Use of Transcarotid Artery Revascularization to Treat Symptomatic Carotid Artery Stenosis Associated with Free-Floating Thrombus.

BACKGROUND: Free-floating thrombus in the internal carotid artery (ICA) has traditionally been treated via an open surgical approach through a longitudinal incision and exposure similar to that for carotid endarterectomy (CEA). In this case report, we present a novel use of transcarotid artery revascularization (TCAR) for the treatment of recurrent carotid stenosis associated with free-floating ICA thrombus. CASE DESCRIPTION: We describe a 67-year-old female who presented with a diagnosis of right hemispheric stroke in evolution and prior history of right CEA and a mechanical mitral valve. Imaging confirmed high-grade recurrent stenosis of the right ICA with free-floating thrombus. TCAR was utilized to repair both the recurrent stenosis and the thrombus. CONCLUSIONS: Redo CEA in the face of recurrent stenosis is a challenging clinical scenario, which in this instance, was further complicated by the presence of free-floating thrombus and active anticoagulation due to a mechanical mitral valve. This case report describes the successful management of ICA thrombus and restenosis with the novel use of TCAR.

Changes in Coagulation following Brain Injury.

Traumatic brain injury (TBI) is a worldwide public health concern due to increasing mortality, affecting around 10 million patients per year. A wide variety of clinical presentations are a function of the magnitude of injury and the anatomical perturbation of the brain parenchyma, supporting structures, and cerebral vasculature, with subsequent alteration of the blood-brain barrier. These disturbances correspond with the evolution of intracerebral hemorrhage and clinical outcomes. The associated hemostatic alterations associated with TBI are caused by the disruption of the delicate balance between bleeding and thrombosis formation, which can exacerbate initial injury. TBI-associated coagulopathy is a function of a cross-talk between coagulation and inflammation, with varying influences on the immunomodulation and regulation of coagulation that occur on platelets and the endothelium of injured TBI patients. In addition to the severity of initial injury, the following factors modulate the hemocoagulative response to TBI: time from the onset of injury to treatment, age, gender, catecholamine secretion, platelet dysfunction, endotheliopathy, premorbid anticoagulation, fibrinolysis, tissue factor, and activated protein C contribution. All these entities are intertwined and influence the pathologic evolution of TBI. These factors have implications for therapeutic options such as the choice of blood components for transfusion and hemostatic agents such as tranexamic acid. Monitoring hemostatic changes of TBI patients requires an understanding of these interactions between immunology and coagulation, which can be discerned by point-of-care viscoelastic testing with specific limitations. This review considers the implications of these interrelated influences on the evaluation of coagulopathy in TBI.

Whole Blood for Civilian Urban Trauma Resuscitation: Historical, Present, and Future Considerations.

Whole blood (WB) has been used for more than a century for far-forward combat resuscitation. Following the Iraq/Afghanistan combat, maritime, and austere environment use of WB for the resuscitation of severely hemorrhaging patients, there has been an increasing use of WB for the civilian urban resuscitation environment population. The impetus for this was not just improved outcomes in far-forward hospitals, which had different populations and different needs than the civilian urban population, but also an application of the lessons suggested by recent 1:1:1 plasma:platelets:packed red cells fixed-ratio studies for patients with massive transfusion needs. Mechanistic, logistic, and standardization concerns have been addressed and are evolving as the WB project advances. A small number of studies have been published on WB in the civilian urban trauma population. In addition, European experience with viscoelastic testing and resuscitation with fibrinogen and prothrombin complex concentrate has provided another viewpoint regarding the choice of resuscitation strategies for severely bleeding trauma patients in urban civilian environments. There are randomized controlled trials in process, which are testing the hypothesis that WB may be beneficial for the civilian urban population. Whether WB will improve mortality significantly is now a matter of intense study, and this commentary reviews the history, mechanistic foundations, and logistical aspects for the use of WB in the civilian trauma population.

Tumor suppressor function of Rab25 in triple-negative breast cancer.

Rab proteins are a group of ubiquitously expressed proteins that are responsible for intracellular transport of vesicles. Recent evidence has shown that certain Rab proteins are involved in the pathogenesis of cancer. We have recently shown that Rab25 is lost in a large fraction of breast cancer samples, particularly those derived from hormonally insensitive tumors. We have further investigated the role of Rab25 by re-expressing Rab25 in tumorigenic cell lines and measuring the impact on tumor formation as well as on various molecular pathways through PCR array analysis. In vivo tumor growth of cell lines with re-expressed Rab25 was markedly suppressed. Our data suggest that Rab25 acts through multiple pathways to enhance apoptosis and to suppress angiogenesis and invasion by modulating VEGF-A and VEGFR-1 expression. These findings suggest that Rab25 represents a novel class of cellular modulators that can influence both tumor initiation and the progression of the established tumors, thus ultimately affecting the biology of the malignant disease.