Fiona Warde
YOU?
Author Swipe
View article: Supplementary Figure 2 from <i>TMPRSS2-ERG</i> Status Is Not Prognostic Following Prostate Cancer Radiotherapy: Implications for Fusion Status and DSB Repair
Supplementary Figure 2 from <i>TMPRSS2-ERG</i> Status Is Not Prognostic Following Prostate Cancer Radiotherapy: Implications for Fusion Status and DSB Repair Open
Supplementary Figure 2 - PDF file 71K, Construction of biopsy TMA blocks. Four millimeter length of the needle biopsy core (previously delimited by pathologist) is cut out from the original formalin fixed paraffin embedded tissue block. A …
View article: Supplementary Figure 2 from <i>TMPRSS2-ERG</i> Status Is Not Prognostic Following Prostate Cancer Radiotherapy: Implications for Fusion Status and DSB Repair
Supplementary Figure 2 from <i>TMPRSS2-ERG</i> Status Is Not Prognostic Following Prostate Cancer Radiotherapy: Implications for Fusion Status and DSB Repair Open
Supplementary Figure 2 - PDF file 71K, Construction of biopsy TMA blocks. Four millimeter length of the needle biopsy core (previously delimited by pathologist) is cut out from the original formalin fixed paraffin embedded tissue block. A …
View article: Data from <i>TMPRSS2-ERG</i> Status Is Not Prognostic Following Prostate Cancer Radiotherapy: Implications for Fusion Status and DSB Repair
Data from <i>TMPRSS2-ERG</i> Status Is Not Prognostic Following Prostate Cancer Radiotherapy: Implications for Fusion Status and DSB Repair Open
Background: Preclinical data suggest that TMPRSS2-ERG gene fusions, present in about 50% of prostate cancers, may be a surrogate for DNA repair status and therefore a biomarker for DNA-damaging agents. To test this hypothesis, we examined …
View article: Supplementary Figure 3 from <i>TMPRSS2-ERG</i> Status Is Not Prognostic Following Prostate Cancer Radiotherapy: Implications for Fusion Status and DSB Repair
Supplementary Figure 3 from <i>TMPRSS2-ERG</i> Status Is Not Prognostic Following Prostate Cancer Radiotherapy: Implications for Fusion Status and DSB Repair Open
Supplementary Figure 3 - PDF file 164K, A) Univariate Kaplan-Meier plots of biochemical relapse-free rates (bRFR) according to PSA levels in the aCGH-cohort. B) Univariate Kaplan-Meier plots of biochemical relapse-free rates (bRFR) accordi…
View article: Supplementary Figure 7 from <i>TMPRSS2-ERG</i> Status Is Not Prognostic Following Prostate Cancer Radiotherapy: Implications for Fusion Status and DSB Repair
Supplementary Figure 7 from <i>TMPRSS2-ERG</i> Status Is Not Prognostic Following Prostate Cancer Radiotherapy: Implications for Fusion Status and DSB Repair Open
Supplementary Figure 7 - PDF file 106K, Univariate Kaplan-Meier plots of bRFR versus time to recurrence for the Memorial Sloan Kettering Prostate Cancer cohort of patients who underwent surgery with differential ERG status based on mRNA ex…
View article: Supplementary Figure 1 from <i>TMPRSS2-ERG</i> Status Is Not Prognostic Following Prostate Cancer Radiotherapy: Implications for Fusion Status and DSB Repair
Supplementary Figure 1 from <i>TMPRSS2-ERG</i> Status Is Not Prognostic Following Prostate Cancer Radiotherapy: Implications for Fusion Status and DSB Repair Open
Supplementary Figure 1 - PDF file 49K, Schematic representation of TMPRSS2-ERG fusion allele in the chromosome 21q22.2/21q22.3. Gene positions are based on NCBI36/hg18 human genome reference
View article: Supplementary Figure 7 from <i>TMPRSS2-ERG</i> Status Is Not Prognostic Following Prostate Cancer Radiotherapy: Implications for Fusion Status and DSB Repair
Supplementary Figure 7 from <i>TMPRSS2-ERG</i> Status Is Not Prognostic Following Prostate Cancer Radiotherapy: Implications for Fusion Status and DSB Repair Open
Supplementary Figure 7 - PDF file 106K, Univariate Kaplan-Meier plots of bRFR versus time to recurrence for the Memorial Sloan Kettering Prostate Cancer cohort of patients who underwent surgery with differential ERG status based on mRNA ex…
View article: Supplementary Figure 1 from <i>TMPRSS2-ERG</i> Status Is Not Prognostic Following Prostate Cancer Radiotherapy: Implications for Fusion Status and DSB Repair
Supplementary Figure 1 from <i>TMPRSS2-ERG</i> Status Is Not Prognostic Following Prostate Cancer Radiotherapy: Implications for Fusion Status and DSB Repair Open
Supplementary Figure 1 - PDF file 49K, Schematic representation of TMPRSS2-ERG fusion allele in the chromosome 21q22.2/21q22.3. Gene positions are based on NCBI36/hg18 human genome reference
View article: Supplementary Figure 6 from <i>TMPRSS2-ERG</i> Status Is Not Prognostic Following Prostate Cancer Radiotherapy: Implications for Fusion Status and DSB Repair
Supplementary Figure 6 from <i>TMPRSS2-ERG</i> Status Is Not Prognostic Following Prostate Cancer Radiotherapy: Implications for Fusion Status and DSB Repair Open
Supplementary Figure 6 - PDF file 113K, Univariate Kaplan-Meier plots of bRFR versus time to recurrence for the Memorial Sloan Kettering Prostate Cancer cohort of patients who underwent surgery with differential TMPRSS2-ERG fusion status b…
View article: Supplementary Figure 4 from <i>TMPRSS2-ERG</i> Status Is Not Prognostic Following Prostate Cancer Radiotherapy: Implications for Fusion Status and DSB Repair
Supplementary Figure 4 from <i>TMPRSS2-ERG</i> Status Is Not Prognostic Following Prostate Cancer Radiotherapy: Implications for Fusion Status and DSB Repair Open
Supplementary Figure 4 - PDF file 122K, Univariate Kaplan-Meier plots of biochemical relapse-free survival in a subgroup of patients treated with androgen deprivation therapy (ADT) in the (A) aCGH- and (B) IHC-cohorts
View article: Supplementary Figure 3 from <i>TMPRSS2-ERG</i> Status Is Not Prognostic Following Prostate Cancer Radiotherapy: Implications for Fusion Status and DSB Repair
Supplementary Figure 3 from <i>TMPRSS2-ERG</i> Status Is Not Prognostic Following Prostate Cancer Radiotherapy: Implications for Fusion Status and DSB Repair Open
Supplementary Figure 3 - PDF file 164K, A) Univariate Kaplan-Meier plots of biochemical relapse-free rates (bRFR) according to PSA levels in the aCGH-cohort. B) Univariate Kaplan-Meier plots of biochemical relapse-free rates (bRFR) accordi…
View article: Supplementary Figure 4 from <i>TMPRSS2-ERG</i> Status Is Not Prognostic Following Prostate Cancer Radiotherapy: Implications for Fusion Status and DSB Repair
Supplementary Figure 4 from <i>TMPRSS2-ERG</i> Status Is Not Prognostic Following Prostate Cancer Radiotherapy: Implications for Fusion Status and DSB Repair Open
Supplementary Figure 4 - PDF file 122K, Univariate Kaplan-Meier plots of biochemical relapse-free survival in a subgroup of patients treated with androgen deprivation therapy (ADT) in the (A) aCGH- and (B) IHC-cohorts
View article: Data from <i>TMPRSS2-ERG</i> Status Is Not Prognostic Following Prostate Cancer Radiotherapy: Implications for Fusion Status and DSB Repair
Data from <i>TMPRSS2-ERG</i> Status Is Not Prognostic Following Prostate Cancer Radiotherapy: Implications for Fusion Status and DSB Repair Open
Background: Preclinical data suggest that TMPRSS2-ERG gene fusions, present in about 50% of prostate cancers, may be a surrogate for DNA repair status and therefore a biomarker for DNA-damaging agents. To test this hypothesis, we examined …
View article: Supplementary Material from <i>TMPRSS2-ERG</i> Status Is Not Prognostic Following Prostate Cancer Radiotherapy: Implications for Fusion Status and DSB Repair
Supplementary Material from <i>TMPRSS2-ERG</i> Status Is Not Prognostic Following Prostate Cancer Radiotherapy: Implications for Fusion Status and DSB Repair Open
Supplementary Material - PDF file 121K, Supplementary figue legends and supplementary tables
View article: Supplementary Material from <i>TMPRSS2-ERG</i> Status Is Not Prognostic Following Prostate Cancer Radiotherapy: Implications for Fusion Status and DSB Repair
Supplementary Material from <i>TMPRSS2-ERG</i> Status Is Not Prognostic Following Prostate Cancer Radiotherapy: Implications for Fusion Status and DSB Repair Open
Supplementary Material - PDF file 121K, Supplementary figue legends and supplementary tables
View article: Supplementary Figure 5 from <i>TMPRSS2-ERG</i> Status Is Not Prognostic Following Prostate Cancer Radiotherapy: Implications for Fusion Status and DSB Repair
Supplementary Figure 5 from <i>TMPRSS2-ERG</i> Status Is Not Prognostic Following Prostate Cancer Radiotherapy: Implications for Fusion Status and DSB Repair Open
Supplementary Figure 5 - PDF file 61K, Univariate Kaplan-Meier plots of biochemical relapse-free survival in a subgroup of patients treated without androgen deprivation therapy (ADT) in the (A) aCGH- and (B) IHC-cohorts
View article: Supplementary Figure 6 from <i>TMPRSS2-ERG</i> Status Is Not Prognostic Following Prostate Cancer Radiotherapy: Implications for Fusion Status and DSB Repair
Supplementary Figure 6 from <i>TMPRSS2-ERG</i> Status Is Not Prognostic Following Prostate Cancer Radiotherapy: Implications for Fusion Status and DSB Repair Open
Supplementary Figure 6 - PDF file 113K, Univariate Kaplan-Meier plots of bRFR versus time to recurrence for the Memorial Sloan Kettering Prostate Cancer cohort of patients who underwent surgery with differential TMPRSS2-ERG fusion status b…
View article: Supplementary Figure 5 from <i>TMPRSS2-ERG</i> Status Is Not Prognostic Following Prostate Cancer Radiotherapy: Implications for Fusion Status and DSB Repair
Supplementary Figure 5 from <i>TMPRSS2-ERG</i> Status Is Not Prognostic Following Prostate Cancer Radiotherapy: Implications for Fusion Status and DSB Repair Open
Supplementary Figure 5 - PDF file 61K, Univariate Kaplan-Meier plots of biochemical relapse-free survival in a subgroup of patients treated without androgen deprivation therapy (ADT) in the (A) aCGH- and (B) IHC-cohorts
View article: Plain language communication as a priority competency for medical professionals in a globalized world
Plain language communication as a priority competency for medical professionals in a globalized world Open
This brief report aims to highlight the impact of globalization – the international movement of goods, people, and ideas – on patient-provider communication in medical training and practice, and how the implementation of plain language com…