Improving the bacteriological safety of platelet transfusions.
about
Skin preparation with alcohol versus alcohol followed by any antiseptic for preventing bacteraemia or contamination of blood for transfusionSkin preparation with alcohol versus alcohol followed by any antiseptic for preventing bacteraemia or contamination of blood for transfusionSkin preparation with alcohol versus alcohol followed by any antiseptic for preventing bacteraemia or contamination of blood for transfusionTransfusion-transmitted infectionsReal-Time Live Confocal Fluorescence Microscopy as a New Tool for Assessing Platelet Vitality.Fluorescence quencher improves SCANSYSTEM for rapid bacterial detection.Clinical safety of platelets photochemically treated with amotosalen HCl and ultraviolet A light for pathogen inactivation: the SPRINT trial.Platelet dose consistency and its effect on the number of platelet transfusions for support of thrombocytopenia: an analysis of the SPRINT trial of platelets photochemically treated with amotosalen HCl and ultraviolet A light.Transfusion of 7-day-old amotosalen photochemically treated buffy-coat platelets to patients with thrombocytopenia: a pilot study.Platelets photochemically treated with amotosalen HCl and ultraviolet A light correct prolonged bleeding times in patients with thrombocytopenia.Bacterial contamination of platelet components: potential solutions to prevent transfusion-related sepsis.A randomized noninferiority crossover trial of corrected count increments and bleeding in thrombocytopenic hematology patients receiving 2- to 5- versus 6- or 7-day-stored platelets.I am the 9%: Making the case for whole-blood platelets.Microcalorimetry: a novel method for detection of microbial contamination in platelet products.Prevalence of Bacterial Contamination when using a Diversion Pouch during Blood Collection: A Single Center Study in Malaysia.Transfusion and risk of infection in Canada: Update 2005.Transfusion and risk of infection in Canada: Update 2006.Transfusion and risk of infection in Canada: Update 2012.Applications of real-time PCR in the screening of platelet concentrates for bacterial contamination.Rapid screening by real-time 16S rDNA PCR for bacterial contamination of blood products.Transfusion medicine and proteomics. Alliance or coexistence?Laboratory Evaluation of the Effectiveness of Pathogen Reduction Procedures for BacteriaThe platelets' perspective to pathogen reduction technologies.Photochemical treatment of platelet concentrates with amotosalen and long-wavelength ultraviolet light inactivates a broad spectrum of pathogenic bacteria.Residual risk and retrospective analysis of transfusion-transmitted bacterial infection reported by the French National Hemovigilance Network from 2000 to 2008.Antimicrobial activity of simulated solar disinfection against bacterial, fungal, and protozoan pathogens and its enhancement by riboflavin.The Pan Genera Detection immunoassay: a novel point-of-issue method for detection of bacterial contamination in platelet concentratesPathogen reduction treatment using riboflavin and ultraviolet light impairs platelet reactivity toward specific agonists in vitro.Routine use of a rapid test to detect bacteria at the time of issue for nonleukoreduced, whole blood-derived platelets.Bacterial detection and extended platelet storage: the next step forward.Bacterial contamination in platelets: incremental improvements drive down but do not eliminate risk.Pathogen reduction of buffy coat platelet concentrates using riboflavin and light: comparisons with pathogen-reduction technology-treated apheresis platelet products.Bicarbonate inhibits the growth of Staphylococcus epidermidis in platelet concentrates by lowering the level of non-transferrin-bound iron.Pathogen reduction treatment alters the immunomodulatory capacity of buffy coat-derived platelet concentrates.Microfluidic co-flow of Newtonian and viscoelastic fluids for high-resolution separation of microparticles.Rapid identification of microorganisms from platelet concentrates by matrix-assisted laser desorption ionization time-of-flight mass spectrometry after short-term incubation on liquid medium.Residual risk of bacterial contamination: what are the options?Effects of riboflavin and ultraviolet light treatment on platelet thrombus formation and thrombus stability on collagen.Real-time measurement of platelet shape change by light scattering under riboflavin and ultraviolet light treatment.Effects of riboflavin and ultraviolet light treatment on platelet thrombus formation on collagen via integrin αIIbβ3 activation.
P2860
Q24188152-3E8D1C21-11F0-4497-A2A6-766A3B939771Q24201490-1BCECF28-8197-4A58-97EF-27E6AF5FE419Q24240023-E2E418B4-2497-4BE1-80F5-1ED667C05BCEQ27480405-38240488-44E5-4551-84F8-FFE049B4A642Q30497360-272B3C47-6C8B-4CC7-9936-E3BFF6E95826Q33240913-42CA0617-52E4-4709-BE0F-EFC11E0AC55BQ33369694-A16DD16B-951C-400D-AAB2-3E511B77A9C1Q33369830-65728A2E-4CA1-4717-A162-1F4432BE8353Q33370536-1E763B3A-8D05-447A-9CB0-57C3CB0869DBQ33371166-212EC9FF-8633-476B-9E15-E578B729F03FQ33397311-E477E089-0D16-47B1-9245-D841CD2BFFC2Q33420765-F120F939-2F1F-4F86-A8B7-19978C9C335DQ33432190-C87B65A7-98AE-412F-B812-45B854E8C568Q34006006-7091D488-CF7B-45A6-A2D5-37AD728D312BQ34178122-646BF52A-0AF2-4FDE-8A19-3F38A02AC30EQ36171013-88B09FD6-8376-4CF5-9833-1B43950FFE5AQ36171185-8F3F23E3-3CD0-401F-9FFF-3193270859CFQ36547648-BEAA637B-20F8-4503-986F-5825D321F0C7Q36670943-71C71B8F-2EB4-4502-A985-1ECEC4ED7E91Q37208865-4926DEEA-7C9B-4496-A4B2-00366D4EEC14Q37770409-A964550F-6837-4385-AC56-294FA31AC35CQ38667338-8829436F-9AB2-4A39-84B4-159EA3FA7176Q40273685-B6FF9233-9613-49A3-8AF7-92194E34BD19Q41461282-4C1D30E6-1C97-4363-BACF-F03F6F4CEB86Q41725748-CD5221CA-D5C5-4A10-A462-D842A20D78FBQ41891686-3205CD78-E69B-4E99-8D11-65FEDDDDF626Q42411067-F831A65E-7DCF-4F68-A707-7C8FCD313271Q42456722-FE2AFD46-19B8-4D9C-B78B-AC8C94C1D3D5Q43756177-B520C3B8-D296-4B05-A0A6-A764120BC8F3Q44430914-5DFF62AF-FA79-41E2-A984-082527BF9181Q44714942-A61EF61A-7B78-4ACC-8340-EEB1F484D729Q45050105-768A0A75-0E64-4270-A28B-CB7ED1DFCB77Q46791441-D7C85AB3-0478-41D6-88D6-616D163664B4Q47573759-4FCB08D4-98BF-430E-AB76-6A4245CC4B40Q47797683-97AC679C-26D3-4E02-A820-84EBB578E3E7Q48203120-F3EE6B90-A5F0-4722-850A-0515C098310FQ49860144-0E356891-AC97-4430-A945-0EC1E61CD417Q50210403-03700FC1-264D-47D3-8000-F2F13E8682B5Q50278941-4AEE35B9-654A-4689-AAC3-15514EF8548CQ50479574-A5050907-5BDC-40D2-A8FA-3E7C8DC9D6C0
P2860
Improving the bacteriological safety of platelet transfusions.
description
2004 nî lūn-bûn
@nan
2004年の論文
@ja
2004年論文
@yue
2004年論文
@zh-hant
2004年論文
@zh-hk
2004年論文
@zh-mo
2004年論文
@zh-tw
2004年论文
@wuu
2004年论文
@zh
2004年论文
@zh-cn
name
Improving the bacteriological safety of platelet transfusions.
@ast
Improving the bacteriological safety of platelet transfusions.
@en
type
label
Improving the bacteriological safety of platelet transfusions.
@ast
Improving the bacteriological safety of platelet transfusions.
@en
prefLabel
Improving the bacteriological safety of platelet transfusions.
@ast
Improving the bacteriological safety of platelet transfusions.
@en
P2093
P1476
Improving the bacteriological safety of platelet transfusions.
@en
P2093
Federico Baeza
Mindy Goldman
Morris A Blajchman
P356
10.1016/J.TMRV.2003.10.002
P577
2004-01-01T00:00:00Z