C C Silliman
Overview
Explore the profile of C C Silliman including associated specialties, affiliations and a list of published articles.
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Articles
79
Citations
1311
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Recent Articles
1.
Moore H, Moore E, Chapman M, Gonzalez E, Slaughter A, Morton A, et al.
J Thromb Haemost
. 2015 Aug;
13(10):1878-87.
PMID: 26256459
Background: Systemic hyperfibrinolysis is a lethal phenotype of trauma-induced coagulopathy. Its pathogenesis is poorly understood. Recent studies have support a central role of platelets in hemostasis and in fibrinolysis regulation,...
2.
Harr J, Moore E, Chin T, Chapman M, Ghasabyan A, Stringham J, et al.
Eur J Trauma Emerg Surg
. 2015 Jun;
41(1):49-56.
PMID: 26038165
Purpose: Viscoelastic hemostatic assays are emerging as the standard-of-care in the early detection of post-injury coagulopathy. TEG and ROTEM are most commonly used. Although similar in technique, each uses different...
3.
DAlessandro A, Hansen K, Silliman C, Moore E, Kelher M, Banerjee A
Vox Sang
. 2014 Sep;
108(2):131-40.
PMID: 25200932
Background And Objectives: The safety and efficacy of stored red blood cells (RBCs) transfusion has been long debated due to retrospective clinical evidence and laboratory results, indicating a potential correlation...
4.
Gonzalez E, Moore E, Moore H, Chapman M, Silliman C, Banerjee A
Scand J Surg
. 2014 May;
103(2):89-103.
PMID: 24786172
Introduction: Injury is the second leading cause of death worldwide, and as much as 40% of injury-related mortality is attributed to uncontrollable hemorrhage. This persists despite establishment of regionalized trauma...
5.
Kent M, Kelher M, West F, Silliman C
Transfus Med
. 2014 May;
24(3):176-81.
PMID: 24786047
Background: Microparticles (MPs) are submicron size cell fragments that are released from cells. Objectives: We hypothesise that MPs increase during red blood cell (RBC) storage and are part of the...
6.
Silliman C, Bercovitz R, Khan S, Kelher M, LaSarre M, Land K, et al.
Vox Sang
. 2013 Dec;
107(1):76-82.
PMID: 24372341
Background: Transfusion-related acute lung injury (TRALI) is the most common cause of transfusion-related mortality and has been linked to the infusion of donor antibodies directed against recipient HLA class I...
7.
Dzieciatkowska M, Silliman C, Moore E, Kelher M, Banerjee A, Land K, et al.
Vox Sang
. 2013 May;
105(3):210-8.
PMID: 23663258
Background: Red blood cell (RBC) transfusion is a life-saving intervention for critically ill patients; however, it has been linked to increased morbidity and mortality. We hypothesize that a number of...
8.
Ramos C, Moore E, Manco-Johnson M, Silliman C, Chapman M, Banerjee A
J Thromb Haemost
. 2013 Apr;
11(7):1435-7.
PMID: 23593973
No abstract available.
9.
Reesink H, Lee J, Keller A, Dennington P, Pink J, Holdsworth R, et al.
Vox Sang
. 2012 Apr;
103(3):231-59.
PMID: 22519920
No abstract available.
10.
Bercovitz R, Kelher M, Khan S, Land K, Berry T, Silliman C
Vox Sang
. 2011 Nov;
102(4):345-53.
PMID: 22092073
Background And Objectives: Plasma and platelet concentrates are disproportionately implicated in transfusion-related acute lung injury (TRALI). Platelet-derived pro-inflammatory mediators, including soluble CD40 ligand (sCD40L), accumulate during storage. We hypothesized that...