemodialysis [HD]). Patients treated with PD experienced a shorter duration of predialysis coma, while those treated with HD had a shorter ammonium decay time compared with all the other patients (p < 0.05). No difference in ammonium reduction rate was observed between patients treated with PD, CAVHD or CVVHD. Carbamoyl phosphate synthetase deficiency (CPS) was significantly associated with increased risk of death (OR: 9.37 [1.52–57.6], p = 0.016). Predialysis ammonium levels were significantly associated with a composite end-point of death or neurological sequelae (adjusted OR: 1.13 [1.02–1.27] per 100 μmol/l, p = 0.026). No association was found between outcome and dialysis modality.

Conclusions

In this study, a delayed ECD treatment was not superior to PD in improving the short-term outcome of neonates with hyperammonemia secondary to IEM.

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Häberle J, Boddaert N, Burlina A, Chakrapani A, Dixon M, Huemer M, Karall D, Martinelli D, Crespo PS, Santer R, Servais A, Valayannopoulos V, Lindner M, Rubio V, Dionisi-Vici C (2012) Suggested guidelines for the diagnosis and management of urea cycle disorders. Orphanet J Rare Dis 7:32CrossRefPubMedCentralPubMed

Coude FX, Sweetman L, Nyhan WL (1979) Inhibition by propionyl coenzyme A of N-acetylglutamate synthetase in rat liver mitochondria. J Clin Invest 64:1544–1548CrossRefPubMedCentralPubMed

Dionisi-Vici C, Rizzo C, Burlina AB, Caruso U, Sabetta G, Uziel G, Abeni D (2002) Inborn errors of metabolism in the Italian pediatric population: a national retrospective survey. J Pediatr 140:321–327CrossRefPubMed

Campbell AG, Rosenberg LE, Snodgrass PJ, Nuzum CT (1973) Ornithine transcarbamylase deficiency: a cause of lethal neonatal hyperammonemia in males. N Engl J Med 288:1–6CrossRefPubMed

Snyderman SE, Sansaricq C, Phansalkar SV, Schacht RC, Norton PM (1975) The therapy of hyperammonemia due to ornithine transcarbamylase deficiency in a male neonate. Pediatrics 56:65–73PubMed

Francois B, Cornu G, de Meyer R (1976) Peritoneal dialysis and exchange transfusion in a neonate with argininosuccinic aciduria. Arch Dis Child 51:228–231CrossRefPubMedCentralPubMed

Wiegand C, Thompson T, Bock GH, Mathis RK, Kjellstrand CM, Mauer SM (1980) The management of life-threatening hyperammonemia: a comparison of several therapeutic modalities. J Pediatr 96:142–144CrossRefPubMed

Gortner L, Leupold D, Pohlandt F, Bartmann P (1989) Peritoneal dialysis in the treatment of metabolic crises caused by inherited disorders of organic and amino acid metabolism. Acta Paediatr Scand 78:706–711CrossRefPubMed

Donn SM, Swartz RD, Thoene JG (1979) Comparison of exchange transfusion, peritoneal dialysis, and hemodialysis for the treatment of hyperammonemia in an anuric newborn infant. J Pediatr 95:67–70CrossRefPubMed

10.

Robert MF, Schultz DJ, Wolf B, Cochran WD, Schwartz AL (1979) Treatment of a neonate with propionic acidaemia and severe hyperammonaemia by peritoneal dialysis. Arch Dis Child 54:962–965CrossRefPubMedCentralPubMed

11.

Pela I, Seracini D, Donati MA, Lavoratti G, Pasquini E, Materassi M (2008) Peritoneal dialysis in neonates with inborn errors of metabolism: is it really out of date? Pediatr Nephrol 23:163–168CrossRefPubMed

12.

Summar M, Pietsch J, Deshpande J, Schulman G (1996) Effective hemodialysis and hemofiltration driven by an extracorporeal membrane oxygenation pump in infants with hyperammonemia. J Pediatr 128:379–382CrossRefPubMed

13.

Schaefer F, Straube E, Oh J, Mehls O, Mayatepek E (1999) Dialysis in neonates with inborn errors of metabolism. Nephrol Dial Transplant 14:910–918CrossRefPubMed

14.

Picca S, Dionisi-Vici C, Abeni D, Pastore A, Rizzo C, Orzalesi M, Sabetta G, Rizzoni G, Bartuli A (2001) Extracorporeal dialysis in neonatal hyperammonemia: modalities and prognostic indicators. Pediatr Nephrol 16:862–867CrossRefPubMed

15.

Bunchman TE, Barletta GM, Winters JW, Gardner JJ, Crumb TL, McBryde KD (2007) Phenylacetate and benzoate clearance in a hyperammonemic infant on sequential hemodialysis and hemofiltration. Pediatr Nephrol 22:1062–1065CrossRefPubMed

16.

Picca S, Bartuli A, Dionisi-Vici C (2008) Medical management and dialysis therapy for the infant with an inborn error of metabolism. Semin Nephrol 28:477–480CrossRefPubMed

17.

Lai YC, Huang HP, Tsai IJ, Tsau YK (2007) High-volume continuous venovenous hemofiltration as an effective therapy for acute management of inborn errors of metabolism in young children. Blood Purif 25:303–308CrossRefPubMed

18.

Chen CY, Tsai TC, Lee WJ, Chen HC (2007) Continuous hemodiafiltration in the treatment of hyperammonemia due to methylmalonic acidemia. Ren Fail 29:751–754CrossRefPubMed

19.

Arbeiter AK, Kranz B, Wingen AM, Bonzel KE, Dohna-Schwake C, Hanssler L, Neudorf U, Hoyer PF, Büscher R (2010) Continuous venovenous haemodialysis (CVVHD) and continuous peritoneal dialysis (CPD) in the acute management of 21 children with inborn errors of metabolism. Nephrol Dial Transplant 25:1257–1265CrossRefPubMed

20.

Saudubray JM, Touati G, Delonlay P, Jouvet P, Narcy C, Laurent J, Rabier D, Kamoun P, Jan D, Revillon Y (1999) Liver transplantation in urea cycle disorders. Eur J Pediatr 158 [Suppl 2]:S55–S59CrossRefPubMed

21.

Msall M, Batshaw ML, Suss R, Brusilow SW, Mellits ED (1984) Neurologic outcome in children with inborn errors of urea synthesis. N Engl J Med 310:1500–1505CrossRefPubMed

22.

Uchino T, Endo F, Matsuda I (1998) Neurodevelopmental outcome of long-term therapy of urea cycle disorders in Japan. J Inherit Metab Dis 21 [Suppl 1]:151–159CrossRefPubMed

23.

Siegel NJ, Brown RS (1973) Peritoneal clearance of ammonia and creatinine in a neonate. J Pediatr 82:1044–1046CrossRefPubMed

24.

Ring E, Zobel G, Stockler S (1990) Clearance of toxic metabolites during therapy for inborn errors of metabolism. J Pediatr 117:349–350CrossRefPubMed

25.

Thompson GN, Butt WW, Shann FA, Kirby DM, Henning RD, Howells DW, Osborne A (1991) Continuous venovenous hemofiltration in the management of acute decompensation in inborn errors of metabolism. J Pediatr 118:879–884CrossRefPubMed

26.

Sperl W, Geiger R, Maurer H, Guggenbichler JP (1990) Continuous arteriovenous haemofiltration in hyperammonemia of newborn babies. Lancet 336:1192–1193CrossRefPubMed

27.

Falk MC, Knight JF, Roy LP, Wilcken B, Schell DN, O′Connell AJ, Gillis J (1994) Continuous venovenous haemofiltration in the acute treatment of inborn errors of metabolism. Pediatr Nephrol 8:330–333CrossRefPubMed

28.

Wong KY, Wong SN, Lam SY, Tam S, Tsoi NS (1998) Ammonia clearance by peritoneal dialysis and continuous arteriovenous hemodiafiltration. Pediatr Nephrol 12:589–591CrossRefPubMed

29.

Summar M (2001) Current strategies for the management of neonatal urea cycle disorders. J Pediatr 138 [1 Suppl]:S30–S39CrossRefPubMed

30.

McBryde KD, Kershaw DB, Bunchman TE, Maxvold NJ, Mottes TA, Kudelka TL, Brophy PD (2006) Renal replacement therapy in the treatment of confirmed or suspected inborn errors of metabolism. J Pediatr 148:770–778CrossRefPubMed

31.

Westrope C, Morris K, Burford D, Morrison G (2010) Continuous hemofiltration in the control of neonatal hyperammonemia: a 10-year experience. Pediatr Nephrol 25:1725–1730CrossRefPubMed

32.

Semama DS, Huet F, Gouyon JB, Lallemant C, Desgres J (1995) Use of peritoneal dialysis, continuous arteriovenous hemofiltration, and continuous arteriovenous hemodiafiltration for removal of ammonium chloride and glutamine in rabbits. J Pediatr 126:742–746CrossRefPubMed

33.

Fischbach M, Terzic J, Bergère V, Gaugler C, Provot E (1999) The optimal approach to peritoneal dialysis prescription in children. Perit Dial Int 19(Suppl 2):S462–S466

34.

Warady BA, Alexander SR, Hossli S, Vonesh E, Geary D, Watkins S, Salusky IB, Kohaut EC (1996) Peritoneal membrane transport function in children receiving long-term dialysis. J Am Soc Nephrol 7:2385–2391PubMed

35.

Batshaw ML (1984) Hyperammonemia. Curr Probl Pediatr 14:1–69PubMed

Title: Short-term survival of hyperammonemic neonates treated with dialysis
Authors: Stefano Picca
Carlo Dionisi-Vici
Andrea Bartuli
Tommaso De Palo
Francesco Papadia
Giovanni Montini
Marco Materassi
Maria Alice Donati
Enrico Verrina
Maria Cristina Schiaffino
Carmine Pecoraro
Emilia Iaccarino
Enrico Vidal
Alberto Burlina
Francesco Emma
Publication date: 01-05-2015
Publisher: Springer Berlin Heidelberg
Published in: Pediatric Nephrology / Issue 5/2015
Print ISSN: 0931-041X
Electronic ISSN: 1432-198X
DOI: https://doi.org/10.1007/s00467-014-2945-x

At a glance: The STEP trials

Springer Medicine

Short-term survival of hyperammonemic neonates treated with dialysis

Abstract

Background

Methods

Results

Conclusions

At a glance: The STEP trials

Springer Medicine

Abstract

Background

Methods

Results

Conclusions

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