Laurence Corash scite author profile

We report a transfusion trial of platelets photochemically treated for pathogen inactivation using the synthetic psoralen amotosalen HCl. Patients with thrombocytopenia were randomly assigned to receive either photochemically treated (PCT) or conventional (control) platelets for up to 28 days. The primary end point was the proportion of patients with World Health Organization (WHO) grade 2 bleeding during the period of platelet support. A total of 645 patients (318 PCT and 327 control) were evaluated. The primary end point, the incidence of grade 2 bleeding (58.5% PCT versus 57.5% control), and the secondary end point, the incidence of grade 3 or 4 bleeding (4.1% PCT versus 6.1% control), were equivalent between the 2 groups (P ‫؍‬ .001 by noninferiority). The

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Transfusion of pooled buffy coat platelet components prepared with photochemical pathogen inactivation treatment: the euroSPRITE trial

Rhenen

et al. 2002

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A nucleic acid-targeted photochemical treatment (PCT) using amotosalen HCl (S-59) and ultraviolet A (UVA) light was developed to inactivate viruses, bacteria, protozoa, and leukocytes in platelet components. We conducted a controlled, randomized, double-blinded trial in thrombocytopenic patients requiring repeated platelet transfusions for up to 56 days of support to evaluate the therapeutic efficacy and safety of platelet components prepared with the buffy coat method using this pathogen inactivation process. A total of 103 patients received one or more transfusions of either PCT test (311 transfusions) or conventional reference (256 transfusions) pooled, leukoreduced platelet components stored for up to 5 days before transfusion. More than 50% of the PCT platelet components were stored for 4 to 5 days prior to transfusion. The mean 1-hour corrected count increment for up to the first 8 test and reference transfusions was not statistically significantly different between treatment groups (13 100 ؎ 5400 vs 14 900 ؎ 6200, P ‫؍‬ .11). By longitudinal regression analysis for all transfusions, equal doses of test and reference components did not differ significantly with respect to the 1-hour (95% confidence interval [CI], ؊3.1 to 6.1 ؋ 10 9 / L, P ‫؍‬ .53) and 24-hour (95% CI, ؊1.3 to 6.5 ؋ 10 9 /L, P ‫؍‬ .19) posttransfusion platelet count. Platelet transfusion dose, pretransfusion storage duration, and patient size were significant covariates (P < .001) for posttransfusion platelet counts. Clinical hemostasis, hemorrhagic adverse events, and overall adverse events were not different between the treatment groups. Platelet components prepared with PCT offer the potential to further improve the safety of platelet transfusion using technology compatible with current methods to prepare buffy coat platelet components. (Blood. 2003;101: 2426-2433)

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Photochemical inactivation of viruses and bacteria in platelet concentrates by use of a novel psoralen and long‐wavelength ultraviolet light

Lin

Cook²,

Wiesehahn³

et al. 1997

Transfusion

331

306

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Clinical safety of platelets photochemically treated with amotosalen HCl and ultraviolet A light for pathogen inactivation: the SPRINT trial

Snyder

McCullough²,

Slichter³

et al. 2005

Transfusion

112

196

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Inactivation of viruses in platelet concentrates by photochemical treatment with amotosalen and long‐wavelength ultraviolet light

et al. 2005

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Laurence Corash

Therapeutic efficacy and safety of platelets treated with a photochemical process for pathogen inactivation: the SPRINT Trial

Transfusion of pooled buffy coat platelet components prepared with photochemical pathogen inactivation treatment: the euroSPRITE trial

Photochemical inactivation of viruses and bacteria in platelet concentrates by use of a novel psoralen and long‐wavelength ultraviolet light

Clinical safety of platelets photochemically treated with amotosalen HCl and ultraviolet A light for pathogen inactivation: the SPRINT trial

Inactivation of viruses in platelet concentrates by photochemical treatment with amotosalen and long‐wavelength ultraviolet light

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