Epidemiological risk factors for non-traumatic osteonecrosis

Certain fractures and/or dislocations of the femoral head are known to cause arterial injury and result in post-traumatic osteonecrosis. However, the more complex etiology of non-traumatic osteonecrosis is multifactorial and includes chemotherapy, radiotherapy, thermal injuries, and especially coagulopathies, which are now commonly observed in these patients. Intravascular coagulation with fibrin thrombosis begins in the capillaries and sinusoids of the intraosseous microcirculation, and residual venous thrombosis is more likely to occur if there is coexistent hypofibrinolysis. Coagulopathies are intermediary events, which are always activated by some underlying etiologic risk factor(s). Conditions capable of triggering intravascular coagulation include familial thrombophilia (resistance to activated protein C, decreased protein C, protein S, or antithrombin III, and hyperhomocystinemia), hyperlipemia and embolic lipid (alcoholism and hypercortisonism), hypersensitivity reactions (allograft organ rejection, immune complexes, and antiphospholipid antibodies), bacterial endotoxic (Shwartzman) reactions and various viral infections, proteolytic enzymes (pancreatitis), tissue factor release (inflammatory bowel disease, malignancies, neurotrauma, and pregnancy), and other thrombophilic and hypofibrinolytic disorders. Currently known risk factors for non-traumatic osteonecrosis of the femoral head are described briefly in this review article.     

Mesenteric vein thrombosis due to factor V Leiden gene mutation.

BACKGROUND: Mesenteric venous thrombosis is a rare cause of acute abdominal pain that may be the result of coagulation abnormalities. METHODS: Four consecutive patients with mesenteric venous thrombosis underwent haematological evaluation. RESULTS: All four had activated protein C resistance resulting from a single mutation in the gene coding for coagulation factor V. Three had surgery; in one patient the diagnosis was made by ultrasonography. One of the patients who had surgery died but the other three survived and were treated with long-term anticoagulation. CONCLUSION: Activated protein C resistance may be an important pathogenetic factor in primary mesen-teric vein thrombosis.     

Factor V Leiden mutation: potential thrombogenic role in renal vein, dialysis graft and transplant vascular thrombosis

Factor V is an important blood coagulation factor, the procoagulatory activity of which is inhibited by activated protein C. The factor V Leiden mutation is due to a single base-pair change (G1691A), which alters the initial cleavage site for activated protein C. The impaired degradation of factor V by activated protein C yields a hypercoagulable state that confers a lifelong increased risk of thrombosis in heterozygous and homozygous individuals. The factor V Leiden mutation represents the most common cause of inherited thrombophilia, and enhances the risk for venous thrombosis by approximately sevenfold. In normal Western populations, heterozygosity for the factor V Leiden mutation is present in 2-5%, whereas in patients with venous thrombosis and a family history of thrombotic disease this figure may reach 50-60%. The presence of the mutation markedly increases the risk for renal vein thrombosis, particularly in neonates. Heterozygosity for factor V Leiden mutation does not appear to be a major risk factor for dialysis access clotting. The presence of factor V Leiden mutation is most devastating in kidney transplant recipients. In these patients the mutation predisposes to renal transplant vein thrombosis and early graft loss. The risk for acute vascular rejection is also enhanced in transplant recipients who are heterozygous for the mutation. Routine screening for factor V Leiden mutation by polymerase chain reaction, and appropriate perioperative and postoperative anticoagulation after renal transplantation might be a valuable strategy to prevent thromboembolic complications in transplant recipients.     

Transdermal estradiol therapy for prostate cancer reduces thrombophilic activation and protects against thromboembolism

PURPOSE: Oral estrogens were an effective treatment for prostate cancer but were abandoned because of an increased risk of cardiovascular toxicity and particularly thromboembolism. We have recently shown that transdermal estradiol produces an effective tumor response and negligible cardiovascular toxicity. Here we report the influence of transdermal estradiol therapy on the coagulation profile of men with advanced prostate cancer. MATERIALS AND METHODS: A total of 20 patients with newly diagnosed locally advanced or metastatic prostate cancer were treated using transdermal estradiol patches and the coagulation profile was assessed before and during 12 months therapy. Activation of coagulation was assessed by assaying the levels of activated factor VII (VIIa), activated factor XII (XIIa), prothrombin fragments 1 and 2 (F1 + 2), thrombin-antithrombin III (TAT III) complex and fibrinogen. Inhibition of the coagulation cascade was assayed by protein C, protein S and activated protein C resistance (APC-R). Fibrinolytic activity was determined by assaying tissue plasminogen activator (TPA) and plasminogen activation inhibitor type 1 (PAI-1). D-Dimer levels assessed both coagulation and fibrinolytic (thrombophilic) activity. Venous Duplex, color Doppler ultrasound and photoplethysmography were used to assess for thrombosis. RESULTS: Levels of VIIa and XIIa were unaffected by transdermal estradiol therapy. Although levels of TAT III were increased in some patients at 12 months, the increase was markedly less than that observed historically with equivalent doses of oral estrogens. Levels of the inhibitory and fibrinolytic factors including protein C, protein S, APC-R, TPA and PAI-1 remained stable. Reductions in F1+F2, fibrinogen and D-Dimer levels represented a normalization from increased levels to the physiological range. CONCLUSIONS: These results suggest that transdermal estradiol reduces thrombophilic activation in men with advanced prostate cancer, and protects against the risk of thrombosis.     

Successful Liver Transplantation in a Patient With Budd-Chiari Syndrome Caused by Homozygous Factor V Leiden

Budd-Chiari syndrome (BCS) is a rare form of portal hypertension characterized by hepatic venous outflow obstruction. Although hematologic disorders are the most common cause of this syndrome, to date, 30% of the cases have been classified as idiopathic. Resistance to activated protein C caused by factor V Leiden is the most common cause of thrombophilia; its role in the pathogenesis of BCS is now becoming apparent. We report successful liver transplantation in a patient with BCS caused by homozygous factor V Leiden. The patient was administered standard heparin anticoagulation until activated protein C resistance was normalized by the liver allograft. Liver transplantation corrected the thrombophilic state. The patient has excellent graft function, is not on anticoagulation therapy, and has had no recurrent venous thrombosis at 5 months posttransplantation. Activated protein C resistance caused by the factor V Leiden mutation may be responsible for idiopathic cases of BCS. To avoid unnecessary long-term anticoagulation after liver transplantation, factor V Leiden should be considered as a pathogenic factor in BCS. In addition, because of the high prevalence of factor V Leiden in the world population, cadaveric organ donors with a history of venous thrombosis should be screened for activated protein C resistance lest thrombophilia be transmitted to the recipient. (Liver Transpl 2000;6:654-656.)     

Heterozygosity for the factor V Leiden (G1691A) mutation predisposes renal transplant recipients to thrombotic complications and graft loss

BACKGROUND: Heterozygosity for a mutation in the coagulation factor V gene (factor V Leiden; FVL) leads to resistance to activated protein C and represents the most common cause of inherited thrombophilia. FVL is associated with a high risk for thromboembolic events and might be a risk factor for venous thrombosis and early graft loss in renal transplant recipients. METHODS: We studied a cohort of 202 renal allograft recipients to assess the impact of the FVL mutation on thrombotic events and graft loss within 1 year after transplantation. We recorded the occurrence of deep venous thrombosis, pulmonary embolism, early graft perfusion defect, and graft loss. The occurrence of these events was then correlated with the presence or absence of heterozygosity for the FVL mutation. RESULTS: Heterozygosity for FVL was detected in 8 (4%) of 202 patients. The incidence of deep venous thrombosis or pulmonary embolism was higher in heterozygous compared with wild-type patients (25% vs. 5.7%, P=0.09). Furthermore, early graft perfusion defect (25% vs. 2.6%; P=0.03) and graft loss within 7 days after transplantation (2/8 vs. 1/194; P=0.004) were significantly more frequent among heterozygous carriers of FVL. All eight FVL carriers were negative for protein C or S deficiency and antiphospholipid and anticardiolipin antibodies, and were not carriers of the G20210A prothrombin mutation. CONCLUSIONS: Heterozygosity for the FVL mutation predisposes renal allograft recipients to venous thromboembolic complications, graft perfusion defects, and early transplant loss. Screening for the FVL mutation and appropriate peri- and postoperative anticoagulation after renal transplantation might prevent these thromboembolic complications.     

Coagulation Parameters in the Patients with Fournier’s Gangrene

Aim: In this prospective study, we aimed to determine the coagulation parameters in the patients with Fournier’s gangrene. Methods: The study group is consisted of 12 consecutive Fournier’s gangrene patients (11 men and 1 woman) and control group is consisted of patients with Periurethral abscess (n=2), Scrotal abscess (n=4) and Epididimorchitis (n=4). Fibrinogen, protein C, protein S,␣antithrombin III, lupus anticoagulant, cardiolipin IgG and IgM, prothrombin time-international normalized ratio, activated partial thromboplastin time, platelet count, proaccelerin, antihemophilic globulin (FVIII), albumin, and calcium were evaluated in all subjects. Tissue specimens were taken from Fournier’s gangrene patients. These specimens were tested for arterial and venous thrombosis using light microscopy. Results: All of the patients with Fournier’s gangrene had both arterial and venous thrombosis in tissue specimens. The levels of fibrinogen and FVIII were high, the level of protein C was low in 12 patients. Lupus Anticoagulant was positive 11 of 12 patients. Conclusions: According to our findings, we think that some coagulation parameters (FVIII, Lupus anticoagulant, protein C, fibrinogen) may be diagnostic for Fournier’s gangrene.     

Plasma levels of plasminogen activator inhibitor type 1, factor VIII, prothrombin activation fragment 1+2, anticardiolipin, and antiprothrombin antibodies are risk factors for thrombosis in hemodialysis patients

Patients with end-stage renal disease are prone to hemorrhagic complications and simultaneously are at risk for a variety of thrombotic complications such as thrombosis of dialysis blood access, the subclavian vein, coronary arteries, cerebral vessel, and retinal veins, as well as priapism. The study was devised for the following purposes: (1) to identify the markers of thrombophilia in hemodialyzed patients, (2) to establish a role for antiphospholipid antibodies in thrombosis of the vascular access, (3) to characterize phospholipid antibodies in hemodialysis patients, and (4) to study the effects of dialysis on coagulation cascade. A group of 20 hemodialysis patients with no thrombotic complications (NTC) and 20 hemodialysis patients with thrombotic complications (TC) were studied along with 400 volunteer blood donors. Patients with systemic lupus erythematosus and those with nephrotic syndrome were excluded. All patients underwent a screening prothrombin time, activated partial thromboplastin time, fibrinogen (Fg), coagulation factors of the intrinsic and extrinsic pathways, antithrombin III (AT-III), protein C (PC), protein S (PS), resistance to activated protein C, prothrombin activation fragment 1+2 (F1+2), plasminogen, tissue type plasminogen activator (t-PA), plasminogen tissue activator inhibitor type-1 (PAI-1), anticardiolipin antibodies type M and G (ACA-IgM and ACA-IgG), lupus anticoagulant antibodies, and antiprothrombin antibodies type M and G (aPT-IgM and aPT-IgG). The study showed that PAI-1, F 1+2, factor VIII, ACA-IgM, and aPT-IgM levels were increased significantly over controls both in TC and NTC, however, they could distinguish patients with thrombotic complications from those without, being increased maximally in the former group. The novelty of the study is represented by the significant aPT increase that was observed in non-systemic lupus erythematosus hemodialysis patients, and particularly in those with thrombotic events. In addition, there was a reduction of factor XII during the treatment. It is possible to assume in the TC group and, to a lesser extent, also in the NTC group that endothelial cells liberate PAI-1 in the vascular lumen, which causes hypofibrinolysis. In addition, an excess of factor VIII is activated by endothelial dysfunction with subsequent activation of the coagulation cascade as shown by increased F1+2 and fibrinogen. ACA-IgM, in turn, is capable of interfering with the system of protein C, a potent anticoagulant factor that inactivates cofactors Va and VIIIa. They also induce the expression of procoagulant factors on the surface of the endothelial cells. In conclusion, the hypercoagulable state caused by alterations of coagulation and fibrinolytic factors is a cause of vascular access dysfunction and thrombosis of other vessels.     

Saphenous vein thrombophlebitis (SVT): A deceptively benign disease

Purpose: The association between deep vein thrombosis (DVT) and the hypercoagulable state is a well-established entity. However, the association between saphenous vein thrombophlebitis and coagulation abnormalities has not been investigated. Although thrombosis of varicose veins typically runs a benign course, phlebitis of the saphenous system may propagate to the deep system or saphenofemoral junction that requires more aggressive therapy. Given the potential similarity in clinical outcome between saphenous vein thrombophlebitis (SVT) and DVT, we have investigated the coagulation profile of patients presenting with isolated SVT. Methods: Seventeen consecutive patients who presented to our vascular laboratory with isolated SVT had a coagulation profile performed that included antithrombin III (AT III), protein C (PC), protein S (PS) antigen and activity levels, activated protein C (APC) resistance, factor V DNA mutation, and coagulation factors II and X. All patients had duplex scans performed on both the superficial and deep venous systems. Patients with SVT only were treated with nonsteroidal antiinflammatory drugs (NSAIDs) and warm soaks as outpatients, whereas those patients found to have DVT or a clot at the saphenofemoral junction were fully anticoagulated with heparin and coumadin therapy. All 17 patients had at least one repeat coagulation profile performed up to 5 months after their SVT occurrence to ensure that the results of hypercoagulability were not transient. Results: Ten (59%) of the 17 patients with SVT had abnormal coagulation profiles on initial presentation. All 10 patients who were hypercoagulable had repeat tests and 6 (35%) remained abnormal. Four patients who had abnormal results converted to normal values. Seven patients with normal coagulation profiles on initial presentation had repeat tests and all remained normal. Conclusion: The incidence of the hypercoagulable state in patients with SVT is high. Thirty-five percent of patients with isolated SVT had consistently abnormal coagulation profiles. Patients with SVT may be prone to the development of DVT or saphenofemoral junction thrombophlebitis and should be closely followed after the initial diagnosis of hypercoagulability. (J Vasc Surg 1998;27:677-80.)     

Coagulation in xenotransplantation

Following either discordant transplantation of porcine organs into primate recipients or after ex vivo perfusion of porcine organs with human blood, a profound activation of the primate/human blood coagulation can be observed. This activation may result in thrombotic microangiopathy and changes of coagulation resembling disseminated intravascular coagulation with subsequent death of the recipient animals. There are several factors contributing to this pathology including endothelial cell activation, activation of human blood cells, thrombocyte activation and incompatibilities of molecules regarding to control coagulation. Several potentially important molecular incompatibilities between the porcine and the primate coagulation system have been noted: The inability of porcine tissue factor pathway inhibitor (TFPI) to adequately neutralize human factor Xa (FXa), the aberrant activation of both human prothrombin and FX by porcine endothelial cells and the failure of the porcine natural anticoagulant thrombomodulin to activate the anti‐coagulant human protein C. Normal hemostasis is a complex balance between pro‐ and antithrombotic pathways. These pathways are balanced by inhibitory systems including the heparin‐antithrombin interaction, TFPI, the generation of activated protein C by a proper thrombomodulin/thrombin interaction and the fibrinolytic system. To achieve normal haemostasis after xenotransplantation it is important to overcome the known molecular incompatibilities (i.e. by transgenic organs) and to reliably prevent the derangement of coagulation.     

Resistance to activated protein C: A common inherited cause of venous thrombosis

Resistance to activated protein C (RAPC) is a newly recognized hypercoagulable state that was first described in 1993. It has become apparent that RAPC is even more common than deficiencies in protein C, protein S, or antithrombin III (AT-III) and affects an estimated 5% of the general population. The majority of patients with RAPC have an abnormality in factor V (Arg506Gln), which renders factor Va resistant to degradation by activated protein C. Studies in 75 patients referred to the Hematology Laboratory at Walter Reed Army Institute of Research (WRAIR) over a 14-month period for evaluation of venous thromboembolism were reviewed to determine the percentage of those with RAPC. Of the 75 patients in the study, one was deficient in protein S, one was deficient in protein C, and none was deficient in AT-III. In contrast, 27 (36%) patients tested positive for RAPC. Blood was available for DNA analysis in 15 patients with RAPC. Of these 15 patients, nine (60%) tested positive for the Arg506Gln mutation in factor V. Six other patients with RAPC did not have the factor V mutation. Additional risk factors for thrombosis were immobility, obesity, use of oral contraceptives, and pregnancy. The majority of patients had deep venous thrombosis of the lower extremities; 71% had a recurrence if not placed on chronic anticoagulation therapy. Thus RAPC is a significant risk factor for venous thrombosis. Evaluation for inherited hypercoagulable states should include testing for this newly described condition.Supported in part by NIH grant R37-HL52246.Presented at the Twentieth Annual Meeting of the Peripheral Vascular Surgery Society, New Orleans, La., June 10, 1995.The opinions contained herein do not necessarily reflect the opinions of the U.S. Department of the Army or Department of Defense.     

Free protein S deficiency in a family with venous thrombosis

Inherited deficiencies of protein S, an inhibitor of the coagulation system, are now recognized as occurring at least twice as frequently as antithrombin III deficiency in patients with venous thrombosis. Protein S is present in plasma in a complexed form, which is inactive, and in a free or functional form. Free protein S combines with activated protein C to inhibit factors V and VIII. This report describes the evaluation of a family with recurrent deep venous thrombosis and superficial thrombophlebitis. Levels of antithrombin III and protein C as well as plasminogen were normal. The levels of total protein S, which includes the value for the free and complexed forms of protein S, were also normal. However, the free protein S levels were greatly reduced in all symptomatic members who were studied. This report illustrates the importance of obtaining measurement of free protein S levels in patients who are suspected of having inherited venous thrombotic disorders.     

Microthrombosis in sepsis

Normal endothelial cells express several membrane components with anticoagulant properties, which include: 1) tissue factor pathway inhibitors (TFPI), i.e. surface molecules able to accelerate the action of antithrombin (AT) on coagulation proteases; 2) thrombomodulin (TM), a thrombin binding surface protein able to inhibit thrombin activity; the complex TM-thrombin, also, activates protein C (PC); 3) endothelium derived factors such as nitric oxide and prostacyclin, which have antiadhesive properties and activate plasminogen. Exposure to inflammatory and/or septic stimuli can rapidly lead to a procoagulant response, activated by bacterial endotoxins, and to a decrease of endothelial anticoagulant membrane components. Activation of coagulation concomitant to impaired fibrinolysis is associated with fibrin deposition, tissue ischemia and necrosis. This review presents the results of different strategies aimed at reducing organ dysfunction and mortality in septic shock by modulating coagulation activity. In various animal models and in phase II clinical studies, the treatment with TFPI, AT and activated PC reduced organ dysfunction and mortality. Two phase III trials showed no efficacy of AT and a reduction of the relative risk of death with activated PC. In animal studies, supplementation with l-arginine and administration of perindopril were able to prevent septic shock-associated endothelial injury. A marked reduction of endothelial injury and improved survival of treated animals were also seen with antiglycoprotein IIb/IIIa which attenuated the role of monocytes in the disseminated intravascular coagulation process.     

Early coagulopathy in trauma patients: an on-scene and hospital admission study

PurposeAmongst trauma patients, early coagulopathy is common on hospital admission. No studies have evaluated the initial coagulation status in the pre-hospital setting. We hypothesise that the coagulopathic process begins at the time of trauma. We studied the on-scene and on hospital arrival coagulation profile of trauma patients.MethodsProspective, observational study investigating the on-scene coagulation profile and its time course. We studied 45 patients at the scene of the accident, before fluid administration, and on hospital admission and classified their coagulopathy using the International Society on Thrombosis and Haemostasis score during a 2-month period. Prothrombin time, activated partial thromboplastin time, fibrinogen concentration, factors II, V and VII activity, fibrin degradation products, antithrombin and protein C activities, platelet counts and base deficit were measured.ResultsThe median injury severity score was 25 (13–35). On-scene, coagulation status was abnormal in 56% of patients. Protein C activities were decreased in the trauma-associated coagulopathy group (p = .02). Drops in protein C activities were associated with changes in activated partial thromboplastin time, prothrombin time, fibrinogen concentration, factor V and antithrombin activities. Only factor V levels decreased significantly with the severity of the trauma. On hospital admission, coagulation status was abnormal in 60% of patients. The on-scene coagulopathy was spontaneously normalised only in 2 patients whereas others had the same or a poorer coagulopathy status. All parameters of coagulation were significantly abnormal comparing to the on-scene phase. Decreases in protein C activities were related to the coagulation status (p < .0001) and changes in other coagulation parameters. Patients with base deficit ≤?6 mmol/L had changes in antithrombin, factor V and protein C activities but no significant coagulopathy.ConclusionCoagulopathy occurs very early after injury, before fluid administration, at the site of accident. Coagulation and fibrinolytic systems are activated early. The incidence of coagulopathy is high and its severity is related to the injury and not to hypoperfusion.     

Thrombophilia, autoimmunity, and perioperative thromboprophylaxis

Thrombosis is observed in several areas of medicine. Equilibrium between pro- and anticoagulant factors is required for maintaining blood flow. Tissue injury from multiple causes may induce coagulum formation mediated by coagulation pathway activation. Tissue factor (F III) + F VIIa interacts with both platelet and endothelial cell receptors. This coagulation model displays four stages: a) initiation, b) amplification, c) propagation and d) stabilization. Development of thrombosis is associated with either primary or hereditary and acquired factors. Primary thrombophilia is determined genetically by a hypercoagulative state shown by loss of natural anticoagulant activity, such as antithrombin III, C, S protein or procoagulant activity gaining resistance to activated C protein: factor V (Leiden), prothrombin and methylenetetrahydrofolate reductase mutations. Acquired thrombophilia mainly relates to an autoimmune condition such as the presence of anticardiolipin antibodies or lupus anticoagulant. Surgical procedures enhance mechanisms that predispose to thrombosis, e.g., acidosis, hypothermia, plasma expanders, extracorporeal circulation, duration of surgical procedure, and tissue manipulation. Adequate classification of the patient's thrombosis risk and adequate use of primary and secondary prophylactic recommendations in these groups of patients is necessary.     

Protein C deficiency. A cause of unusual or unexplained thrombosis

Familial hypercoagulable states are a collection of syndromes characterized by an inherited deficiency of various proteins involved in the control of coagulation and include antithrombin III, plasminogen, protein C, and protein S. Affected patients usually develop venous thrombosis as adults. During a 15-month interval, we identified five patients with venous thrombosis accompanied by protein C deficiency. Four patients presented with deep venous thrombosis, which was recurrent in two, and one patient developed mesenteric venous thrombosis. The kindred of this last patient suggested an autosomal dominant genetic transmission of protein C deficiency. Patients' ages at the time of diagnosis of disease ranged from 28 to 41 years. All patients had low levels of protein C (range, 34 to 67 U/dL; normal, 70 to 130 U/dL). All patients were treated with heparin sodium immediately and then given long-term oral anticoagulation therapy with warfarin sodium. Protein C deficiency is a predisposing factor to the development of venous thrombosis that has only recently been recognized. Treatment of symptomatic protein C deficiency requires short-term heparin therapy followed by long-term oral anticoagulation therapy with warfarin. Oral anticoagulation treatment must be initiated slowly with no loading dose to avoid warfarin-associated skin necrosis. Patients with unexplained or unusual thrombosis, especially if it occurs at an early age, and patients with recurrent episodes of lower limb venous thrombosis should have their protein C levels measured. If a deficiency is documented, long-term warfarin anticoagulation therapy is recommended.     

Activation of plasma coagulation by retransfusion of unwashed drainage blood after hip joint arthroplasty: a prospective study

Twelve patients undergoing cementless hip joint arthroplasty were retransfused with unwashed drainage blood collected postoperatively. Global coagulation parameters, coagulation factors (factor V:C, factor VIII:C, activated factor XII, and factor XIII) and markers of thrombin generation (F1+2 Fibrin split products, thrombin-antithrombin complexes), fibrin generation (fibrinogen and fibrin degradation products), and fibrinolysis (D-dimers, thrombin degradation products, plasminogen) were determined. High levels of factor XIIa, thrombin and fibrin generation markers, and markers of fibrinolysis were present in the shed blood. After retransfusion (mean, 433 mL), increased levels of these markers together with decreased values for factor XIII and plasminogen were indicative of renewed clot formation and fibrinolysis in the circulation. These changes were highly significant compared with preretransfusion values. The unwashed drainage blood contained high levels of procoagulation material and induced an activation of the plasma coagulation pathway with renewed clot formation and fibrinolysis in the patients.     

Static and dynamic assessment of biomarkers in surgical patients with severe sepsis

BACKGROUND: Severe sepsis, defined as a systemic inflammatory response to infection associated with acute organ dysfunction, is common among surgical patients and is a major cause of morbidity and mortality. Severe sepsis has been associated with changes in inflammatory and hemostatic biomarkers. In patients undergoing surgical procedures there may be additional stimulation of cytokine release and activation of the coagulation system. The purpose of this study was to characterize the baseline differences in biomarkers between surgical and non-surgical patients. In addition, we assessed the dynamic changes in biomarkers and coagulation parameters in surgical patients with severe sepsis enrolled in PROWESS and treated with placebo or drotrecogin alfa (activated). METHODS: A blinded PROWESS surgical evaluation committee (SEC) verified patients as having undergone a relevant operative procedure within 30 days of enrollment for inclusion in the surgical cohort of PROWESS. At baseline and on study days 1-7, biomarkers and coagulation parameters available for analysis were D-dimer, interleukin-6 (IL-6), protein C activity, protein S activity, anti-thrombin III (ATIII), activated partial thromboplastin time (aPTT), and prothrombin time (PT). Platelet count was determined at baseline only. Baseline values were compared between SEC-defined surgical and all other non-surgical patients, and between pre- and post-operative surgical patients from the PROWESS trial. Changes from baseline were compared between drotrecogin alfa (activated)-treated and placebo-treated surgical patients. Statistical analyses were performed using ANOVA on the ranked values. RESULTS: The SEC verified 474 (28%) of the 1,690 PROWESS patients as surgical. Median D-dimer, IL-6, aPTT and PT values were significantly higher at baseline for surgical patients than non-surgical patients (p < 0.001). Surgical patients had significantly lower median protein C, protein S, and ATIII activity at baseline than non-surgical patients (p < 0.001). Surgical patients treated with drotrecogin alfa (activated) showed a significant decrease in D-dimer levels on study days 1-5 (p < 0.05), and a more rapid increase in Protein C levels on study days 1-4 (p < 0.05) compared to placebo. CONCLUSIONS: Surgical patients with severe sepsis appear to have a higher severity of illness at baseline as demonstrated by derangements in biomarkers and coagulation markers compared to non-surgical patients. Surgical patients treated with drotrecogin alfa (activated)showed reduced D-dimer concentrations and a more rapid increase in protein C concentrations during the infusion period.     

Alterations in coagulation following major liver resection

The international normalised ratio is frequently raised in patients who have undergone major liver resection, and is assumed to represent a potential bleeding risk. However, these patients have an increased risk of venous thromboembolic events, despite conventional coagulation tests indicating hypocoagulability. This prospective, observational study of patients undergoing major hepatic resection analysed the serial changes in coagulation in the early postoperative period. Thrombin generation parameters and viscoelastic tests of coagulation (thromboelastometry) remained within normal ranges throughout the study period. Levels of the procoagulant factors II, V, VII and X initially fell, but V and X returned to or exceeded normal range by postoperative day five. Levels of factor VIII and Von Willebrand factor were significantly elevated from postoperative day one (p < 0.01). Levels of the anticoagulants, protein C and antithrombin remained significantly depressed on postoperative day five (p = 0.01). Overall, the imbalance between pro‐ and anticoagulant factors suggested a prothrombotic environment in the early postoperative period.     

Syndrome des antiphospholipides et mutation Leiden du facteur V. Trois cas de thrombophlébites récidivantes

Recurrent thrombosis is a common complication of various rheumatic disorders and is part of the definition of antiphospholipid syndrome. We report three cases of recurrent venous thrombosis due not only to antiphospholipid syndrome with a normal activated partial thromboplastin time but also to resistance to activated protein C caused by the factor V Leiden mutation. These three cases confirm that thrombotic disease is frequently multifactorial and suggest that resistance to activated protein C should be looked for routinely in patients with suggestive clinical manifestations, particularly when standard clotting tests are normal.