Microparticles in stored red blood cells as potential mediators of transfusion complications
about
Relationship between red cell storage duration and outcomes in adults receiving red cell transfusions: a systematic reviewThe involvement of cation leaks in the storage lesion of red blood cells.Increased mortality in adult patients with trauma transfused with blood components compared with whole blood.Factors Influencing RBC Alloimmunization: Lessons Learned from Murine Models.Identification of signalling cascades involved in red blood cell shrinkage and vesiculation.The pro-inflammatory potential of microparticles in red blood cell units.Red blood cell transfusion in the neurological ICU.Circulating membrane-derived microvesicles in redox biology.Pulmonary hypertension in lambs transfused with stored blood is prevented by breathing nitric oxideState of the art in platelet function testing.Pulmonary complications of transfused blood componentsLonger storage duration of red blood cells is associated with an increased risk of acute lung injury in patients with sepsis.Enhancing uniformity and overall quality of red cell concentrate with anaerobic storage.Microparticles and acute lung injury.Cell-derived microparticles in stored blood products: innocent-bystanders or effective mediators of post-transfusion reactions?Microparticles in health and disease.An update on red blood cell storage lesions, as gleaned through biochemistry and omics technologies.Point-of-care washing of allogeneic red blood cells for the prevention of transfusion-related respiratory complications (WAR-PRC): a protocol for a multicenter randomised clinical trial in patients undergoing cardiac surgery.Perioperative "remote" acute lung injury: recent update.Calcium-phosphate microprecipitates mimic microparticles when examined with flow cytometryPlatelet-, leucocyte- and red cell-derived microparticles in stored whole blood, with and without leucofiltration, with and without ionising radiation.Extracellular Vesicles from Red Blood Cell Products Induce a Strong Pro-Inflammatory Host Response, Dependent on Both Numbers and Storage Duration.Crosstalk between red blood cells and the immune system and its impact on atherosclerosis.Red blood cells, transfusion-related acute lung injury, and lipids: a role for liporeduction?The effects of rejuvenation during hypothermic storage on red blood cell membrane remodeling.The effects of red blood cell preparation method on in vitro markers of red blood cell aging and inflammatory response.Evaluation of an experimental filter designed for improving the quality of red blood cells (RBCs) during storage by simultaneously removing white blood cells and immunomodulators and improving RBC viscoelasticity and Band 3 proteins.Blood transfusion during versus after cardiopulmonary bypass is associated with postoperative morbidity in neonates undergoing cardiac surgery.Potassium leakage primes stored erythrocytes for phosphatidylserine exposure and shedding of pro-coagulant vesicles.Storage of red blood cells affects membrane composition, microvesiculation, and in vitro quality.Proceedings of the Food and Drug Administration's public workshop on new red blood cell product regulatory science 2016.Oxidative stress and rheologic properties of stored red blood cells before and after transfusion to surgical patients.Asanguineous priming of miniaturized paediatric cardiopulmonary bypass circuits for congenital heart surgery: independent predictors associated with transfusion requirements and effects on postoperative morbidity.Buffy coat (top/bottom)- and whole-blood filtration (top/top)-produced red cell concentrates differ in size of extracellular vesicles.Towards bedside washing of stored red blood cells: a prototype of a simple apparatus based on microscale sedimentation in normal gravity.Reduction of biological response modifiers in the supernatant of washed paediatric red blood cells.Microparticles from stored red blood cells enhance procoagulant and proinflammatory activity.Red blood cell transfusion increases the risk of thrombotic events in patients with subarachnoid hemorrhage.Nanofiltration to remove microparticles and decrease the thrombogenicity of plasma: in vitro feasibility assessment.Leukoreduction of packed red blood cells attenuates proinflammatory properties of storage-derived microvesicles.
P2860
Q26865972-D6810101-DEA5-4E8C-A0D8-E743E63E8D56Q33766511-A48E59AC-A9AA-4511-A92C-E87191C39A33Q34019212-772ACC6A-3331-4924-A2D0-63EB4391FF1FQ34792041-9ACEFD10-16C4-4CB4-8AF9-3A494EF217DEQ35574674-5C8F5A7F-3136-4DAC-B57A-E7CC0D14C2BDQ35673585-9CE2369F-B77E-4117-8E37-122A7FF636B9Q35729682-686C6E3F-1A72-40C2-989A-11DFDCFA33ADQ35737756-2CD7A6CF-1911-4163-87B2-329715EB44E1Q35802303-0146517C-140F-40BE-A507-1DCDF83D71D9Q36802971-1B87EE81-EC24-435F-A8D2-697D4B091D7DQ37056509-D7E4F4B4-D17B-475B-A353-90FA66FE6710Q37359958-641767F6-B3DE-478F-9DF5-9EF7A87548DBQ37679830-91EB61CB-4E45-4FDB-96F6-9425901650D3Q38021265-0A319511-678B-4DBA-8B4B-E5F5AFD08DB7Q38034393-9EBF19E0-86A2-4648-82F1-24E5CFDB91CEQ38118341-52834FA7-81E5-41D0-9686-2B093A5A47F0Q38240578-091296E6-F863-48B6-ADD4-CD047439ECE1Q38618065-D0484542-1A6F-4451-97E5-CCF3DC8021BDQ38642506-4542D1C9-8A68-4C7E-BF7F-BE28CC24BFEEQ39559800-F3E9F1EB-F7F5-4A48-8ABF-929E114F72D8Q40454182-6ED603A5-FE47-44E2-973A-0EF54A83EE2AQ41213026-4EBC48DD-B0A1-4C93-BE86-C598EF0EE9C6Q41341475-2A26FC2C-8723-47FD-B240-C101C809D5C6Q42855010-598E5E7B-0666-45C0-B3C8-911A660A33FEQ43812043-B2F0F453-8F06-42E8-8955-40E55E810F78Q43851198-C1D3248F-7A4A-47BD-AF08-29FF266B13DBQ43947627-DE26D274-8A94-401C-B67F-F15A3A50D988Q44534783-EECED61B-CF17-4229-B097-D2A8125B08BEQ45355715-94FDE6AD-5995-4C6F-B1C7-FF8F835EDA08Q45834004-65D06343-681C-4281-A9DD-82137C8E71ACQ46525276-19195464-FD0B-48D7-92A7-E032669DBEE0Q46603024-97BC7517-644D-42D2-B310-2FA6D7125438Q47209880-CDC0F95B-A002-44C0-A02B-94E25C5E3503Q47391849-000F6F6B-F1BB-4F8F-895E-FEE605243C26Q47412863-43A782EB-8382-4561-820D-501DA62ECA63Q47567118-04D75519-B547-49C7-B60D-D5EF2D4823A3Q48000955-D880D585-413D-4DBA-A46D-D4BD985CD022Q48156516-26F91783-C12E-4055-A4DF-E839BB3E15B9Q48669003-B2A7A8D8-B25D-474C-8426-FA801A539441Q50046347-D8F5F0BA-6B4A-41D6-A3D3-CFFA9E0B4B46
P2860
Microparticles in stored red blood cells as potential mediators of transfusion complications
description
2011 nî lūn-bûn
@nan
2011 թուականի Ապրիլին հրատարակուած գիտական յօդուած
@hyw
2011 թվականի ապրիլին հրատարակված գիտական հոդված
@hy
2011年の論文
@ja
2011年学术文章
@wuu
2011年学术文章
@zh-cn
2011年学术文章
@zh-hans
2011年学术文章
@zh-my
2011年学术文章
@zh-sg
2011年學術文章
@yue
name
Microparticles in stored red b ...... s of transfusion complications
@ast
Microparticles in stored red b ...... s of transfusion complications
@en
Microparticles in stored red b ...... s of transfusion complications
@nl
type
label
Microparticles in stored red b ...... s of transfusion complications
@ast
Microparticles in stored red b ...... s of transfusion complications
@en
Microparticles in stored red b ...... s of transfusion complications
@nl
prefLabel
Microparticles in stored red b ...... s of transfusion complications
@ast
Microparticles in stored red b ...... s of transfusion complications
@en
Microparticles in stored red b ...... s of transfusion complications
@nl
P2093
P2860
P1433
P1476
Microparticles in stored red b ...... s of transfusion complications
@en
P2093
Lawrence H Horstman
Marco Ricci
Orlando Gomez-Marin
Sherry Shariatmadar
Yeon S Ahn
P2860
P304
P356
10.1111/J.1537-2995.2011.03099.X
P577
2011-04-01T00:00:00Z