The ratio of fibrinogen to red cells transfused affects survival in casualties receiving massive transfusions at an army combat support hospital.
about
Management of bleeding and coagulopathy following major trauma: an updated European guideline.Massive hemorrhage management-a best evidence topic reportEarly and individualized goal-directed therapy for trauma-induced coagulopathyThe European guideline on management of major bleeding and coagulopathy following trauma: fourth editionFibrinogen γ-chain peptide-coated, ADP-encapsulated liposomes rescue thrombocytopenic rabbits from non-compressible liver hemorrhage.The Clinical Efficacy of Fibrinogen Concentrate in Massive Obstetric Haemorrhage with HypofibrinogenaemiaEstimation of plasma fibrinogen levels based on hemoglobin, base excess and Injury Severity Score upon emergency room admission.Fibrinogen depletion in trauma: early, easy to estimate and central to trauma-induced coagulopathy.Management of bleeding following major trauma: an updated European guideline.Goal-directed coagulation management of major trauma patients using thromboelastometry (ROTEM)-guided administration of fibrinogen concentrate and prothrombin complex concentrateActivated clotting time of thrombelastography (T-ACT) predicts early postinjury blood component transfusion beyond plasma.Creation, implementation, and maturation of a massive transfusion protocol for the exsanguinating trauma patientDamage control - trauma care in the first hour and beyond: a clinical review of relevant developments in the field of trauma care.Fibrinogen concentrate improves survival during limited resuscitation of uncontrolled hemorrhagic shock in a Swine model.Tips and tricks for the trauma patient.Massive transfusion protocols for patients with substantial hemorrhage.Spanish Consensus Statement on alternatives to allogeneic blood transfusion: the 2013 update of the "Seville Document".Blood Component Therapy and Coagulopathy in Trauma: A Systematic Review of the Literature from the Trauma Update Group.Recommendations for the transfusion management of patients in the peri-operative period. II. The intra-operative periodWarm fresh whole blood is independently associated with improved survival for patients with combat-related traumatic injuries.Optimal use of blood in trauma patients.Fibrinogen availability and coagulation function after hemorrhage and resuscitation in pigs.Resuscitation and transfusion principles for traumatic hemorrhagic shock.Detection of acute traumatic coagulopathy and massive transfusion requirements by means of rotational thromboelastometry: an international prospective validation study.Trauma-induced coagulopathy: impact of the early coagulation support protocol on blood product consumption, mortality and costs.Hemostatic resuscitation in postpartum hemorrhage - a supplement to surgery.Which is the most effective strategy: early detection of coagulopathy with thromboelastometry or use of hemostatic factors or both?Transfusion in trauma: thromboelastometry-guided coagulation factor concentrate-based therapy versus standard fresh frozen plasma-based therapy.Recombinant Factor VIIa Reduces Bleeding after Blunt Liver Injury in a Pig Model of Dilutional Coagulopathy under Severe HypothermiaClinical effectiveness of fresh frozen plasma compared with fibrinogen concentrate: a systematic review.Massive Bleeding and Massive Transfusion.Tactical damage control resuscitation in austere military environments.The FIB-PPH trial: fibrinogen concentrate as initial treatment for postpartum haemorrhage: study protocol for a randomised controlled trial.Cryoprecipitate therapy.Polyethylene Glycol Camouflaged Earthworm Hemoglobin.Interventional Algorithms for the Control of Coagulopathic Bleeding in Surgical, Trauma, and Postpartum Settings: Recommendations From the Share Network GroupFibrinogen levels in trauma patients during the first seven days after fibrinogen concentrate therapy: a retrospective study.Transfusion management of trauma patientsFree oscillation rheometry monitoring of haemodilution and hypothermia and correction with fibrinogen and factor XIII concentrates.Fibrinogen and base excess levels as predictive markers of the need for massive blood transfusion after blunt trauma.
P2860
Q21092902-F68EA349-34A0-4EC4-9ED6-E5A6D530C8F6Q26801295-2FA67436-3EE8-4C05-984C-CB9484144A52Q26853422-57880D44-6E53-4225-A705-0532F7E5F6B7Q27339343-CA72BDA0-B7B8-4DDF-B920-7A13CBE51DA9Q33402878-6A9CA02F-878F-4C44-B0D9-02E8800D09F9Q33594247-37A02E69-559C-402E-B68C-23D08EDE163FQ33749953-43C90565-AD32-4108-8882-44A148D6B918Q33750799-09280B4C-E68F-48BF-A0E4-74D40E0874FEQ33919178-EFC7008D-74B7-4131-883B-D3B2DB4D6F08Q33919203-D05C2925-A7F0-4A5C-857C-B2CAB5077ED8Q34115789-C90000E9-C452-4773-9060-574779E701A3Q34120257-CF52F242-FE85-4DA7-9384-36BC57B77C10Q34192917-BB2BBB39-FF84-4E97-9CE7-E7192ECD7FA3Q34390320-29652D40-AB43-4CC9-8CE6-696A7CF91F11Q34563820-78D139D8-E20C-4182-A566-DA6D53E408E2Q34630081-058F4491-53C4-4A5C-B397-74A84AC543FBQ34654443-5FB7E214-16B7-4E35-BD6F-B0AD339935FDQ34679034-6744F32D-7DD2-4FB5-8E21-1850D5B2120BQ34988663-7D4F25C8-1BBE-40A7-A1C4-7A179FA1B3F4Q35077973-74EC290C-9136-4136-9E1F-6AD4862C2BCAQ35077977-4466A045-2E4B-49FE-A86A-61A76546C62DQ35136654-0BFCC685-758A-48EC-BA95-E45D26D92D3AQ35174893-AA8C4E62-A4D0-47FD-BF65-13D92FBC25F0Q35218708-FD0C47A7-C5B5-467D-9313-296BEF874FA0Q35248569-1F12E10E-6B69-4D0C-89DF-2F250010D53BQ35557436-DF7C08FC-A226-4EB9-9C6E-CC5836933B39Q35558195-818AA555-5267-47CE-8366-7C0CA263474AQ35559379-5E2A2BFA-DD56-41F1-BB7F-07072EA1DFFDQ35670503-845E55F9-245C-48C3-A066-B9DEAF75649FQ35908250-DFAA2CC7-A808-4250-9427-79E0E243FB11Q35998226-9C72CEF8-CF9A-4E58-B0D4-BEEB292C71B5Q36105483-79F1874B-5CE3-42D8-AC88-1A7542B6F32AQ36209630-98118704-C0E0-42A0-9292-11A8CE2A0700Q36232259-45146CEC-FAFE-4AF1-B917-2A139BA636A2Q36252875-2BFED1BB-B41E-464B-BE77-A9EB18A7B7EDQ36543599-65BC13F2-5AE0-4A01-B6D6-C7A9275BCCBCQ36679150-5E86A806-4BF5-4E6E-B786-8573BE2788D5Q36684422-C8FF2648-969A-4E51-BCAE-703DC2F02667Q36753250-077AE450-01E5-4443-8CF2-96A8875612D8Q36952525-A042D2F4-C300-401C-B9B2-E9C30E8FCBAE
P2860
The ratio of fibrinogen to red cells transfused affects survival in casualties receiving massive transfusions at an army combat support hospital.
description
article científic
@ca
article scientifique
@fr
articolo scientifico
@it
artigo científico
@pt
bilimsel makale
@tr
scientific article published on February 2008
@en
vedecký článok
@sk
vetenskaplig artikel
@sv
videnskabelig artikel
@da
vědecký článek
@cs
name
The ratio of fibrinogen to red ...... army combat support hospital.
@en
The ratio of fibrinogen to red ...... army combat support hospital.
@nl
type
label
The ratio of fibrinogen to red ...... army combat support hospital.
@en
The ratio of fibrinogen to red ...... army combat support hospital.
@nl
prefLabel
The ratio of fibrinogen to red ...... army combat support hospital.
@en
The ratio of fibrinogen to red ...... army combat support hospital.
@nl
P2093
P1433
P1476
The ratio of fibrinogen to red ...... army combat support hospital.
@en
P2093
Alec C Beekley
Charles E Wade
Clayton D Simon
Harry K Stinger
Jeremy G Perkins
John R Hess
Jose Salinas
Kurt W Grathwohl
Michael A Dubick
Philip C Spinella
P304
S79-85; discussion S85
P356
10.1097/TA.0B013E318160A57B
P407
P433
P577
2008-02-01T00:00:00Z