BACKGROUND: Hereditary angioedema (HAE) is a rare and potentially life-threatening disease presenting with acute edema of subcutaneous tissues and/or mucous membranes. Patients with HAE have abnormally low or dysfunctional C1-inhibitor (C1-INH). Preventing the progression of acute attacks is the main goal of C1-INH replacement therapy; knowledge of the C1-INH concentrate half-life is of crucial importance. This pharmacokinetic study was conducted to investigate the pharmacokinetics of pasteurized human plasma-derived C1-INH concentrate (pC1-INH). STUDY DESIGN AND METHODS: This was a prospective, single-center study of six children and 34 adults with an established diagnosis of HAE. On-demand treatment with pC1-INH was administered to all children, whereas adults received either pC1-INH on-demand treatment or individual replacement therapy (IRT). Functional C1-INH plasma levels were fitted to a single-compartment model with nonlinear regression, and the area under the curve was standardized to a dose equivalent of 15 U/kg body weight of pC1-INH concentrate. RESULTS: The median half-life of functional C1-INH plasma levels in pediatric patients receiving on-demand therapy was 32.9 hours (mean, 31.5 hr). In adults, the median half-lives of functional C1-INH plasma levels after on-demand therapy were 39.1 hours (mean, 47.8 hr) and 30.9 hours (mean 33.3 hr) for patients on IRT. The median times to achieve maximum plasma activity after administration were 0.6 hour for children, 1.0 hour for adults receiving on-demand treatment, and 0.5 hour for adults on IRT. CONCLUSIONS: pC1-INH concentrate has a long median terminal elimination half-life and rapidly reaches maximum plasma concentrations. This rapid onset of clinical efficacy is essential in patients suffering from HAE.
BACKGROUND:Hereditary angioedema (HAE) is a rare and potentially life-threatening disease presenting with acute edema of subcutaneous tissues and/or mucous membranes. Patients with HAE have abnormally low or dysfunctional C1-inhibitor (C1-INH). Preventing the progression of acute attacks is the main goal of C1-INH replacement therapy; knowledge of the C1-INH concentrate half-life is of crucial importance. This pharmacokinetic study was conducted to investigate the pharmacokinetics of pasteurized human plasma-derived C1-INH concentrate (pC1-INH). STUDY DESIGN AND METHODS: This was a prospective, single-center study of six children and 34 adults with an established diagnosis of HAE. On-demand treatment with pC1-INH was administered to all children, whereas adults received either pC1-INH on-demand treatment or individual replacement therapy (IRT). Functional C1-INH plasma levels were fitted to a single-compartment model with nonlinear regression, and the area under the curve was standardized to a dose equivalent of 15 U/kg body weight of pC1-INH concentrate. RESULTS: The median half-life of functional C1-INH plasma levels in pediatric patients receiving on-demand therapy was 32.9 hours (mean, 31.5 hr). In adults, the median half-lives of functional C1-INH plasma levels after on-demand therapy were 39.1 hours (mean, 47.8 hr) and 30.9 hours (mean 33.3 hr) for patients on IRT. The median times to achieve maximum plasma activity after administration were 0.6 hour for children, 1.0 hour for adults receiving on-demand treatment, and 0.5 hour for adults on IRT. CONCLUSIONS: pC1-INH concentrate has a long median terminal elimination half-life and rapidly reaches maximum plasma concentrations. This rapid onset of clinical efficacy is essential in patients suffering from HAE.
Authors: V Wahn; W Aberer; W Eberl; M Faßhauer; T Kühne; K Kurnik; M Magerl; D Meyer-Olson; I Martinez-Saguer; P Späth; P Staubach-Renz; W Kreuz Journal: Eur J Pediatr Date: 2012-04-29 Impact factor: 3.183
Authors: Marcus Maurer; Markus Magerl; Stephen Betschel; Werner Aberer; Ignacio J Ansotegui; Emel Aygören-Pürsün; Aleena Banerji; Noémi-Anna Bara; Isabelle Boccon-Gibod; Konrad Bork; Laurence Bouillet; Henrik Balle Boysen; Nicholas Brodszki; Paula J Busse; Anette Bygum; Teresa Caballero; Mauro Cancian; Anthony J Castaldo; Danny M Cohn; Dorottya Csuka; Henriette Farkas; Mark Gompels; Richard Gower; Anete S Grumach; Guillermo Guidos-Fogelbach; Michihiro Hide; Hye-Ryun Kang; Allen P Kaplan; Constance H Katelaris; Sorena Kiani-Alikhan; Wei-Te Lei; Richard F Lockey; Hilary Longhurst; William Lumry; Andrew MacGinnitie; Alejandro Malbran; Inmaculada Martinez Saguer; Juan José Matta Campos; Alexander Nast; Dinh Nguyen; Sandra A Nieto-Martinez; Ruby Pawankar; Jonathan Peter; Grzegorz Porebski; Nieves Prior; Avner Reshef; Marc Riedl; Bruce Ritchie; Farrukh Rafique Sheikh; William B Smith; Peter J Spaeth; Marcin Stobiecki; Elias Toubi; Lilian Agnes Varga; Karsten Weller; Andrea Zanichelli; Yuxiang Zhi; Bruce Zuraw; Timothy Craig Journal: World Allergy Organ J Date: 2022-04-07 Impact factor: 5.516
Authors: Timothy Craig; Emel Aygören-Pürsün; Konrad Bork; Tom Bowen; Henrik Boysen; Henriette Farkas; Anete Grumach; Constance H Katelaris; Richard Lockey; Hilary Longhurst; William Lumry; Markus Magerl; Immaculada Martinez-Saguer; Bruce Ritchie; Alexander Nast; Ruby Pawankar; Bruce Zuraw; Marcus Maurer Journal: World Allergy Organ J Date: 2012-12 Impact factor: 4.084