Cytophotometric DNA measurements of chondrosarcoma: methodologic aspects of measurements in tissue sections from old paraffin-embedded specimens

The methodologic prerequisites of cytophotometric DNA measurements of normal and tumor cells in tissue sections obtained from paraffin blocks and preserved as archival material were investigated. The optimal time of hydrolysis in 5-N HCl at room temperature was one hour for the different cell types analyzed. Paraffin-embedded tissues, stored for two decades, were still suitable for quantitative cytophotometric DNA determinations of Feulgen-stained nuclei. Different cell types in the Feulgen-stained sections could be identified with accuracy. The 90th percentile of fibroblast (internal control cells) DNA values was used as an upper limit of the diploid DNA content. By determining the number of tumor cells with DNA values exceeding this limit, nondiploid (hyperploid) tumor cell populations could be discriminated from diploid tumor cell populations. Cell population analysis of ploidy level, performed in this way, was found to be accurate in tissue sections of 4 micrometer. The accuracy of this analysis was not improved by increasing the section thickness. Since tissue sections obtained from old paraffin blocks could be used for the determination of hyperploidy, the prognostic significance of this parameter in different tumors can be assessed retrospectively.     

The reliability of microspectrophotometric and flow cytometric nuclear DNA measurements in adenocarcinomas of the breast

The reliability of microspectrophotometric (MSP) and flow cytometric (FCM) nuclear DNA measurements has been studied in 50 human breast adenocarcinomas. The tumor material was obtained by means of fine-needle aspiration biopsy, and all samples except one were found to be highly representative. The results confirm earlier observations that a good correlation exists between modal value (MV) determined by MSP and DNA index (DI) determined by FCM. However, when tumors were classified into low and high malignant variants according to FCM/DI, FCM/S-phase percentages, and MSP histogram types, the concordance was less pronounced. This was found to be due mainly to the fact that in near-diploid tumors a discrepancy exists between MSP and FCM ploidy, as well as between MSP distribution pattern and the estimated percentages of cells in the S-phase region. Another source of discrepancy was observed in tumors with stemlines in the normal tetraploid region, including cells with highly scattered aneuploid DNA values. These tumors were judged by MSP as aneuploid/high malignant and by FCM as euploid/low malignant. In view of this discrepancy, we conclude that the simple determination of the stemline position by MSP/MV or FCM/DI is not sufficient for adequate cytochemical malignancy grading of breast carcinomas. We suggest that a combination of ploidy and percentage of cells scattered outside the modal peaks is a more sensitive method for optimal cytochemical malignancy grading in breast carcinomas.     

Feulgen DNA stainability of bone tumors after demineralization

Microspectrophotometric DNA analysis of archival bone tumor tissue is often impeded by previous acid demineralization, which destroys Feulgen DNA stainability. To find an alternative to acid for prospective DNA studies of bone tumors in tissue sections, Feulgen stainability of fresh osteosarcoma specimens after demineralization in neutral EDTA was investigated. The reliability of DNA analysis of weakly Feulgen-stained sections from archival tissue was also studied. Demineralization of four fresh specimens in EDTA slightly reduced Feulgen DNA stainability compared to nondemineralized preparations but did not affect the determination of ploidy level. Hydrolysis tests of one diploid and one hyperploid osteosarcoma showed that the staining relationship between control and tumor cells was not altered by EDTA pretreatment. For DNA studies of bone tumors requiring demineralization, EDTA offers a means of retaining nuclear Feulgen stainability. In 22 archival osteosarcoma specimens of varying Feulgen stainability, three different upper limits of light transmission (75, 85, and 95%) were applied to test the significance of background disturbances in relation to nuclear stain intensity. The relationship between the median total extinction of the control and tumor cell populations was not significantly affected by altering the upper transmission limit except in four poorly stained lesions. The control cells of these four specimens exhibited a median total extinction less than one-third of the maximum encountered. The results suggest that weakly stained archival specimens can be tested for selecting those appropriate for ploidy determination.     

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.     

Image cytometry detection of breast cancer cells with > 5C DNA content and minor DNA stemlines

OBJECTIVE: To determine if the presence of cells having a DNA content > 5c and occurring at very low frequency is related to breast cancer outcome. STUDY DESIGN: Feulgen-stained imprints of fresh tumors used for routine standard DNA image cytometry were reanalyzed, with the aim of detecting hyperploid (> 5c) cells or minor stemlines. Specially adapted software was used. RESULTS: The new DNA analysis showed discordance of 47.3% with standard DNA cytometry. Minor stemline or rarely occurring 5c exceeding cells were found. These were not detected by the first DNA analysis. The presence of both DNA hyperploid cells occurring as rare events and a DNA hyperploid stemline was related to outcome. CONCLUSION: The detection of DNA hyperploid cells, even in very small numbers, appears essential to outcome, particularly in diploid or single DNA aneuploid breast cancers.     

Flow cytometric DNA analysis on fine needle aspiration biopsies of liver lesions

Flow cytometric DNA analysis on fine needle aspiration biopsies of liver lesions The DNA cell content of 39 fine needle aspiration biopsies (FNAs) from five benign liver lesions, nine hepatocellular carcinomas (HCCs), and 25 metastatic tumours was analysed in a prospective fashion by flow cytometry (FCM). All benign lesions were diploid. Aneuploidy was found in five (55.6%) HCCs and in nine (36%) metastatic tumours. DNA index (DI) differences were not significant. The S-phase fraction (SPF) was higher in the malignant tumours, both combined (P < 0.02) and separated primary and metastatic (P < 0.05). We could not demonstrate an association between diploidy and percentage of benign hepatocytes in the smears of malignant tumours. The serum alpha-fetoprotein (AFP) level did not correlate with ploidy, DI, or SPF in the HCCs. In conclusion, ploidy and DI do not discriminate between benign and malignant liver lesions, but the SPF is higher in malignant tumours. DNA analysis does not help to distinguish primary from metastatic liver tumours. The presence of benign hepatocytes in samples from malignant tumours does not seem to influence the analysis of ploidy by FCM.     

Ploidy and morphology in osteosarcoma

In a cytometric DNA study of high-grade osteosarcoma, the relationship between DNA content and morphology was analyzed. The investigation, based on microspectrophotometry of tissue sections and flow cytometry (FCM), included both primary lesions and recurrences. FCM analysis, applied to a consecutive series of 47 primary osteosarcomas, disclosed that 2 were diploid and 45 were nondiploid, 8 of which were tetraploid. Multiple aneuploid peaks were detected in 13 tumors. Among the nondiploid tumors, there was no clear relationship between the peak DNA value(s) and the histologic subtype (osteoblastic, chondroblastic, fibroblastic) or grade (III-IV). The proliferative activity, as reflected by the percentage of S-phase cells, could be determined in 38 of the 47 tumors analyzed by FCM. The percentage was higher for aneuploid than for tetraploid lesions; however, the distribution of S-phase cells was not related to the histologic subtype or the grade of the tumors. To assess the reliability of a single sample for FCM, the DNA content of biopsy and surgical specimens was compared in 20 tumors; there was complete agreement in all cases with respect to the classification of the lesion as diploid, tetraploid or aneuploid. Analysis by FCM or microspectrophotometry of 12 local recurrences and 16 metastases and the corresponding 19 primary tumors showed that an aneuploid characteristic of the primary lesion was retained during progression of the disease. In 12 tumors analyzed by microspectrophotometry in tissue sections, comparison of chondroblastic and osteoblastic/fibroblastic areas within the same lesion consistently disclosed hyperploidy in both areas.(ABSTRACT TRUNCATED AT 250 WORDS)     

DNA ploidy in soft tissue sarcoma: comparison of flow and image cytometry with clinical follow-up in 93 patients

In soft tissue sarcoma, the prognostic importance of DNA ploidy status is limited. One possible explanation may be technical; small non-diploid stemlines will be diluted in relation to the presence of normal diploid cells and may not be detected by flow cytometry (FCM). We assessed DNA ploidy status in 93 tumors with both FCM and image cytometry (ICM). ICM may permit the exclusion of non-relevant cells. The ability of the two methods to detect non-diploid stemlines was compared, as were the prognostic consequences. The patients (54 males) had a median age of 69 years. Surgical procedures were performed on all patients. None of the patients had received preoperative radiotherapy or chemotherapy. FCM and ICM were performed with standard methods. The prognostic value was assessed with univariate and multivariate analysis. In 82 of the 93 tumors, a concordant ploidy status by FCM and ICM was found. In 5 FCM type 1-2 tumors (diploid), the identification of non-diploid stemlines by ICM did not influence the metastatic rates. Increasing tumor size, histotype other than liposarcoma, increasing malignancy grade, tumor necrosis, and ICM non-diploidy were univariate prognostic factors for metastasis. In a multivariate analysis, only tumor size larger than 9 cm was a prognostic factor. In about 10% of the tumors, a discrepancy between FCM and ICM ploidy status was found, but we could not find a consistent prognostic consequence of this. Neither FCM nor ICM ploidy status was an independent prognostic factor.     

Discrimination between precancerous and cancerous lesions of the uterine cervix by DNA measurements on tissue sections

Morphologically typical uterine cervical biopsies were separated into normal cervices, condylomas and cervical intraepithelial neoplasias (CIN) grades I, II and III. At least 100 nuclei per lesion were measured on 4 micron Feulgen-stained sections using a Zeiss microspectrophotometer, with a variant of the plug method used to compute the nuclear DNA content. DNA distribution histograms were then decomposed into subsets of diploid, tetraploid, octoploid and aneuploid cells. The decomposition, which assumed a log-normal model of polydiploidy distribution, led to the identification of six indices: (1) the percentage of diploid cells, (2) the percentage of tetraploid cells, (3) the percentage of octoploid cells, (4) the percentage of aneuploid cells with DNA contents less than tetraploidy, (5) the percentage of aneuploid cells with DNA contents between tetraploidy and octaploidy and (6) the percentage of aneuploid cells with DNA contents greater than octoploidy. These indices, along with the mean nuclear radius, the 5c exceeding rate and the 2c deviation index, generated a nine-dimensional space. Two methods of discriminant analysis on this space showed discriminating powers of 78.22% and 87.13%, respectively, as compared to the original diagnoses. The most discriminating variable in both analyses appeared to be the percentage of octoploid cells.     

Semiautomation of preparation of fixed paraffin-embedded tissue for DNA analysis

The usual manual preparation of single-cell suspensions from fixed paraffin-embedded tissue sections for flow cytometric (FCM) DNA ploidy analysis is a time-consuming, labor-intensive technique that requires 70 minutes to deparaffinize and rehydrate 50 microns sections as the initial step. Manual deparaffinization was compared with two semiautomated methods using an automatic slide stainer with either a 70-minute or 35-minute schedule. Samples from 6 normal tissues and 21 tumors (13 diploid and 8 aneuploid) were prepared using all three methods and analyzed by FCM. The mean cell counts in all samples were over 10(6). The DNA indices for the three samples prepared from a given tissue showed no significant differences. Using the 70-minute automation schedule, no aneuploid peaks were lost, and the ratio of G0G1 normal cells to aneuploid tumor cells was maintained. The automation of deparaffinization can thus provide a significant reduction in the labor need to produce single-cell suspensions for FCM; it can be especially helpful when handling large numbers of tumors. At the same time, the automated procedure decreases the exposure to hazardous chemicals and lowers the chance of losing tissue.     

Flow and image cytometric DNA ploidy,including 5c exceeding cells,of serous borderline malignant ovarian tumors. Correlation with clinicopathologic characteristics

OBJECTIVE: To analyze DNA ploidy of serous borderline ovarian tumors by flow cytometry (FCM) and image cytometry (ICM), with 5c exceeding cells also analyzed, and to evaluate their correlation with clinicopathologic characteristics of patients and tumors. STUDY DESIGN: Cell suspensions were prepared according to a modified Hedley method from formalin-fixed, paraffin-embedded tissue blocks of 43 tumors. One part of the suspension was used for flow cytometric measurement; from the other part, filter slides were prepared for ICM. RESULTS: FCM and ICM found 2 aneuploid (peridiploid) serous borderline ovarian tumors, and FCM found 1. ICM found 3 tumors with 5c exceeding cells and 2 tumors with octaploid cells. There was no correlation between DNA aneuploidy and presence of 5c exceeding cells with tumor size, International Federation of Gynecology and Obstetrics stage or survival. CONCLUSION: The results confirm a good correlation between FCM and ICM DNA ploidy and the ability of ICM to detect 5c exceeding cells. The prognostic value of DNA ploidy and 5c exceeding cells in serous borderline malignant ovarian tumors warrant further evaluation.     

Nuclear DNA in histologic sections from squamous-cell carcinoma and adenocarcinoma of the lung

The nuclear DNA content in morphologically identified tumor cells was analyzed in 4-micron histologic sections from 58 patients with lung carcinoma who survived for at least five years. Thirty-three of the carcinomas were invasive squamous bronchial carcinomas and 25 were pulmonary adenocarcinomas. In all squamous carcinomas, the majority of tumor cells were found to exhibit DNA values exceeding the normal tetraploid and/or diploid region. In contrast, some of the pulmonary adenocarcinomas were found to be composed of a majority of tumor cells with DNA values in the normal diploid region. The results indicate that invasive squamous bronchial carcinomas, in general, are tumors with aneuploid DNA patterns indicative of a high malignant potential and that malignancy grading based on DNA measurements does not add any significant prognostic information to that obtained by morphologic diagnosis.     

Comparative studies of nuclear DNA content in benign and malignant thyroid lesions

Currently available data suggest that DNA aneuploidy is associated with aggressive behavior of and unfavorable prognosis in several malignant human tumors as compared with diploid malignancies. However, the diagnostic and prognostic importance of flow cytometric DNA measurements in the case of thyroid neoplasms remains controversial. Therefore, the aim of our study was to evaluate utility of DNA index (DI) and proliferative index (PI) in distinguishing benign from malignant thyroid lesions taking into account the possible influence of intra-tumor heterogeneity and tissue preparation mode on DNA flow-cytometry measurements. A retrospective study was performed on 71 paraffin-embedded specimens from 57 patients with benign and malignant thyroid pathologies: 13 colloid goitres, 12 parenchymatous goitres, 19 adenomas and 13 carcinomas. In 14 of 57 cases two separate specimens taken from different areas of the same lesion were analysed and DNA parameters were compared. Additionally, flow cytometry DNA analysis was parallelly performed on 3 adjacent but differently processed tissue sections (fresh, formalin-fixed and paraffin-embedded) taken from each of 26 surgically excised thyroid lesions. DNA content was also analysed in both fresh and formalin-fixed twin specimens of normal pig thyroid glands (N = 6). We demonstrated that all tumors diagnosed as thyroid carcinomas were associated with abnormal nuclear DNA content although aneuploidy was not found specific to malignant thyroid tumors. Aneuploid samples of benign thyroid lesions exhibited higher proliferative activity, expressed as mean PI values, than diploid ones. In carcinomas the mean PI values were significantly higher than in benign lesions, independently whether they concerned aneuploid or diploid tissues. Considering intra-tumor heterogeneity, the flow cytometric DNA parameters can be assumed as reproducible despite differences in the mode of tissue fixation and preparation for analysis.     

Establishment of a tetraploid Meth-A cell line through polyploidization by demecolcine but not by staurosporine, K-252A and paclitaxel

Polyploid cells are made by DNA reduplication without cell division, however, it is not easy to establish polyploid mammalian cell lines. It is worth studying the difference in cell character between hyperploid and parent cell lines. Meth-A cells were polyploidized by demecolcine, K-252a, staurosporine and paclitaxel. The cell-cycle responses of highly polyploid Meth-A cells after the removal of the drugs were examined by flow cytometry (FCM). Meth-A cells were highly polyploidized by these drugs. The polyploid Meth-A cells gradually decreased in ploidy after the drug release. A tetraploid Meth-A cell line was established only from the demecolcine-induced polyploid Meth-A cells. The duration of G1, S and G2/M phases of the tetraploid cell line were mostly the same as those of the parent diploid cells, except that the G2/M phase was 1.5 h longer. The chromosome number of tetraploid Meth-A cell line was about twice of the diploidy. A tetraploid Meth-A cell line was established.     

DNA quantification in colorectal carcinoma using flow and image analysis cytometry

Numerous studies using flow cytometry (FCM) have shown that DNA quantification and ploidy classification can provide information of prognostic significance for patients with colorectal carcinoma; recent advances in image analysis cytometry (image cytometry, ICM) provide a new, alternative technique for DNA quantification. This study investigated whether (1) patients with colorectal carcinomas that exhibit a diploid pattern of DNA distribution have improved five-year survival statistics as compared to their non-diploid counterparts and (2) ICM provides quantitative data comparable to that obtained by FCM. DNA quantification and ploidy classification of 27 cases of primary colorectal carcinoma was performed on archival paraffin-embedded tissue by both FCM and ICM; 70% (19) of the tumors were classified as nondiploid by ICM while 56% (15) were similarly classified by FCM. Diploid tumors were associated with Dukes' stage A while nondiploid tumors were associated with Dukes' stage D. The overall five-year survival rate was 75% for patients with ICM diploid tumors and 67% for patients with FCM diploid tumors. The five-year survival was only 53% for patients with nondiploid tumors identified by both techniques. This study confirmed that DNA quantification is an important prognostic indicator for patients with colorectal carcinoma. It also showed that ICM provides data comparable to that of FCM and may be more sensitive.     

Modal DNA values of normal and malignant urothelial cells of the bladder in relation to nuclear size

In a study of the correlation between mean nuclear size and DNA content in urinary bladder carcinoma, the modal DNA values of cell suspensions from 125 biopsies, obtained from 86 patients with malignant or normal urinary bladder epithelium, were analyzed by flow cytometry (FCM). Light microscopic measurements of nuclear size were carried out on smears from the same material. The results were correlated to the histopathologic stage and grade. The mean nuclear volumes were significantly larger in diploid tumor cells than in cells of normal epithelium. Aneuploid tumors showed significantly larger nuclei than did diploid tumors. Although there was a significant correlation between increases in the nuclear volume and in the DNA content, there was some overlapping between various grades of malignancy: mean nuclear volumes in aneuploid grade 2 tumors did not differ from those in aneuploid grade 3 tumors. A combination of FCM and morphometry discriminated all but 16% of the tumors from the normal cases. It is concluded that FCM and morphometry are complementary and can be used for the objective characterization of urinary bladder carcinomas.     

DNA ploidy in colorectal cancer, heterogeneity within and between tumors and relation to survival

Flow cytometry was used to study the incidence of aneuploidy and to determine the significance of multiple sampling from colorectal tumors. DNA ploidy pattern has been proposed as a supplementary prognostic marker, but discrepancies in findings are major. DNA clonal heterogeneity, defined as two or more DNA aneuploid stemlines in the same tumor, is well established. However, most studies have been based on only one biopsy from each tumor. In our study multiple biopsies were taken from 163 patients (88 males and 75 females) electively operated for colorectal cancer. Tumor cells were harvested by fine needle aspiration from fresh frozen biopsies sampled at different sites of each tumor. DNA aneuploidy was detected in tumors from 145 patients (89%), and 18 patients (11%) had a solitary DNA diploid cell population. In a 79 month follow-up period 105 patients had died. Statistical analysis showed that distinction between diploidy and aneuploidy did not predict survival. However, grouping subpopulations into DNA diploid plus near diploid (DNA index (DI) 0. 97-1.15), DNA aneuploid with all aneuploid subpopulations in the interval 1.15-2.06, and DNA aneuploid with subpopulations with DI < 0.97 and/or DI > 2.06, showed a significant difference in survival in a Cox multivariate analysis including Dukes' stage P = 0.049 comparing the second group to the first and P = 0.01 comparing the third group to the first. In 21 (13%) patients only one subpopulation was found, 57 (35%) had two, 44 (27%) had three, and 41 (25%) had four or more different subpopulations. The association of DNA ploidy to survival is shown to be dependent on the number of biopsies analysed.     

Intratumoral variations in DNA distribution patterns in mammary adenocarcinomas

Correlated flow-cytometric (FCM) and microspectrophotometric (MSP) techniques were applied to investigating whether intratumoral variations in the DNA distribution patterns of 21 primary mammary adenocarcinomas can occur. Although neoplastic cell populations with both diploid and tetraploid (i.e., euploid) distribution patterns could be found in varying proportions in some of the tumors, there was no evidence in any tumor nodule for the presence of euploid populations in one part and aneuploid populations in another. This statement was based on the results of the MSP technique, where the assessments were made on cytodiagnostically identified neoplastic cells. Also, when applying the FCM technique the statement was found to be essentially valid; only one of the tumor nodules showed a DNA distribution pattern that, by means of the criteria used in this procedure, was defined as being both euploid and aneuploid. Here, however, the technique consists of assessments made on a great number of microscopically non-identified cells. It was concluded that when conflicting reports are given from different laboratories on the prognostic value of the cytochemically assessed DNA distribution patterns in breast carcinomas, they are not likely to be attributed to intratumoral DNA heterogeneity but, rather, to differences in the methods used and in the criteria applied for the so-called ploidy assessments.     

Flow cytometric study of DNA distribution in cytopunctures of benign and malignant breast lesions

One hundred seventy-eight cytopunctures of mammary lesions were obtained for cytologic diagnosis and flow cytometric (FCM) analysis of the nuclear DNA content. All lesions were excised and evaluated histologically; 106 were carcinomas and 72 were benign lesions. The benign lesions showed a diploid DNA content, with one exception. Among the 106 carcinomas, 35 (33%) were diploid, 14 (13%) were tetraploid and 57 (54%) were aneuploid. For 79 carcinomas, the relationship between ploidy and (1) "T" and "N" of TNM staging, (2) the histologic grading of Scarff, Bloom and Richardson, (3) axillary nodal involvement, (4) the presence of estrogen and progesterone receptors, (5) age and (6) menopausal status was investigated. The percentage of aneuploidy was significantly higher (P less than .05) in grade III tumors as compared to grade I tumors. There was no significant relationship between aneuploidy and the other factors. However, a trend was observed between the lack of steroid receptors and a high probability of the tumor being aneuploid. FCM DNA analysis was also carried out on breast carcinomas obtained at surgery in 40 patients for whom FCM DNA analysis had previously been performed on breast cytopuncture specimens. The FCM DNA analyses were found to be best performed on the samples obtained by cytopuncture, which may increase the yield of tumor cells.