Waterhouse-Friderichsen syndrome after infection with group A streptococcus.

We report a case of Waterhouse-Friderichsen syndrome associated with group A streptococcus (GAS) toxic shock syndrome in a previously healthy man. The patient presented with neck pain and fevers of 2 days' duration. Computed tomography of the neck revealed a mass in the retropharyngeal space, suggesting an abscess. Despite prompt treatment with appropriate antibiotics, the patient experienced a fulminant course and died within 8 hours of presentation. Antemortem blood cultures grew GAS positive for exotoxins A, B, and C. Postmortem examination revealed bilateral adrenal hemorrhage, consistent with Waterhouse-Friderichsen syndrome. Immunohistochemical analysis of the adrenal glands revealed the presence of GAS antigens. However, no disseminated intravascular coagulation was evident. This case demonstrates that adrenal hemorrhage can occur without associated coagulopathy and may result directly from the action of bacterial toxins.

Pathophysiology of tumor progression in human gallbladder: flow cytometry, CEA, and CA 19-9 levels in bile and serum in different stages of gallbladder disease.

Gallbladder epithelium is unique among the gastrointestinal cell types because proteins and protein levels in the fluid bathing the luminal side of the cells (bile) are different from and can be compared with those in the fluid bathing the basal side (serum). To help identify cellular changes that occur during the development of gallbladder cancer, we obtained gallbladder tissue, serum, and bile specimens from 20 patients with invasive adenocarcinoma of the gallbladder, three with high-grade dysplasia (carcinoma in situ), six with low-grade dysplasia, 12 with hyperplasia, and 10 with acute or chronic cholecystitis. We obtained serum samples from 40 patients with invasive adenocarcinoma and bile samples from 29 of these patients; serum samples from three with high-grade dysplasia and bile specimens from two of these; serum and bile samples from five with low-grade dysplasia; serum or bile samples from 126 with metaplasia, hyperplasia, or cholecystitis, including serum samples from 121 and bile samples from 110; and serum and bile samples from eight with normal biliary tracts. The study was conducted in Mexico City, Mexico, and La Paz, Bolivia. We performed flow cytometric DNA analysis on gallbladder tissue specimens and measured levels of carcinoembryonic antigen (CEA) and CA 19-9 antigen in the serum and bile specimens. Analysis of the cell cycle compartments by flow cytometry revealed marked variations of the proliferation index for the different disease states (P less than .0001). The proliferation index increased with progression from cholecystitis to invasive adenocarcinoma. Of the bile and serum measurements, only serum CA 19-9 values were correlated with flow cytometry measurements (r = -.49, P = .005). Overall, the serum and bile measurements were in agreement (P less than .01). However, with the exception of the correlations among serum measurements for the patients with invasive adenocarcinoma, most of the correlations could be explained by differences in the disease state. In particular, the progression from normal tissue to invasive adenocarcinoma involved no change in bile CA 19-9 level and only a slight change in bile CEA level but much larger changes in serum CEA and CA 19-9 levels. It appears that the progression from normal tissue to invasive adenocarcinoma results in increased production of these antigens and often in loss of cell polarity as well, i.e., inability to prevent leakage of the antigens into the serum.

Flow cytometric analysis of deoxyribonucleic acid in human granulosa cells from in vitro fertilization cycles: relationships to oocyte maturity and fertilizability and to follicular fluid steroids.

We measured the mitotic activity of granulosa cells, sex steroid concentrations in follicular fluids, and the maturity and fertilizability of oocytes from 49 follicles. Flow cytometric measurements of DNA were used to determine the percentage of cells in G0/G1, S, and G2/M phases of the cell cycle. Mitotic index was designated as the percentage of granulosa cells in S + G2/M. The progesterone concentration and the progesterone to estradiol ratio in follicular fluids were inversely correlated to mitotic index (r = -0.506; P less than 0.001, and r = -0.320; P less than 0.02, respectively). Estradiol and androstenedione levels did not correlate with the mitotic index. The mitotic index was higher in follicles with immature oocytes [25.6 +/- 2.0% (+/- SE); n = 7] than in follicles with mature oocytes (15.6 +/- 1.2%; n = 41; P less than 0.001). The mitotic index of granulosa cells was lowest in follicles with oocytes that fertilized (15.5 +/- 1.8%), higher in follicles with oocytes that remained unfertilized (18.5 +/- 1.3%; P less than 0.03), and highest in follicles with oocytes that fertilized abnormally (24.0 +/- 2.1%; P less than 0.02). Differences in maturity or fertilizability of oocytes were not associated with variations in follicular fluid progesterone concentrations. The study supports the concept that mitotic activity is decreased when granulosa cells become luteinized. During early follicular growth it is assumed that estradiol and perhaps androstenedione may be important regulators of cell division. Our findings suggest that progesterone, perhaps acting as an antiestradiol, is more important in controlling granulosa cell division of preovulatory follicles during the late follicular phase.

Simultaneous flow cytometric deoxyribonucleic acid and acid phosphatase analysis of benign and malignant lesions of the prostate.

Flow cytometry can differentiate benign from malignant lesions of the prostate through deoxyribonucleic acid distribution analysis. A method has been developed that permits simultaneous cytometric determination of deoxyribonucleic acid and acid phosphatase activity in the cell cycle compartments of prostatic biopsy specimens. Histograms of prostatic carcinoma reveal higher acid phosphatase activity and greater deoxyribonucleic acid content in the S and S + G2/M populations than the histograms representing benign lesions. This compartmental difference may have prognostic usefulness.

Flow cytometric DNA and 5'-nucleotide phosphodiesterase in endometrium.

One hundred endometrium specimens have been studied with flow cytometry for DNA analysis (FCDA) and a proliferative enzyme marker, 5'-nucleotide phosphodiesterase (5'-NPD). FCDA data showed that aneuploidy was present in only 5 of 40 cancer specimens. However, with corrected histograms, a higher DNA value was observed in the G2/M (6%) of all cancer compared with noncancer specimens (4%). Thus, FCDA can be a useful diagnostic aid for endometrial cancer. The determination of 5'-NPD was done with a quenching method based on the use of 5'-(5-iodo-3-indoxyl)-thymidine phosphodiester as a substrate and 4',6-diamidino-2-phenylindole for DNA. This method could qualitatively define which population of the cell cycle had a higher enzyme level and also quantitatively gave the enzyme units per cell. It was found that 12.5% of all cancer specimens had 5'-NPD activity in the G0/G1 cells and 87.5% in the S and/or G2/M cells, whereas in the noncancer specimens 5'-NPD was found in 28.5% of the G0/G1 cells and 71.5% of the specimens had 5'-NPD in the S and/or G2/M cells. Furthermore, the concentration of 5'-NPD was found to be five times higher in the G2/M cells of the cancer specimens than that in the noncancer specimens. However, in the hyperplasia specimens, the activity was only two times higher in the same cell cycle fraction than in the normal specimens. The results of this investigation provided for the first time evidence that this exonuclease activity alters in the cell cycle fractions and that a decrease in the enzyme activity in G0/G1 cells and an increase in G2/M cells may be a useful marker for neoplastic development in human endometrial cancer.