David G. Leslie scite author profile

David G. Leslie

3Publications

59Citation Statements Received

52Citation Statements Given

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Charing Cross Hospital, Chelsea and Westminster Hospital, St Bartholomew's Hospital

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Identification of Pediatric Brain Neoplasms Using Raman Spectroscopy

Leslie¹,

Kast

Poulik³

et al. 2012

Pediatr Neurosurg

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Purpose: Raman spectroscopy can quickly and accurately diagnose tissue in near real-time. This study evaluated the capacity of Raman spectroscopy to diagnose pediatric brain tumors. Experimental Design: Samples of untreated pediatric medulloblastoma (4 samples and 4 patients), glioma (i.e. astrocytoma, oligodendroglioma, ependymoma, ganglioglioma and other gliomas; 27 samples and 19 patients), and normal brain samples (33 samples and 5 patients) were collected fresh from the operating room or from our frozen tumor bank. Samples were divided and tested using routine pathology and Raman spectroscopy. Twelve Raman spectra were collected per sample. Support vector machine analysis was used to classify spectra using the pathology diagnosis as the gold standard. Results: Normal brain (321 spectra), glioma (246 spectra) and medulloblastoma (82 spectra) were identified with 96.9, 96.7 and 93.9% accuracy, respectively, when compared with each other. High-grade ependymomas (41 spectra) were differentiated from low-grade ependymomas (25 spectra) with 100% sensitivity and 96.0% specificity. Normal brain tissue was distinguished from low-grade glioma (118 spectra) with 91.5% sensitivity and 97.8% specificity. For these analyses, the tissue-level classification was determined to be 100% accurate. Conclusion: These results suggest Raman spectroscopy can accurately distinguish pediatric brain neoplasms from normal brain tissue, similar tumor types from each other and high-grade from low-grade tumors.

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Erythrocyte sodium-lithium countertransport and blood pressure in identical twin pairs discordant for insulin dependent diabetes.

Hardman

Dubrey

Leslie

et al. 1992

BMJ

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Objective-To investigate whether insulin dependent diabetes is responsible for the abnormal behaviour of the carrier in sodium-lithium countertransport and whether the diabetic state is associated with rise in blood pressure.Design-Case-control study. Conclusions-The raised erythrocyte sodiumlithium countertransport activity in the diabetic twins compared with the controls seems to be inherited rather than a consequence of overt diabetes. The higher systolic blood pressure in diabetic twins than non-diabetic cotwins indicates that insulin dependent diabetes does exert a small influence on systolic blood pressure.

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Effect of Insulin-Dependent Diabetes Mellitus on Lipids and Lipoproteins: A Study of Identical Twins

Dubrey

Reaveley

Leslie

et al. 1993

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1. Forty-five identical twin pairs, discordant for insulin-dependent diabetes mellitus, were studied with respect to their serum lipid (high-density lipoprotein, low-density lipoprotein, total cholesterol and triacyl-glycerol) and apoprotein [apoprotein A-I, apoprotein B and lipoprotein (a)] concentrations and apoprotein (a) phenotypes. The twins were compared with an age- and sex-matched non-diabetic control group. 2. A significantly higher value was found only for high-density lipoprotein cholesterol in the diabetic twins of the female twin pairs. 3. Highly significant correlations existed between the twin pairs for all lipids and lipoproteins measured, particularly lipoprotein (a), for which identical apoprotein (a) isoforms were also found. 4. Correlations existed between the non-diabetic twins and the control subjects for high-density lipoprotein cholesterol and apoprotein A-I, probably due to the rigorous matching of control subjects. 5. The similarity between values for lipids and lipoproteins in the non-diabetic twins and control subjects suggested no effect of a genetic susceptibility to insulin-dependent diabetes mellitus. The differences in lipoproteins we describe for the identical twins discordant for insulin-dependent diabetes mellitus, in whom there was no evidence of a raised urinary albumin excretion rate, does not appear to explain the excess mortality from cardiovascular disease reported in patients with this disease.

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David G. Leslie

Identification of Pediatric Brain Neoplasms Using Raman Spectroscopy

Erythrocyte sodium-lithium countertransport and blood pressure in identical twin pairs discordant for insulin dependent diabetes.

Effect of Insulin-Dependent Diabetes Mellitus on Lipids and Lipoproteins: A Study of Identical Twins

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