Evaluation of tumor heterogeneity of prostate carcinoma by flow- and image DNA cytometry and histopathological grading.

BACKGROUND: Heterogeneity of prostate carcinoma is one of the reasons for pretreatment underestimation of tumor aggressiveness. We studied tumor heterogeneity and the probability of finding the highest tumor grade and DNA aneuploidy with relation to the number of biopsies. MATERIAL AND METHODS: Specimens simulating core biopsies from five randomly selected tumor areas from each of 16 B?cking's grade II and 23 grade III prostate carcinomas were analyzed for tumor grade and DNA ploidy by flow- and fluorescence image cytometry (FCM, FICM). Cell cycle composition was measured by FCM. RESULTS: By determination of ploidy and cell cycle composition, morphologically defined tumors can further be subdivided. Heterogeneity of tumor grade and DNA ploidy (FCM) was 54% and 50%. Coexistence of diploid tumor cells in aneuploid specimens represents another form of tumor heterogeneity. The proportion of diploid tumor cells decreased significantly with tumor grade and with increase in the fraction of proliferating cell of the aneuploid tumor part. The probability of estimating the highest tumor grade or aneuploidy increased from 40% for one biopsy to 95% for 5 biopsies studied. By combining the tumor grade with DNA ploidy, the probability of detecting a highly aggressive tumor increased from 40% to 70% and 90% for one and two biopsies, respectively. CONCLUSION: Specimens of the size of core biopsies can be used for evaluation of DNA ploidy and cell cycle composition. Underestimation of aggressiveness of prostate carcinoma due to tumor heterogeneity is minimized by simultaneous study of the tumor grade and DNA ploidy more than by increasing the number of biopsies. The biological significance of coexistent diploid tumor cell in aneuploid lesions remains to be evaluated.     

Prognostic significance of DNA aneuploidy and p21 ras oncoprotein expression in colorectal cancer and their role in the determination of treatment modalities

The purpose of the present study was to investigate the prognostic significance of DNA ploidy, S-phase fraction and p21 ras oncoprotein expression in patients with colorectal cancer and to correlate these factors with the clinical behavior of the tumors and their response to therapy. Of 79 patients with colorectal cancer 57% (45/79) had early stage disease. Forty-one percent (32/79) had aneuploid tumors while 30% (24/79) of the tumors had a high (>10%) S-phase fraction. p21ras oncoprotein expression was detected in 38% (30/79) of tumors. Patients with aneuploid tumors had a worse prognosis than patients with diploid tumors (p=0.0002). Similarly, patients with high S-phase fraction tumors had a shorter survival than those with low S-phase fraction tumors (p=0.005). No such difference was found between p21 raspositive and p21 ras-negative tumor subgroups. In early stage colorectal cancer, aneuploidy was closely correlated with disease outcome (p=0.029). Early stage patients with diploid tumors who received radiotherapy and chemotherapy had a better prognosis than patients with aneuploid tumors. In conclusion, DNA ploidy is a significant and independent prognostic factor in colorectal cancer. Aneuploidy and genetic alteration of the p21 ras oncoprotein are important in determining the biological aggressiveness of colorectal cancer. Furthermore, DNA ploidy may identify those subgroups of patients with early stage disease who may benefit from more aggressive treatment.     

Flow cytometric bivariate analysis of DNA and cytokeratin in colorectal cancer.

Different opinions about flow cytometric estimates of DNA aneuploidy and/or S-phase fraction (SPF) as supplementary prognostic markers in colorectal cancer are to some degree associated with methodology. Using univariate DNA analysis, we have previously investigated the DNA ploidy in colorectal cancer, its heterogeneity within and between tumors and its relation to survival. To improve detection of DNA aneuploid subpopulations and particularly estimation of their SPF's we investigated a method for bivariate DNA/cytokeratin analysis on fine-needle aspirates of 728 frozen biopsies from 157 colorectal tumors. Unfixed aspirates were stained with propidium iodide and FITC-conjugated anti-cytokeratin antibody in a saponin-buffer. A significant association between SPF and debris was observed. There were no substantial difference in DNA ploidy patterns between univariate and bivariate measurements (concordance was 92-95%). No new DNA aneuploid subpopulations were detected in cytokeratin-gated compared to ungated or univariate histograms. Debris-adjusted SPF's of cytokeratin-gated histograms were significantly higher than of ungated histograms, also for subpopulations with DI>1.4 (p<0.0001). There was no significant association between SPF and survival.     

DNA ploidy and survival in breast cancer patients

Flow cytometric DNA ploidy measurements using frozen or deparaffinized tumor specimens were performed on 565 primary breast cancers from patients treated in the period 1975-1984. Twenty-nine percent of the cases were diploid, 61% had a single aneuploid stemline, and 10% were multiploid. Aneuploid tumors more often had negative estrogen receptor values than diploid tumors, but no significant correlation was found between ploidy class and TNM stage. Patients with more than ten positive axillary lymph nodes had predominantly aneuploid tumors. Overall and distant relapse-free survival were higher for patients with diploid tumors and low-aneuploid tumors. Stratification of the patients according to degree of lymph node involvement, TNM stage, and menopausal stage showed that the prognostic effect of aneuploidy was apparent predominantly in patients with locally advanced disease. Postmenopausal node-positive patients with diploid tumors had a significantly better prognosis than those with aneuploid tumors, but this difference was not found for the comparable premenopausal group. Multivariate analysis with the Cox proportional hazards model indicated that ploidy is an additional, independent prognostic factor in postmenopausal patients.     

DNA ploidy and S-phase fraction in carcinoma of the gallbladder related to histopathology, number of gallstones and survival.

Gallstones are a risk factor for the development of gallbladder cancer. We studied DNA ploidy and cell cycle composition by flow cytometry in archival specimens from 52 gall bladder carcinomas in relation to histopathological grade, tumour stage, gallstone number and survival. 69% of the gallbladder carcinomas showed aneuploidy. All tumours with single stones (N=11) were aneuploid while only 61% of tumours with multiple stones (N=41) were aneuploid (p=0.002). DNA aneuploidy was related to increase in T-category (p=0.01), grade (p=0.02), and nuclear pleomorphism (p=0.0005). The distribution of DNA ploidy shifted from tetraploid in low stage towards triploid positions in high stage tumours (p=0.02) combined with higher S-phase values in triploid tumours (p=0.05). S-phase fraction increased during development from normal tissue to dysplasia, cancer in situ and cancer in diploid cases (p=0.0002), and further at the change from diploid to aneuploid (p=0.004). At a median cancer specific survival time of four months patients with diploid tumours had a better survival than those with aneuploid tumours (p=0.02). In multivariate analysis of the tumour characteristic, only T-category and tumour grade were independent prognostic factors.The shift from diploid to aneuploid and the further shift of ploidy within aneuploid tumours are in agreement with the concept of a clonal development of gallbladder cancer. These changes are combined with a stepwise increase in the fraction of S-phase cells. Low frequency of symptoms in single stone patients may be the reason for detection of malignancy at a late stage of tumour development.     

Cell cycle flow cytometric analysis in the diagnosis and management of colorectal carcinoma

OBJECTIVE: To establish prognostic models and protocols for individualized management in colorectal carcinoma patients based on both clinical and DNA flow cytometric parameters. STUDY DESIGN: Prospective study of 88 colon carcinoma patients with a minimum follow-up of 12 months, operated on with the intent to cure and not treated with radiotherapy or chemotherapy. All the cases were subjected to a clinical evaluation: age, sex, tumor localization and size, histologic grade, tumor stage, disease-free interval, survival and flow cytometric study (ploidy, DNA index and S-phase fraction [SPF]). RESULTS: From the total of 88 neoplasms studied, 56 (63.6%) were from males and 32 (36.4%) from females; 30 (34%) were located in the right side of the colon, 7 (8%) in the transverse colon and 51 (58%) in the left side of the colon. Eleven (12.5%) were stage I, 52 (59.1%) stage II and 25 (28%) stage III. Forty-two (47.7%) were diploid and 46 (52.3%) aneuploid. The S-phase mean was 14.6% (12% for diploids and 16.9% for aneuploids). During the follow-up period, 26.1% of diploid tumors recurred, whereas aneuploid tumors recurred in 36.9% (P < .05). SPF from diploid and aneuploid tumors was analyzed separately. CONCLUSION: Regarding relapse-free interval, the behavior of diploid tumors with a high SPF was similar to that of aneuploid ones. Two kinetic profiles were established, favorable (diploid tumors with low S phase) and unfavorable (diploid with high S phase and all aneuploid tumors), that had significant prognostic value for progression and survival and that allowed identification of patients at high risk of recurrence. We formulated a prognostic index according to SPF and tumor stage that has discriminatory capacity for biologic behavior in colorectal tumors.     

DNA mapping of gastric cancers using flow cytometric analysis

Although numerous studies of gastric cancers on DNA ploidy have been reported, differences in the degree of aneuploidy (DNA index, DI) during progression have not been identified. We attempted to chart the differences in DIs during progression to clarify the role of aneuploidy in gastric cancers. We classified the gastric cancers examined into intestinal (n = 88) and diffuse (n = 48) types, and then analyzed 136 gastric cancers (intramucosal cancer, 42; submucosal cancer, 39; advanced cancer, 55) by flow cytometry using multiple sampling. In addition, we examined the DNA ploidy pattern of mucosal and submucosal lesions using the same submucosal cancers to study the tumor progression in individual cancers. Intratumoral DNA differences in DNA ploidy were observed in both types of gastric cancers. In intestinal-type cancers, multiple subclones indicated by a different DI occurred during the early stage of gastric cancers, whereas in diffuse-type cancers, multiple subclones were found primarily in advanced cancers. Although the DI varied widely in early intestinal-type cancers between 1.0 and 2.0, in early diffuse-type cancers, the DI tended to be less than 1.2. However, in advanced stage gastric cancers, the DI distribution was similar for both histological types. In intestinal-type cancers, high DI (>1.3) aneuploidy was frequently found in mucosal lesions. In contrast, only low DI (<1.2) aneuploid clones were observed in mucosal lesions of diffuse-type cancers. The present results suggest that high DI aneuploid tumor clones in intramucosal cancers acquire invasive ability when they progress to submucosal cancers, whereas DNA aneuploidy itself plays an important role in submucosal invasion of diffuse-type cancers.     

Combined DNA flow cytometry and sorting with k-ras2 mutation spectrum analysis and the prognosis of human sporadic colorectal cancer

BACKGROUND: Activation of the k-ras2 pathways and chromosomal instability leading to aneuploidy in human sporadic colorectal cancer (sCRC) is essential to the tumor cell ability to survive, grow, and metastatize. METHODS: The study included 135 patients with sCRC who were followed up for a median of 72 months. Multiple fresh-frozen fragments obtained from superficial and invasive areas of the tumors were mixed and used to detect the degree of DNA aneuploidy (DNA index [DI]) and S-phase fraction by two scatter signals and 4,6-diamidino-2-phenylindole-2-hydrocloride (DAPI) fluorescence flow cytometry (FCM). PCR amplification and k-ras2 mutation spectrum analysis were performed using enriched epithelial nuclei after sorting DNA aneuploid nuclei and DNA diploid nuclei from which tissue-infiltrating lymphocytes were absent. RESULTS: DNA aneuploidy was detected in 98 (73%) and k-ras2 mutations in 54 cases (40%). Univariate analyses of overall survival with both Dukes' A to D or B to C series of cases showed that DNA multiple aneuploidy, k-ras2 mutations, older age, and distal site, but not increased S-phase fraction, were predictive of worse outcome. Multivariate Cox models strongly indicated that k-ras2 mutations, but neither single nor multiple DNA aneuploidy, were an independent prognostic factor in both series of patients. In particular, with B and C Dukes' stage patients (n = 110), the relative risk (RR) of death was above 2.5 with k-ras2 mutations and above 3 with the G-->C/T transversions. CONCLUSION: Combined FCM and k-ras2 analysis may be used to predict long-term increased risk of death in sCRC patients.     

DNA ploidy pattern and amplification of ERBB and ERBB2 genes in human gastric carcinomas

The DNA ploidy pattern and amplification of ERBB and ERBB2 genes were examined in paraffin-embedded tissue from gastric carcinomas using flow cytometry and a slot-blot hybridization technique. The incidence of aneuploidy in well differentiated adenocarcinomas (56%) was significantly higher (p less than 0.05) than that in poorly differentiated adenocarcinomas (21%). The DNA ploidy pattern was not remarkably different between the primary tumors and metastatic deposits in lymph nodes. Of the nine specimens having an aneuploid stem cell line in the primary tumor and/or in metastases, three showed ERBB2 gene amplification and one showed ERBB gene amplification. The incidence of epidermal growth factor (EGF) immunoreactivity in tumor cells showed no difference between diploid and aneuploid tumors. These findings indicate that aneuploidy is frequently associated with amplification of ERBB and ERBB2 genes.     

DNA ploidy pattern and amplification of ERBB and ERBB2 genes in human gastric carcinomas

The DNA ploidy pattern and amplification of ERBB and ERBB2 genes were examined in paraffinembedded tissue from gastric carcinomas using flow cytometry and a slot-blot hybridization technique. The incidence of aneuploidy in well differentiated adenocarcinomas (56%) was significantly higher (p<0.05) than that in poorly differentiated adenocarcinomas (21%). The DNA ploidy pattern was not remarkably different between the primary tumors and metastatic deposits in lymph nodes. Of the nine specimens having an aneuploid stem cell line in the primary tumor and/or in metastases, three showed ERBB2 gene amplification and one showed ERBB gene amplification. The incidence of epidermal growth factor (EGF) immunoreactivity in tumor cells showed no difference between diploid and aneuploid tumors. These findings indicate that aneuploidy is frequently associated with amplification of ERBB and ERBB2 genes.     

Colorectal carcinoma. DNA ploidy pattern and prognosis with reference to tumor DNA heterogeneity.

Nuclear DNA content was measured in 72 colorectal carcinomas using single-cell microspectrophotometry on Feulgen-stained smears. Four samples were analyzed from each tumor. Patients were followed for 41-65 months (average, 53). DNA heterogeneity (both aneuploid and nonaneuploid patterns) was present in 44% of the cases. Sixty-eight percent of the tumors showed an aneuploid DNA pattern in at least one of the samples. Patients with nonaneuploid tumors tended to have a survival advantage over patients with homogeneously aneuploid tumors and demonstrated a significantly longer disease-free survival. The DNA ploidy pattern is of potential value in conjunction with histopathologic prognostic parameters in colorectal carcinoma. Since colorectal tumors exhibit pronounced DNA heterogeneity, multiple samples are required from each tumor to permit a proper evaluation of its DNA pattern. The DNA heterogeneity may represent tumor progression and can partly explain the conflicting results reported concerning DNA pattern and prognosis in colorectal carcinoma.     

Prognostic significance of DNA ploidy determined by high-resolution flow cytometry in breast carcinoma

OBJECTIVE: To assess the prognostic value of DNA ploidy in breast carcinoma and its relation to other established prognostic factors. STUDY DESIGN: We evaluated DNA ploidy in 303 breast carcinoma patients with a median follow-up of 63 months. Flow cytometry was performed on frozen tumor material, yielding histograms with narrow peaks (median coefficient of variation of 2.08). DNA ploidy pattern was classified as either diploid versus nondiploid, euploid (diploid and tetraploid) versus aneuploid or diploid/near-diploid (DNA index < 1.2) versus other, and correlated with relapse-free (RFS) and cancer-specific survival (CSS) along with tumor size, histologic grade and type, axillary lymph node involvement, menopausal and steroid receptor status, age and type of treatment. RESULTS: Seventy-one percent of tumors were DNA nondiploid (14% tetraploid and 57% aneuploid). There was a strong association between DNA ploidy and histologic grade. Histologic grade, lymph node status, tumor size and DNA ploidy (regardless of the classification used) were all significantly associated with RFS and CSS in multivariate analysis. CONCLUSION: These results suggest that DNA ploidy, at least when determined from frozen tumor tissue, is an independent prognostic factor in breast carcinoma; however, its prognostic power seems to be inferior to that of histologic grade, with which it strongly correlates.     

Analysis of Ki-ras gene mutations associated with DNA diploid, aneuploid, and multiploid colorectal carcinomas using a crypt isolation technique.

BACKGROUND AND AIM: Current evidence suggests a possible relationship between DNA ploidy status and Ki-ras gene mutations in human cancers. However, the conventional method does not enable accurate determination of DNA ploidy status of a tumor cell. The present study attempts to clarify whether Ki-ras gene mutations are associated with DNA ploidy status in sporadic colorectal carcinomas using a crypt isolation technique coupled with DNA cytometric sorting. METHODS: Polymerase chain reaction and single-strand conformation polymorphism and direct sequencing were used to analyze Ki-ras gene mutations in 82 sporadic colorectal carcinomas: 21 diploid, 12 aneuploid, and 49 multiploid. In addition, microsatellite instability (MSI) was assessed using seven microsatellite markers to study the relationship to Ki-ras mutations. RESULTS: Ki-ras mutations were found in 12 of 21 diploid carcinomas and in 8 of 12 aneuploid carcinomas. In contrast, Ki-ras gene mutations were detected infrequently in the 34 multiploid carcinomas examined, 8 of which were seen in diploid populations and 10 in aneuploid populations. On the other hand, Ki-ras gene mutations were inversely correlated with MSI, which was found in diploid carcinomas only. CONCLUSIONS: The low frequency of Ki-ras gene mutations that we observed in multiclonal colorectal carcinomas suggests that development of multiclonal colorectal carcinoma may involve a mechanism different from that involved in the development of diploid or aneuploid colorectal carcinomas.     

Comparison between flow cytometry and image cytometry in ploidy distribution assessments in gynecologic cancer.

The DNA content in 37 tumors from 34 women with gynecological cancer was measured by flow cytometry (FCM) and interactive image cytometry (ICM). Agreement was obtained in 81% of cases as regards ploidy levels, but seven tumors (19%) showed different ploidies. Of these, five were classified as diploid by FCM but either aneuploid (three cases) or polyploid (two cases) by ICM. Two other tumors were aneuploid by ICM but polyploid (one case) and unclassifiable (one case) by FCM. All tumors classified as aneuploid by FCM were also aneuploid by ICM, and all tumors classified diploid by ICM were also diploid by FCM. Of six patients whose tumors were classified as euploid (five diploid and one polyploid) by FCM but classified as aneuploid by ICM, five relapsed, and three of these have died of disease. On the basis of these findings, it is concluded that ICM must be performed in cases classified as diploid by FCM to ensure that small subpopulations of aneuploid tumor cells are not overlooked.     

Proliferative characteristics of primary and metastatic human solid tumors by DNA flow cytometry

The percentage of cells in S-phase (S-index) was calculated from DNA histograms of 453 primary and metastatic human solid tumors (predominantly bladder, breast, colorectal, renal, prostate, ovarian and lung carcinomas, melanomas, and sarcomas). S-indices varied widely among both primary and metastatic tumors (1-48%); there was no significant difference in S-indices between primary and metastatic tumors. The S-indices for aneuploid tumors were significantly higher than for diploid tumors. When data for all aneuploid tumors were analyzed collectively, there was no significant relationship between S-index and DNA ploidy index. However, for colorectal and ovarian carcinomas S-indices increased, and for lung carcinomas S-indices decreased with elevation in the degree of DNA-ploidy. Lung carcinomas had the highest S-indices. Comparison of flow cytometry (FCM) and cytology data indicated that for most diploid tumors S-indices reflect the proportion of S-phase cells among a mixed population of normal and tumor cells. For most aneuploid tumors, the proportion of tumor cells estimated cytologically was similar to the proportion of aneuploid cells estimated by FCM. For a small proportion of aneuploid tumors a comparison of cytology and FCM data indicated the presence of a predominant diploid tumor stemline and a minor stemline with aneuploid DNA content. There was a wide spread in the values of S-indices within tumor groups defined by degree of differentiation and stage of disease at surgery.     

Nasopharyngeal carcinoma heterogeneity of DNA content identified on cytologic preparations.

OBJECTIVE: To evaluate tumor heterogeneity of DNA content in nasopharyngeal carcinoma (NPC) performed on cytologic specimens. STUDY DESIGN: Image cytometric analysis of DNA ploidy status of 40 NPCs was performed on nasopharyngeal brushing smears stained with the Feulgen method after hematoxylin eosin staining. If the DNA distribution pattern from the same tumor exhibited diploid, aneuploid or/and tetraploid peaks or some combination of these patterns, the presence of tumor heterogeneity of DNA content was identified. RESULTS: Thirty-four cases (85%) had a nondiploid DNA pattern among the 40 NPCs. Twenty-eight cases exhibited tumor heterogeneity of DNA content (70%). Of the 28 tumors, 13 (46%) had a combination of diploid and tetraploid patterns, 10 (37%) had a combination of diploid and aneuploid patterns, 3 cases (11%) had a combination of tetraploid and aneuploid patterns, and 2 cases had two aneuploid stem lines. The relationship between DNA ploidy pattern and tumor histologic and cytologic morphology was also examined. CONCLUSION: There is a high incidence of DNA content heterogeneity in NPC. The relevance of tumor heterogeneity to the biologic behavior of NPC awaits further study. DNA quantification with image cytometry on destained cytologic preparations is feasible and reliable.     

A strategy combining flow sorting and comparative genomic hybridization for studying genetic aberrations at different stages of colorectal tumorigenesis in ulcerative colitis

BACKGROUND: DNA aneuploidy has been shown to increase the risk of developing dysplasia in ulcerative colitis (UC) and is related to tumorigenesis in the colorectum. Therefore, it is of particular interest to study genetic aberrations behind DNA aneuploidization during colorectal carcinogenesis. We wanted to elucidate further the relationship between mucosal morphology and DNA aberrations in UC. METHODS: DNA flow cytometry was applied to multiple lesions including regenerative, dysplastic, and carcinomatous mucosa from the colectomy specimen of a male patient with long-standing UC. The lesions harbored multiple DNA aneuploid stemlines that were subjected to flow sorting. We analyzed gene alterations by degenerate oligonucleotide primer (DOP; universal primers) polymerase chain reaction (PCR)-based comparative genomic hybridization (CGH) and fluorescent in situ hybridization (FISH) in diploid and aneuploid sorted cells. RESULTS: DOP-PCR-based CGH shows gains and losses that can be verified by FISH. We show that with this approach one can study genetic evolution of distinct DNA diploid and aberrant subpopulations through defined stages of colorectal tumorigenesis. This includes getting information related to tumor heterogeneity that cannot be obtained by CGH with DNA extracted from nonsorted cell populations. Genetic imbalance was also detected in diploid nondysplastic flow-sorted mucosal cells from the same bowel. CONCLUSIONS: Similar gains and losses were found in aneuploid dysplasias and carcinomas at widely separated locations in the same bowel, indicating a common selection pressure in different areas of the same bowel. The common aberrations may be of importance for progression from dysplasia to carcinoma.     

Comparison of the intratumor DNA ploidy distribution pattern between differentiated and undifferentiated gastric carcinoma

OBJECTIVE: To compare the differences in intratumor DNA ploidy distribution pattern between differentiated and undifferentiated carcinoma of the stomach. STUDY DESIGN: Two hundred five cases of surgically resected gastric carcinoma were studied, comprising 125 differentiated and 80 undifferentiated carcinomas. DNA ploidy was determined by means of flow cytometry in stepwise sections of the entire tumor. The intratumor DNA ploidy distribution pattern was compared between these two histologic types. RESULTS: Differentiated carcinomas comprised 35 cases of predominantly diploid (28%) and 90 cases of predominantly aneuploid (72%) tumors, while undifferentiated carcinomas comprised 46 cases of predominantly diploid (57.5%) and 34 cases of predominantly aneuploid (42.5%) (P < .01). The frequency of cases showing predominantly aneuploidy among the differentiated carcinomas was significantly higher than among the undifferentiated carcinomas at stages IA and IIIA. The rate of cases showing heterogeneity was lower among the early-stage cases than among the advanced-stage cases in both histologic types. Among the differentiated carcinomas, there were 22 cases that had more than six DNA stemlines in each tumor, whereas among undifferentiated carcinomas, there were six such cases (P < .05). CONCLUSION: There were more cases with high malignant potential among the differentiated carcinoma cases than among the undifferentiated carcinoma cases in the present series.     

Flow cytometric DNA analysis of renal-cell carcinoma. A study of fine needle aspiration biopsies in comparison with multiple surgical samples

The flow cytometric (FCM) DNA analysis of fine needle aspiration (FNA) biopsy material was compared with the DNA analysis of multiple surgical biopsy material from 44 renal-cell carcinomas. Twenty tumors were heterogeneous with respect to their DNA content. Eleven of the 17 tumors that had both diploid and aneuploid tumor cell clones in the surgical specimens gave a diploid DNA content in the aspiration biopsies; the other 6 cases showed aneuploidy in the aspirate. The fine needle aspirates from 18 homogeneously diploid tumors and 9 tumors with an aneuploid DNA content in all eight surgical samples revealed DNA indices similar to those found in the surgical samples. These findings show that aneuploid clones of renal-cell carcinoma can remain undetected by the use of FNA biopsy as a method for obtaining samples for FCM DNA analysis.