Your search keyword '"Brendan Yee"' showing total 4 results

1. Validation of whole-blood transcriptome signature during microdose recombinant human erythropoietin (rHuEpo) administration

Author

Guan Wang, Jérôme Durussel, Jonathan Shurlock, Martin Mooses, Noriyuki Fuku, Georgie Bruinvels, Charles Pedlar, Richard Burden, Andrew Murray, Brendan Yee, Anne Keenan, John D. McClure, Pierre-Edouard Sottas, and Yannis P. Pitsiladis

Subjects

Recombinant human erythropoietin, Whole blood, Transcriptome, Altitude, Exercise, Athlete biological passport, Biotechnology, TP248.13-248.65, Genetics, QH426-470

Abstract

Abstract Background Recombinant human erythropoietin (rHuEpo) can improve human performance and is therefore frequently abused by athletes. As a result, the World Anti-Doping Agency (WADA) introduced the Athlete Biological Passport (ABP) as an indirect method to detect blood doping. Despite this progress, challenges remain to detect blood manipulations such as the use of microdoses of rHuEpo. Methods Forty-five whole-blood transcriptional markers of rHuEpo previously derived from a high-dose rHuEpo administration trial were used to assess whether microdoses of rHuEpo could be detected in 14 trained subjects and whether these markers may be confounded by exercise (n = 14 trained subjects) and altitude training (n = 21 elite runners and n = 4 elite rowers, respectively). Differential gene expression analysis was carried out following normalisation and significance declared following application of a 5% false discovery rate (FDR) and a 1.5 fold-change. Adaptive model analysis was also applied to incorporate these markers for the detection of rHuEpo. Results ALAS2, BCL2L1, DCAF12, EPB42, GMPR, SELENBP1, SLC4A1, TMOD1 and TRIM58 were differentially expressed during and throughout the post phase of microdose rHuEpo administration. The CD247 and TRIM58 genes were significantly up- and down-regulated, respectively, immediately following exercise when compared with the baseline both before and after rHuEpo/placebo. No significant gene expression changes were found 30 min after exercise in either rHuEpo or placebo groups. ALAS2, BCL2L1, DCAF12, SLC4A1, TMOD1 and TRIM58 tended to be significantly expressed in the elite runners ten days after arriving at altitude and one week after returning from altitude (FDR > 0.059, fold-change varying from 1.39 to 1.63). Following application of the adaptive model, 15 genes showed a high sensitivity (≥ 93%) and specificity (≥ 71%), with BCL2L1 and CSDA having the highest sensitivity (93%) and specificity (93%). Conclusions Current results provide further evidence that transcriptional biomarkers can strengthen the ABP approach by significantly prolonging the detection window and improving the sensitivity and specificity of blood doping detection. Further studies are required to confirm, and if necessary, integrate the confounding effects of altitude training on blood doping.

Published

2017

2. Validation of whole-blood transcriptome signature during microdose recombinant human erythropoietin (rHuEpo) administration

Author

Jérôme Durussel, Pierre-Edouard Sottas, Jonathan Shurlock, Georgie Bruinvels, Anne Keenan, Richard Burden, Charles R. Pedlar, John D. McClure, Martin Mooses, Yannis P. Pitsiladis, Brendan Yee, Guang Wang, Noriyuki Fuku, and Andrew Murray

Subjects

Male, 0301 basic medicine, Oncology, Bioinformatics, 0302 clinical medicine, Blood doping, MicroDose, athlete biological passport, excercise, Athlete biological passport, Whole blood, Doping in Sports, Hematology, Altitude, Confounding, Recombinant Proteins, altitude, Biotechnology, medicine.drug, Adult, medicine.medical_specialty, lcsh:QH426-470, lcsh:Biotechnology, Biology, Placebo, Models, Biological, 03 medical and health sciences, Altitude training, lcsh:TP248.13-248.65, Internal medicine, Genetics, medicine, Humans, recombinant human erythropoietin, Erythropoietin, Exercise, Recombinant human erythropoietin, Dose-Response Relationship, Drug, Research, whole blood, 030229 sport sciences, lcsh:Genetics, 030104 developmental biology, Transcriptome, transcriptome

Abstract

Background Recombinant human erythropoietin (rHuEpo) can improve human performance and is therefore frequently abused by athletes. As a result, the World Anti-Doping Agency (WADA) introduced the Athlete Biological Passport (ABP) as an indirect method to detect blood doping. Despite this progress, challenges remain to detect blood manipulations such as the use of microdoses of rHuEpo. Methods Forty-five whole-blood transcriptional markers of rHuEpo previously derived from a high-dose rHuEpo administration trial were used to assess whether microdoses of rHuEpo could be detected in 14 trained subjects and whether these markers may be confounded by exercise (n = 14 trained subjects) and altitude training (n = 21 elite runners and n = 4 elite rowers, respectively). Differential gene expression analysis was carried out following normalisation and significance declared following application of a 5% false discovery rate (FDR) and a 1.5 fold-change. Adaptive model analysis was also applied to incorporate these markers for the detection of rHuEpo. Results ALAS2, BCL2L1, DCAF12, EPB42, GMPR, SELENBP1, SLC4A1, TMOD1 and TRIM58 were differentially expressed during and throughout the post phase of microdose rHuEpo administration. The CD247 and TRIM58 genes were significantly up- and down-regulated, respectively, immediately following exercise when compared with the baseline both before and after rHuEpo/placebo. No significant gene expression changes were found 30 min after exercise in either rHuEpo or placebo groups. ALAS2, BCL2L1, DCAF12, SLC4A1, TMOD1 and TRIM58 tended to be significantly expressed in the elite runners ten days after arriving at altitude and one week after returning from altitude (FDR > 0.059, fold-change varying from 1.39 to 1.63). Following application of the adaptive model, 15 genes showed a high sensitivity (≥ 93%) and specificity (≥ 71%), with BCL2L1 and CSDA having the highest sensitivity (93%) and specificity (93%). Conclusions Current results provide further evidence that transcriptional biomarkers can strengthen the ABP approach by significantly prolonging the detection window and improving the sensitivity and specificity of blood doping detection. Further studies are required to confirm, and if necessary, integrate the confounding effects of altitude training on blood doping. Electronic supplementary material The online version of this article (10.1186/s12864-017-4191-7) contains supplementary material, which is available to authorized users.

Published

2017

3. Molecular classification of breast cancer patients using formalin-fixed paraffin-embedded derived RNA samples

Author

Brendan Yee, Christian Saliba, Godfrey Grech, Shawn Baldacchino, Keith Sacco, and Christian Scerri

Subjects

0301 basic medicine, Receptor Status, Pathology, medicine.medical_specialty, Biochemical markers, RNA, Biology, medicine.disease, Breast -- Cancer -- Patients, 03 medical and health sciences, Basal (phylogenetics), 030104 developmental biology, Breast cancer, Gene expression, medicine, Immunohistochemistry, Multiplex, Breast -- Cancer -- Molecular aspects, Triple-negative breast cancer

Abstract

The use of archival formalin-fixed paraffin-embedded (FFPE) material to analyse gene expression is limited by the low quality of extracted RNA. In this paper, we utilised an RNA based assay to quantify expression of luminal and basal markers, together with ERBB2 probes, in FFPE archival tissue from 2009 to 2010, all of which had clinical and therapeutic information of more than 5 years. Receptor status of the patients was characterised using the QuantiGene® Plex assay with 100% concordance to immunohistochemical (IHC) and fluorescence in situ hybridisation (FISH) results. A panel of molecular markers known to classify luminal and basal tumours were used and correlated with receptor status of the tumours. As expected, the triple negative breast cancer (TNBC) samples were classified as basal and oestrogen receptor (ER) positive cases as luminal. In summary, the QuantiGene® Plex technology provides a platform to quantitate novel panels of biomarkers on archival material. Moreover, multiplex analysis allows the use of minimal amounts of material providing an opportunity to utilise laser micro-dissected material. FFPE tissue samples are an invaluable resource for retrospective studies to interrogate current novel biomarkers, particularly to generate disease free survival and overall survival graphs to measure predictive value using well annotated retrospective samples with full clinical and pharmacological outcomes., This study was funded by the Faculty of Medicine and Surgery, University of Malta and the Italia Malta Genome Breast Cancer Cross Border Risk Surveillance (ImaGenX) project financed under Operational Program Italia Malta 2007-2013 and co-financed by the University of Malta., peer-reviewed

Published

2016

4. New A2™ Protein MicroArray System for Multiplexed Biochemical Analysis Delivers Thousands of Results in a Single Plate

Author

Brendan Yee

Subjects

Medical Laboratory Technology, Computer Science Applications

Published

2003