TY - JOUR
T1 - Virtual karyotyping with SNP microarrays reduces uncertainty in the diagnosis of renal epithelial tumors
AU - Hagenkord, Jill M.
AU - Parwani, Anil V.
AU - Lyons-Weiler, Maureen A.
AU - Alvarez, Karla
AU - Amato, Robert
AU - Gatalica, Zoran
AU - Gonzalez-Berjon, Jose M.
AU - Peterson, Leif
AU - Dhir, Rajiv
AU - Monzon, Federico A.
N1 - Funding Information:
The authors wish to acknowledge the assistance of the Health Sciences Tissue Bank at the University of Pittsburg, the clinical work performed by the FISH laboratory at UPMC and the support from the Clinical Genomics Facility at the University of Pittsburgh. Funding sources include departmental funding from the departments of pathology at the University of Pittsburgh and The Methodist Hospital and a Research Scholar Award for FAM from The Methodist Research Institute (TMHRI).
PY - 2008
Y1 - 2008
N2 - Background. Renal epithelial tumors are morphologically, biologically, and clinically heterogeneous. Different morphologic subtypes require specific management due to markedly different prognosis and response to therapy. Each common subtype has characteristic chromosomal gains and losses, including some with prognostic value. However, copy number information has not been readily accessible for clinical purposes and thus has not been routinely used in the diagnostic evaluation of these tumors. This information can be useful for classification of tumors with complex or challenging morphology. 'Virtual karyotypes' generated using SNP arrays can readily detect characteristic chromosomal lesions in paraffin embedded renal tumors and can be used to correctly categorize the common subtypes with performance characteristics that are amenable for routine clinical use. Methods. To investigate the use of virtual karyotypes for diagnostically challenging renal epithelial tumors, we evaluated 25 archived renal neoplasms where sub-classification could not be definitively rendered based on morphology and other ancillary studies. We generated virtual karyotypes with the Affymetrix 10 K 2.0 mapping array platform and identified the presence of genomic lesions across all 22 autosomes. Results. In 91% of challenging cases the virtual karyotype unambiguously detected the presence or absence of chromosomal aberrations characteristic of one of the common subtypes of renal epithelial tumors, while immunohistochemistry and fluorescent in situ hybridization had no or limited utility in the diagnosis of these tumors. Conclusion. These results show that virtual karyotypes generated by SNP arrays can be used as a practical ancillary study for the classification of renal epithelial tumors with complex or ambiguous morphology.
AB - Background. Renal epithelial tumors are morphologically, biologically, and clinically heterogeneous. Different morphologic subtypes require specific management due to markedly different prognosis and response to therapy. Each common subtype has characteristic chromosomal gains and losses, including some with prognostic value. However, copy number information has not been readily accessible for clinical purposes and thus has not been routinely used in the diagnostic evaluation of these tumors. This information can be useful for classification of tumors with complex or challenging morphology. 'Virtual karyotypes' generated using SNP arrays can readily detect characteristic chromosomal lesions in paraffin embedded renal tumors and can be used to correctly categorize the common subtypes with performance characteristics that are amenable for routine clinical use. Methods. To investigate the use of virtual karyotypes for diagnostically challenging renal epithelial tumors, we evaluated 25 archived renal neoplasms where sub-classification could not be definitively rendered based on morphology and other ancillary studies. We generated virtual karyotypes with the Affymetrix 10 K 2.0 mapping array platform and identified the presence of genomic lesions across all 22 autosomes. Results. In 91% of challenging cases the virtual karyotype unambiguously detected the presence or absence of chromosomal aberrations characteristic of one of the common subtypes of renal epithelial tumors, while immunohistochemistry and fluorescent in situ hybridization had no or limited utility in the diagnosis of these tumors. Conclusion. These results show that virtual karyotypes generated by SNP arrays can be used as a practical ancillary study for the classification of renal epithelial tumors with complex or ambiguous morphology.
UR - http://www.scopus.com/inward/record.url?scp=57049083488&partnerID=8YFLogxK
UR - http://www.scopus.com/inward/citedby.url?scp=57049083488&partnerID=8YFLogxK
U2 - 10.1186/1746-1596-3-44
DO - 10.1186/1746-1596-3-44
M3 - Article
C2 - 18990225
AN - SCOPUS:57049083488
SN - 1746-1596
VL - 3
JO - Diagnostic Pathology
JF - Diagnostic Pathology
IS - 1
M1 - 44
ER -