Diagnostic significance of flow cytometric DNA analysis applied for the detection of cancer cells in bronchial washing fluid

Since both DNA aneuploidy and increased proliferative activity are important characteristics of malignant neoplasms, flow cytometric (FCM) analysis was used to examine the cell content in bronchial washing samples obtained via fiberoptic bronchoscopy from 73 patients. The results were compared with the results of histology and conventional cytology. The patients included 30 with bronchial carcinomas, 12 with bronchopneumonia and 31 with no evidence of lung disease. Of the 30 patients with histologically confirmed lung cancers, 25 showed either aneuploid stem lines (19 cases) or high levels of proliferation (6 cases) as determined by analysis of cell-cycle stages. The same rate of cancer cell detection was obtained by cytology. In the 43 cases with neither histologic nor clinical evidence of malignancy, FCM data yielded 5 false-positive results, as compared to 4 erroneous suspicions of cancer by cytology. From these data, it is concluded that FCM measurements of both DNA ploidy and proliferative activity may complement conventional cytology in the recognition of bronchial carcinomas.     

Qualitative and quantitative analysis of peritoneal fluids from women with gynecologic diseases. Comparison of cytology and flow cytometry for the detection of malignancy in lavage and ascitic fluids

A prospective study was undertaken to compare flow cytometric (FCM) analysis to conventional cytologic evaluation for the detection of malignant cells in peritoneal fluids (peritoneal lavages and ascitic fluids) from women with gynecologic diseases. The 94 peritoneal fluids analyzed came from 63 cancer patients (with epithelial ovarian carcinomas) and 31 control patients (with benign gynecologic diseases). The FCM DNA histograms were generated using propidium iodide as a DNA fluorochrome. Samples for cytologic analysis were stained with the standard May-Grünwald-Giemsa or Papanicolaou stains. Of the 94 samples, 90 were evaluable cytologically while 70 were suitable for FCM analysis. The sensitivities were 55% for FCM DNA analysis and 80% for cytologic analysis. FCM DNA analysis had a 30% false-positive rate; cytologic analysis produced no false-positive results. These results indicate that there is no advantage in employing FCM analysis instead of conventional cytologic evaluation for the detection of malignant cells in peritoneal fluids from gynecologic cases.     

Flow cytometric DNA analysis combined with fine needle aspiration biopsy in the diagnosis of palpable metastases

To determine the diagnostic value of flow cytometric (FCM) DNA analysis in combination with fine needle aspiration (FNA) biopsy, the nuclear DNA content was analyzed in FNA specimens from 155 superficial metastases and 60 benign lymph nodes. The results of FCM DNA analysis were considered to be positive for malignancy if DNA aneuploidy was found or if more than 12% S+G2M cells were present in the aspirate in diploid cases. The diagnostic accuracy of FCM DNA analysis alone in detecting malignancy was 92%, with a sensitivity of 91% and a specificity of 95%. FCM suggested the correct diagnosis in 5 of the 7 cytologically false-negative cases and in 9 of the 12 cytologically indeterminate or suspicious cases.     

Correlation of grade of urothelial cell carcinomas and DNA histogram features assessed by flow cytometry and automated image cytometry.

OBJECTIVE: To analyse how DNA ploidy and S-phase fraction (SPF) by flow cytometry (FCM) and an optimised fully automatic DNA image cytometer (ICM) correlate with grade in TaT1 urothelial cell carcinomas (UC) of the urinary bladder. MATERIALS AND METHODS: Two-hundred-and twenty-eight consensus cases were analysed. Single cell suspensions were stained (DAPI for FCM, Feulgen for ICM). There was enough material for both FCM and ICM in 202 of these cases. FCM and optimised ICM measurements were performed on the 202 UCs. To discriminate between different grades, single- and multivariate analyses was performed on DNA histogram features obtained with the MultiCycle program (using DNA index (DI) and SPF). RESULTS: Overall measurement time of the adapted ICM method was 10.7 minutes per case (range 5.9-29.8 min.) and required little additional interactive object rejection (average 152 objects (84-298) on 3000 objects per case measured, which took 9.9 minutes on average, range 8.3-15.5 minutes). The ICM histograms looked much "cleaner" with less noise than the FCM graphs. The coefficient of variation (CV) of the diploid peak for ICM (5.4%) was significantly lower than for FCM (5.9%) (p<0.0001). ICM features were more strongly correlated to grade than FCM features. In multivariate analysis, the best discriminating set of features was DNA ploidy and SPF (both by ICM). CONCLUSIONS: The adapted fully automated DNA ICM works very well for UCs. Low CV DNA ICM histograms are obtained in a time comparable to FCM. The DNA ICM results have stronger discriminative power than DNA FCM for grade in TaT1 UCs.     

Comparison of flow cytometric data obtained using fresh and paraffin-embedded lymphoid tissue

Flow cytometric (FCM) DNA analysis was carried out on 24 lymph nodes: 13 from benign reactive hyperplasias and 11 from non-Hodgkin's lymphomas. FCM was performed on two types of samples: (1) fresh cell suspensions and (2) suspensions prepared from formalin-fixed, paraffin-embedded sections. FCM of fresh samples detected aneuploidy in 23 of the 24 cases while FCM of paraffin-embedded samples detected aneuploidy in only 6 of the 24 cases. Those six cases were lymphomas considered histologically as having a poor prognosis. Only one case, a lymphoma, was euploid with both methods. The coefficients of variance determined in each case for both methods were found to be within "normal ranges," but were greater in the paraffin-embedded specimens. The results suggest that FCM DNA analysis of formalin-fixed, paraffin-embedded sections does not have as great a resolution capacity as does analysis of fresh cell suspensions, since the former failed to detect cell populations that had a small degree of aneuploidy (close to the 2n population).     

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.     

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.     

Bacterial fingerprinting by flow cytometry: bacterial species discrimination.

BACKGROUND: A flow cytometric measurement (FCM) technique has been developed to size DNA fragments. Individual fragments of a restriction digest of genomic DNA, stained with an intercalating dye, are passed through an ultrasensitive cytometer. The measured fluorescence intensity from each fragment is proportional to the fragment length. METHODS: The isolation of bacterial genomic DNA and digestion by restriction enzymes were performed inside an agarose plug. Rare cutting enzymes were employed to produce a manageable number of DNA fragments. Electroelution was used to move the DNA fragments from the agarose plug into a solution containing polyamines to protect the DNA from shear-induced breakage. The DNA was stained with the bisintercalating dye thiazole orange homodimer and introduced into our ultrasensitive flow cytometer. A histogram of the fluorescence intensities (fingerprint) was constructed. RESULTS: Gram-positive Bacillus globigii and gram-negative bacteria Escherichia coli and Erwinia herbicola were distinguished by the fingerprint pattern of restriction fragments of their genomic DNA. DNA sizes determined by FCM are in good agreement with pulsed-field gel electrophoresis (PFGE) analysis. Flow cytometry requires only picogram quantities of purified DNA and takes less than 10 min for data collection and analysis. When the total sample preparation time is included, the analysis times for PFGE and FCM are similar ( approximately 3 days). CONCLUSIONS: FCM is an attractive technique for the identification of bacterial species. It is more sensitive and potentially much faster than PFGE.     

Comparison of cytologic and acridine-orange flow-cytometric detection of malignant cells in human body cavity fluids

Flow cytometrically (FCM) derived DNA and RNA profiles were studied in acridine orange (AO)-stained body cavity fluid (BCF) specimens obtained from 78 patients with various solid tissue and hematologic malignancies. The ploidy (DNA index), RNA content (RNA index), proliferative activity (% S + G2M) and DNA and RNA scattergram patterns were tested "double-blind" against the cytologic scoring of specimens as malignant, benign or reactive. It was determined that expression of an "abnormal" RNA index (greater than or equal to 2.8) and an elevated proliferative activity (% S + G2M greater than or equal to 7.4) was dependent on the presence of malignancy; 21 of 22 specimens having those abnormal indices had DNA aneuploidy and were cytologically scored as positive. The AO FCM sensitivity and specificity for detecting malignant cells (when measured against cytology scoring) were 61% and 90%, respectively, using the "abnormal" RNA index and % S + G2M cut-offs together with the cellular DNA aneuploidy marker. By supplementing the cytologic scoring with AO FCM DNA and RNA features, the sensitivity for detecting malignant cells was 94%, as compared to 72% for cytology alone. Two specimens gave false-positive FCM results: a tuberculous effusion with a tetraploid subpopulation and a reactive mesothelial proliferation that was diploid and negative cytologically. Scoring for malignancy based on the visual pattern of the DNA and RNA FCM scattergrams, while showing good correlation for aneuploid specimens, in some cases failed to identify diploid disease. The results demonstrate the usefulness of FCM DNA and RNA analysis for supplementing cytologic examination of BCF specimens for the purpose of detecting malignant cells.(ABSTRACT TRUNCATED AT 250 WORDS)     

Flow cytometric DNA content analysis of neoplastic cells in haemolymph of the cockle Cerastoderma edule

Epizootiological outbreaks of disseminated neoplasia (DN) have been reported in association with mass mortalities in various bivalve species including the cockle Cerastoderma edule. A flow cytometric (FCM) procedure to study DNA content was successfully adapted and tested in haemolymph cells (haemocytes and neoplastic cells) of the cockle. The FCM results were similar to those obtained by histological analysis (DN diagnosis and haemolymph cell features). FCM analysis revealed differences in DNA content among normal haemocytes (diploid) and neoplastic cells. Four types of cells with abnormal DNA content were found in the haemolymph of affected animals: hypodiploid, hyperdiploid, triploid-sesploid and pentaploid. Our results suggest that the flow cytometric DNA content analysis can be applied to identify neoplastic cell types and to study the association between different cell types and the DN progression or remission in this edible and commercially important bivalve species.     

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.     

Interrelation of formalin fixation, chromatin compactness and DNA values as measured by flow and image cytometry

The severity and consistency of the effect of formalin fixation on the quantitation of DNA by flow cytometry (FCM) and image cytometry (ICM) were studied. As compared to ethanol, formalin fixation substantially decreased the propidium iodide fluorescence from mouse hepatocyte nuclei analyzed by FCM; it was also associated with an altered 4n-to-2n signal ratio and with false aneuploid peaks by FCM, but not by ICM (microspectrophotometry). ICM, on the other hand, suffered from a dependence of the DNA signal on nuclear size, which was not seen with FCM. The DNA signal variation was related to variations in the chromatin state, as shown by differences between monocytes and lymphocytes, and between RAJI cells fixed under various ionic strengths. The dependence of the DNA signal on the chromatin state indicates a need for caution in interpreting aneuploidy in formalin-fixed cells. For FCM, pseudoaneuploidy appears avoidable by using a Feulgen fluorescence staining technique. New imaging modes may be necessary to solve the problem of cell size dependence for ICM DNA determination.     

Methodological aspects of flow cytometric analysis of DNA polyploidy in human heart tissue

The purpose of the study was to investigate the possibilities of flow cytometry (FCM) for the analysis of DNA polyploidy in human heart tissue. Suspensions of single nuclei were prepared with the detergent-trypsin procedure and stained with propidium iodide. A mathematical correction procedure was developed to correct for background and clumping. For diploid model populations of chicken and trout red blood cells this correction reduced artifactual fractions in the FCM DNA profile to less than 0.5%, indicating that interference by background and clumping was almost completely overcome by this correction procedure. FCM DNA profiles were obtained from 12 hypertrophic and 7 normal human adult hearts. Clear differences were found between DNA profiles from the normal and the hypertrophic hearts, the latter showing a higher degree of polyploidization. From the corrected DNA profiles, six different polyploidization parameters were computed, all of which showed a significant correlation with at least three out of four different parameters for heart hypertrophy. FCM appears to be a reliable method for the measurement of polyploidization in heart tissue, provided background and clumping are corrected for.     

Flow cytometric analysis and cytopathology of body cavity fluids

A total of 75 samples of body cavity fluids from 71 patients were analyzed by both flow cytometry (FCM), to detect cells with an abnormal DNA content (aneuploidy), and by conventional cytopathology. Samples included 27 pleural fluids, 35 peritoneal fluids, 11 peritoneal washings and 2 pericardial fluids. For cytologic examination, the samples were prepared using standard techniques. Samples for FCM analysis were centrifuged and exposed to a hypotonic solution containing detergent and propidium iodide, a DNA intercalating fluorescent stain. Aneuploidy as well as cytologic malignancy were found in 17 samples. Forty-seven samples had normal DNA histograms by FCM and were also cytologically negative. Four samples suspicious by cytology but normal by FCM were from patients with renal-cell carcinoma (two samples from the same patient), endometrial adenocarcinoma without metastasis and chronic lymphocytic leukemia. Three samples abnormal by FCM but negative by cytology were from patients with ovarian cystadenoma, cirrhosis and uterine leiomyoma. FCM showed aneuploidy in four cytologically negative samples from patients with histologically proven malignancy (lymphoma, colonic adenocarcinoma, cervical squamous cell carcinoma, and endometrial adenosquamous carcinoma). Based on these results, FCM analysis combined with conventional cytopathology yielded 100% sensitivity, 100% predictive value of a negative result and 94% specificity. This rapid and quantitative FCM analysis of body cavity fluids can be a very useful adjunct to conventional diagnostic cytopathology.     

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.     

Methodological aspects of flow cytometric analysis of DNA polyploidy in human heart tissue

Summary The purpose of the study was to investigate the possibilities of flow cytometry (FCM) for the analysis of DNA polyploidy in human heart tissue. Suspensions of single nuclei were prepared with the detergenttrypsin procedure and stained with propidium iodide. A mathematical correction procedure was developed to correct for background and clumping. For diploid model populations of chicken and trout red blood cells this correction reduced artifactual fractions in the FCM DNA profile to less than 0.5%, indicating that interference by background and clumping was almost completely overcome by this correction procedure. FCM DNA profiles were obtained from 12 hypertrophic and 7 normal human adult hearts. Clear differences were found between the DNA profiles from the normal and the hypertrophic hearts, the latter showing a higher degree of polyploidization. From the corrected DNA profiles, six different polyploidization parameters were computed, all of which showed a significant correlation with at least three out of four different parameters for heart hypertrophy. FCM appears to be a reliable method for the measurement of polyploidization in heart tissue, provided background and clumping are corrected for.In honour of Prof. P. van Duijn     

Flow-cytometric analysis of mixed cell populations using intermediate filament antibodies

Using two human tumour cell lines, T24 bladder carcinoma and Molt-4 leukemia, flow-cytometric DNA analysis of pure and mixed cell populations was performed using cellular cytokeratin content to distinguish cytokeratin-containing carcinoma cells from leukemia cells which do not contain cytokeratin. Using cytokeratin content to gate DNA analysis, the same specificity and sensitivity of cellular DNA content and distribution measurement could be achieved by single-pass FCM analysis of a mixture of the two cell types as was seen when analysing pure populations of the two cell lines. This technique has broad applicability to FCM analysis of mixed populations composed of cells from different tissues of origin.     

Methodologic aspects of evaluating brush samples from biliary strictures by cytology and DNA flow cytometry

OBJECTIVE: To present a method of increasing the cell yield from brush samples of the biliary tree for measurement of DNA content by flow cytometry (FCM). STUDY DESIGN: One hundred eight cell specimens from 86 patients were studied by FCM for DNA ploidy and cell cycle composition. All specimens were cytologically classified into benign, suspicious for malignancy and malignant. Two methods for preparation of the cell material were compared. RESULTS: Enzymatic treatment of formalin-fixed brushes for release of cell nuclei was superior to mechanical removal of the cells. The fraction of samples not possible to assess was reduced from 27% to 4%, and good quality histograms increased from 21% to 62%. Aneuploidy was detected in 7% of benign and 57% of suspicious malignant samples. Using DNA analysis in addition to cytology as a diagnostic marker for cancer, the sensitivity increased from 12% to 31%. CONCLUSION: FCM of cells from biliary strictures can be used routinely as an adjunct to cytology for DNA analysis.     

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)     

Cytologic and flow cytometric DNA analysis of multinucleated tumor cells and derived microcells

Microcell production by means of Colcemid-induced micronucleation and subsequent enucleation with the density gradient technique was adjusted for use with the murine T-lymphoma line ESb-M. Modification of the standard protocol for a cell type on which no experiments had previously been performed required careful monitoring of the multiple steps in the procedure in order to optimize the final microcell yield. Traditional microscopic verification may sometimes be ambiguous, due to the lack of a clear cutoff point between small whole cells and cell fragments; in these conditions, the level of variability increases, thus impairing quantitative estimations. Flow cytometric (FCM) analysis of DNA content and size of donor cells and microcells was therefore applied in parallel to provide additional quantitative information. The FCM results supplemented the microscopic data in assessing which fraction recovered from the gradient has the lowest percentage of contaminant whole cells; however, FCM analysis may provide more statistically significant data due to the large size of the sample examined. Moreover, FCM is of prospective use in providing the basis for subsequent sorting of either pure microcells or specific subpopulations of defined DNA content and size.