The following new article has just been published in Orphanet Journal of Rare Diseases
Valayannopoulos V, Baruteau J, Delgado M, Cano A, Couce M, Del Toro M, Donati M, Garcia-Cazorla A, Gil-Ortega D, Gomez-de Quero P, Guffon N, Hofstede F, Kalkan-Ucar S, Coker M, Lama-More R, Martinez-Pardo Casanova M, Molina A, Pichard S, Papadia F, Rosello P, Plisson C, Le Mouhaer J, Chakrapani A
Orphanet Journal of Rare Diseases 2016, 11 :32 (31 March 2016)
Carglumic acid enhances rapid ammonia detoxification in classical organic acidurias with a favourable risk-benefit profile: a retrospective observational study
- Vassili Valayannopoulos,
- Julien Baruteau,
- Maria Bueno Delgado,
- Aline Cano,
- Maria L. Couce,
- Mireia Del Toro,
- Maria Alice Donati,
- Angeles Garcia-Cazorla,
- David Gil-Ortega,
- Pedro Gomez-de Quero,
- Nathalie Guffon,
- Floris C. Hofstede,
- Sema Kalkan-Ucar,
- Mahmut Coker,
- Rosa Lama-More,
- Mercedes Martinez-Pardo Casanova,
- Agustin Molina,
- Samia Pichard,
- Francesco Papadia,
- Patricia Rosello,
- Celine Plisson,
- Jeannie Le Mouhaer and
- Anupam Chakrapani
Orphanet Journal of Rare Diseases201611:32
DOI: 10.1186/s13023-016-0406-2
© Valayannopoulos et al. 2016
Received: 6 December 2015
Accepted: 16 March 2016
Published: 31 March 2016
Abstract
Background
Isovaleric aciduria (IVA), propionic aciduria (PA) and methylmalonic aciduria (MMA) are inherited organic acidurias (OAs) in which impaired organic acid metabolism induces hyperammonaemia arising partly from secondary deficiency of N-acetylglutamate (NAG) synthase. Rapid reduction in plasma ammonia is required to prevent neurological complications. This retrospective, multicentre, open-label, uncontrolled, phase IIIb study evaluated the efficacy and safety of carglumic acid, a synthetic structural analogue of NAG, for treating hyperammonaemia during OA decompensation.
Methods
Eligible patients had confirmed OA and hyperammonaemia (plasma NH3 > 60 μmol/L) in ≥1 decompensation episode treated with carglumic acid (dose discretionary, mean (SD) first dose 96.3 (73.8) mg/kg). The primary outcome was change in plasma ammonia from baseline to endpoint (last available ammonia measurement at ≤18 hours after the last carglumic acid administration, or on Day 15) for each episode. Secondary outcomes included clinical response and safety.
Results
The efficacy population (received ≥1 dose of study drug and had post-baseline measurements) comprised 41 patients (MMA: 21, PA: 16, IVA: 4) with 48 decompensation episodes (MMA: 25, PA: 19, IVA: 4). Mean baseline plasma ammonia concentration was 468.3 (±365.3) μmol/L in neonates (29 episodes) and 171.3 (±75.7) μmol/L in non-neonates (19 episodes). At endpoint the mean plasma NH3 concentration was 60.7 (±36.5) μmol/L in neonates and 55.2 (±21.8) μmol/L in non-neonates. Median time to normalise ammonaemia was 38.4 hours in neonates vs 28.3 hours in non-neonates and was similar between OA subgroups (MMA: 37.5 hours, PA: 36.0 hours, IVA: 40.5 hours). Median time to ammonia normalisation was 1.5 and 1.6 days in patients receiving and not receiving concomitant scavenger therapy, respectively. Although patients receiving carglumic acid with scavengers had a greater reduction in plasma ammonia, the endpoint ammonia levels were similar with or without scavenger therapy. Clinical symptoms improved with therapy. Twenty-five of 57 patients in the safety population (67 episodes) experienced AEs, most of which were not drug-related. Overall, carglumic acid seems to have a good safety profile for treating hyperammonaemia during OA decompensation.
Conclusion
Carglumic acid when used with or without ammonia scavengers, is an effective treatment for restoration of normal plasma ammonia concentrations in hyperammonaemic episodes in OA patients.
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