Epididymal mitochondrial status of hypothyroid rats examined by transmission electron microscopy.

Hypothyroid rats show alterations in the mobility of sperm recovered from their epididymides. The AgNOR technique, immunohistochemistry and transmission electron microscopy were used to investigate changes in epithelial cells from epididymides of rats treated with (131)I. Counting of NORs did not permit detection of changes in the proliferative capacity of epididymides of hypothyroid animals. Transmission electron microscopy revealed changes in the mitochondria of hypothyroid rats that probably are associated with incipient apoptosis.

AgNOR, p16 and human papillomavirus in low-grade squamous intra-epithelial lesions of the uterine cervix. Preliminary report.

It has been shown that infection with high-risk human papillomaviruses (HR-HPV) is related to the development of cervical cancer. The persistence of the virus in intra-epithelial lesions of cervix uteri (SILs) is the basis for the application of HPV testing for screening and management of patients. Most infections by HR-HPVs resolve spontaneously, however, and do not progress to dysplasia or cancer. p16INK4a is a useful biomarker of cervical intra-epithelial neoplasia and could be a marker for the progression of low-grade squamous intra-epithelial lesions (LSILs) to high-grade squamous intra-epithelial lesions (HSILs), because it correlates independently with increasing SIL grade. We conducted a preliminary histological study of 28 patients diagnosed with LSIL, HSIL or nondysplastic epithelium (NDE) from whom 28 biopsies of uterine cervix and 28 endocervical brushed biopsies were taken. Argyrophilic nucleolar organizer region (AgNOR) and p16INK4a assays were performed on the biopsies, and endocervical brushings were used for HPV typing. The high risk HPV group showed that the number of patients with AgNOR areas greater than 3.3 µm(2) and with expression of p16INK4a were statistically greater than the number of lower risk patients. None of the biopsies of LR-HPV carriers expressed p16 and AgNOR areas> 3.3 µm(2) simultaneously. Four LSILs and the NDE of this group expressed neither of the two markers. If the correlation between AgNOR areas and p16INK4a is good, we may be able to develop a low cost simple technology for studying patients infected with HR-HPV and diagnosed with LSIL of uncertain behavior.

Prognostic value of germ cells in the ejaculate: a case study.

The first approach to assessing male fertility is to study a spermiogram, where special attention is given to sperm count, motility and morphology, while less attention is given to other cells in the ejaculate. Normal spermatogenesis requires a balance between cell death and proliferation; therefore, the number of germ cells (GC) in the ejaculate is less than the number of sperm. We propose a new index for altered spermatogenesis, i.e., the rate GC/sperm. We investigated a patient with oligozoospermia and a GC/sperm ratio greater than one, which indicated that spermatogenesis had been damaged. Complementary cytological tests were employed to characterized GC status: Papanicolaou stain, transmission electronic microscopy (TEM), vitality test, AgNOR and TUNEL assay. We also correlated cell morphology with ultrastructure studies that showed apoptosis. Nuclear apoptosis is characterized by vacuolization, misshapen nuclei, and "half moon," dispersed, uncondensed, disrupted and smudged chromatin. Cytoplasmic apoptosis is characterized by vacuolization, cytoplasmic protrusions, lamellar bodies, and swollen endoplasmic reticulum and mitochondria. To date, only testicular biopsy has been used to diagnose complete or incomplete testicular arrest. Our investigation is the first to determine a cytological feature in semen samples that could be used as a biological marker for abnormal spermatogenesis and for predicting the transition from oligospermia to azoospermia.

Sensitivity and specificity of cytodiagnosis of body fluids in a laboratory of urgencies.

The main purpose for studying cytological body fluids is confirmation of a benign or malignant effusion. Our cytology laboratory analyzes body fluids and results are requested urgently. The samples are stained by the Giemsa and Papanicolaou methods to give a preliminary report, then they are examined by other complementary techniques. Three hundred thirty samples of pleural and peritoneal fluids were studied to compare the sensitivity of Papanicolaou and Giemsa stains. AgNOR assay, immunocytochemistry and assessment of ploidy were used to improve the sensitivity of the cytodiagnosis. Two hundred one samples were positive, 84 negative and 45 inconclusive using the Papanicolaou stain, while 135 samples were positive, 72 negative and 123 inconclusive using Giemsa stain. The sensitivity was 79%, 53% and 83% for Papanicolaou, Giemsa, and both techniques together, respectively. Using complementary techniques, the sensitivity reached 95% for AgNOR, 87% for tumor markers (panel), and 92% for Ploidy. There were no false positive in our series; therefore specificity was 100%. The use of both Papanicolaou and Giemsa in conjunction increased the sensitivity of the cytodiagnosis in body fluids. The complementary methods, especially AgNOR assay and assessment of ploidy, diminished the number of inconclusive cases.

Usefulness of ploidy, AgNOR and immunocytochemistry for differentiating benign and malignant cells in serous effusions.

OBJECTIVE: The objective of this study was to establish the value of different markers in differentiating reactive mesothelial cells from metastatic adenocarcinomatous cells in serous effusions (SE). METHODS: Forty-five SE were processed for morphological examination (Papanicolaou stain), assessment of ploidy, AgNOR counting and immunocytochemical assay of carcinoembryonic antigen (CEA), epithelial membrane antigens (EMA), Ber-EP4 and Leu-M1. Ploidy was established in an image-analyser in smears stained by the Feulgen stain method. AgNOR dots were counted in the smears stained with the silver nitrate assay for non-histone proteins present in the nucleolar organizer region. CEA, EMA, Ber-EP4 and Leu-M1 were evaluated by immunocytochemistry using the streptavidin-biotin complex method. RESULTS: All the smears with positive cytology were aneuploid. Three false negatives by morphological studies were aneuploid, with AgNOR values in two of them corresponding to the neoplastic group. CEA and Leu-M1 showed a low specificity; EMA and Ber-EP4 showed moderate sensitivity. CONCLUSIONS: The assessment of ploidy and the study of AgNOR were better methods than immunocytochemistry for distinguishing between reactive mesothelial cells and adenocarcinomatous cells in serous fluid.

[Usefulness of AgNOR technique in the interpretation of serous effusions]. / Utilidad de la técnica de AgNOR en la interpretación de los derrames de cavidades serosas.

BACKGROUND: AgNOR technique detects, using silver salts, argyrophylic proteins of the nucleolar organizer region (NOR). The number and size of NOR reflect cell activity, proliferation and transformation and may help to differentiate benign from malignant cells. AIM: To assess the value of AgNOR assay to differentiate reactive mesothelial cells from malignant cells in serous effusions. MATERIAL AND METHODS: Thirty one fluids obtained from 16 pleural, 14 peritoneal and one pericardial effusion, were studied. The fluids were processed with Giemsa and Papanicolau stains and with the AgNOR technique. The number of AgNOR dots were counted (only when it was possible to distinguish each individual dot) and the mean value per nucleus was calculated for each smear. RESULTS: Mesothelial cells had a mean of 4.88 +/- 1.5 dots compared with 13.78 +/- 3.88 dots in the malignant cells (p < 0.001). CONCLUSIONS: AgNOR assay can be useful for the differentiation of benign and malignant cells in serous effusions.