MRI als voorspellende diagnostiek voor angiogenese bij vasculaire malformaties

Background: Angiogenesis in vascular malformations of skin and soft tissue are observed in recent studies. Most of these patients with angiogenesis become symptomatic and be treated surgically. The MR imaging could be used to analyse demographic data, topographic location and the flow characteristics of the malformation before treatment. The MR imaging is a technique designed for fast vascular imaging, is non-invasive and very specified. Aim: To systematically investigate whether MR imaging is allowed to diagnose angiogenesis in symptomatic vascular malformations before surgery. Methods: Retrospective 37 resection specimens of symptomatic vascular malformations were screened histopatologically for the presence and extent of angiogenesis. MR imagine before sugery screened the vascular malformations for the presence of solid masses en flow. Both groups were compared with each other. Results: Histopathologically we found in 21 patients areas of angiogenesis; 5% single cluster of immature capillaries, 43% multiple clusters and 53% extensive diffuse and solid proliferation. In 16 patients we found no areas of angiogenesis. Of the patients with angiogenesis 57% showed (partial) immature proliferations and 43% mature proliferations. MR-imaging found 10 patients with solid masses. 80% Of these solid masses correlates with angiogenesis diagnosed histopathologically. MRI is allowed to predict immature proliferation significantly (P=0.049). 30% Of the patients showed a progression of angiogenesis after surgery. Conclusion: MR imaging with solid masses in vascular malformations is allowed to diagnose 80% of angiogenesis in vascular malformation. In most of the cases, in which MR imaging founded a solid masses, the vascular malformations were diagnosed with immature proliferations. MR imaging without solid masses can not predict the presence of angiogenesis. MR imaging is also allowed to diagnose the flow in vascular malformations. Resection of vascular malformations showed a progression of angiogenesis in 30% of all patients.

Endogenous microparticles drive the proinflammatory host immune response in severely injured trauma patients

Severe trauma affects the immune system, which in its turn is associated with poor outcome. The mediators driving the immune responses in trauma are largely unknown. The aim of this study was to investigate the role of endogenous microparticles (MPs) in mediating the immune response following severe trauma. A prospective, observational substudy of the ACIT II (Activation of Coagulation and Inflammation in Trauma II) study was performed at our academic level I trauma center. Adult multiple-trauma patients with an injury severity score of 15 or higher were included between May 2012 and June 2013. Ex vivo whole-blood stimulation with lipopolysaccharide was performed on aseptically collected patient plasma containing MPs and in plasma depleted of MPs. Flow cytometry and transmission electronic microscopy were performed on plasma samples to investigate the numbers and cellular origin of MPs. Healthy individuals served as a control group. Ten trauma patients and 10 control subjects were included. Trauma patients were significantly injured with a median injury severity score of 19 (range, 17-45). Patients were neither in shock nor bleeding. On admission to the hospital, the host response to bacterial stimulation was blunted in trauma patients compared with control subjects, as reflected by decreased production of interleukin 6 (IL-6), IL-10, and tumor necrosis factor α (P < 0.001). In trauma patients, MP-positive plasma was associated with a significantly higher synthesis of IL-6 and tumor necrosis factor α compared with plasma depleted from MPs (P = 0.047 and 0.002, respectively). Compared with control subjects, the number of circulating MPs was significantly decreased in trauma patients (P = 0.009). Most MPs originated from platelets. Multiple cellular protrusions, which result in MP formation, were observed in plasma from trauma patients, but not in control subjects. On admission, trauma patients have a reduced immune response toward endotoxin challenge, which is, at least in part, mediated by MPs, which circulate in low numbers and in early stages. Most MPs originate from platelets, which indicates that these cells may be the most important source of MPs involved in initiating an inflammatory host response after injur

Hypothermia as a predictor for mortality in trauma patients at admittance to the intensive care unit

Aims: To study the impact of hypothermia upon admission to the Intensive Care Unit (ICU) on early and late mortality and to develop a prediction model for late mortality in severely injured trauma patients. Materials and Methods: A multicenter retrospective cohort study was performed in adult trauma patients admitted to the ICU of two Level-1 trauma centers between 2007 and 2012. Hypothermia was defined as a core body temperature of ≤35° Celsius. Logistic regression analyses were performed to quantify the effect of hypothermia on 24-hour and 28-day mortality and to develop a prediction model. Results: A total of 953 patients were included, of which 354 patients had hypothermia (37%) upon ICU admission. Patients were divided into a normothermic or hypothermic group. Hypothermia was associated with a significantly increased mortality at 24 hours and 28 days (OR 2.72 (1.18-6.29 and OR 2.82 (1.83-4.35) resp.). The variables included in the final prediction model were hypothermia, age, APACHE II score (corrected for temperature), INR, platelet count, traumatic brain injury and Injury Severity Score. The final prediction model discriminated between survivors and non-survivors with high accuracy (AUC = 0.871, 95% CI 0.844-0.898). Conclusions: Hypothermia, defined as a temperature ≤35° Celsius, is common in critically ill trauma patients and is one of the most important physiological predictors for early and late mortality in trauma patients. Trauma patients admitted to the ICU may be at high risk for late mortality if the patient is hypothermic, coagulopathic, severely injured and has traumatic brain injury or an advanced age

Effects of a hospital-wide introduction of a massive transfusion protocol on blood product ratio and blood product waste

Massive transfusion protocols (MTPs) are increasingly used in the transfusion practice and are developed to provide the standardized and early delivery of blood products and procoagulant agents and to supply the transfusion of blood products in a well-balanced ratio. The aim of this study was to investigate the effect of a hospital-wide introduction of an MTP on blood product ratio and a waste of blood products. Retrospective analysis was performed to compare the transfusion practice in massive bleeding patients before and after the introduction of an MTP and between the use of an MTP and transfusion off-protocol. Massive bleeding was defined as an administration of ≥5 units of red blood cells (RBCs) within 12 h. Of 547 massively transfused patients, 192 patients were included in the pre-MTP period and 355 patients in the MTP period. The ratio of RBC to fresh frozen plasma (FFP) and the platelets transfused shifted significantly toward 1:1:1 in the MTP period (P = 0.012). This was mainly caused by a shift in RBC: FFP ratio (P = 0.014). An increase in the waste of blood products was observed, most notably FFPs (P = 0.026). Extending the storage time after thawing reduced the waste of FFPs from 11% to 4%. Hospital-wide introduction of an MTP is an adequate way to achieve a well-balanced transfusion ratio of 1:1:1. This comes at the cost of an increase in the waste of FFPs, which is lowered after extending the duration of storage time after thawin

Thromboelastometry and organ failure in trauma patients: a prospective cohort study

Data on the incidence of a hypercoagulable state in trauma, as measured by thromboelastometry (ROTEM), is limited and the prognostic value of hypercoagulability after trauma on outcome is unclear. We aimed to determine the incidence of hypercoagulability after trauma, and to assess whether early hypercoagulability has prognostic value on the occurrence of multiple organ failure (MOF) and mortality. This was a prospective observational cohort study in trauma patients who met the highest trauma level team activation. Hypercoagulability was defined as a G value of ≥ 11.7 dynes/cm(2) and hypocoagulability as a G value of <5.0 dynes/cm(2). ROTEM was performed on admission and 24 hours later. A total of 1,010 patients were enrolled and 948 patients were analyzed. Median age was 38 (interquartile range (IQR) 26 to 53), 77% were male and median injury severity score was 13 (IQR 8 to 25). On admission, 7% of the patients were hypercoagulable and 8% were hypocoagulable. Altogether, 10% of patients showed hypercoagulability within the first 24 hours of trauma. Hypocoagulability, but not hypercoagulability, was associated with higher sequential organ failure assessment scores, indicating more severe MOF. Mortality in patients with hypercoagulability was 0%, compared to 7% in normocoagulable and 24% in hypocoagulable patients (P <0.001). EXTEM CT, alpha and G were predictors for occurrence of MOF and mortality. The incidence of a hypercoagulable state after trauma is 10% up to 24 hours after admission, which is broadly comparable to the rate of hypocoagulability. Further work in larger studies should define the clinical consequences of identifying hypercoagulability and a possible role for very early, targeted use of anticoagulant

Data-driven Development of ROTEM and TEG Algorithms for the Management of Trauma Hemorrhage:A Prospective Observational Multicenter Study

OBJECTIVE: Developing pragmatic data-driven algorithms for management of trauma induced coagulopathy (TIC) during trauma hemorrhage for viscoelastic hemostatic assays (VHAs). BACKGROUND: Admission data from conventional coagulation tests (CCT), rotational thrombelastometry (ROTEM) and thrombelastography (TEG) were collected prospectively at 6 European trauma centers during 2008 to 2013. METHODS: To identify significant VHA parameters capable of detecting TIC (defined as INR > 1.2), hypofibrinogenemia (< 2.0 g/L), and thrombocytopenia (< 100 x10/L), univariate regression models were constructed. Area under the curve (AUC) was calculated, and threshold values for TEG and ROTEM parameters with 70% sensitivity were included in the algorithms. RESULTS: A total of, 2287 adult trauma patients (ROTEM: 2019 and TEG: 968) were enrolled. FIBTEM clot amplitude at 5 minutes (CA5) had the largest AUC and 10 mm detected hypofibrinogenemia with 70% sensitivity. The corresponding value for functional fibrinogen (FF) TEG maximum amplitude (MA) was 19 mm. Thrombocytopenia was similarly detected using the calculated threshold EXTEM-FIBTEM CA5 30 mm. The corresponding rTEG-FF TEG MA was 46 mm. TIC was identified by EXTEM CA5 41 mm, rTEG MA 64 mm (80% sensitivity). For hyperfibrinolysis, we examined the relationship between viscoelastic lysis parameters and clinical outcomes, with resulting threshold values of 85% for EXTEM Li30 and 10% for rTEG Ly30.Based on these analyses, we constructed algorithms for ROTEM, TEG, and CCTs to be used in addition to ratio driven transfusion and tranexamic acid. CONCLUSIONS: We describe a systematic approach to define threshold parameters for ROTEM and TEG. These parameters were incorporated into algorithms to support data-driven adjustments of resuscitation with therapeutics, to optimize damage control resuscitation practice in trauma