Your search keyword '"Neil Shepherd"' showing total 2 results

1. Evaluation of linear discriminant analysis for automated Raman histological mapping of esophageal high-grade dysplasia.

Author

Joanne Hutchings, Catherine Kendall, Neil Shepherd, Hugh Barr, and Nicholas Stone

Subjects

*DISCRIMINANT analysis, *HISTOLOGY, *RAMAN effect, *DIAGNOSIS, *FEASIBILITY studies, *ESOPHAGUS, *PRINCIPAL components analysis

Abstract

Rapid Raman mapping has the potential to be used for automated histopathology diagnosis, providing an adjunct technique to histology diagnosis. The aim of this work is to evaluate the feasibility of automated and objective pathology classification of Raman maps using linear discriminant analysis. Raman maps of esophageal tissue sections are acquired. Principal component (PC)-fed linear discriminant analysis (LDA) is carried out using subsets of the Raman map data (6483 spectra). An overall (validated) training classification model performance of 97.7 (sensitivity 95.0 to 100 and specificity 98.6 to 100) is obtained. The remainder of the map spectra (131,672 spectra) are projected onto the classification model resulting in Raman images, demonstrating good correlation with contiguous hematoxylin and eosin (HE) sections. Initial results suggest that LDA has the potential to automate pathology diagnosis of esophageal Raman images, but since the classification of test spectra is forced into existing training groups, further work is required to optimize the training model. A small pixel size is advantageous for developing the training datasets using mapping data, despite lengthy mapping times, due to additional morphological information gained, and could facilitate differentiation of further tissue groups, such as the basal cellslamina propria, in the future, but larger pixels sizes (and faster mapping) may be more feasible for clinical application. [ABSTRACT FROM AUTHOR]

Published

2010

2. Evaluation of Raman probe for oesophageal cancer diagnosticsThis article is part of a themed issue on Optical Diagnosis. This issue includes work presented at SPEC 2010 Shedding Light on Disease: Optical Diagnosis for the New Millennium, which was held in Manchester, UK, June 26th–July 1st2010.

Author

Catherine Kendall, John Day, Joanne Hutchings, Brian Smith, Neil Shepherd, Hugh Barr, and Nicholas Stone

Subjects

*RAMAN spectroscopy, *DIAGNOSIS of esophageal cancer, *DISEASES, *CANCER prognosis, *GASTROINTESTINAL cancer, *HISTOPATHOLOGY, *BIOPSY, *CONFERENCES & conventions

Abstract

Early detection of (pre-)cancerous changes improves prognosis, therefore in the UK patients at high risk of developing gastrointestinal cancers are enrolled on endoscopic surveillance programmes or the Bowel Cancer Screening Programme. The current gold standard technique for the detection of pre-cancerous changes in the gastrointestinal tract is histopathological analysis of biopsy tissue collected at endoscopy. This relies upon subjective assessment of morphological changes within the excised tissue samples and poor targeting of pre-malignant lesions. Raman spectroscopy offers a number of potential advantages for in vivoassessment of tissue at endoscopy. The performance of a custom built Raman probe as a biopsy targeting tool has been evaluated using excised biopsy material. Multivariate classification models have been used to demonstrate the likely ability of a miniature, confocal, fibre optic Raman probe to be used as an optical biopsy tool at endoscopy to provide spectral information in clinically practicable timescales. This technique could facilitate improved targeting of excisional biopsy with associated clinical benefits. [ABSTRACT FROM AUTHOR]

Published

2010