Lateral Drainage of Superficial Sylvian Vein into Sphenoparietal Sinus: A Risk Factor for Postoperative Sylvian Vein Thrombosis after Dolenc Procedure

2012 ◽  
Vol 73 (S 02) ◽  
Author(s):  
K. Iseda ◽  
H. Gotoh ◽  
K. Takahashi ◽  
M. Nakajima
Keyword(s):  
Risk Factor ◽  
Vein Thrombosis ◽  
Lateral Drainage

Oral Contraceptives Are a Risk Factor for Cerebral Vein Thrombosis

1996 ◽  
Vol 76 (03) ◽  
pp. 477-478 ◽  
Author(s):  
I Martinelli ◽  
F R Rosendaal ◽  
J P Vandenbroucke ◽  
P M Mannucci
Keyword(s):  
Risk Factor ◽  
Oral Contraceptives ◽  
Cerebral Vein ◽  
Cerebral Vein Thrombosis ◽  
Vein Thrombosis

Protein S–K196E mutation as a genetic risk factor for deep vein thrombosis in Japanese patients

Blood ◽  
2006 ◽  
Vol 107 (4) ◽  
pp. 1737-1738 ◽  
Author(s):  
Rina Kimura ◽  
Shigenori Honda ◽  
Tomio Kawasaki ◽  
Hajime Tsuji ◽  
Seiji Madoiwa ◽  
...  
Keyword(s):  
Risk Factor ◽  
Deep Vein Thrombosis ◽  
Genetic Risk ◽  
Protein S ◽  
Japanese Patients ◽  
Genetic Risk Factor ◽  
Vein Thrombosis ◽  
Deep Vein

scholarly journals Upper Extremity Deep Vein Thrombosis in Acute Leukemia and Non-Hodgkin's Lymphoma: Analysis of the California Cancer Registry

Blood ◽  
2019 ◽  
Vol 134 (Supplement_1) ◽  
pp. 932-932
Author(s):  
Christina Poh ◽  
Ann M Brunson ◽  
Theresa H.M. Keegan ◽  
Ted Wun ◽  
Anjlee Mahajan
Keyword(s):  
Risk Factors ◽  
Risk Factor ◽  
Deep Vein Thrombosis ◽  
Major Bleeding ◽  
Cumulative Incidence ◽  
Steering Committee ◽  
Vein Thrombosis ◽  
California Cancer Registry ◽  
Increased Risk ◽  
Deep Vein

Background Venous thromboembolism (VTE) is a known complication in patients with acute myeloid leukemia (AML), acute lymphoid leukemia (ALL) and non-Hodgkin's lymphoma (NHL). However, the cumulative incidence, risk factors, rate of subsequent VTE and impact on mortality of upper extremity deep vein thrombosis (UE DVT) in these diseases is not well-described. Methods Using the California Cancer Registry, we identified patients with a first primary diagnosis of AML, ALL and NHL from 2005-2014 and linked these patients with the statewide hospitalization and emergency department databases to identify an incident UE DVT event using specific ICD-9-CM codes. Patients with VTE prior to or at the time of malignancy diagnosis or who were not treated with chemotherapy were excluded. We determined the cumulative incidence of first UE DVT, adjusted for the competing risk of death. We also examined the cumulative incidence of subsequent VTE (UE DVT, lower extremity deep vein thrombosis (LE DVT) and pulmonary embolism (PE)) and major bleeding after incident UE DVT. Using Cox proportional hazards regression models, stratified by tumor type and adjusted for other prognostic covariates including sex, race/ethnicity, age at diagnosis, neighborhood, sociodemographic status and central venous catheter (CVC) placement, we identified risk factors for development of incident UE DVT, the effect of incident UE DVT on PE and/or LE DVT development, and impact of incident UE DVT on cancer specific survival. The association of CVC placement with incident UE DVT was not assessed in acute leukemia patients, as all who undergo treatment were assumed to have a CVC. Results are presented as adjusted hazard ratios (HR) and 95% confidence intervals (CI). Results Among 37,282 patients included in this analysis, 6,213 had AML, 3,730 had ALL and 27,339 had NHL. The 3- and 12-month cumulative incidence of UE DVT was 2.6% and 3.6% for AML, 2.1% and 3% for ALL and 1.0% and 1.6% for NHL respectively (Figure 1A). Most (56-64%) incident UE DVT events occurred within the first 3 months of malignancy diagnosis. African Americans (HR 1.66; CI 1.22-2.28) and Hispanics (HR 1.35; CI 1.10-1.66) with NHL had an increased risk of incident UE DVT compared to non-Hispanics Whites. NHL patients with a CVC had over a 2-fold increased risk of incident UE DVT (HR 2.05; CI 1.68-2.51) compared to those without a CVC. UE DVT was a risk factor for development of PE or LE DVT in ALL (HR 2.53; CI 1.29-4.95) and NHL (HR 1.63; CI 1.11-2.39) but not in AML. The 12-month cumulative incidence of subsequent VTE after an incident UE DVT diagnosis was 6.4% for AML, 12.0% for ALL and 7.6% for NHL. 46-58% of subsequent VTEs occurred within the first 3 months of incident UE DVT diagnosis. The majority of subsequent VTEs were UE DVT which had a 12-month cumulative incidence of 4.6% for AML, 6.6% for ALL and 4.0% for NHL (Figure 1B). The 12-month cumulative incidence of subsequent LE DVT was 1.3% for AML, 1.6% for ALL and 1.9% for NHL (Figure 1C). The 12-month cumulative incidence of subsequent PE was 0.4% for AML, 4.1% for ALL and 1.8% for NHL (Figure 1D). The 12-month cumulative incidence of major bleeding after an UE DVT diagnosis was 29% for AML, 29% for ALL and 20% for NHL. Common major bleeding events included gastrointestinal (GI) bleeds, epistaxis and intracranial hemorrhage. GI bleeding was the most common major bleeding event among all three malignancies (14.2% in AML, 9.6% in ALL and 12.4% in NHL). The rate of intracranial hemorrhage was 6% in AML, 3.5% in ALL and 1.7% in NHL. A diagnosis of incident UE DVT was associated with an increased risk of cancer-specific mortality in all three malignancies (HR 1.38; CI 1.16-1.65 in AML, HR 2.16; CI 1.66-2.82 in ALL, HR 2.38; CI 2.06-2.75 in NHL). Conclusions UE DVT is an important complication among patients with AML, ALL and NHL, with the majority of UE DVT events occurring within the first 3 months of diagnosis. The most common VTE event after an index UE DVT was another UE DVT, although patients also had subsequent PE and LE DVT. UE DVT was a risk factor for development of PE or LE DVT in ALL and NHL, but not in AML. Major bleeding after an UE DVT was high in all three malignancies (>20%), with GI bleeds being the most common. UE DVT in patients with AML, ALL and NHL is associated with increased risk of mortality. Disclosures Wun: Janssen: Other: Steering committee; Pfizer: Other: Steering committee.

scholarly journals Pre-operative prevalence and risk factor for the asymptomatic deep vein thrombosis (DVT) in patients with end-stage knee osteoarthritis

2017 ◽  
Vol 25 ◽  
pp. S355
Author(s):  
J. Shiozawa ◽  
M. Ishijima ◽  
H. Kaneko ◽  
M. Nagayama ◽  
T. Miyazaki ◽  
...  
Keyword(s):  
Risk Factor ◽  
Deep Vein Thrombosis ◽  
Knee Osteoarthritis ◽  
Vein Thrombosis ◽  
End Stage ◽  
Deep Vein

Venous Thromboembolism in Trauma Patients

2007 ◽  
Vol 73 (11) ◽  
pp. 1173-1180 ◽  
Author(s):  
Om P. Sharma ◽  
Michael F. Oswanski ◽  
Rusin J. Joseph ◽  
Peter Tonui ◽  
Libby Westrick Pa-C ◽  
...  
Keyword(s):  
Risk Factor ◽  
Venous Thromboembolism ◽  
Injury Severity Score ◽  
Severity Score ◽  
Injury Severity ◽  
Univariate Analysis ◽  
Trauma Patients ◽  
Vein Thrombosis ◽  
Cord Injury ◽  
Deep Vein

Serial venous duplex scans (VDS) were done in 507 trauma patients with at least one risk factor (RF) for venous thromboembolism (VTE) during a 2-year study period. Deep vein thrombosis (DVT) was detected in 31 (6.1%) patients. This incidence was 3.1 per cent in low (1–2 RFs), 3.4 per cent in moderate (3–5 RFs), and 7.7 per cent in high (≥6 RFs) VTE scores ( P = 0.172). Incidence was statistically different (3% vs 7.2%, P = 0.048) on reanalyzing patients in two risk categories, low-risk (1–4 RFs) and high-risk (≥5 RFs). Only 4 of 16 RFs had statistically higher incidence of DVT in patients with or without RFs: previous VTE (27.3% vs 5.6%, odds ratio (OR) 6.628, P = 0.024), spinal cord injury (22.6% vs 5%, OR 5.493, P = 0.001), pelvic fractures (11.4% vs 5.1%, OR 2.373, P = 0.042), and head injury with a greater than two Abbreviated Injury Score (10.5% vs 4.2%, OR 2.639, P = 0.014). On reanalyzing patients with ≥5 RFs vs <5RFs, obesity (14.3 vs 6.1%, P = 0.007), malignancy (5.6% vs 0.6%, P = 0.006), coagulopathy (10.8% vs 1.8%, P = 0.000), and previous VTE (3.2% vs 0%, P = 0.019) were significant on univariate analysis. Patients with DVT had 3.70 ± 1.75 RFs and a 9.61 ± 4.93 VTE score, whereas, patients without DVT had 2.66 ± 1.50 RFs and a 6.83 ± 3.91 VTE score ( P = 0.000). DVTs had a direct positive relationship with higher VTE scores, length of stay, and number of VDS (>1 r, P ≤ 0.001). Increasing age was a weak risk factor (0.03 r, P = 0.5). First two VDS diagnosed 77 per cent of DVTs. Patients with injury severity score of ≥15 and 25 had higher DVTs compared with the ones with lower injury severity score levels ( P ≤ 0.05). Pulmonary embolism was silent in 63 per cent and DVTs were asymptomatic in 68 per cent.

Retrosternal Reconstruction Can be a Risk Factor for Upper Extremity Deep Vein Thrombosis After Esophagectomy

2017 ◽  
Vol 41 (12) ◽  
pp. 3154-3163 ◽  
Author(s):  
Takamasa Takahashi ◽  
Masahide Fukaya ◽  
Kazushi Miyata ◽  
Yayoi Sakatoku ◽  
Masato Nagino
Keyword(s):  
Risk Factor ◽  
Deep Vein Thrombosis ◽  
Upper Extremity ◽  
Vein Thrombosis ◽  
Deep Vein

The Persistance of Residual Vein Thrombosis, after an Episode of Deep Vein Thrombosis, and the Risk of New Overt Cancer and Cardiovascular Disease.

Blood ◽  
2005 ◽  
Vol 106 (11) ◽  
pp. 262-262 ◽  
Author(s):  
Sergio Siragusa ◽  
Alessandra Malato ◽  
Raffaela Anastasio ◽  
Ignazio Abbene ◽  
Carlo Arcara ◽  
...  
Keyword(s):  
Cardiovascular Disease ◽  
Risk Factor ◽  
Deep Vein Thrombosis ◽  
Cardiovascular Event ◽  
Independent Risk Factor ◽  
Lower Limbs ◽  
Vein Thrombosis ◽  
Recurrent Vte ◽  
Deep Vein ◽  
Subsequent Cancer

Abstract Background. We have recently demonstrated that the presence of Residual Vein Thrombosis (RVT), UltraSonography (US)-detected at the 3rd month after an episode of Deep Vein Thrombosis (DVT) of the lower limbs, is an independent risk factor for developing recurrent Venous Thromboembolism (VTE). The management of DVT patients by detection of RVT may, therefore, represent a simple and reproducible method for establishing the individual risk of recurrence and for tailoring the optimal duration of Oral Anticoagulants (OA) (Siragusa S et al. Blood2003;102(11):OC183a). At the present, it is unknown whether RVT may also identify patients at increased risk for cancer and/or cardiovascular disease (CD). Objective of the study. In patients with DVT of the lower limbs, we conducted a prospective study for evaluating the correlation between RVT and the risk of new overt cancer and/or CD. Materials and methods. Consecutive patients, with an episode of idiopathic or provoked DVT, were evaluated after 3 months from the index DVT; presence/absence of RVT was detected and patients managed consequently (table). The incidence of VTE recurrence, overt cancer and new CD was evaluated over a period of 3 years after the index DVT. Survival curves (Kaplan-Mayer) and related Breslow test have been used for statistics. Results. Three-hundred fourty-five patients were included in the analysis. The results are listed in the table and figures. The incidence of recurrent VTE and new overt cancer was statistically lower in patients without RVT than in those with RVT; no significant differences were found in the incidence of new CD. These data are applicable in patients with idiopathic or provoked index DVT. In patients with RVT, the advantage of prolonging anticoagulation for 12 months was lost at the end of the treatment. Conclusions. This is the first study evaluating the relationship between US-detected RVT and the risk of developing cancer and CD; RVT presence, at 3rd month from the index DVT, is an independent risk factor for recurrent VTE and indicates patients at risk for new overt cancer. This risk remains over a period of 3 years, independently whether index DVT was idiopathic or provoked. In these patients, the advantage of indefinite anticoagulation should be assessed in properly designed study. Incidence of events over a period of 3 years accordingly to RVT findings Group Number of patients Presence of RVT at the 3rd months of OA from the index DVT Duration of OA from the index DVT Incidence of recurrent VTE Incidence of new cancer Incidence of new CD *Part of these patients were originally randomized to receive 3 or 12 months of OA Group *A1 142 yes 12 months 11 (7.7%) 8 (5.6%) 7 (4.9%) Group *A2 91 yes 3 months 16 (17.5%) 9 (9.9%) 7 (7.7%) Group B 112 no 3 months 1 (0.9%) 3 (2.6%) 4 (3.5%) Figure 1: Relationship between RVT and subsequent Cancer Figure 1:. Relationship between RVT and subsequent Cancer Figure 2: Relationship between RVT and subsequent Cardiovascular Event Figure 2:. Relationship between RVT and subsequent Cardiovascular Event

Incidence and risk factors of thromboembolism (TE) in advanced gastric cancer (AGC) receiving chemotherapy: A prospective observational study (NCT01047618).

2014 ◽  
Vol 32 (3_suppl) ◽  
pp. 31-31
Author(s):  
Baek-Yeol Ryoo ◽  
Min-Hee Ryu ◽  
Sook Ryun Park ◽  
Myoung Joo Kang ◽  
Kwon-Oh Park ◽  
...  
Keyword(s):  
Gastric Cancer ◽  
Risk Factor ◽  
Incidence Rate ◽  
Univariate Analysis ◽  
Significant Risk ◽  
Significant Risk Factor ◽  
Limited Information ◽  
Vein Thrombosis ◽  
Gastric Cancer Patients ◽  
D Dimer

31 Background: The incidence of TE in gastric cancer patients (pts) is known to be high. But because the previous reports were retrospectively analyzed in heterogeneous population, they give us only limited information. We therefore conducted a prospective study to investigate the incidence of TE and prognostic factors related with TE in AGC pts receiving chemotherapy. Methods: We checked D-dimer and coagulation battery at the start of chemotherapy and every 3 months thereafter. If there developed symptoms or signs of TE, or if D-dimer elevated 5 μg/mL or more we checked imaging studies to detect TE. The chemotherapy regimen mainly included fluoropyrimidine plus platinum-based for 1st-line, taxane-based for 2nd-line, and irinotecan-based for 3rd-line chemotherapy. Results: Between Nov 2009 and Apr 2012, 241 pts were analyzed. They received median 9 (range 1 - 42) cycles of chemotherapy. During the median observational duration of 16.7 months, 32 events (13.3%, 95% CI; 8.9 - 17.7%) of TE were detected. The types of TE were as follows; deep vein thrombosis (DVT) only in 18 (56.3%), pulmonary embolism (PE) only in 4 (12.5%), DVT and PE in 5 (15.6%), cerebral infarction in 4 (12.5%), and intra-abdominal arterial thrombosis 1 (3.1%) pts. The 1-year and 2-year cumulative incidences of TE were 15.0% (95% CI, 9.6 - 20.0%) and 20.0% (95% CI, 12.1 - 26.9%), respectively. The incidence rate of TE was 14.1 (95% CI, 9.6 - 19.9) events/100 person-years. In univariate analysis, the previous gastrectomy history, baseline CA72-4 level and baseline D-dimer level were statistically significant risk factor related with TE development. But in multivariate analysis, baseline D-dimer level was the only independent risk factor associated with TE development (Hazard ratio 2.46 [95% CI, 1.08 - 5.63], P= 0.033). Among 32 pts with baseline D-dimer 5.0 μg/mL or higher, 8 pts (25.0%) developed TE, while for pts whose baseline D-dimer was lower than 5.0 μg/mL, 24 out of 209 pts (11.5%) developed TE. Conclusions: The incidence rate of TE in AGC pts receiving chemotherapy was 14.1 (95% CI, 9.6 - 19.9) events/100 person-years. D-dimer was an important prognostic factor related with TE development. Clinical trial information: NCT01047618.

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