Browsing Lambe Institute for Translational Research by Author "O’Halloran, Martin"
Now showing items 1-5 of 5
-
3D printable solid tissue-mimicking material for microwave phantoms
McDermott, Barry; Porter, Emily; O’Halloran, Martin; Poudel, Anup; Biggs, Manus; Karode, Nireeksha S.; Coffey, Austin B. (IEEE, 2018-09-10)Phantoms provide valuable platforms for testing of medical devices including microwave diagnostic systems. This work describes a 3D printable solid tissue-mimicking material (TMM) for the production of such phantoms. The ... -
Brain haemorrhage detection through SVM classification of electrical impedance tomography measurements
McDermott, Barry; Dunne, Eoghan; O’Halloran, Martin; Porter, Emily; Santorelli, Adam (Springer, Cham, 2019-08-28)A brain haemorrhage constitutes a serious medical scenario with a need for rapid, accurate detection to facilitate treatment initiation. Machine learning (ML) techniques applied to such medical diagnostic problems can ... -
Detailed dielectric characterisation of the heart and great vessels
Istuk, Niko; McDermott, Barry; Porter, Emily; Santorelli, Adam; Abedi, Soroush; O’Halloran, Martin; Joachimowicz, Nadine; Roussel, Helene (IEEE, 2020-03-15)The dielectric properties of biological tissues play a significant role in the planning and development of electro- magnetic thermal therapies. In most cases in the literature, heart is considered as a homogeneous organ ... -
Dielectric properties of bones for the monitoring of osteoporosis
Amin, Bilal; Elahi, Muhammad Adnan; Shahzad, Atif; Porter, Emily; McDermott, Barry; O’Halloran, Martin (Springer, 2018-08-29)Osteoporosis is one of the most common diseases that leads to bone fractures. Dual-energy X-ray absorptiometry is currently employed to measure the bone mineral density and to diagnose osteoporosis. Alternatively, the ... -
An empirical dielectric mixing model for biological tissues
Salahuddin, Saqib; McDermott, Barry; Porter, Emily; O’Halloran, Martin; Elahi, Muhammad Adnan; Shahzad, Atif (IEEE, 2019-03-31)Dielectric properties of biological tissues are critically important for various electromagnetic based medical therapeutic and diagnostic technologies. This paper attempts to develop an empirical dielectric mixture model ...