Hussein Echrish scite author profile

Hussein Echrish

5Publications

47Citation Statements Received

118Citation Statements Given

How they've been cited

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206

118

Affiliations

University of Hull

Publications

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Pancreatic cancer cell and microparticle procoagulant surface characterization

Yates

Welsh

Echrish

et al. 2011

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Advanced pancreatic cancer is associated with a high risk of patients developing venous thromboembolism. This increased risk is thought to be tumour-driven and associated with tissue factor (TF) and microparticles. The aim of this study was to investigate the role of TF and phospholipid expression in the procoagulant properties of pancreatic cell lines and microparticles. Pancreatic cancer cell lines (MIA-PaCa-2, ASPC-1 and CFPAC-1) were assessed for expression of TF and microparticle release. Procoagulant potential was determined by a prothrombin time assay. Cell surface expression of TF was highest in CFPAC-1, with low expression on ASPC-1 and little/no expression on MIA-PaCa-2. Clotting time (CT) was cell number and TF-dependent (P < 0.001). Blocking of TF resulted in slower CT for CFPAC-1 and ASPC1 and prevented clotting in MIA-PaCa-2. Microparticles were shown to be procoagulant and the majority of procoagulant potential could be removed by passing cell-free media through a 0.1 μm filter. A dose-dependent CT was observed in both ASPC-1 and CFPAC-1 cell-free media. Furthermore, addition of duramycin prevented microparticle-supported coagulation. The data presented suggest a key role for cell and microparticle surface-expressed TF and phospholipids in coagulation and highlight duramycin-mediated disruption of clotting.

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Weight-adjusted dalteparin for prevention of vascular thromboembolism in advanced pancreatic cancer patients decreases serum tissue factor and serum-mediated induction of cancer cell invasion

Maraveyas¹,

Ettelaie²,

Echrish³

et al. 2010

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The aim of the present study was to assess the role of tissue factor and serum-induced cell invasion in patients with advanced pancreatic cancer (APC). A cohort of 39 patients with APC, without thrombosis, receiving chemotherapy, were entered in a randomized controlled trial (ISRCTN = 76464767) of thromboprevention with weight-adjusted dalteparin (WAD). A total of 19 patients received WAD, the remaining 20 acting as a control group. Serum from baseline and week 8 was analysed for circulating-tissue factor antigen using ELISA. Circulating-tissue factor antigen rose from 324 pg/ml, [interquartile range (IQR) 282-347 pg/ml] to 356 pg/ml, (IQR 319-431 pg/ml) in controls (C), and decreased in the dalteparin-treated group (D) from 336 pg/ml (IQR 281-346 pg/ml) to 303 pg/ml (IQR 274-339 pg/ml). The difference in median percentage change between D and C was statistically significant [-4.0 (D) vs. 4.7 (C); P = 0.005, n = 39]. Serum-induced cellular invasion of MIA-Paca-2 cells in response to patient serum was studied using a Boyden chamber assay in 30 patients (14 WAD and 16 C). The median percentage change between C and D was significant [+54.9 (C) vs. -21.9 (D) P = 0.025, n = 30]. There was a weak correlation between BB-tissue factor reduction and cellular invasion reduction (Spearman) [0.384 (P = 0.037, n = 30)]. APC patients treated with WAD have lower tissue factor antigen levels and attenuated induction of cellular invasion in their blood. These assays may provide useful markers to guide appropriate dalteparin (and other low-molecular weight heparin) dosing schedules to optimize anticancer effects of dalteparin in APC.

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The Hemostasis Apparatus in Pancreatic Cancer and Its Importance beyond Thrombosis

Echrish

Madden

Greenman

et al. 2011

Cancers

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Laboratory evidence of aberrant coagulation is found in the majority of patients with advanced pancreatic cancer and a clinical consequence of this is the high incidence and prevalence of vascular thromboembolic events. Other sequelae are hypothesized to be the facilitation and acceleration of mechanisms that define the malignant phenotype, such as invasion, trafficking and anchoring, establishing the metastatic niche and inducing angiogenesis. We review the in vitro and preclinical evidence that supports the role of the coagulation apparatus in the metastatic process of pancreatic cancer, with a particular emphasis on interaction of this pathway with clinically-targeted growth factor receptor pathways. Links between hemostasis, angiogenesis and epidermal growth factor pathways and their significance as therapeutic targets are considered.

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Effect of resection of localized pancreaticobiliary adenocarcinoma on angiogenic markers and tissue factor related pro-thrombotic and pro-angiogenic activity

Echrish

Xiao

Madden

et al. 2014

Thrombosis Research

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PO-84 Expression of Tissue Factor (TF) and growth factor receptors on pancreatic cell lines: correlation with TF activity and cell invasion

Echrish¹,

Madden²,

Greenman³

et al. 2010

Thrombosis Research

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Hussein Echrish

Pancreatic cancer cell and microparticle procoagulant surface characterization

Weight-adjusted dalteparin for prevention of vascular thromboembolism in advanced pancreatic cancer patients decreases serum tissue factor and serum-mediated induction of cancer cell invasion

The Hemostasis Apparatus in Pancreatic Cancer and Its Importance beyond Thrombosis

Effect of resection of localized pancreaticobiliary adenocarcinoma on angiogenic markers and tissue factor related pro-thrombotic and pro-angiogenic activity

PO-84 Expression of Tissue Factor (TF) and growth factor receptors on pancreatic cell lines: correlation with TF activity and cell invasion

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