D. M. S. Watson scite author profile

A computer-based decision support system to assist radiologists in diagnosing and grading brain tumours has been developed by the multi-centre INTERPRET project. Spectra from a database of 1 H single-voxel spectra of different types of brain tumours, acquired in vivo from 334 patients at four different centres, are clustered according to their pathology, using automated pattern recognition techniques and the results are presented as a two-dimensional scatterplot using an intuitive graphical user interface (GUI). Formal quality control procedures were performed to standardize the performance of the instruments and check each spectrum, and teams of expert neuroradiologists, neurosurgeons, neurologists and neuropathologists clinically validated each case. The prototype decision support system (DSS) successfully classified 89% of the cases in an independent test set of 91 cases of the most frequent tumour types (meningiomas, low-grade gliomas and high-grade malignant tumours-glioblastomas and metastases). It also helps to resolve diagnostic difficulty in borderline cases. When the prototype was tested by radiologists and other clinicians it was favourably received. Results of the preliminary clinical analysis of the added value of using the DSS for brain tumour diagnosis with MRS showed a small but significant improvement over MRI used alone. In the comparison of individual pathologies, PNETs were significantly better diagnosed with the DSS than with MRI alone.

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Texture Analysis of Aggressive and Nonaggressive Lung Tumor CE CT Images

Al-Kadi

Watson

2008

IEEE Trans. Biomed. Eng.

236

139

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This paper presents the potential for fractal analysis of time sequence contrast-enhanced (CE) computed tomography (CT) images to differentiate between aggressive and nonaggressive malignant lung tumors (i.e., high and low metabolic tumors). The aim is to enhance CT tumor staging prediction accuracy through identifying malignant aggressiveness of lung tumors. As branching of blood vessels can be considered a fractal process, the research examines vascularized tumor regions that exhibit strong fractal characteristics. The analysis is performed after injecting 15 patients with a contrast agent and transforming at least 11 time sequence CE CT images from each patient to the fractal dimension and determining corresponding lacunarity. The fractal texture features were averaged over the tumor region and quantitative classification showed up to 83.3% accuracy in distinction between advanced (aggressive) and early-stage (nonaggressive) malignant tumors. Also, it showed strong correlation with corresponding lung tumor stage and standardized tumor uptake value of fluorodeoxyglucose as determined by positron emission tomography. These results indicate that fractal analysis of time sequence CE CT images of malignant lung tumors could provide additional information about likely tumor aggression that could potentially impact on clinical management decisions in choosing the appropriate treatment procedure.

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A Multi-Centre, Web-Accessible and Quality Control-Checked Database of in vivo MR Spectra of Brain Tumour Patients

Julià‐Sapé

Acosta

Mier³

et al. 2006

Magn Reson Mater Phy

100

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The Structure of Certain Palaeozoic Dipnoi.

Watson¹,

Gill²

1923

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SUMMARY This paper includes the first complete accounts of the circumorbital region and opercular apparatus of Dipterus valenciennesi, and of the lower jaw of D. platyeephalus. It gives very nearly complete descriptions of the skull, lower jaw, and clavicular apparatus of Sagerwdus and Ctenodus which much extend our knowledge of these fish. In it the structures of the anterior end of the rare fish Uronemus and Conchopoma are described and figured for the first time. Dipterus is shown to be directly comparable with Osteolepids in the structure of the opercular apparatus and the lower jaw, in addition to the many previously known resemblances. It is thereby shown that, as its early date would indicate, it is the most primitive known Dipnoan. Ctenodus and Sayenodus prove to be closely allied, and a detailed comparison shows so great a similarity between the latter fish and Ceratodus as to leave no doubt that it is essentially ancestral to it. Uronemus and Conchopoma resemble one another only in the reduction in them of the tooth‐plates to isolated denticles. In the structure of the palate and of the roof of the head they differ so much that they must represent widely‐separated stocks. In the main, the trends of Dipnoan development suggested by Watson and Day are confirmed. It is, however, pointed out that the structure of the neural cranium of the Osteolepids, as described by Bryant in Eusthenopteron, is such that the Dipnoi cannot be direct descendants of that group, but that with it and the Amphibia they arose together from common ancestors at a time before the Middle Devonian.

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The Elasmosaurid Shoulder‐girdle and Fore‐limb.

Watson

1924

Proceedings of the Zoological Society of London

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D. M. S. Watson

Development of a decision support system for diagnosis and grading of brain tumours using in vivo magnetic resonance single voxel spectra

Texture Analysis of Aggressive and Nonaggressive Lung Tumor CE CT Images

A Multi-Centre, Web-Accessible and Quality Control-Checked Database of in vivo MR Spectra of Brain Tumour Patients

The Structure of Certain Palaeozoic Dipnoi.

The Elasmosaurid Shoulder‐girdle and Fore‐limb.

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