Publications by: Nathan Cassidy
Up a level |
Kophamel, Sara, Ward, Leigh C., Konovalov, Dmitry A., Mendez, Diana, Ariel, Ellen, Cassidy, Nathan, Bell, Ian, Balastegui Martínez, María T., and Munns, Suzanne L. (2022) Field‐based adipose tissue quantification in sea turtles using bioelectrical impedance spectroscopy validated with CT scans and deep learning. Ecology and Evolution, 12.
Kophamel Orduna, Sara, Ward, Leigh, Konovalov, Dmitry, Ariel, Ellen, Bell, Ian, Cassidy, Nathan, Balastegui Martinez, Maria T., and Munns, Suzanne (2021) Adipose tissue estimation in green turtles (Chelonia mydas) by bioelectrical impedance analysis and diagnostic imaging. In: Abstract Book of the SEB 2021 Annual Conference (2021) A16.3. p. 173. From: Society for Experimental Biology 2021 Annual Conference, 29 June - 8 July 2021, Online.
Kophamel, Sara, Ward, Leigh, Konovalov, Dmitry, Ariel, Ellen, Mendez, Diana, Bell, Ian, Cassidy, Nathan, Balastegui Martinez, Maria T., and Munns, Suzanne (2021) Adipose tissue estimation in green turtles (Chelonia mydas) using deep learning, diagnostic imaging and bioelectrical impedance analysis. In: [Presented at CUENCA 2021]. 3. p. 293. From: CUENCA 2021: 69th Wildlife Disease Association (WDA)/14th European Wildlife Disease Association (EWDA) Joint Virtual Conference, 30 August - 2 September 2021, Online.
Ramsay, Stuart C., Cassidy, Nathan, de Jonge, Martin D., Howard, Daryl L., Paterson, David, and Ketheesan, Natkunam (2011) Examination of trafficking of phagocytosed colloid particles in neutrophils using synchrotron-based X-ray fluorescence microscopy (XFM). Journal of Biological Physics, 37 (4). pp. 493-506.
Ramsay, Stuart C., Cassidy, Nathan, and Meade, Sally (2008) Clinically node-negative breast cancer, internal mammary lymph nodes, and sentinel lymph node biopsy. Clinical Nuclear Medicine, 33 (6). pp. 391-393.
Gallagher, Hayley, Ramsay, Stuart C., Barnes, Jodie , Maggs, Jacqueline, Cassidy, Nathan, and Ketheesan, Natkunam (2006) Neutrophil labeling with [(90m)Tc]-technetium stannous colloid is complement receptor 3-mediated and increases the neutrophil priming response to lipopolysaccharide. Nuclear Medicine and Biology, 33 (3). pp. 433-439.