Prediction of prognosis in untreated stage A2 prostatic carcinoma

Carcinoma is found unexpectedly in approximately 10% or more of the 400,000 prostatectomies performed annually in the United States. Patients with Stage A2 carcinoma die of their disease in only 35% of the cases. To alter the course of disease in these patients, 65% of Stage A2 patients may be treated unnecessarily by radical prostatectomy, radiation therapy, or hormonal therapy. An accurate method to predict the outcome of patients with Stage A2 carcinoma is needed. Histologic sections from 18 patients with Stage A2 prostatic carcinoma followed without further treatment until progression, or followed without progression, were evaluated by several investigators who did not have knowledge of patient outcomes and who employed standard pathologic grading systems as well as morphometric, cytophotometric, flow cytometric, and immunohistochemical techniques. Outcome was predicted correctly by random sampled absolute (17 of 18 cases) and relative (16 of 18) nuclear roundness factor (NRF), tumor volume expressed as percent of specimen (13 of 16), primary (13 of 18), secondary (14 of 18), sum (15 of 18), and worse (14 of 18) Gleason grades and prostate‐specific antigen immunohistochemical findings (13 of 18) that produced statistically significant separation of the two groups. Significant separation was not obtained with Mostofi's pattern, nuclear, sum, and worse grades, Johns Hopkins' grade, absolute tumor volume, nuclear DNA content measured by image cytophotometric study of Feulgen‐stained histologic sections and flow cytometric study of propidium iodide‐labeled suspensions of nuclei obtained from paraffin blocks, nonrandom sampled NRF of worse and most prevalent neoplastic areas, and prostatic acid phosphatase and peanut agglutinin immunohistochemical study. NRF measured by a random technique best predicted outcome in these patients with A2 prostatic carcinoma and should be evaluated prospectively as a means for selecting patients who require therapy.

[1]  A W Partin,et al.  A comparison of nuclear morphometry and Gleason grade as a predictor of prognosis in stage A2 prostate cancer: a critical analysis. , 1989, The Journal of urology.

[2]  P. Rubin,et al.  Correlation of prostate‐specific acid phosphatase and prostate‐specific antigen immunocytochemistry with survival in prostate carcinoma , 1989, Cancer.

[3]  M. Listrom,et al.  Incidental carcinoma of the prostate: an analysis of the predictors of progression. , 1988, The Journal of urology.

[4]  J. Oesterling,et al.  Tumor volume versus percentage of specimen involved by tumor correlated with progression in stage A prostatic cancer. , 1988, The Journal of urology.

[5]  A W Partin,et al.  Nuclear roundness factor measurement for assessment of prognosis of patients with prostatic carcinoma. II. Standardization of methodology for histologic sections. , 1988, The Journal of urology.

[6]  A W Partin,et al.  Nuclear roundness factor measurement for assessment of prognosis of patients with prostatic carcinoma. I. Testing of a digitization system. , 1988, The Journal of urology.

[7]  C. R. Bagnell,et al.  Nuclear roundness factor: A quantitative approach to grading in prostatic carcinoma, reliability of needle biopsy tissue, and the effect of tumor stage on usefulness , 1987, The Prostate.

[8]  J. Ploem,et al.  Preparation of cells from paraffin-embedded tissue for cytometry and cytomorphologic evaluation. , 1987, Analytical and quantitative cytology and histology.

[9]  M. Melamed,et al.  Flow cytometry of prostate cancer: relationship of DNA content to survival. , 1987, Cancer research.

[10]  J. Carstensen,et al.  DNA flow cytometry and histopathological grading of paraffin-embedded prostate biopsy specimens in a survival study. , 1987, Cancer research.

[11]  D. Paulson,et al.  Radical prostatectomy: anatomical predictors of success or failure. , 1986, The Journal of urology.

[12]  P. Walsh,et al.  Prognosis of untreated stage A1 prostatic carcinoma: a study of 94 cases with extended followup. , 1986, The Journal of urology.

[13]  F. Debruyne,et al.  Intermediate filament proteins as tissue specific markers in normal and malignant urological tissues. , 1986, The Journal of urology.

[14]  P. Walsh,et al.  The application of flow cytometry to the assessment of tumor cell heterogeneity and the grading of human prostatic cancer: preliminary results. , 1986, Journal of Urology.

[15]  G. Williams,et al.  Prostatic carcinoma cell DNA content measured by flow cytometry and its relation to clinical outcome , 1986, The British journal of surgery.

[16]  M. Viola,et al.  Expression of ras oncogene p21 in prostate cancer. , 1986, The New England journal of medicine.

[17]  W. Hop,et al.  Grading of prostatic cancer: III. Multivariate analysis of prognostic parameters , 1985, The Prostate.

[18]  T. Stamey,et al.  Keratin immunoreactivity in the benign and neoplastic human prostate. , 1985, Cancer research.

[19]  G. Bahr,et al.  Some practical considerations in quantitative absorbance microspectrophotometry. Preparation techniques in DNA cytophotometry. , 1985, Analytical and quantitative cytology and histology.

[20]  J. Chin,et al.  Relationship between DNA ploidy, glandular differentiation, and tumor spread in human prostate cancer. , 1985, Cancer research.

[21]  S. Kagawa,et al.  Immunohistochemical localization of T antigen-like substance in benign hyperplasia and adenocarcinoma of the prostate. , 1984, The Journal of urology.

[22]  J. Epstein,et al.  Nuclear roundness factor. A predictor of progression in untreated stage A2 prostate cancer , 1984, Cancer.

[23]  J. Epstein,et al.  Immunohistochemical localization of prostate-specific acid phosphatase and prostate-specific antigen in stage A2 adenocarcinoma of the prostate: prognostic implications. , 1984, Human pathology.

[24]  J. Epstein,et al.  Squamous carcinoma of the foot arising in association with long‐standing verrucous hyperplasia in a patient with congenital lymphedema , 1984, Cancer.

[25]  I W Taylor,et al.  Method for analysis of cellular DNA content of paraffin-embedded pathological material using flow cytometry. , 1983, The journal of histochemistry and cytochemistry : official journal of the Histochemistry Society.

[26]  I. Christensen,et al.  A detergent-trypsin method for the preparation of nuclei for flow cytometric DNA analysis. , 1983, Cytometry.

[27]  J C Eggleston,et al.  A new method to assess metastatic potential of human prostate cancer: relative nuclear roundness. , 1982, The Journal of urology.

[28]  C. Olsson,et al.  Prognostic significance of nucleolar surface area in prostate cancer. , 1982, Urology.

[29]  S. Hsu,et al.  Use of avidin-biotin-peroxidase complex (ABC) in immunoperoxidase techniques: a comparison between ABC and unlabeled antibody (PAP) procedures. , 1981, The journal of histochemistry and cytochemistry : official journal of the Histochemistry Society.

[30]  P. Walsh,et al.  Pathological factors that influence prognosis in stage A prostatic cancer: the influence of extent versus grade. , 1981, The Journal of urology.

[31]  E. Fraley,et al.  Incidental carcinoma of the prostate: a review of the literature and critical reappraisal of classification. , 1980, The Journal of urology.

[32]  G. Murphy,et al.  Histologic grading of primary prostatic cancer: a new approach to an old problem. , 1980, The Journal of urology.

[33]  J. Pipkin,et al.  Flow-cytometric analysis of chicken red blood cells. , 1978, The journal of histochemistry and cytochemistry : official journal of the Histochemistry Society.

[34]  D K Corle,et al.  Preliminary studies of histologic prognosis in cancer of the prostate. , 1977, Cancer treatment reports.

[35]  Jewett Hj The present status of radical prostatectomy for stages A and B prostatic cancer. , 1975 .

[36]  A. Tavares,et al.  Correlation between ploidy and prognosis in prostatic carcinoma. , 1973, The Journal of urology.

[37]  L. Sternberger,et al.  THE UNLABELED ANTIBODY ENZYME METHOD OF IMMUNOHISTOCHEMISTRY PREPARATION AND PROPERTIES OF SOLUBLE ANTIGEN-ANTIBODY COMPLEX (HORSERADISH PEROXIDASE-ANTIHORSERADISH PEROXIDASE) AND ITS USE IN IDENTIFICATION OF SPIROCHETES , 1970, The journal of histochemistry and cytochemistry : official journal of the Histochemistry Society.

[38]  L. M. Franks Latent carcinoma of the prostate. , 1954, The Journal of pathology and bacteriology.

[39]  F. Schröder,et al.  Application of the Monoclonal Antibody Ki-67 on Prostate Biopsies to Assess the Proliferative Cell Fraction of Human Prostatic Carcinoma , 1991 .

[40]  T. P. Pretlow,et al.  Enzyme activities in prostatic carcinoma related to Gleason grades. , 1985, Cancer research.

[41]  D. S. Coffey,et al.  Computerized image analysis of nuclear shape as a prognostic factor for prostatic cancer , 1982, The Prostate.

[42]  A. Zetterberg,et al.  Prognostic significance of nuclear DNA levels in prostatic carcinoma. , 1980, Scandinavian journal of urology and nephrology. Supplementum.

[43]  H. J. Jewett The present status of radical prostatectomy for stages A and B prostatic cancer. , 1975, The Urologic clinics of North America.

[44]  D. Gleason,et al.  Prediction of prognosis for prostatic adenocarcinoma by combined histological grading and clinical staging. , 1974, The Journal of urology.