Conceived as a screening tool, cytology is a field that since the 1980s has become more diagnostic in its scope. The advent of the fine-needle aspiration biopsy (FNAB) is responsible for cytology's new place in pathology. In the everyday practice of cytopathology, about 85-90% of the nongynecologic cases can be diagnosed with the use of routine stains (i.e., Papanicolaou and Diff Quik). The other 10-15% of the cases require the use of ancillary diagnostic techniques for a precise diagnosis. Immunohistochemistry helps solve approximately 50% of these cases, and the other half of these challenging cases are best approached and diagnosed by using electron microscopy (EM). In their practice, the authors obtain cytologic samples for EM routinely in difficult cases. Unfortunately, a percentage of these cases collected for ultrastructural evaluation do not have enough cells after processing, and others only have a few diagnostic cells available. In the cases in which at least a handful of cells are available, EM is almost invariably helpful in one way or another, either making a definitive diagnosis or refining the diagnosis. A sampling of FNAB cases from the authors' everyday practice is prevented to illustrate the use of EM in the practice of cytopathology. The cases have been selected from among the most common diagnostic challenges to highlight the important role that ultrastructural evaluation plays in a busy cytology practice. In our practice ultrastructural evaluation is a piece of the puzzle, which, along with the clinical history, clinical impression, light microscopic/cytologic features, and other ancillary techniques (IHC, flow cytometry, and molecular pathology), help compile an accurate diagnosis. Many times EM is the most important component of the diagnostic algorithm.
SUMMARY The accuracy of rest and exercise radionuclide angiocardiography (RNA) and exercise treadmill testing (ETT) for diagnosis of three-vessel or left main coronary artery disease (extensive CAD) was determined in 544 patients. ETT and RNA sensitivities were similar (88% vs 92%, NS), but ETT was more specific than RNA (46% vs 34%, p < 0.01). The prevalence of extensive CAD in patients with a positive treadmill (41 %) increased only 3% when the RNA was also positive. However, in the 292 patients with a negative or indeterminate ETT, a positive RNA increased this prevalence from 16% to 23%, while a negative RNA decreased this prevalence to 5%. These results support the initial use of ETT followed by RNA if the treadmill is negative or indeterminate for diagnosis in a population with a high prevalence of extensive CAD. This approach separates patients into subgroups with a high or low probability of extensive CAD.SURVIVAL in patients with coronary artery disease (CAD) has been related to the number of diseased coronary vessels and to the presence of significant left main coronary artery stenosis. X-The identification of patients with a high probability of three-vessel or left main disease is an important goal of noninvasive testing. Exercise-induced left ventricular functional abnormalities appear to result from ischemia and can be
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