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Doxorubicin Enhances Procoagulant Activity of Endothelial Cells after Exposure to Tumour Microparticles on Microfluidic Devices (2020)
Journal Article
Algarni, A., Greenman, J., & Madden, L. A. (2020). Doxorubicin Enhances Procoagulant Activity of Endothelial Cells after Exposure to Tumour Microparticles on Microfluidic Devices. Bloods, 1(1), 23-34. https://doi.org/10.3390/bloods1010006

The majority of cancer patients undergoing chemotherapy have a significantly increased risk of venous thromboembolism via a mechanism not yet fully elucidated but which most probably involves tumour microparticles (MP) combined with damaged/activated... Read More about Doxorubicin Enhances Procoagulant Activity of Endothelial Cells after Exposure to Tumour Microparticles on Microfluidic Devices.

Procoagulant tumour microvesicles attach to endothelial cells on biochips under microfluidic flow (2019)
Journal Article
Algarni, A., Greenman, J., & Madden, L. (2019). Procoagulant tumour microvesicles attach to endothelial cells on biochips under microfluidic flow. Biomicrofluidics, 13(6), https://doi.org/10.1063/1.5123462

Tumor patients are at a high risk of venous thromboembolism (VTE), and the mechanism by which this occurs may involve tumor-derived microvesicles (MVs). Previously, it has been shown that tumor MVs become attached to endothelial cells in static condi... Read More about Procoagulant tumour microvesicles attach to endothelial cells on biochips under microfluidic flow.

Development of a Microfluidic Culture Paradigm for Ex Vivo Maintenance of Human Glioblastoma Tissue: A New Glioblastoma Model? (2019)
Journal Article
Olubajo, F., Achawal, S., & Greenman, J. (2020). Development of a Microfluidic Culture Paradigm for Ex Vivo Maintenance of Human Glioblastoma Tissue: A New Glioblastoma Model?. Translational Oncology, 13(1), 1-10. https://doi.org/10.1016/j.tranon.2019.09.002

BACKGROUND: One way to overcome the genetic and molecular variations within glioblastoma is to treat each tumour on an individual basis. To facilitate this, we have developed a microfluidic culture paradigm that maintains human glioblastoma tissue ex... Read More about Development of a Microfluidic Culture Paradigm for Ex Vivo Maintenance of Human Glioblastoma Tissue: A New Glioblastoma Model?.

Accumulation of tissue factor in endothelial cells promotes cellular apoptosis through over-activation of Src1 and involves β1-integrin signalling (2019)
Journal Article
Ethaeb, A. M., Mohammad, M. A., Madkhali, Y., Maraveyas, A., Featherby, S., Greenman, J., & Ettelaie, C. (in press). Accumulation of tissue factor in endothelial cells promotes cellular apoptosis through over-activation of Src1 and involves β1-integrin signalling. Apoptosis, 25, https://doi.org/10.1007/s10495-019-01576-2

Accumulation of tissue factor (TF) within cells leads to cellular apoptosis mediated through p38 and p53 pathways. In this study, the involvement of Src1 in the induction of TF-mediated cell apoptosis, and the mechanisms of Src1 activation were inves... Read More about Accumulation of tissue factor in endothelial cells promotes cellular apoptosis through over-activation of Src1 and involves β1-integrin signalling.

The effect of radioiodine treatment on the diseased thyroid gland (2019)
Journal Article
Riley, A. S., McKenzie, G. A. G., Green, V., Schettino, G., England, R. J. A., & Greenman, J. (in press). The effect of radioiodine treatment on the diseased thyroid gland. International Journal of Radiation Biology, 1-10. https://doi.org/10.1080/09553002.2019.1665206

Purpose: Radioiodine (I131) therapy is the treatment mainstay for several benign and malignant thyroid disorders, however I131 is known to cause DNA damage and liberation of thyroidal self-antigens inducing secondary immunoreactivity. The exact mecha... Read More about The effect of radioiodine treatment on the diseased thyroid gland.

On-chip determination of C-reactive protein using magnetic particles in continuous flow (2014)
Journal Article
Phurimsak, C., Tarn, M. D., Peyman, S. A., Greenman, J., & Pamme, N. (2014). On-chip determination of C-reactive protein using magnetic particles in continuous flow. Analytical chemistry, 86(21), 10552-10559. https://doi.org/10.1021/ac5023265

We demonstrate the application of a multilaminar flow platform, in which functionalized magnetic particles are deflected through alternating laminar flow streams of reagents and washing solutions via an external magnet, for the rapid detection of the... Read More about On-chip determination of C-reactive protein using magnetic particles in continuous flow.