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Hyperammonemia

Hyperammonemia
Other namesHyperammonaemia; High ammonia levels
Ammonia
SpecialtyEndocrinology Edit this on Wikidata
CausesDue to accumulation of argininosuccinate, citrulline, and arginine in the liver when the urea cycle is deficient.

Hyperammonemia, or high ammonia levels, is a metabolic disturbance characterised by an excess of ammonia in the blood. Severe hyperammonemia is a dangerous condition that may lead to brain injury and death. It may be primary or secondary.

Ammonia is a substance that contains nitrogen. It is a product of the catabolism of protein. It is converted to the less toxic substance urea prior to excretion in urine by the kidneys. The metabolic pathways that synthesize urea involve reactions that start in the mitochondria and then move into the cytosol. The process is known as the urea cycle, which comprises several enzymes acting in sequence. It is greatly exacerbated by common zinc deficiency, which raises ammonia levels further.[1]

Levels

Normal blood ammonia levels in adults range from 20 to 50 μmol/L or less than 26 to 30 μmol/L.[2][3][4] There is at present no clear scientific consensus on the upper limits of ammonia levels for different age groups.[4] In any case, hyperammonemia is generally defined as ammonia levels greater than 50 μmol/L in adults and greater than 100 μmol/L in newborns.[2][4] These values should be considered as decision limits and the normal reference ranges of individual laboratories should be used for clinical interpretation.[4]

Blood ammonia levels in different populations[2][3][4]
Patient group Ammonia levels (μmol/L) Hyperammonemia (μmol/L) Ref
Premature neonates 50–159 >159 [5][3]
Healthy term neonates 45–75 >75–100 [5][3]
Children and adolescents 24–48 >48–50 [6][3]
Adult females 11–48 >48 [7]
Adult males 15–55 >55 [7]

When ammonia levels rise greater than 200 μmol/L, serious symptoms, including seizures, encephalopathy, coma, and even death, can occur.[3] Hyperammonemia with blood ammonia levels greater than 400 to 500 μmol/L is associated with 5- to 10-fold higher risk of irreversible brain damage.[2]

Signs and symptoms

Complication

Hyperammonemia is one of the metabolic derangements that contribute to hepatic encephalopathy, which can cause swelling of astrocytes and stimulation of NMDA receptors in the brain.[8]

Cause

Diagnosis

Types

Primary vs. secondary

Acquired vs. congenital

Specific types

The following list includes such examples:

Treatment

Treatment centres on limiting intake of ammonia and increasing its excretion. Dietary protein, a metabolic source of ammonium, is restricted, and caloric intake is provided by glucose and fat. Intravenous arginine (argininosuccinase deficiency), sodium phenylbutyrate and sodium benzoate (ornithine transcarbamylase deficiency) are pharmacologic agents commonly used as adjunctive therapy to treat hyperammonemia in patients with urea cycle enzyme deficiencies.[13] Sodium phenylbutyrate and sodium benzoate can serve as alternatives to urea for the excretion of waste nitrogen. Phenylbutyrate, which is the product of phenylacetate, conjugates with glutamine to form phenylacetylglutamine, which is excreted by the kidneys. Similarly, sodium benzoate reduces ammonia content in the blood by conjugating with glycine to form hippuric acid, which is rapidly excreted by the kidneys.[14] A preparation containing sodium phenylacetate and sodium benzoate is available under the trade name Ammonul. Acidification of the intestinal lumen using lactulose can decrease ammonia levels by protonating ammonia and trapping it in the stool. This is a treatment for hepatic encephalopathy.[15]

Treatment of severe hyperammonemia (serum ammonia levels greater than 1000 μmol/L) should begin with hemodialysis if it is otherwise medically appropriate and tolerated.[12]

Continuous renal replacement therapy (CRRT) is a remarkably effective mode of therapy in neonatal hyperammonemia, particularly in severe cases of Urea cycle defects like Ornithine transcarbamoylase (OTC) deficiency. Multidisciplinary team (MDT) collaboration is required to optimize this advanced treatment. Simulation training might be the best training and teaching strategy to ensure MDT successful therapy.[16]

See also

References

  1. ^ Riggio, O.; Merli, M.; Capocaccia, L.; Caschera, M.; Zullo, A.; Pinto, G.; Gaudio, E.; Franchitto, A.; Spagnoli, R.; D'Aquilino, E. (September 1992). "Zinc supplementation reduces blood ammonia and increases liver ornithine transcarbamylase activity in experimental cirrhosis". Hepatology. 16 (3): 785–789. doi:10.1002/hep.1840160326. ISSN 0270-9139. PMID 1505922. S2CID 1141979.
  2. ^ a b c d Limón ID, Angulo-Cruz I, Sánchez-Abdon L, Patricio-Martínez A (2021). "Disturbance of the Glutamate-Glutamine Cycle, Secondary to Hepatic Damage, Compromises Memory Function". Front Neurosci. 15: 578922. doi:10.3389/fnins.2021.578922. PMC 7873464. PMID 33584185.
  3. ^ a b c d e f Ali, Rimsha; Nagalli, Shivaraj (7 April 2023). "Hyperammonemia". StatPearls Publishing. PMID 32491436. Retrieved 6 September 2024.
  4. ^ a b c d e Alfadhel M, Mutairi FA, Makhseed N, Jasmi FA, Al-Thihli K, Al-Jishi E, AlSayed M, Al-Hassnan ZN, Al-Murshedi F, Häberle J, Ben-Omran T (2016). "Guidelines for acute management of hyperammonemia in the Middle East region". Ther Clin Risk Manag. 12: 479–487. doi:10.2147/TCRM.S93144. PMC 4820220. PMID 27099506.
  5. ^ a b Colombo JP, Peheim E, Kretschmer R, Dauwalder H, Sidiropoulos D (April 1984). "Plasma ammonia concentrations in newborns and children". Clin Chim Acta. 138 (3): 283–291. doi:10.1016/0009-8981(84)90135-9. PMID 6723064.
  6. ^ Donn, S. M.; Banagale, R. C. (1 January 1984). "Neonatal Hyperammonemia". Pediatrics in Review. 5 (7): 203–208. doi:10.1542/pir.5-7-203. ISSN 0191-9601.
  7. ^ a b Häberle J (January 2011). "Clinical practice: the management of hyperammonemia". Eur J Pediatr. 170 (1): 21–34. doi:10.1007/s00431-010-1369-2. PMID 21165747.
  8. ^ Mukherjee, Arghya; Singh, Santosh (2024-11-17). "Andrographolide prevents acute hyperammonemia-induced motor dysfunction in rats. Evidences for its mechanism of action". Phytomedicine Plus: 100679. doi:10.1016/j.phyplu.2024.100679. ISSN 2667-0313.
  9. ^ a b Häberle, Johannes; Chakrapani, Anupam; Ah Mew, Nicholas; Longo, Nicola (December 2018). "Hyperammonaemia in classic organic acidaemias: a review of the literature and two case histories". Orphanet Journal of Rare Diseases. 6 (13): 219. doi:10.1186/s13023-018-0963-7. PMC 6282273. PMID 30522498.
  10. ^ a b Nepal SP, Unoki T, Inoue T, Nakasato T, Naoe M, Ogawa Y, Omizu M, Kato R, Sugishita H, Oshinomi K, Morita J, Maeda Y, Shichijo T. A case of hyperammonemia in a patient with urinary tract infection and urinary retention. Urol Sci [serial online] 2020 [cited 2021 Apr 3];31:82-4. Available from: https://www.e-urol-sci.com/text.asp?2020/31/2/82/283250
  11. ^ Kenzaka T, Kato K, Kitao A, et al. Hyperammonemia in Urinary Tract Infections. PLoS One. 2015;10(8):e0136220. Published 2015 Aug 20. doi:10.1371/journal.pone.0136220
  12. ^ a b Chapter 298 – Inborn Errors of Metabolism and Continuous Renal Replacement Therapy Archived 2013-07-01 at the Wayback Machine in: John J. Ratey MD; Claudio Ronco MD (2008). Critical Care Nephrology: Expert Consult - Online and Print. Philadelphia: Saunders. ISBN 978-1-4160-4252-5. ISBN 9781416042525
  13. ^ Chawla, Jasvinder (12 September 2022). "Hyperammonemia". Medscape. Retrieved 18 March 2024.
  14. ^ "Ammonul (Sodium Phenylacetate and Sodium Benzoate Injection) clinical pharmacology - prescription drugs and medications at RxList". Archived from the original on 2008-06-16. Retrieved 2008-06-26.
  15. ^ Bloom, Patricia; Tapper, Elliot (November 2023). "Lactulose in cirrhosis: Current understanding of efficacy, mechanism, and practical considerations". Hepatology Communications. 7 (11): e0295. doi:10.1097/HC9.0000000000000295. PMC 10578757. PMID 37820287.
  16. ^ Elbaba, Mostafa. "IPE Simulation Enhances the Quality of Care in Neonatal Hyperammonemia". Cureus Journal of Medical Science.
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