Search

Your search keyword '"Corash L"' showing total 89 results
Start Over Author "Corash L" Journal transfusion
89 results on '"Corash L"'

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

Author

Lin, L, primary, Cook, DN, additional, Wiesehahn, GP, additional, Alfonso, R, additional, Behrman, B, additional, Cimino, GD, additional, Corten, L, additional, Damonte, PB, additional, Dikeman, R, additional, Dupuis, K, additional, Fang, YM, additional, Hanson, CV, additional, Hearst, JE, additional, Lin, CY, additional, Londe, HF, additional, Metchette, K, additional, Nerio, AT, additional, Pu, JT, additional, Reames, AA, additional, Rheinschmidt, M, additional, Tessman, J, additional, Isaacs, ST, additional, Wollowitz, S, additional, and Corash, L, additional

Published
1997
Full Text
View/download PDF

25. Hemostatic Response in Congenital Coagulation Factor-Deficient Patients Transfused with Fresh Frozen Plasma (FFP) Prepared by Helinxä Pathogen Inactivation Technology — The STEP CC Trial.

Author

de Alarcon, P., Benjamin, R., Shopnick, R., Dugdale, M., Smith, P., Abshire, T., Ortiz, I., Matthew, P., Cohen, A., Konkle, B., Streiff, M., Ramies, D., Wages, D., Pinkoski, L., Arroyo, A., Valentine, M., Lazott, R., Corash, L., and Kessler, C.

Subjects
BLOOD coagulation disorders, BLOOD coagulation factors, BLOOD transfusion, BLOOD plasma, FROZEN blood
Abstract

Introduction: Helinx Technology uses a psoralen, S-59, and UVA light to inactivate viruses and bacteria in single units of FFP. S-59 Treated FFP was Evaluated in Patients with Congenital Coagulation factor deficiencies (STEP CC) on an open-label basis. Efficacy was determined through assessment of the pharmacokinetic performance of coagulation factors after transfusion of S-59 FFP in non-bleeding patients, and in cases of patients facing hemostatic challenges. Methods: Allogeneic plasma meeting current U.S. transfusion standards was treated using S-59 and UVA. Prothrombin and partial thromboplastin times (PT and PTT), and assessment of bleeding grade were performed prior to transfusion of S-59 FFP in subjects for treatment of active bleeding or during surgery. Responses of PT, PTT and bleeding grade were then determined after S-59 FFP infusion. Results: Subjects requiring S-59 FFP included: a 16YO F with severe F.V deficiency, transfused prophylactically every 2 months with S-59 FFP for menorrhagia; an 8YO M with severe F.XI deficiency treated prophylactically with S-59 FFP for invasive neuro-angiographic procedures; and a pregnant 18YO F with dysfibrinogenemia who received S-59 FFP support during term labor and delivery. The results of 67 evaluable study transfusions with respect to pre- and post-transfusion PT, PTT (seconds) and bleeding grade responses are summarized below. Bleeding grades were 0 for none, 1 for minor, and 2 for major. No pretransfusion bleeding (grade = 0) was reported in 51 of 67 transfusion episodes. Conclusion: An open-labeled study in patients with rare forms of hemophilia demonstrated that FFP treated with Helinx Technology appears to be efficacious in treatment of hemostatic challenges. [ABSTRACT FROM AUTHOR]

Published
2001

26. Platelets Treated with HELNIX™ Technology (HPC) Are Effective for Multiple Cycles of Transfusion Support of Thrombocytopenia: The euroSPRITE Trial.

Author

Corash, L., Cazenave, J., Van Rhenen, D., Gullikkson, H., Pamphilon, D., Ljungman, P., Davis, K., Flament, J., Marbile, S., Conlan, M., Lin, L., Metzel, P., and Buchholz, D.H.

Subjects
*BLOOD platelet transfusion, *THROMBOCYTOPENIA
Abstract

Background: Helinxä technology using the psoralen S-59 and UVA light inactivates a broad spectrum of infectious pathogens and leukocytes in platelet concentrates (PC). Helinx platelet concentrates (HPC) were evaluated during euroSPRITE, a randomized, blinded, intent-to-treat trial. Methods: 103 thrombocytopenic patients (pts) were transfused to compare the efficacy and safety of pooled buffy coat HPC and untreated PC (UPC). Pts were transfused with HPC (52 pts) or UPC (51 pts) for up to 56 d (Cycle 1). To study repeat exposure to HPC, pts needing more transfusions (12 pts) were re-registered to the initial treatment group for a 2nd cycle of up to 56 d more platelet support with HPC (10 pts) or UPC (2 pts). Longitudinal regression analysis (LRA) was used to examine the effect of relevant covariate factors: platelet dose, storage duration of PC, and patient size on the response to platelet transfusion. In addition, LRA was used to examine the plasma levels of S-59 in multiply transfused patients. Results: LRA with PC dose as a covariate for all Cycle 1 transfusions (n=540) showed no differences in the count increment (Cl) of HPC vs UPC at 1 hr (p=0.53) or 24 hr (p=0.19). There was no interaction between Helinx treatment and platelet dose (p=0.73). However, platelet dose and storage time were significant (p<0.001) covariate factors for the Cl response. HPC pts in Cycle 2 were analyzed by LRA and compared to Cycle 1 HPC pts. LRA for all Cycle 2 HPC transfusions (n=46) using PC dose as a covariate showed no difference in Cl for Cycle 2 HPC vs Cycle 1 HPC (n=290) at 1 hr (p=0.39) or 24 hr (p=0.11). Thus, HPC transfusions gave similar Cl in Cycles 1 and 2. Mean plasma S-59 levels (ng/mL) 24 hr post-transfusion increased from 0.24 ± 0.14 after the 1st transfusion to 0.50 ± 0.28 after the 12th transfusion. LRA showed that plasma S-59 levels were lower as the number of days from the first transfusion increased (p<0.001). Conclusions: Helinx platelets offer robust pathogen inactivation and can be used to manage multiple periods of thrombocytopenia without changing the current practice of platelet transfusion. [ABSTRACT FROM AUTHOR]

Published
2001

27. Helinx™ Treated RBC Transfusions Are Well Tolerated and Show Comparable Recovery and Survival to Control RBCs.

Author

Rios, J.A., Hambleton, J., Viele, M., Greenwalt, T.J., Rugg, N., Sinderman, G., Stassinopoulos, A., Johnson, K., Stewart-Wesson, M., Osborne, R., Schott, M., Capps, V., Decker, T., Buchholz, D.H., Corash, L., and Wages, D.

Subjects
RED blood cell transfusion, BLOOD donors, BLOOD testing
Abstract

Background: Currently, donor screening for selected pathogens is the only protection against infection associated with RBC transfusions. A Pathogen Inactivation (P.I.) process for RBCs based on Helinx technology has been developed using S-303, a novel compound. S-303 treatment of RBCs inactivates a broad spectrum and high titers of viruses and bacteria, while maintaining red cell in vitro and in vivo function. Early clinical trials have demonstrated viability and lack of neoantigenicity for S-303 RBCs. We are currently conducting a two-part trial in healthy volunteers utilizing the final system configuration. Part A compares the recovery and survival of S-303 RBCs to ADSOLÒ RBCs using a crossover regimen. Part B examined the safety and tolerability of S-303 RBC full unit infusions in 11 subjects. Study Design: Forty healthy subjects donated 500 mL of whole blood that was leukocyte reduced then processed into either ADSOL RBCs or S-303 RBCs. Under careful observation, 11 subjects received full unit infusions of S-303 RBCs. The other 29 subjects were randomized to receive 10-30 mL of either 51Cr labeled S-303 RBCs or ADSOL RBCs in a crossover manner. All subjects received 35 day-stored autologous RBCs. Results: No serious adverse events or laboratory abnormalities were observed in either part of the study. Posttransfusion antiglobulin tests were negative. Unpaired RBC recovery and survival pre-crossover from Part A of the study were within an acceptable range. See table below (means and standard deviations). Conclusion: Full unit transfusions of autologous S-303 RBCs were well tolerated in healthy subjects. Unpaired pre-crossover analysis of data examining RBC recovery and survival study suggest no clinically significant difference between ADSOL RBCs and S-303 RBCs. S-303 RBCs had an average recovery greater than 75% 24 h after transfusion and normal lifespan and could therefore enhance RBC transfusion safety without compromising therapeutic efficacy. [ABSTRACT FROM AUTHOR]

Published
2001

28. In vivo genotoxicity assessment of N-(-9 acridinyl)-b-alanine hydrochloride (S-300) using a validated Pig-a mutagenesis assay.

Author

North A, Ling K, Ricaud G, Stankowski LF Jr, Daly JA, Bentow S, Corash L, Benjamin RJ, and Mufti N

Subjects
Animals, Male, Rats, CD59 Antigens genetics, Reticulocytes drug effects, Erythrocytes drug effects, Erythrocytes metabolism, Membrane Proteins genetics, Mutagenesis drug effects, Mutagens toxicity, Rats, Sprague-Dawley, Mutagenicity Tests methods
Abstract

Background: N-(-9 acridinyl)-b-alanine hydrochloride (S-300) is the main byproduct of red blood cell (RBC) amustaline/glutathione(GSH) pathogen reduction, currently undergoing phase III US clinical trials following successful European studies(1-3). Phosphatidylinositol glycan, class A (Pig-a) X-linked gene mutagenesis is a validated mammalian in vivo mutation assay for genotoxicity, assessed as clonal loss of glycosylphosphatidylinositol-linked CD59 cell-surface molecules on reticulocytes (RETs) and RBCs., Methods: Male Sprague-Dawley rats received continuous infusion of S-300 up to the maximum feasible dose (240 mg/kg/day-limited by solubility and volume) for 28 days. Positive controls received a known mutagen by oral gavage on Days 1-3. Plasma levels of S-300 were assessed by HPLC before, during and after infusion. CD59-negative RBCs and RETs were enumerated in pre-dose and Day 28 samples, using a flow cytometric method. Outcome was evaluated by predetermined criteria using concurrent and historical controls. Toxicity was assessed by laboratory measures and necropsy., Results: S-300 reached maximum, dose-dependent levels (3-15 μmol/L) within 2-8 h that were sustained for 672 h and undetectable 2 h after infusion. Circulating RET levels indicated a lack of hematopoietic toxicity. Necropsy revealed minimal-mild observations related to poor S-300 solubility at high concentrations. Pig-a assessment met the preset acceptability criteria and revealed no increase in mutant RBCs or RETs., Conclusions: Maximum feasible S-300 exposure of rats by continuous infusion for 28 days was not genotoxic as assessed by an Organization for Economic Cooperation and Development-compliant, mammalian, in vivo Pig-a gene mutation assay that meets the requirements of International Conference on Harmonization (ICH) S2(R1) and FDA guidances on genotoxicity testing., (© 2024 AABB.)

Published
2024
Full Text
View/download PDF

29. Longitudinal analysis of annual national hemovigilance data to assess pathogen reduced platelet transfusion trends during conversion to routine universal clinical use and 7-day storage.

Author

Pitman JP, Payrat JM, Park MS, Liu K, Corash L, and Benjamin RJ

Subjects
Humans, Blood Safety, Blood Platelets microbiology, Blood Transfusion, Bacteria, Platelet Transfusion adverse effects, Transfusion Reaction epidemiology, Transfusion Reaction prevention & control
Abstract

Background: France converted to universal pathogen reduced (PR; amotosalen/UVA) platelets in 2017 and extended platelet component (PC) shelf-life from 5- to 7-days in 2018 and 2019. Annual national hemovigilance (HV) reports characterized longitudinal PC utilization and safety over 11 years, including several years prior to PR adoption as the national standard of care., Methods: Data were extracted from published annual HV reports. Apheresis and pooled buffy coat [BC] PC use was compared. Transfusion reactions (TRs) were stratified by type, severity, and causality. Trends were assessed for three periods: Baseline (2010-14; ~7% PR), Period 1 ([P1] 2015-17; 8%-21% PR), and Period 2 ([P2] 2018-20; 100% PR)., Results: PC use increased by 19.1% between 2010 and 2020. Pooled BC PC production increased from 38.8% to 68.2% of total PCs. Annual changes in PCs issued averaged 2.4% per year at baseline, -0.02% (P1) and 2.8% (P2). The increase in P2 coincided with a reduction in the target platelet dose and extension to 7-day storage. Allergic reactions, alloimmunization, febrile non-hemolytic TRs, immunologic incompatibility, and ineffective transfusions accounted for >90% of TRs. Overall, TR incidence per 100,000 PCs issued declined from 527.9 (2010) to 345.7 (2020). Severe TR rates declined 34.8% between P1-P2. Forty-six transfusion-transmitted bacterial infections (TTBI) were associated with conventional PCs during baseline and P1. No TTBI were associated with amotosalen/UVA PCs. Infections with Hepatitis E (HEV) a non-enveloped virus resistant to PR, were reported in all periods., Discussion: Longitudinal HV analysis demonstrated stable PC utilization trends with reduced patient risk during conversion to universal 7-day amotosalen/UVA PCs., (© 2023 The Authors. Transfusion published by Wiley Periodicals LLC on behalf of AABB.)

Published
2023
Full Text
View/download PDF

30. Characterization of pathogen-inactivated COVID-19 convalescent plasma and responses in transfused patients.

Author

Weisser M, Khanna N, Hedstueck A, Sutter ST, Roesch S, Stehle G, Sava M, Deigendesch N, Battegay M, Infanti L, Holbro A, Bassetti S, Pargger H, Hirsch HH, Leuzinger K, Kaiser L, Vu DL, Baur K, Massaro N, Busch MP, Simmons G, Stone M, Felgner PL, de Assis RR, Khan S, Tsai CT, Robinson PV, Seftel D, Irsch J, Bagri A, Buser AS, and Corash L

Subjects
Aged, Antibodies, Neutralizing, Antibodies, Viral, Case-Control Studies, Humans, Immunization, Passive, Middle Aged, COVID-19 Serotherapy, COVID-19 therapy, SARS-CoV-2
Abstract

Background: Efficacy of donated COVID-19 convalescent plasma (dCCP) is uncertain and may depend on antibody titers, neutralizing capacity, timing of administration, and patient characteristics., Study Design and Methods: In a single-center hypothesis-generating prospective case-control study with 1:2 matched dCCP recipients to controls according to disease severity at day 1, hospitalized adults with COVID-19 pneumonia received 2 × 200 ml pathogen-reduced treated dCCP from 2 different donors. We evaluated severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) antibodies in COVID-19 convalescent plasma donors and recipients using multiple antibody assays including a Coronavirus antigen microarray (COVAM), and binding and neutralizing antibody assays. Outcomes were dCCP characteristics, antibody responses, 28-day mortality, and dCCP -related adverse events in recipients., Results: Eleven of 13 dCCPs (85%) contained neutralizing antibodies (nAb). PRT did not affect dCCP antibody activity. Fifteen CCP recipients and 30 controls (median age 64 and 65 years, respectively) were enrolled. dCCP recipients received 2 dCCPs from 2 different donors after a median of one hospital day and 11 days after symptom onset. One dCCP recipient (6.7%) and 6 controls (20%) died (p = 0.233). We observed no dCCP-related adverse events. Transfusion of unselected dCCP led to heterogeneous SARS CoV-2 antibody responses. COVAM clustered dCCPs in 4 distinct groups and showed endogenous immune responses to SARS-CoV-2 antigens over 14-21 days post dCCP in all except 4 immunosuppressed recipients., Discussion: PRT did not impact dCCP anti-virus neutralizing activity. Transfusion of unselected dCCP did not impact survival and had no adverse effects. Variable dCCP antibodies and post-transfusion antibody responses indicate the need for controlled trials using well-characterized dCCP with informative assays., (© 2022 The Authors. Transfusion published by Wiley Periodicals LLC on behalf of AABB.)

Published
2022
Full Text
View/download PDF

32. Evaluation of amotosalen and UVA pathogen-reduced apheresis platelets after 7-day storage.

Author

Cancelas JA, Genthe JR, Stolla M, Rugg N, Bailey SL, Nestheide S, Shaz B, Mack S, Schroeder K, Anani W, Szczepiorkowski ZM, Dumont LJ, Yegneswaran S, Corash L, Mufti N, Benjamin RJ, and Erickson AC

Subjects
Blood Platelets, Blood Preservation, Humans, Platelet Transfusion, Plateletpheresis, Thrombin pharmacology, Ultraviolet Rays, Furocoumarins pharmacology, Thrombocytopenia, Transfusion Reaction
Abstract

Background: Amotosalen/UVA pathogen-reduced platelet components (PRPCs) with storage up to 7 days are standard of care in France, Switzerland, and Austria. PRPCs provide effective hemostasis with reduced risk of transfusion-transmitted infections and transfusion-associated graft versus host disease, reduced wastage and improved availability compared with 5-day-stored PCs. This study evaluated the potency of 7-day PRPCs by in vitro characterization and in vivo pharmacokinetic analysis of autologous PCs., Study Design and Methods: The in vitro characteristics of 7-day-stored apheresis PRPCs suspended in 100% plasma or 65% platelet additive solution (PAS-3)/35% plasma, thrombin generation, and in vivo radiolabeled post-transfusion recovery and survival of 7-day-stored PRPCs suspended in 100% plasma were compared with either 7-day-stored or fresh autologous conventional platelets., Results: PRPCs after 7 days of storage maintained pH, platelet dose, in vitro physiologic characteristics, and thrombin generation when compared to conventional 7-day PCs. In vivo, the mean post-transfusion survival was 151.4 ± 20.1 h for 7-day PRPCs in 100% plasma (Test) versus 209.6 ± 13.9 h for the fresh autologous platelets (Control), (T-ΔC: 72.3 ± 8.8%: 95% confidence interval [CI]: 68.5, 76.1) and mean 24-h post-transfusion recovery 37.6 ± 8.4% for Test versus 56.8 ± 9.2% for Control (T-ΔC: 66.2 ± 11.2%; 95% CI: 61.3, 71.1)., Discussion: PRPCs collected in both 100% plasma as well as 65% PAS-3/35% plasma and stored for 7 days retained in vitro physiologic characteristics. PRPCs stored in 100% plasma for 7 days retained in vivo survival. Lower in vivo post-radiolabeled autologous platelet recovery is consistent with reported reduced count increments for allogenic transfusion., (© 2022 Cerus Corporation. Transfusion published by Wiley Periodicals LLC on behalf of AABB.)

Published
2022
Full Text
View/download PDF

34. Prevalence of natural and acquired antibodies to amustaline/glutathione pathogen reduced red blood cells.

Author

Geisen C, North A, Becker L, Brixner V, von Goetz M, Corash L, Benjamin RJ, Mufti N, and Seifried E

Subjects
Acridines chemistry, Clinical Trials as Topic, Female, Glutathione chemistry, Humans, Male, Nitrogen Mustard Compounds chemistry, Antibodies immunology, Blood Safety adverse effects, Disinfection, Erythrocytes immunology, Glutathione immunology, Nitrogen Mustard Compounds immunology
Abstract

Background: The INTERCEPT™ Blood System for Red Blood Cells (RBCs) utilizes amustaline (S-303) and glutathione (GSH) to inactivate pathogens and leukocytes in transfused RBCs. Treatment-emergent low titer non-hemolytic antibodies to amustaline/GSH RBC were detected in clinical trials using a prior version of the process. The amustaline/GSH process was re-formulated to decrease S-303 RBC adduct formation., Study Design and Methods: A standard three-cell antibody screening panel was modified to include reagent red cells (RRC) with high (S-303H) or low (S-303L) S-303 adduct density as assessed by flow cytometry, representative of the original and current amustaline/GSH treatment processes, respectively. General hospital and RBC transfusion-dependent patients never exposed, and clinical trial subjects exposed to amustaline/GSH RBC were screened for antibodies to amustaline/GSH RBC using a standardized agglutination assay., Results: Twelve (0.1%) of 10,721 general hospital and 5 (0.5%) of 998 repeatedly-transfused patients not previously exposed to amustaline/GSH RBCs expressed natural, low titer (2-32) IgM and/or IgG (non-IgG 1 or IgG 3 isotype) antibodies with acridine (a structural element of amustaline) (n = 14) or non-acridine (n = 3) specificity. 11 of 17 sera reacted with S-303L panel RRCs. In clinical studies 81 thalassemia and 25 cardiac surgery patients were transfused with a total of 1085 amustaline/GSH RBCs and no natural or treatment-emergent S-303 antibodies were detected., Conclusion: Standardized RRC screening panels are sensitive for the detection of natural and acquired S-303-specific antibodies. Natural low titer antibodies to amustaline/GSH RBC are present in 0.15% of naïve patients. The clinical relevance of these antibodies appears minimal but is under further investigation., (© 2020 The Authors. Transfusion published by Wiley Periodicals LLC. on behalf of AABB.)

Published
2020
Full Text
View/download PDF

35. Characterization of Ebola convalescent plasma donor immune response and psoralen treated plasma in the United States.

Author

Dean CL, Hooper JW, Dye JM, Zak SE, Koepsell SA, Corash L, Benjamin RJ, Kwilas S, Bonds S, Winkler AM, and Kraft CS

Subjects
Animals, Antibodies, Neutralizing blood, Antibodies, Neutralizing therapeutic use, Antibodies, Viral analysis, Antibodies, Viral blood, Antibodies, Viral therapeutic use, Chlorocebus aethiops, Convalescence, Ficusin pharmacology, Hemorrhagic Fever, Ebola immunology, Hemorrhagic Fever, Ebola prevention & control, Humans, Immunization, Passive methods, Neutralization Tests, Plasma drug effects, Seroconversion physiology, United States, Vero Cells, Viral Load drug effects, Viral Load immunology, Antibodies, Neutralizing analysis, Blood Donors, Ebolavirus immunology, Hemorrhagic Fever, Ebola blood, Immunity, Active physiology, Plasma immunology
Abstract

Background: In 2014, passive immunization by transfusion of Ebola convalescent plasma (ECP) was considered for treating patients with acute Ebola virus disease (EVD). Early Ebola virus (EBOV) seroconversion confers a survival advantage in natural infection, hence transfusion of ECP plasma with high levels of neutralizing EBOV antibodies is a potential passive immune therapy. Techniques to reduce the risk of other transfusion-transmitted infections (TTIs) are warranted as recent ECP survivors are ineligible as routine blood donors. As part of an ongoing clinical trial to evaluate the safety and effectiveness of ECP, the impact of amotosalen/UVA pathogen reduction technology (PRT) on EBOV antibody characteristics was examined., Study Design and Methods: Serum and plasma samples were collected from EVD-recovered subjects at multiple timepoints and evaluated by ELISA for antibodies to recombinant EBOV glycoprotein (GP) and irradiated whole EBOV antigen, as well as for EBOV microneutralization, classic plaque reduction neutralization test (PRNT) and EBOV pseudovirion neutralization assay (PsVNA) activity., Results: Six subjects donated 40 individual ECP units. Substantial antibody titers and neutralizing activity results were demonstrated but were generally lower for the ACD plasma samples compared to the serum samples. Anti-EBOV titers by all assays remained essentially unchanged after PRT., Conclusion: Treatment of ECP with PRT to reduce the risk of TTI did not significantly reduce EBOV IgG antibody titers or neutralizing activity. Although ECP was used in the treatment of repatriated patients, no PRT units from this study were transfused to EVD patients. This inventory of PRT-treated ECP is currently available for future clinical evaluation., (© 2020 AABB.)

Published
2020
Full Text
View/download PDF

37. Preclinical safety assessment of pathogen reduced red blood cells treated with amustaline and glutathione.

Author

North AK, Mufti N, Sullivan T, and Corash L

Subjects
Animals, Blood-Borne Pathogens drug effects, Erythrocyte Transfusion methods, Female, Humans, Lymphocytes drug effects, Lymphocytes metabolism, Male, Mice, Micronucleus Tests, Tumor Suppressor Protein p53 genetics, Tumor Suppressor Protein p53 metabolism, Virus Inactivation drug effects, Acridines pharmacology, Erythrocytes drug effects, Erythrocytes metabolism, Glutathione pharmacology, Nitrogen Mustard Compounds pharmacology
Abstract

Background: The nucleic acid targeted pathogen reduction (PR) system utilizing amustaline (S-303) and glutathione (GSH) is designed to inactivate blood-borne pathogens and leukocytes in red blood cell concentrates (PR-RBCC). Inactivation is attained after amustaline intercalates and forms covalent nucleic acid adducts preventing replication, transcription, and translation. After pathogen inactivation, amustaline spontaneously hydrolyzes to S-300, the primary negatively charged reaction product; amustaline is below quantifiable levels in PR-RBCC. GSH quenches free unreacted amustaline., Study Design and Methods: The genotoxic and carcinogenic potential of PR-RBCC, the reaction by-products, and S-300 were assessed in accordance with the International Conference on Harmonization (ICH) guidelines and performed in compliance with the Food and Drug Administration (FDA) good laboratory practice standards, 21 CFR Part 58. in vitro bacterial reverse mutagenicity and chromosomal aberration assays were performed with and without exogenous S9 metabolic activation, and in in vivo clastogenicity and carcinogenic assays using validated murine models., Results: PR-RBCCs were not genotoxic in vitro and in vivo and were non-carcinogenic in p53 +/- transgenic mice transfused over 26 weeks. Estimated safety margins for human exposure ranged from >90 to >36 fold for 2 to 5 PR-RBCCs per day, respectively. PR-RBCCs and S-300 did not induce chromosome aberration in the in vivo murine bone marrow micronucleus assay at systemically toxic doses., Conclusions: PR-RBCCs did not demonstrate genotoxicity in vitro or in vivo and were not carcinogenic in vivo. These studies support the safety of PR-RBCCs and suggest that there is no measurable genotoxic hazard associated with transfusion of PR-RBCCs., (© 2020 The Authors. Transfusion published by Wiley Periodicals, Inc. on behalf of AABB.)

Published
2020
Full Text
View/download PDF

38. Clinical impact of amotosalen-ultraviolet A pathogen-inactivated platelets stored for up to 7 days.

Author

Infanti L, Holbro A, Passweg J, Bolliger D, Tsakiris DA, Merki R, Plattner A, Tappe D, Irsch J, Lin JS, Corash L, Benjamin RJ, and Buser A

Subjects
Adolescent, Adult, Aged, Aged, 80 and over, Blood Platelets radiation effects, Child, Child, Preschool, Female, Hematopoietic Stem Cell Transplantation, Humans, Infant, Infant, Newborn, Male, Middle Aged, Platelet Transfusion adverse effects, Retrospective Studies, Transfusion Reaction epidemiology, Ultraviolet Rays, Young Adult, Blood Platelets drug effects, Blood Safety methods, Furocoumarins pharmacology, Platelet Transfusion methods
Abstract

Background: Universal pathogen inactivation of platelet concentrates (PCs) using amotosalen/ultraviolet A with 7-day storage was implemented in Switzerland in 2011. Routine-use data were analyzed at the University Hospital Basel, Switzerland., Study Design: A retrospective two-cohort study of patient and PC characteristics, component usage, patient outcomes, count increments (CIs), and adverse events were analyzed for two consecutive 5-year periods with either 0- to 5-day-old conventional PC (C-PC) (n = 14,181) or 0- to 7-day-old pathogen-inactivated PC (PI-PC) (n = 22,579)., Results: In both periods, PCs were issued for transfusion on a "first in, first out" basis. With 7-day PI-PC, wastage was reduced from 8.7% to 1.5%; 16.6% of transfused PI-PCs were more than 5 days old. Transfusion of PI-PC more than 5 days old compared with 5 days old or less did not increase platelet and RBC use on the same or next day as an indirect measure of hemostasis and did not increase transfusion reactions. Mean corrected count increments (CCIs) for PI-PC stored for 5 days or less were 22.6% lower than for C-PC (p < 0.001), and declined with increasing storage duration for both, although the correlation was weak (r 2 = 0.005-0.014). Mean number of PCs used per patient and duration of PC support were not different for hematology/oncology, allogeneic and autologous hematopoietic stem cell transplant (HSCT), and general medical/surgical patients, who used the majority (~92.0%) of PI-PCs. Five-year treatment-related mortality in allogeneic HSCT was unchanged in the PI-PC period., Conclusions: PI-PCs with 7-day storage reduced wastage and did not increase PC or red blood cell utilization or adverse reactions compared with fresh PI-PC or a historical control group, demonstrating preserved efficacy and safety., (© 2019 The Authors. Transfusion published by Wiley Periodicals, Inc. on behalf of AABB.)

Published
2019
Full Text
View/download PDF

39. Acute Zika virus infection in an asymptomatic blood donor at the onset of the Puerto Rico epidemic.

Author

Saa P, Chiu C, Grimm K, Yu G, Benjamin RJ, Corash L, and Stramer SL

Subjects
Female, Humans, Puerto Rico, Retrospective Studies, Blood Donors, Blood-Borne Pathogens, Epidemics, Zika Virus genetics, Zika Virus Infection blood, Zika Virus Infection epidemiology, Zika Virus Infection genetics, Zika Virus Infection transmission
Abstract

Background: Zika virus (ZIKV) spread to Puerto Rico likely originated from southeastern Brazil approximately 8.5 months earlier than blood donation screening for ZIKV was initiated, but the time of ZIKV introduction in the blood donor population remains unknown., Methods: To better understand when arboviral infections first appeared in the blood donor pool in Puerto Rico, we retrospectively screened for ZIKV RNA (as well as chikungunya [CHIKV] and dengue [DENV] viral RNA) a repository of 1186 linked blood donor and recipient samples collected from February 2015 to May 2016 as an endpoint efficacy measure following the introduction of platelet pathogen reduction (PR). Phylogenetic analysis identified relatedness of donor strain to other circulating strains, and molecular clock analysis identified the estimated time of introduction., Results: An asymptomatic donor collected in December 2015 was ZIKV RNA confirmed positive, 4 months BEFORE investigational nucleic acid testing (NAT) implementation in April 2016, coincident and related to the first reported autochthonous cases. No CHIKV RNA or DENV RNA reactives were identified in donors or recipients, and no adverse events were reported from PR use in recipients. Phylogenetic analysis confirmed the molecular relatedness of the donor ZIKV strain to the Puerto Rico lineage likely introduced approximately 4.5 months earlier., Conclusion: This study identified an asymptomatic ZIKV infection in a blood donor occurring before those previously recognized by blood donation screening. NAT and PR continue to be used as acceptable strategies to prevent transfusion-transmitted arboviral infections worldwide; however, repeated arboviral outbreaks warrant consideration of PR as a more proactive approach., (© 2019 AABB.)

Published
2019
Full Text
View/download PDF

40. Transfusion of pathogen-reduced platelet components without leukoreduction.

Author

Sim J, Tsoi WC, Lee CK, Leung R, Lam CCK, Koontz C, Liu AY, Huang N, Benjamin RJ, Vermeij HJ, Stassinopoulos A, Corash L, and Lie AKW

Subjects
Adult, Case-Control Studies, Cohort Studies, Disinfection methods, Female, Furocoumarins, Gamma Rays, Graft vs Host Disease epidemiology, Graft vs Host Disease etiology, Humans, Leukocyte Count, Male, Middle Aged, Transfusion Reaction blood, Transfusion Reaction epidemiology, Ultraviolet Rays, Virus Inactivation drug effects, Virus Inactivation radiation effects, Antisepsis methods, Blood Platelets cytology, Blood-Borne Pathogens isolation & purification, Leukocytes cytology, Platelet Transfusion adverse effects, Platelet Transfusion methods, Platelet Transfusion standards, Transfusion Reaction prevention & control
Abstract

Background: Leukoreduction (LR) of platelet concentrate (PC) has evolved as the standard to mitigate risks of alloimmunization, clinical refractoriness, acute transfusion reactions (ATRs), and cytomegalovirus infection, but does not prevent transfusion-associated graft-versus-host disease (TA-GVHD). Amotosalen-ultraviolet A pathogen reduction (A-PR) of PC reduces risk of transfusion-transmitted infection and TA-GVHD. In vitro data indicate that A-PR effectively inactivates WBCs and infectious pathogens., Study Design and Methods: A sequential cohort study evaluated A-PR without LR, gamma irradiation, and bacterial screening in hematopoietic stem cell transplant (HSCT) recipients. The first cohort received conventional PC (control) processed without LR, but with gamma irradiation and bacterial screening. The second cohort received A-PR PC (test) processed without: LR, bacterial screening, or gamma irradiation. The primary efficacy outcome was the 1-hour corrected count increment. The primary safety outcome was treatment-emergent ATR. Secondary outcomes included clinical refractoriness, and 100-day status for engraftment, TA-GVHD, HSCT-GVHD, infections, and mortality., Results: Mean corrected count increment (× 10 3 ) of 33 test PC recipients was similar (18.9 ± 8.8 vs. 16.6 ± 8.4; p = 0.296) to that of 31 control PC recipients. Test recipients had a reduced, but nonsignificant, incidence of ATR (test = 9.1%, Control = 19.4%; p = 0.296). The frequencies of clinical refractoriness (0 of 33 vs. 4 of 31 patients) and refractory transfusions (6.6% vs. 19.3%) were lower in the test cohort (p = 0.05 and 0.02), respectively. No patient in either cohort had TA-GVHD. Day 100 engraftment, HSCT-GVHD, mortality, and infectious disease complications were similar between cohorts., Conclusions: This study indicated that A-PR PC without LR, gamma irradiation, or bacterial screening is feasible for support of HSCT., (© 2019 The Authors. Transfusion published by Wiley Periodicals, Inc. on behalf of AABB.)

Published
2019
Full Text
View/download PDF

42. Plasma treated with amotosalen and ultraviolet A light retains activity for hemostasis after 5 days post-thaw storage at 1 to 6 o C.

Author

Erickson A, Waldhaus K, David T, Huang N, Rico S, Corash L, Mufti N, and Benjamin RJ

Subjects
Female, Humans, Male, Time Factors, Blood Preservation, Cryopreservation, Disinfection methods, Furocoumarins pharmacology, Hemostasis drug effects, Hemostasis radiation effects, Ultraviolet Rays
Abstract

Background: Plasma thawed and stored at 1 to 6 ° C for up to 5 days (thawed plasma [TP]) provides rapid availability in emergencies and reduces plasma waste, but it carries risks of coagulation factor loss or activation, bacterial outgrowth, and viral contamination. We characterized changes in amotosalen/ultraviolet A (UVA) light pathogen-reduced, fresh-frozen plasma (FFP) and plasma frozen within 24 hours (PF24) with post-thaw storage., Study Design and Methods: Amotosalen/UVA light-treated FFP and PF24 were thawed after approximately 3 to more than 12 months of frozen storage and held at 1 to 6 ° C for 5 days. Global assessments of coagulation and hemostatic, antithrombotic, and activation markers indicative of function were assessed., Results: Day 5, thawed amotosalen/UVA light-treated FFP and PF24 contained levels of Factors II, V, VIII, IX, X, von Willebrand factor ristocetin cofactor (vWF:RCo), fibrinogen, antithrombin III (ATIII), protein C, and protein S similar to the levels measured in Day 5 TP, as described in the Circular of Information. Thrombin generation was robust on Day 5 (amotosalen/UVA: FFP = 1866 ± 402 nM/minute; PF24 = 1800 ± 277 nM/minute). Most factor activities on Day 5, including von Willebrand factor-cleaving protease (ADAMTS-13), were more than 90% of Day 0 values, except for known labile Factors V and VIII and protein S. All units contained greater than 0.4 IU/mL protein S and α2 plasmin inhibitor on Day 5. Global functional indices, including thrombin-antithrombin complexes, nonactivated thromboplastin time, and thrombin-generation peak height, did not indicate activation of the coagulation cascade, although isolated units showed raised levels of Factor VIIa and Complement 3a., Conclusion: Amotosalen/UVA light-treated FFP and PF24 demonstrated retention of procoagulant and antithrombotic activity after 5 days post-thaw storage at 1 to 6 ° C., (© 2017 The Authors. Transfusion published by Wiley Periodicals, Inc. on behalf of AABB.)

Published
2017
Full Text
View/download PDF

44. The role of hemovigilance and postmarketing studies when introducing innovation into transfusion medicine practice: the amotosalen-ultraviolet A pathogen reduction treatment model.

Author

Corash L and Benjamin RJ

Subjects
Humans, Blood Safety methods, Disinfection methods, Furocoumarins chemistry, Models, Theoretical, Product Surveillance, Postmarketing, Ultraviolet Rays
Abstract

Background: Innovations in transfusion medicine require randomized controlled clinical trials (RCTs) to demonstrate safety and efficacy before approval; however, these studies are costly and limited in scope and may be underpowered to detect rare adverse events (AEs). Regulatory agencies, such as the Food and Drug Administration, require postmarketing surveillance, hemovigilance (HV), and controlled Phase IV studies to monitor performance and confirm safety., Study Design and Methods: The INTERCEPT Blood System (IBS) is an illustrative model for implementation of a transformative technology for which sponsored active HV, regulatory authority HV, and Phase IV studies were used to extend preapproval efficacy and safety information., Results: After CE mark registration in Europe, 13,644 patients received 76,346 IBS components prepared largely without gamma irradiation or bacterial screening in sponsored active HV studies documenting no increased incidence of AEs compared to historical controls and no increased component utilization. National HV systems in France and Switzerland specifically demonstrated no transfusion-associated graft-versus-host disease or increased incidence of transfusion-associated acute lung injury, after transfusion of 317,669 IBS platelet (PLT) components, and significant reduction of transfusion-transmitted bacterial infection as well as acute transfusion reactions. Cumulatively, these studies provide new information about safety and efficacy of IBS PLT and plasma components not obtainable from RCTs., Conclusion: Although inherently different from RCTs, properly designed postmarketing studies are informative regarding the safety and efficacy of innovative transfusion technologies in large patient populations under conditions of routine use., (© 2016 AABB.)

Published
2016
Full Text
View/download PDF

45. Comparative effectiveness of plasma prepared with amotosalen-UVA pathogen inactivation and conventional plasma for support of liver transplantation.

Author

Cinqualbre J, Kientz D, Remy E, Huang N, Corash L, and Cazenave JP

Subjects
Adult, Female, Humans, Male, Middle Aged, Retrospective Studies, Blood Component Transfusion, Disinfection, Furocoumarins pharmacology, Liver Transplantation, Photosensitizing Agents pharmacology, Plasma, Ultraviolet Rays
Abstract

Background: Liver transplant may require large-volume plasma transfusion with increased risk of transfusion-transmitted infection (TTI). Pathogen inactivation of plasma with amotosalen-UVA offers the potential to mitigate TTI risk., Study Design and Methods: A retrospective cohort design was used to compare the therapeutic efficacy and key safety outcomes for liver transplants supported with quarantine plasma (Q-FFP [reference]) or amotosalen-UVA plasma (IBS plasma [test]). The outcomes evaluated were volume of plasma, the numbers of red blood cell (RBC) components, and the total dose of platelets (PLTs) transfused during and 7 days after transplant. The safety outcomes were acute hepatic artery thrombosis (HAT) and mortality., Results: Transplantation and transfusion records for 212 Q-FFP transplants and 215 IBS plasma transplants were reviewed. Not all transplants required plasma; 161 received Q-FFP and 174 received IBS plasma. Among the transplants that required plasma, there were significant differences in median values between cohorts for delay to transplantation (p=0.002), model end-stage liver disease score (p<0.001), pretransplant hematocrit (p=0.006), and graft cold perfusion time (p=0.033). The median volumes of plasma transfused were not different for test and reference (2.160 L vs. 1.969 L, p=0.292). Transplants in the test cohort required a mean of 3.7% more RBC components (p=0.767) and on average a 16.5% increase in total PLT dose (p=0.518). No significant differences were observed for the frequency of acute HAT or mortality., Conclusion: In this retrospective study, IBS plasma provided therapeutic support of liver transplant not different from Q-FFP., (© 2015 Cerus Corporation. Transfusion published by Wiley Periodicals, Inc. on behalf of AABB.)

Published
2015
Full Text
View/download PDF

47. Stored red blood cell viability is maintained after treatment with a second-generation S-303 pathogen inactivation process.

Author

Cancelas JA, Dumont LJ, Rugg N, Szczepiorkowski ZM, Herschel L, Siegel A, Pratt PG, Worsham DN, Erickson A, Propst M, North A, Sherman CD, Mufti NA, Reed WF, and Corash L

Subjects
Adult, Aged, Cell Survival, Cross-Over Studies, Female, Humans, Male, Middle Aged, Single-Blind Method, Acridines pharmacology, Blood Preservation, Erythrocyte Transfusion adverse effects, Erythrocytes physiology, Nitrogen Mustard Compounds pharmacology
Abstract

Background: Transfusion-transmitted infections and immunologic effects of viable residual lymphocytes remain a concern in red blood cell (RBC) transfusion. Pathogen reduction technologies for RBC components are under development to further improve transfusion safety. S-303 is a frangible anchor-linker-effector with labile alkylating activity and a robust pathogen reduction profile. This study characterized the viability of RBCs prepared with a second-generation S-303 process and stored for 35 days., Study Design and Methods: This was a two-center, single-blind randomized, controlled, crossover study in 27 healthy subjects. S-303 (test) or control RBCs were prepared in random sequence and stored for 35 days, at which time an aliquot of radiolabeled RBCs was transfused. The 24-hour recovery, RBC life span, and in vitro metabolic and viability variables were analyzed., Results: The mean 24-hour RBC recovery and hemolysis of test RBCs were similar to control RBCs and were consistent with the Food and Drug Administration (FDA) guidance for RBC viability. The mean differences in life span and median life span (T(50) ) of circulating test RBCs were 13.7 and 6.8 days, while the mean difference in the area under the curve of surviving RBCs was 1.38%, in favor of control RBCs. There were no clinically relevant abnormal laboratory values after the infusion of test RBCs. All crossmatch assays of autologous S-303 RBCs were nonreactive., Conclusions: RBCs prepared using the S-303 pathogen inactivation process were physiologically and metabolically suitable for transfusion after 35 days of storage, met the FDA guidance criteria for 24-hour recovery, and did not induce antibody formation., (© 2011 American Association of Blood Banks.)

Published
2011
Full Text
View/download PDF

48. Preclinical pharmacokinetic and toxicology assessment of red blood cells prepared with S-303 pathogen inactivation treatment.

Author

North A, Ciaravino V, Mufti N, and Corash L

Subjects
Acridines pharmacokinetics, Acridines toxicity, Animals, Anti-Infective Agents pharmacokinetics, Anti-Infective Agents toxicity, Blood-Borne Pathogens drug effects, Dogs, Dose-Response Relationship, Drug, Female, Male, Nitrogen Mustard Compounds pharmacokinetics, Nitrogen Mustard Compounds toxicity, Rats, Toxicity Tests, Anti-Infective Agents blood, Blood Safety, Erythrocyte Transfusion adverse effects, Nitrogen Mustard Compounds blood
Abstract

Background: A system has been developed to inactivate a wide spectrum of blood-borne pathogens in red blood cells (RBCs) before transfusion. The system utilizes S-303 to target nucleic acids of pathogens and white blood cells. The safety of pathogen inactivated RBC was assessed using S-303-treated RBCs (S-303 RBCs) and S-300, the primary degradation product of S-303., Study Design and Methods: As part of a preclinical safety evaluation program, intravenous toxicity, safety pharmacology, toxicokinetic, and pharmacokinetic studies were conducted in rats and dogs with S-303 RBCs and S-300., Results: Single and repeated transfusions of S-303 RBCs were well tolerated in rats and dogs at S-303 concentrations up to five times higher than that used to prepare RBCs for clinical use. For S-300, the doses ranged from the lowest level representative of a clinical exposure from transfusion of 1 unit (0.052 mg/kg/day) to up to the amount of S-300 that would result from exposure to more than 1900 units of RBCs (100 mg/kg/day). There were no related effects of S-303 RBCs or S-300 on mortality, clinical status, body weight, or clinical laboratory assessments and no evidence of organ toxicity. S-300 did not accumulate in the plasma of rats and dogs after repeated transfusions. For all the studies, plasma S-303 was consistently below the limit of quantitation., Conclusion: The level of residual S-303 and S-300 in the treated blood component is well below that at which no adverse effects were observed. These results support further clinical development of S-303 RBCs for prevention of transfusion-transmitted infections., (© 2011 American Association of Blood Banks.)

Published
2011
Full Text
View/download PDF

50. Use of additive solutions and pathogen inactivation treatment of platelet components in a regional blood center: impact on patient outcomes and component utilization during a 3-year period.

Author

Cazenave JP, Isola H, Waller C, Mendel I, Kientz D, Laforêt M, Raidot JP, Kandel G, Wiesel ML, and Corash L

Subjects
Adolescent, Adult, Aged, Aged, 80 and over, Child, Child, Preschool, Female, Humans, Infant, Male, Middle Aged, Blood Platelets microbiology, Blood-Borne Pathogens isolation & purification, Disinfection, Erythrocyte Transfusion, Platelet Transfusion adverse effects, Platelet Transfusion methods
Abstract

Background: The Etablissement Français du Sang Alsace (EFS Alsace) successively implemented universal use of platelet additive solutions (PASs) and pathogen inactivation (PI) for platelet components (PCs). To assess the impact of these changes, EFS Alsace evaluated PC use, red blood cell (RBC) component use, and transfusion-related adverse events after implementation of these new technologies., Study Design and Methods: EFS Alsace prospectively collects data on production, distribution, and response to transfusion of all blood components with greater than 99.5% data acquisition. Adverse events attributed to platelet (PLT) transfusions were collected through a mandatory, active hemovigilance program. A retrospective review of prospectively collected data was conducted covering three periods: 1) apheresis and whole blood-derived PCs in plasma, 2) apheresis and whole blood-derived PCs with PAS, and 3) PCs prepared with PI and PAS. Data on component utilization were analyzed for all patients receiving PCs in each period and for the subset of hematology-oncology patients to evaluate PC use in an intensely transfused population. Values for all continuous variables were summarized as mean and standard deviation, median, and range., Results: Approximately 2000 patients received PCs in each period. PLT and RBC use per patient was not increased after PI (analysis of variance, F = 1.9 and 2.9, respectively) and the incidence of acute transfusion reactions was significantly reduced (p < 0.001)., Conclusions: Universal use of PI was implemented without impacting component use, as indicated by total dose of PLTs per patient, and outcomes to transfusion were improved., (© 2010 American Association of Blood Banks.)

Published
2011
Full Text
View/download PDF

Catalog

Books, media, physical & digital resources
See catalog results