: Implications for pathologic classification. Zhou M, Yang XJ, Lopez JI, Shah RB, Hes O, Shen SS, Li R, Yang Y, Lin F, Elson P, Sercia L, Magi-Galluzzi C, Tubbs R. Am J Surg Pathol. 2009 Dec;33(12):1840-9.PMID: 19898225
Cleveland Clinic, Cleveland, OH, USA. zhoum@ccf.org
Tubulocystic carcinoma of the kidney (TC-RCC) is a rare renal tumor with unique gross and microscopic features unlike other types of renal cell carcinoma (RCC). Several recent studies recommend that it should be classified as a distinct RCC subtype. In this study, we provide pathologic and cytogenetic evidence supporting that TC-RCC is closely related to papillary RCC (PRCC).
This study included 20 cases of renal tumors that partially or exclusively comprised a TC-RCC component. Pathologic examination documented the gross and microscopic features of TC-RCC, including multicentricity and the presence of concomitant PRCC and papillary adenoma. Formalin-fixed, paraffin-embedded sections from 12 TC-RCC and 20 PRCC were subjected to a multicolor fluorescence in situ hybridization assay containing probes for chromosomes 7, 17, and Y. One hundred nuclei were examined to enumerate the copy numbers of chromosomes in each tumor and its corresponding normal kidney tissue. A tumor with a percentage of cells harboring a chromosomal change > or = mean+3 SD of normal tissue was considered to harbor that chromosomal change, and a tumor with a percentage of cells with null Y chromosome count (loss of Y chromosome) > or = mean+3 SD of normal tissue was considered to harbor Y chromosome loss. Four of the 20 TC-RCCs were multicentric. Ten had associated PRCC or papillary adenoma within the same kidney as the TC-RCC. In 4 cases, the tubulocystic and papillary components were admixed together within the same lesion. The tumor cells lining both the tubulocystic and papillary components had similar cytologic features. Ten of 12 TC-RCCs had a chromosome 7 gain, 8 of 12 cases had a chromosome 17 gain, and 8 of 9 cases had a loss of Y chromosome. Six of 9 cases with all 3 chromosomes studied had a gain of chromosomes 7 and 17 and a loss of Y chromosome.
Our study shows that TC-RCCs and PRCCs are closely related entities. With its distinctive gross and microscopic features, TC-RCC may be considered a unique "morphologic entity." However, before it is accepted as a distinct renal cell carcinoma subtype, further studies are needed to document a characteristic molecular signature associated with this tumor.
PMID: 19898225
Sunday, January 3, 2010
The basaloid cell is the best tissue marker for human papillomavirus in invasive penile squamous cell carcinoma: a study of 202 cases from Paraguay. Cubilla AL, Lloveras B, Alejo M, Clavero O, Chaux A, Kasamatsu E, Velazquez EF, Lezcano C, Monfulleda N, Tous S, Alemany L, Klaustermeier J, Muñoz N, Quint W, de Sanjose S, Bosch FX. Am J Surg Pathol. 2010 Jan;34(1):104-14.PMID: 20035150
Instituto de Patología e Investigación, Asunción, Paraguay. acubilla@institutodepatologia.com.py
Human papillomavirus (HPV) has been reported in 12-82% of penile squamous cell carcinomas (SCC). There is an association of the virus with basaloid and warty carcinomas but the reported prevalence is variable. The causes of these variations are not clear. They may be owing to geographic differences, the use of different techniques to detect HPV, the status of the original paraffin blocks, or to variable criteria in tumor classification. The aims of the study were to determine the prevalence of HPV in penile SCC and subtypes using a sensitive technique, to investigate genotypes involved, and to search for other morphologic features associated with the virus from a series of cases from Paraguay. HPV detection was done by SPF-10 polymerase chain reaction followed by DNA enzyme-immunoassay and genotyping by LIPA 25 (version 1). Samples were tested at Catalan Institute of Oncology, Barcelona, and cross testing was carried out at the Delft Diagnostic Laboratories in The Netherlands. HPV was detected in 64 of 202 cases (32%). Thirteen tumors had multiple HPV genotypes. Most prevalent genotypes were HPV-16 (46 cases), HPV-6 (6 cases), and HPV-18 (4 cases), either in single or in multiple infections. HPV was preferentially associated with warty-basaloid (82%), basaloid (76%), and warty (39%) carcinomas and not detected in verrucous, mixed verrucous-papillary, pseudohyperplastic, and pseudoglandular SCCs. There was a strong association between HPV and higher histologic grade. Basaloid cells were more frequently found in HPV positive tumors (72%) and this association was statistically significant in univariate and multivariate analyses. Cells with koilocytotic features and keratinizing squamous cells were also present but to a much lesser degree (47% and 19%, respectively). In summary, HPV was found in a third of the cases and the most common genotype was HPV-16. Low-risk genotypes were rarely found in single infections, representing 4 cases among all analyzed (2%). There was an association between HPV presence and higher histologic grade and with basaloid, warty-basaloid, and warty carcinomas. Our results also suggest that, in penile SCC, the basaloid cell is the best tissue marker for oncogenic HPV infection.
PMID: 20035150
Instituto de Patología e Investigación, Asunción, Paraguay. acubilla@institutodepatologia.com.py
Human papillomavirus (HPV) has been reported in 12-82% of penile squamous cell carcinomas (SCC). There is an association of the virus with basaloid and warty carcinomas but the reported prevalence is variable. The causes of these variations are not clear. They may be owing to geographic differences, the use of different techniques to detect HPV, the status of the original paraffin blocks, or to variable criteria in tumor classification. The aims of the study were to determine the prevalence of HPV in penile SCC and subtypes using a sensitive technique, to investigate genotypes involved, and to search for other morphologic features associated with the virus from a series of cases from Paraguay. HPV detection was done by SPF-10 polymerase chain reaction followed by DNA enzyme-immunoassay and genotyping by LIPA 25 (version 1). Samples were tested at Catalan Institute of Oncology, Barcelona, and cross testing was carried out at the Delft Diagnostic Laboratories in The Netherlands. HPV was detected in 64 of 202 cases (32%). Thirteen tumors had multiple HPV genotypes. Most prevalent genotypes were HPV-16 (46 cases), HPV-6 (6 cases), and HPV-18 (4 cases), either in single or in multiple infections. HPV was preferentially associated with warty-basaloid (82%), basaloid (76%), and warty (39%) carcinomas and not detected in verrucous, mixed verrucous-papillary, pseudohyperplastic, and pseudoglandular SCCs. There was a strong association between HPV and higher histologic grade. Basaloid cells were more frequently found in HPV positive tumors (72%) and this association was statistically significant in univariate and multivariate analyses. Cells with koilocytotic features and keratinizing squamous cells were also present but to a much lesser degree (47% and 19%, respectively). In summary, HPV was found in a third of the cases and the most common genotype was HPV-16. Low-risk genotypes were rarely found in single infections, representing 4 cases among all analyzed (2%). There was an association between HPV presence and higher histologic grade and with basaloid, warty-basaloid, and warty carcinomas. Our results also suggest that, in penile SCC, the basaloid cell is the best tissue marker for oncogenic HPV infection.
PMID: 20035150
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