OBJECTIVE: The indications for blood transfusion in traumatic brain injury are controversial. In particular, little is known about the effect of blood transfusion in childhood traumatic brain injury. This study aimed to examine the influence of blood transfusion on brain tissue oxygen tension in children with severe traumatic brain injury. DESIGN: A retrospective analysis of a prospective observational database of children with severe traumatic brain injury who received brain tissue oxygen tension monitoring and a blood transfusion. SETTING: University-affiliated pediatric hospital. PATIENTS: Children with severe traumatic brain injury and blood transfusion. INTERVENTIONS: None. MEASUREMENTS AND MAIN RESULTS: Brain tissue oxygen tension was measured in normal-appearing white matter with a commercially available polarographic Clarke-type electrode. Brain tissue oxygen tension values after blood transfusion were compared with pre-transfusion values in hemodynamically stable patients. Limited interventions were allowed during the studied period. Brain tissue oxygen tension values were examined for early (1-4 hrs) and late (24 hrs) changes after blood transfusion, controlling for multiple clinical and physiologic variables with regression techniques. Further comparison was made with matched non-transfused controls to examine the influence of time after injury. Nineteen blood transfusions in 17 patients were evaluated. Brain tissue oxygen tension increased significantly in the early period after blood transfusion (p = .0018; 79% increased, 21% decreased) in comparison with baseline values and matched controls, but the overall changes were small and, in part, influenced by accompanying cerebral perfusion pressure changes. Also, this effect was limited to the early period after blood transfusion and was not significant after 24 hrs. In general, the brain tissue oxygen tension increase was larger in patients with higher baseline brain tissue oxygen tension and lower initial hemoglobin; however, no factors associated with the magnitude of the brain tissue oxygen tension change were significant in multivariate analysis. Increased age of blood did not appear to impair brain tissue oxygen tension changes, but most blood transfusion were <14 days old. CONCLUSIONS: Brain tissue oxygen tension increased transiently in 79% of blood transfusion in pediatric traumatic brain injury patients, and decreased transiently in 21%. Brain tissue oxygen tension returned to baseline within 24 hrs. Reliable predictors of this brain tissue oxygen tension response to blood transfusion, however, remain elusive.
OBJECTIVE: The indications for blood transfusion in traumatic brain injury are controversial. In particular, little is known about the effect of blood transfusion in childhood traumatic brain injury. This study aimed to examine the influence of blood transfusion on brain tissue oxygen tension in children with severe traumatic brain injury. DESIGN: A retrospective analysis of a prospective observational database of children with severe traumatic brain injury who received brain tissue oxygen tension monitoring and a blood transfusion. SETTING: University-affiliated pediatric hospital. PATIENTS: Children with severe traumatic brain injury and blood transfusion. INTERVENTIONS: None. MEASUREMENTS AND MAIN RESULTS: Brain tissue oxygen tension was measured in normal-appearing white matter with a commercially available polarographic Clarke-type electrode. Brain tissue oxygen tension values after blood transfusion were compared with pre-transfusion values in hemodynamically stable patients. Limited interventions were allowed during the studied period. Brain tissue oxygen tension values were examined for early (1-4 hrs) and late (24 hrs) changes after blood transfusion, controlling for multiple clinical and physiologic variables with regression techniques. Further comparison was made with matched non-transfused controls to examine the influence of time after injury. Nineteen blood transfusions in 17 patients were evaluated. Brain tissue oxygen tension increased significantly in the early period after blood transfusion (p = .0018; 79% increased, 21% decreased) in comparison with baseline values and matched controls, but the overall changes were small and, in part, influenced by accompanying cerebral perfusion pressure changes. Also, this effect was limited to the early period after blood transfusion and was not significant after 24 hrs. In general, the brain tissue oxygen tension increase was larger in patients with higher baseline brain tissue oxygen tension and lower initial hemoglobin; however, no factors associated with the magnitude of the brain tissue oxygen tension change were significant in multivariate analysis. Increased age of blood did not appear to impair brain tissue oxygen tension changes, but most blood transfusion were <14 days old. CONCLUSIONS: Brain tissue oxygen tension increased transiently in 79% of blood transfusion in pediatric traumatic brain injurypatients, and decreased transiently in 21%. Brain tissue oxygen tension returned to baseline within 24 hrs. Reliable predictors of this brain tissue oxygen tension response to blood transfusion, however, remain elusive.
Authors: Jose-Miguel Yamal; M Laura Rubin; Julia S Benoit; Barbara C Tilley; Shankar Gopinath; H Julia Hannay; Pratik Doshi; Imoigele P Aisiku; Claudia S Robertson Journal: J Neurotrauma Date: 2015-03-26 Impact factor: 5.269
Authors: Anthony A Figaji; A Graham Fieggen; Ncedile Mankahla; Nico Enslin; Ursula K Rohlwink Journal: Childs Nerv Syst Date: 2017-08-14 Impact factor: 1.475
Authors: Pablo Cure; Melania Bembea; Stella Chou; Allan Doctor; Anne Eder; Jeanne Hendrickson; Cassandra D Josephson; Alan E Mast; William Savage; Martha Sola-Visner; Philip Spinella; Simon Stanworth; Marie Steiner; Traci Mondoro; Shimian Zou; Catherine Levy; Myron Waclawiw; Nahed El Kassar; Simone Glynn; Naomi L C Luban Journal: Transfusion Date: 2017-03-28 Impact factor: 3.157
Authors: Joel Elterman; Karen Brasel; Siobhan Brown; Eileen Bulger; Jim Christenson; Jeffrey D Kerby; Delores Kannas; Steven Lin; Joseph P Minei; Sandro Rizoli; Samuel Tisherman; Martin A Schreiber Journal: J Trauma Acute Care Surg Date: 2013-07 Impact factor: 3.313
Authors: Claudia S Robertson; H Julia Hannay; José-Miguel Yamal; Shankar Gopinath; J Clay Goodman; Barbara C Tilley; Athena Baldwin; Lucia Rivera Lara; Hector Saucedo-Crespo; Osama Ahmed; Santhosh Sadasivan; Luciano Ponce; Jovanny Cruz-Navarro; Hazem Shahin; Imoigele P Aisiku; Pratik Doshi; Alex Valadka; Leslie Neipert; Jace M Waguspack; M Laura Rubin; Julia S Benoit; Paul Swank Journal: JAMA Date: 2014-07-02 Impact factor: 56.272