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Richard I. Kitney
Researcher at Imperial College London
Publications - 109
Citations - 5330
Richard I. Kitney is an academic researcher from Imperial College London. The author has contributed to research in topics: Synthetic biology & Segmentation. The author has an hindex of 30, co-authored 107 publications receiving 4844 citations. Previous affiliations of Richard I. Kitney include Massachusetts Institute of Technology & Chelsea College.
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Journal ArticleDOI
Comparison and Evaluation of Methods for Liver Segmentation From CT Datasets
Tobias Heimann,B. van Ginneken,Martin Styner,Yulia Arzhaeva,V. Aurich,C. Bauer,A. Beck,C. Becker,Reinhard Beichel,G. Bekes,Fernando Bello,G. Binnig,Horst Bischof,Alexander Bornik,P. Cashman,Ying Chi,A. Cordova,Benoit M. Dawant,Marta Fidrich,Jacob D. Furst,D. Furukawa,Lars Grenacher,Joachim Hornegger,D. Kainmuller,Richard I. Kitney,H. Kobatake,Hans Lamecker,T. Lange,Jeongjin Lee,B. Lennon,Rui Li,Senhu Li,Hans-Peter Meinzer,Gábor Németh,Daniela Raicu,A.-M. Rau,E.M. van Rikxoort,Mikael Rousson,L. Rusko,K.A. Saddi,G. Schmidt,D. Seghers,Akinobu Shimizu,Pieter Slagmolen,Erich Sorantin,G. Soza,R. Susomboon,Jonathan M. Waite,A. Wimmer,Ivo Wolf +49 more
TL;DR: A comparison study between 10 automatic and six interactive methods for liver segmentation from contrast-enhanced CT images provides an insight in performance of different segmentation approaches under real-world conditions and highlights achievements and limitations of current image analysis techniques.
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Spontaneous Rhythms in Physiological Control Systems
TL;DR: An explanation for spontaneous and broadly repetitive fluctuations in Mean arterial blood pressure is presented which may also be applicable to the vasomotor activity associated with thermoregulation and therefore widely relevant.
Journal ArticleDOI
Engineering modular and orthogonal genetic logic gates for robust digital-like synthetic biology
TL;DR: An orthogonal AND gate in Escherichia coli is constructed using a novel hetero-regulation module from Pseudomonas syringae and demonstrated to be modular by applying new regulated promoters to the inputs, and connecting the output to a NOT gate module to produce a combinatorial NAND gate.
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Interactive algorithms for the segmentation and quantitation of 3-D MRI brain scans.
TL;DR: A 3D image analysis package (MIDAS) with a novel architecture enabling highly interactive segmentation algorithms to be implemented as add on modules and the efficacy of one method in measuring volume loss of the hippocampus in Alzheimer's disease is shown.