Coexistence of factor V Leiden and primary antiphospholipid syndrome: a patient with recurrent myocardial infarctions and thrombocytopenia

Increased thrombin generation associated with resistance to activated protein C makes the latter a likely candidate for an increased risk of acute coronary events. Activated protein C resistance (factorV Leiden) on its own, however, appears to have no significant effect in this regard. We describe a case of recurrent myocardial infarction caused by coronary thrombosis in a patient with persistent thrombocytopenia who was found to have a coexistence of heterozygous factor V Leiden and primary antiphospholipid syndrome. Since both thrombophilic disorders interfere with the protein C anticoagulant system, the simultaneous existence of inherited and acquired resistance against activated protein C could account for an increased thrombophilia with manifestation in the coronary arteries. This case suggests that evaluation of patients who present with recurrent acute coronary events should also consider these coagulation defects.     

Coexistence of factor V Leiden and primary antiphospholipid syndrome: a patient with recurrent myocardial infarctions and thrombocytopenia

Increased thrombin generation associated with resistance to activated protein C makes the latter a likely candidate for an increased risk of acute coronary events. Activated protein C resistance (factor V Leiden) on its own, however, appears to have no significant effect in this regard. We describe a case of recurrent myocardial infarction caused by coronary thrombosis in a patient with persistent thrombocytopenia who was found to have a coexistence of heterozygous factor V Leiden and primary antiphospholipid syndrome. Since both thrombophilic disorders interfere with the protein C anticoagulant system, the simultaneous existence of inherited and acquired resistance against activated protein C could account for an increased thrombophilia with manifestation in the coronary arteries. This case suggests that evaluation of patients who present with recurrent acute coronary events should also consider these coagulation defects.     

Antiphospholipid antibodies in children

Lupus anticoagulant (LA) is made up of heterogeneous IgG and IgM antibodies that prolong clotting times in vitro and is associated with an increased rate of both thrombosis and hemorrhage in vivo, although thrombosis is far more common. Many mechanisms of action have been explored, but none explains the coagulation abnormality of every sample tested. Binding of these antibodies to protein phospholipid complexes provides a unifying model. Antiphospholipid antibodies (APAs) are found in adult patients with a variety of disorders or as an isolated finding. The association of LA and anticardiolipin antibodies (ACAs) with thrombosis in adults has been established, although there is no test as yet to predict thrombotic risk for an asymptomatic affected individual. The presentation of thrombosis with postinfectious APA is uncommon in adults. Children who present with thrombosis and LA are found to have underlying disorders similar to those of adults. Although the presentation of thrombosis in children with postinfectious LA is rare, the association is established. LA-positive children with thrombosis have manifested a severe acquired deficiency of protein S; LA-positive children with hemorrhage have manifested an acquired deficiency of prothrombin. The association of thrombosis with ACA-positive children has been reported. Further work to determine the epidemiology, mechanism of action, and thrombotic potential of APA in children is warranted to better understand, prevent, and treat thrombotic and hemorrhagic complications.     

Anti-prothrombin IgG from patients with anti-phospholipid antibodies inhibits the inactivation of factor Va by activated protein C

Interference of anti-phospholipid antibodies with the protein C pathway has been suggested to play a role in the development of thrombosis in the anti-phospholipid syndrome. We studied the effect of IgG preparations containing anti-prothrombin antibodies of 17 lupus anticoagulant-positive patients and 12 controls on the inactivation of factor Va (FVa) by activated protein C (APC) in a system with purified coagulation factors. Test IgG was incubated with human prothrombin, phospholipid vesicles and CaCl(2). Protein S, FVa and APC were added and the APC-dependent loss of FVa activity was monitored over time. The residual amount of FVa remaining after 10 min was 14 +/- 4% (mean +/- SD) when 1.5 mg/ml normal IgG was present and ranged between 17% and 82% with 1.5 mg/ml patient IgG. Twelve patients IgG gave values of residual FVa >22% (i.e. 2 SD above the mean of controls), indicating that APC-mediated inactivation of FVa was significantly inhibited. The inhibition was strictly dependent on the presence of prothrombin, proportional to the concentration of IgG and strongly diminished at a 20-fold higher phospholipid concentration. Most, although not all, IgG containing anti-prothrombin antibodies inhibit the APC-catalysed FVa inactivation, which may contribute to the increased risk of thrombosis in patients with the anti-phospholipid syndrome.     

Thrombosis risk in systemic lupus erythematosus: the role of thrombophilic risk factors

OBJECTIVES: Thromboembolic episodes are frequent manifestations of systemic lupus erythematosus (SLE). Although the presence of anti-phospholipid antibodies (aPL) is known to contribute to thromboembolism (TE), the relative contribution of other TE risk factors is unknown. The aim of this study was to determine the prevalence of TE in a Caucasian SLE population, to identify the risk factors of highest importance, and to assess the clinical value of thrombophilia screening among SLE patients. METHODS: Samples from 105 patients were analysed with a screen including aPL, activated protein C resistance, factor V Leiden (FVL) and prothrombin G20210A mutations; protein C, protein S and antithrombin activity; factor VIII (FVIII) and von Willebrand factor (vWF), and homocysteine (Hcy) levels. RESULTS: The annual incidence of arterial and venous TE events in our SLE population was 5.4 and 12.4 per 1000, respectively. The highest risk of thrombosis was carried by the simultaneous presence of lupus anticoagulant (LA) and anti-cardiolipin (aCL) [relative risk (RR) = 4.03, 95% confidence interval (CI) 2.06-7.86] or anti-beta2-glycoprotein I antibodies (abeta2-GPI) (RR = 5.10, 95% CI 2.58-10.1). Positivity for the individual aPL tests all carried an elevated TE risk. The presence of other risk factors seemed to be of less importance. CONCLUSIONS: In SLE patients, the presence of aPL is a more significant risk factor for the development of thrombosis than the known inherited deficiencies. Based on these data, routine screening for additional hereditary risk factors seems to be unwarranted.     

Diagnostic issues in thrombophilia: a laboratory scientist's view

Thrombophilia can be defined as an increased tendency to thrombosis. There are several defined risk factors for thrombosis, and these are generally separated into acquired and congenital factors. Congenital risk factors include deficiencies or defects in natural anticoagulants, such as antithrombin, protein C and protein S, and genetic polymorphisms such as prothrombin G20210A and the cleavage-resistant factor mutation, factor V Leiden, which leads to a condition known as activated protein C resistance. Acquired risk factors include antiphospholipid antibodies, detected as lupus anticoagulants, and/or anticardiolipin or anti-beta2-glycoprotein I antibodies. Elevated homocysteine, immobility, increasing age, surgery, cancer, poor nutrition, pregnancy, high levels of clotting factors, and use of oral contraceptives and hormone replacement therapy comprise other risk factors. Each of these constitutes an element of increased risk, which is compounded when concomitant. There is ongoing debate regarding relative and compound risks, the value of laboratory screening, whom to screen for with these markers, and the form and duration of clinical management. This report briefly explores, from a scientist's perspective, some important issues that are sometimes overlooked.     

Detection of endothelial cell-reactive immunoglobulin in patients with anti-phospholipid antibodies

Individuals with anti-phospholipid antibodies are at increased risk for the development of thrombosis and fetal loss. The pathogenesis of these syndromes is unknown, but may involve antibody-mediated alterations in endothelial cell coagulant activity. To address this possibility, we determined the incidence of endothelial cell-reactive antibodies in 76 patients whose plasma contained anti-phospholipid antibodies, but who had no clinically-evident immune disorder. Plasma from 47 patients deposited significantly more immunoglobulin on cultured endothelial cells than control plasma. Positive tests were more frequent in patients with a history of thrombosis than in those without (17/19 v 23/48; P = 0.004). However, we observed no correlation between immunoglobulin deposition on cardiolipin and endothelial cells by individual plasmas. Furthermore, endothelial cell reactivity was not diminished by adsorption of anti-cardiolipin antibodies from patient sera using liposomes. Immunoglobulin fractions prepared from 5/6 patient sera immunoprecipitated a approximately 70 kDa endothelial cell surface protein; 4/5 of these fractions also induced the release of von Willebrand factor from endothelial cells. These results demonstrate that plasma from many patients with anti-phospholipid antibodies, but no clinically-evident autoimmune disease, also contains endothelial cell-reactive antibodies. Detection of such antibodies might help identify individuals in this patient population at greatest risk for thrombosis.     

Impact of hypertension and hyperhomocysteinemia on arterial thrombosis in primary antiphospholipid syndrome

The aim of this study was to evaluate traditional risk factors for coronary artery disease (CAD), homocysteine, anti-oxidized low-density lipoprotein (anti-oxLDL), anti-lipoprotein lipase (anti-LPL) and endothelin-1 (ET-1) in patients with primary anti-phospholipid syndrome (APS), furthermore verify possible association among these variables and arterial thrombosis. Thirty-eight women with primary APS and 30 age-and-sex-matched controls were evaluated. Patients presented higher-LDL and triglycerides levels and lower-HDL levels than controls. Anti-LPL antibodies were not detected in both groups. The mean number of risk factors was higher in patients than in controls (P = 0.030). Anti-oxLDL antibodies, homocysteine and ET-1 mean levels were similar between groups, but abnormal homocysteine levels were found only among primary APS patients (P = 0.031). Hypertension and the presence of at least one risk factor for CAD were more prevalent in patients with arterial involvement than those without. Homocysteine levels and mean number of risk factors for CAD were significantly higher in patients with arterial thrombosis than controls. In a multivariate analysis hypertension was the only independently associated with arterial thrombosis (OR 14.8, 95% CI = 2.1-100.0, P = 0.006). This study showed that in primary APS patients other risk factors besides anti-phospholipid antibodies contribute for the occurrence of arterial events and the most important factor was hypertension.     

Thrombotic stroke associated with the use of porcine factor VIII in a patient with acquired haemophilia

Porcine factor VIII (pFVIII), which is used to control bleeding in patients with congenital or acquired haemophilia who have high-titre neutralizing antibodies to human FVIII, is not known to increase the risk of arterial or venous thrombosis. We have recently encountered a patient with acquired haemophilia who developed a thrombotic left middle cerebral artery distribution stroke while being treated with pFVIII. To our knowledge, this is the first such reported thrombotic event. We speculate that platelet activation induced by pFVIII may have contributed to thrombosis and suggest that pFVIII be used with caution in elderly patients with pre-existing cardiovascular risk factors.     

Venous thromboembolic disease: risk factors and laboratory investigation

The etiology of venous thromboembolic disease has been the subject of several recent discoveries, particularly on genetic predisposing factors. The laboratory investigation that may help to evaluate the risk for individual patients includes the measurements of coagulation inhibitors (antithrombin, protein C, and protein S) in plasma assays, the search for the factor V Leiden mutation by the plasma activated protein C resistance test (always to be confirmed by DNA analysis when abnormal), and the search for the prothrombin gene mutation by DNA analysis. Among acquired abnormalities, the most frequently involved are phospholipid-dependent autoantibodies associated or not with a subset of antibodies having an anticoagulant effect in vitro (lupus anticoagulant). Other coagulation abnormalities such as increased FVIII, FIX, or FXI levels or hyperhomocysteinemia have been suggested to be risk factors for thrombosis, although additional studies are required to definitively assess their role.     

Evaluation of thrombotic children with malignancy

The purpose of this study was to evaluate inherited and acquired prothrombotic risk factors among children with malignancies who have thrombosis and emphasize the importance of inherited prothrombotic risk factors. Thirty-seven consecutive children with thrombosis and malignancy were included in this study. The patients were evaluated separately for time of development of thrombosis, insertion of a central venous line (CVL), history of l-asparaginase usage, and recent infections. Prothrombotic risk factors such as factor V G1691A and prothrombin G20210A mutation, protein C, protein S, antithrombin III deficiencies, factor VIII and lipoprotein(a) elevation, and antiphospholipid antibodies were analyzed for all patients. Of 387 children with thrombosis, 37 (9.5%) had a malignancy. Thrombosis was detected in 9 patients at the time of diagnosis, during maintenance therapy in 25 patients, and after the discontinuation of treatment in 3 patients. One or two additional prothrombotic risk factors other than l-asparaginase therapy and insertion of central venous lines were present in 20 of these patients (54%). It was found that eight patients had the factor V G1691A mutation in the heterozygote state. One of them had the factor V G1691A mutation associated with a history of infection and one patient had the factor V G1691A mutation associated with factor VIII elevation. One had the the prothrombin G20210A mutation in the heterozygote state, four had lipoprotein(a) elevation, two had factor VIII elevation, one had a decreased protein S level, one had a decreased protein C level, one had antiphospholipid positivity, and two had histories of infection. Malignancy is an important risk factor for the development of childhood thrombosis. However, the risk of thrombosis increases when accompanied by additional prothrombotic risk factors. For this reason, especially children with malignancy and at high risk for the development of thrombosis, such as those who have received l-asparaginase or a replaced CVL during their therapy, might be screened for additional prothrombotic risk factors and appropriate measures might be taken to prevent the development of thrombosis.     

The anti-phospholipid antibody syndrome (Hughes syndrome): therapeutic aspects.

Despite the enormous amount of work focused on the pathogenesis and clinical manifestations of the Hughes or anti-phospholipid syndrome (APS), there is little published on management. Usually, the diagnosis of APS is made after the first thrombotic event, when a thrombophilia screen is performed. These patients have a high risk of recurrent thromboses and current therapy centres on the use of thromboprophylaxis with warfarin. However, a number of clinical questions keep recurring: do arterial and venous thrombosis require the same intensity of anti-coagulation? When should warfarin be stopped? Should patients who develop thrombosis when other risk factors (oral contraceptive pill, prolonged resting etc.) are present be treated like those without any risk factors but the presence of anti-phospholipid antibodies (aPL)? How to manage a patient with recurrent thrombosis despite a high intensity anti-coagulation (International normalized ratio (INR) between 3.0-4.0)? Since many of the patients with aPL are fertile women, a substantial group of patients are diagnosed after recurrent pregnancy loss. Low-dose aspirin for those patients without previous thrombosis and aspirin plus heparin for patients with a history of thrombotic events are the current therapeutic options. However, some questions remain unanswered: does the addition of heparin to low-dose aspirin in women with first trimester recurrent miscarriage but without previous thrombosis improve foetal outcome over and above aspirin alone? Which is the best therapeutic regime during pregnancy for patients with aPL-associated stroke? When should high-dose intravenous gammaglobulin be considered? Finally, very little is known about the risk of thrombosis in individuals positive for aPL but still free of thrombosis. Should these individuals receive any treatment? If so, which one? In this review we attempt to address some of these questions taking into account available data from retrospective and prospective studies and our own clinical experience.     

Causes of venous thrombosis in fifty Chinese patients

In a whole year from July 1997 to June 1998, a total of 50 patients with sonogram-proved venous thrombosis who called on our hematology clinic consecutively entered into the study. Their mean age was 59.1 +/- 17.5 years, range 18-83 years, and 29 were male. A series of examinations were performed in order to find out the cause of venous thrombosis. These examinations included antithrombin, protein C, protein S, plasminogen, heparin cofactor II, activated protein C ratio, factor V Leiden mutation, fibrinogen, factors VIII and XII, euglobulin lysis time, 677 C-->T mutation of methylenetetrahydrofolate reductase (MTHFR), prothrombin 20210 (PT 20210) A allele mutation, lupus anticoagulant, anticardiolipin antibody, and complete blood count. Five patients (10%) were found to have malignancy; an inferior vena cava thrombosis in one patient was due to venous compression by hydronephrosis; two patients had lupus anticoagulant; two had varicose veins of legs; two had protein C deficiency; four had protein S deficiency; two had plasminogen deficiency; two had antithrombin deficiency. No activated protein C resistance, elevated factor VIII level, factor V Leiden, PT 20210 A allele or heparin cofactor II deficiency was found in the present study. Homozygous MTHFR 677 C-->T gene mutation was found in 7 patients (14%); one of them also had a plasminogen deficiency. No possible risk factor of venous thrombosis could be found in 24 patients (48%). In conclusion, malignancy and protein S deficiency were the most frequent acquired and congenital causes of venous thrombosis in the Chinese, respectively.     

Antibodies to platelets in patients with anti-phospholipid antibodies

Binding of anti-phospholipid antibodies to circulating platelets and its consequences on platelet activation and aggregation was investigated in 11 patients with anti-phospholipid antibodies. Seven patients had mild thrombocytopenia. Nine healthy donors served as controls. Binding to platelets was investigated by performing enzyme-linked immunosorbent assays (ELISAs) with phospholipids as antigen on platelet eluates. Platelet activation was measured by flow cytofluorometry using monoclonal antibodies to an activation-specific lysosomal membrane protein. Findings in ELISA were compared with results of a conventional immunofluorescence method to detect platelet autoantibodies. In seven patients antibodies to negatively charged phospholipids were present in platelet eluates. In all thrombocytopenic patients and controls the platelets were not activated and aggregation was not impaired. There was a positive concordance of 50% between the results of immunofluorescence and ELISA. No apparent relation was found between the results of ELISA or immunofluorescence and platelet counts. It is concluded that anti-phospholipid antibodies can bind to circulating platelets. This binding is not associated with measurable aggregation abnormalities nor with platelet activation characterized by exposure of lysosomal membrane proteins. More studies are necessary to determine the exact role of anti-phospholipid antibodies in the pathogenesis of thrombocytopenia and thrombosis.     

Importance of lipoprotein metabolism parameters in the clinical and angiographic severity of coronary artery disease.

Coronary artery disease that is clinically and angiographically significant is associated to important biochemical parameters with direct interference in lipoprotein and apoprotein metabolism. The purpose of our study was to evaluate the importance of several lipoprotein metabolic parameters in the clinical and angiographic severity of chronic coronary artery disease. In a population with the diagnosis of ischemic coronary artery disease, we assessed the degree of angiographic (single- versus multivessel disease) and clinical (C.C.S. I-IV classification) severities. In each patient, we determined the value of total cholesterol, triglycerides, HDL and LDL cholesterol, HDL 2 and 3, apoprotein AI and B, lipoprotein (a), anti-phospholipid antibodies and C reactive protein. Our results showed that some parameters were significant in the comparison between a normal group and the global coronary artery disease population, such as the value of total cholesterol, HDL cholesterol, HDL 2, apoprotein AI and B lipoprotein (a) and anti-phospholipid antibodies. In the distinction of coronary artery disease subgroups, in relation to C.C.S. < or = 2 and > or = 3 classes, some factors could be discriminated, such as HDL cholesterol, HDL 2, total cholesterol/HDL, lipoprotein (a), anti-phospholipid antibodies and C reactive protein. In the distinction between classes C.C.S. < or = 2 and AMI, the levels of triglycerides, HDL cholesterol, HDL 2, total cholesterol/HDL, lipoprotein (a) and anti-phospholipid antibodies were significant. In the division between single vessel versus multivessel coronary artery disease we found significant values of HDL cholesterol, HDL 2, total cholesterol/HDL, apoprotein AI, lipoprotein (a), anti-phospholipid antibodies and C reactive protein. In conclusion, our present study endorses the clinical role of lipids and plasma lipoproteins in the determination of several cardiovascular risk factors, but introduction of new parameters such as lipoprotein (a) and the anti-phospholipid antibodies can be very useful for a better and global understanding of the pathophysiological processes and distinction of higher risk subgroups for extension and degree of severity of ischemic coronary artery disease.     

The investigation and management of inherited thrombophilia

Inherited thrombophilia can be defined as a genetically determined tendency to venous thromboembolism. Genetic risk factors for venous thrombosis include antithrombin deficiency, protein C deficiency, protein S deficiency, activated protein C resistance due to the factor V gene Leiden mutation, inherited hyperhomocysteinaemia, elevated factor VIII levels and the prothrombin gene G20210 A variant. A genetic risk factor is now identifiable in up to 50% of unselected patients with venous thrombosis. Individuals with inherited thrombophilia may develop venous thrombosis at a young age, or they may present with thrombosis at an unusual site or in the apparent absence of any precipitating event. A family history of thrombosis is suggestive of inherited thrombophilia. Laboratory investigations for inherited thrombophilia should include testing for activated protein C resistance and the factor V gene Leiden mutation, and screening for deficiencies of antithrombin, protein C or protein S. Screening for the prothrombin gene G20210 A variant, and measurement of plasma factor VIII and homocysteine levels should be considered in individual cases. In recent years the multifactorial nature of thrombophilia, both circumstantially and on a genetic level, has become increasingly apparent. Individuals with more than one inherited thrombophilia risk factor are particularly prone to thrombosis and their identification is a priority.     

Severe arterial thrombophilia associated with a homozygous MTHFR gene mutation (A1298C) in a young man with Klinefelter syndrome.

Klinefelter syndrome (KS) is the most common sex chromosome disorder in men. It may be associated with an increased risk for venous thrombosis and thromboembolism, which is partially explained by hypofibrinolysis due to androgen deficiency. Additional genetic or acquired thrombophilic states have been shown in KS patients complicated with venous thrombosis as isolated case reports. Arterial thrombotic events had not been previously reported in KS. In this study, a young man with KS who developed acute arterial thrombosis during testosterone replacement therapy is presented. He was homozygous for the A1298C mutation of the methylenetetrahydrofolate reductase (MTHFR) gene.     

Myocardial infarction in a 35-year-old man with homocysteinemia, high plasminogen activator inhibitor activity, and resistance to activated protein C

Our specific aim was to examine the interface between risk factors for atherosclerosis, thrombosis, and hypofibrinolysis in a previously healthy 35-year-old male who had sustained a recent myocardial infarction. By angiography, the right, left main, and left anterior descending coronary arteries were smooth-walled, widely patent, and free of significant obstruction; the circumflex exhibited total, probably thrombotic occlusion of the distal large second marginal branch. The patient was found to have prothrombotic high homocysteine (46.4 μmol/L), prothrombotic resistance to activated protein C (ratio, 1.47), and hypofibrinolytic high plasminogen activator inhibitor (PAI-Fx) activity (54 U/mL). He was homozygous for the 677C → T; A → V mutation in the methylenetetrahydrofolate reductase (MTHFR) gene causing homocysteinemia, heterozygous for the mutant factor V Leiden gene causing resistance to activated protein C, and heterozygous for the 4G/5G polymorphism in the PAI-1 promoter gene causing high PAI-Fx. Other major risk factors for coronary artery disease included previously undiagnosed adult-onset diabetes, high triglycerides (291 mg/dL), and low high-density lipoprotein (HDL) cholesterol (26 mg/dL). The patient's prothrombotic status (homocysteinemia and resistance to activated protein C) and hypofibrinolysis (high PAI-Fx) apparently facilitated occlusive coronary artery thrombus formation and retention. Prothrombotic factors and hypofibrinolysis appear to play important pathogenetic roles in premature myocardial infarction. In patients with severe premature coronary artery disease, we suggest that interactions between prothrombotic factors, hypofibrinolysis, and hyperlipidemia-atherosclerosis be regularly evaluated, since such interactions may have ramifications for the outcome of short-and long-term secondary prevention. Moreover, in patients with heritable prothrombotic factors or hypofibrinolysis, it should be important to optimize lipid and lipoprotein cholesterol levels with the goal of stabilizing coronary plaques to reduce the likelihood of plaque rupture and thrombosis.     

Long-term treatment for venous thromboembolism

Anticoagulation is the corner stone of therapy for venous thromboembolism. The optimal duration of this therapy depends on the balance between the risk of recurrent thrombosis if anticoagulants are stopped, and the risk of bleeding if patients remain on treatment. The risk of recurrence is low if thrombosis was precipitated by a major reversible risk factor such as surgery. Patients with idiopathic thrombosis (no apparent risk factor) and those with persistent risk factors (eg, cancer), have a high risk of recurrence. Some hereditary (eg, protein C, protein S or antithrombin deficiency; homozygous factor V Leiden) and acquired (eg, antiphospholipid antibodies) thrombophilic states are also risk factors for recurrence. Three months of anticoagulation is recommended when the risk of recurrence is low, whereas the duration of therapy should be extended to 6 months or longer when this risk is high, depending on the balance between the risk of recurrence and the risk of bleeding in each individual patient. Heparin preparations, at doses intermediate to those used for the acute treatment of venous thromboembolism and for primary prophylaxis, are an alternative to oral anticoagulants during the maintenance phase of treatment.     

Acquired activated protein C resistance is common in cancer patients and is associated with venous thromboembolism

PURPOSE: Cancer patients have an increased risk for venous thromboembolism. Because activated protein C resistance is a common risk factor for venous thromboembolism, we prospectively evaluated the activated protein C sensitivity ratio and factor V Leiden mutation in cancer patients with and without venous thromboembolism. SUBJECTS AND METHODS: We studied 55 consecutive cancer patients with deep vein thrombosis, 58 cancer patients with no history of venous thromboembolism, 54 patients with venous thromboembolism without malignancy, and 56 healthy controls. The presence of factor V Leiden mutation was determined by polymerase chain reaction and allele specific restriction digestion. The activated protein C sensitivity ratio was expressed as the ratio of activated partial thromboplastin times measured in the presence and absence of activated protein C; a ratio <2.0 in patients who did not have factor V Leiden was considered to indicate acquired activated protein C resistance. RESULTS: The prevalence of factor V Leiden mutation in cancer patients with thromboembolism (1 of 55, 2%) did not differ significantly from those in cancer patients without thromboembolism (4 of 58, 7%) or normal controls (2 of 56, 4%), but was significantly lower than that of patients with thromboembolism without cancer (18 of 54, 33%, P <0.001). The prevalence of acquired activated protein C resistance was significantly greater in cancer patients with thromboembolism (29 of 54, 54%, P = 0.001) compared with the other groups: 9 of 54 (17%) in cancer patients without thromboembolism, 7 of 36 (19%) in patients with thromboembolism without cancer, and none of the normal controls. CONCLUSION: Although factor V Leiden is not a major risk factor for thrombosis in cancer patients, acquired activated protein C resistance is common and may contribute to the thrombotic tendency in these patients.