PURPOSE: To measure the cost-effectiveness of a specific polyclonal intravenous immune globulin preparation (Pentaglobin) in adult patients treated for severe sepsis and septic shock. MATERIALS AND METHODS: Effectiveness data from a meta-analysis of 9 randomized trials (N=435) were used to populate a decision model to estimate the cost-effectiveness of Pentaglobin and its comparator standard therapy from the hospital perspective in Germany. PRIMARY OUTCOME: all-cause morality; secondary outcome: intensive care unit (ICU) length of stay. Benefit was expressed as lives saved (LS). Published cost data were applied to assess differences in ICU treatment costs. Cost-effectiveness was calculated as incremental cost per LS. RESULTS: Pentaglobin reduced the risk of mortality (P<.001) but had no effect on ICU length of stay. A baseline risk of mortality of 0.4434 (risk ratio=0.5652; absolute risk reduction=0.1928; number-needed-to-treat=5.19) increased ICU treatment costs with Pentaglobin by 2,037 (22,711 vs 24,747) with a cost per LS of 10,565. Sensitivity analyses on baseline mortality risk (95% confidence interval 0.3293-0.5162) and risk ratio (95% confidence interval 0.4306-0.7420) yielded a cost per LS range of 5,715 to 28,443 with a 56.3% probability of cost-effectiveness of 12,000 or less. CONCLUSIONS: Pentaglobin is a promising adjuvant therapy both clinically and economically for treatment of adults with severe sepsis and septic shock.
PURPOSE: To measure the cost-effectiveness of a specific polyclonal intravenous immune globulin preparation (Pentaglobin) in adult patients treated for severe sepsis and septic shock. MATERIALS AND METHODS: Effectiveness data from a meta-analysis of 9 randomized trials (N=435) were used to populate a decision model to estimate the cost-effectiveness of Pentaglobin and its comparator standard therapy from the hospital perspective in Germany. PRIMARY OUTCOME: all-cause morality; secondary outcome: intensive care unit (ICU) length of stay. Benefit was expressed as lives saved (LS). Published cost data were applied to assess differences in ICU treatment costs. Cost-effectiveness was calculated as incremental cost per LS. RESULTS: Pentaglobin reduced the risk of mortality (P<.001) but had no effect on ICU length of stay. A baseline risk of mortality of 0.4434 (risk ratio=0.5652; absolute risk reduction=0.1928; number-needed-to-treat=5.19) increased ICU treatment costs with Pentaglobin by 2,037 (22,711 vs 24,747) with a cost per LS of 10,565. Sensitivity analyses on baseline mortality risk (95% confidence interval 0.3293-0.5162) and risk ratio (95% confidence interval 0.4306-0.7420) yielded a cost per LS range of 5,715 to 28,443 with a 56.3% probability of cost-effectiveness of 12,000 or less. CONCLUSIONS: Pentaglobin is a promising adjuvant therapy both clinically and economically for treatment of adults with severe sepsis and septic shock.
Authors: Christine S Cocanour; Phillip Chang; Jared M Huston; Charles A Adams; Jose J Diaz; Charles B Wessel; Bonnie A Falcione; Graciela M Bauza; Raquel A Forsythe; Matthew R Rosengart Journal: Surg Infect (Larchmt) Date: 2017-04-04 Impact factor: 2.150
Authors: L Capasso; Ac Borrelli; J Cerullo; R Pisanti; C Figliuolo; F Izzo; M Paccone; T Ferrara; S Lama; F Raimondi Journal: Transl Med UniSa Date: 2014-12-19
Authors: Ignacio Martin-Loeches; Arturo Muriel-Bombín; Ricard Ferrer; Antonio Artigas; Jordi Sole-Violan; Leonardo Lorente; David Andaluz-Ojeda; Adriele Prina-Mello; Ruben Herrán-Monge; Borja Suberviola; Ana Rodriguez-Fernandez; Pedro Merino; Ana M Loza; Pablo Garcia-Olivares; Eduardo Anton; Eduardo Tamayo; Wysali Trapiello; Jesús Blanco; Jesús F Bermejo-Martin Journal: Ann Intensive Care Date: 2017-04-20 Impact factor: 6.925
Authors: Jeroen D Langereis; Stefanie S Henriet; Saskia Kuipers; Corry M R Weemaes; Mirjam van der Burg; Marien I de Jonge; Michiel van der Flier Journal: J Clin Immunol Date: 2018-01-15 Impact factor: 8.317