arrows: areas of fresh myocardial infarction in the anterior portion of l ventricle extending into...
TRANSCRIPT
Arrows: Areas of fresh myocardial infarction in the anterior portion of L Ventricle extending into the anterior portion of the intraventricular septum
Note that the walls of the left and right ventricles are slightly thicker than normal
Left ventricular free wall extending from epicardium (1) to the endocardium (2). The area of infarction is darker red (hypereosinophilic area) along the subendocardium (3).
Directly beneath the endocardium is a pale area consisting of cardiac myocytes exhibiting vacuolar degeneration (1). The area of infarction is visible as a hypereosinophilic area (2) and there is a second zone of vacuolated myocytes (3) between the infarct and the normal myocardium (4).
1: Area of infarction
2: An area of vacuolated myocytes adjacent to the infarcted myocytes
3: Normal cardiac muscle
1: Endocardium
2: Area of subendocardial vacuolar degeneration
3: The area of infarction contains some RBCs
The border between the vacuolated subendocardial myocytes (1) and the infarcted myocytes (2)
1: Normal Myocytes
2: Vacuolated Myocytes
3: Infarcted Myocytes
The surface of the kidney (left) shows marked nodularity and roughening and scarring from chronic hypertension.
Arrow: Most recent infarct
Triangular shaped infarction with the base at the cortical surface (1) and the apex at the corticomedullary junction (2).
Sharply demarcated area of red discoloration extending from the capsule to the corticomedullary junction (arrow)
Kidney
1: Coagulative necrosis 2: Normal tissue
The necrotic tubules in this hemorrhagic, red infarct are hypereosinophilic. Compare the tubules on the right with the normal tubules seen on the left. Note the interstitial hemorrhage which is associated with vascular leakage within this necrotic region in this tissue.
1: Barely identifiable glomerulus
Retention of the tubular structure and cellular outlines. Although the cellular architecture is retained, there are no nuclei within the renal tubular cells. The nuclei visible are those of inflammatory cells.
Corticomedullary Junction
Arrow: Blood vessel filled with thrombotic material. This vessel has occluded an end artery, resulting in ischemia and infarction.
Triangular shaped infarct. The shape is due to the blood flow distribution of the renal circulation.
Apex (arrow) at the corticomedullary junction
Arrows: Abscesses
Entire lung is consolidated
Arrows: Areas of early abscess formation
Note circumscribed whitish-tan lesions, which are filled with white blood cells
Arrows: Abscesses
Note that the material inside the abscess have been expelled.
Lung
Edge of the abscess Lung
1: Loss of material from center of abscess
2: Loose necrotic material that has not been expelled. This material is made of inflammatory cells (primarily dead white blood cells) and necrotic lung tissue
Lung tissue containing large abscess
The center of the abscess contains necrotic debris (1) and there is a rim of viable inflammatory cells (arrows) surrounding this abscess.
Small abscess with necrotic center
Lung
Center of abscess containing neutrophils and necrotic debris
Arrows: Small abscess full of inflammatory cells, primarily neutrophils
1: Bacterial colony in center of abscess
Intestines and omentum
Arrows: Small, white nodules on the surface of the omental and mesenteric fat tissue
White nodules in the pancreas and the adjacent mesenteric fat tissue
1: Fat tissue surrounding the pancreas
2: Blue areas in fat adjacent to the pancreas
Arrows: Rim of inflammatory cells
Arrows: Fat necrosis
1: Inflammation
2: Peripancreatic Fat Tissue
Blue discoloration in the fat tissue in the interlobular spaces (1) of the pancreas
1: Small area of fat necrosis
The appearance of the pancreatic tissue in this area is somewhat disrupted due to autolysis but there is some premortum necrosis as well
Fat necrosis involving the fat cells in the interlobular spaces (arrow) of the pancreas
Note the purple to blue staining of the calcium deposits within the fat cells
Fat necrosis in the interlobular spaces of the pancreas
Note the blue-staining calcium deposits (arrows) within the fat cells
The clear areas represent the artifact caused by “washing out” of fat from cells during tissue processing for histology
Calcification (arrows) seen in fat necrosis involving the interlobular spaces of the pancreas
Disseminated tuberculosis
The numerous small white nodules scattered throughout the lung tissue represent individual tuberculosis granulomas. In addition, note the dark areas throughout the lung which represent deposits of anthracotic pigment.
Arrows: White granulomas (Miliary tuberculosis)
Dark areas of anthracosis are also prominent.
Hilar lymph nodes from a patient with disseminated Tb
The white, cheesy-appearing nodules (arrows) give rise to the descriptive terms caseous necrosis. The black pigment is anthracotic pigment that has drained from the lungs.
Lung of a patient with chronic history of respiratory disease
Arrows: Eosinophilic nodules
Other areas of the lung are relatively normal. Several bronchi and large vessels can be seen.
Pleural surface at left
Arrows: Eosinophilic nodules
Surrounding inflammatory response in remaining normal lung tissue
Single nodule with amorphous eosinophilic center and accumulation of cells around the outer edge. This is typical of a granuloma in which there is a necrotic center (1) and a rim of lymphocytes, macrophages, and occasional multinucleated giant cells around the periphery.
Granuloma with the amorphous eosinophilic material representing caesation necrosis (1), giant cells near the center (2), and inflammatory cells around the periphery.
Langhans-type multinucleated giant cell, characteristic of Tb granulomas (arrow). Note the horseshoe shape of the nuclei of the giant cell. The majority of cells in the upper left portion of this section are macrophages which provide the major cellular component in the granuloma. Note the smaller number of blue-staining cells in the peripheral portions of this granuloma to the left of which are lymphocytes.
Normal area of prostate
Arrow: Corpora amylacea, small hyaine masses of degenerated cells and inspissated secretions
Prostatic Epithelium
Arrows: Cells with pyknotic fragmented nuclei
Note that the cytoplasm is condensed and hypereosinophilic
Prostatic Epithelium
Demonstrates in situ immunohistochemical technique used to identify DNA fragments characteristic of apoptotic nuclei. TUNEL is used to identify apoptotic cells (arrows) in histology samples.
Prostatic epithelium with TUNEL staining
Note the apoptotic cells (brown nuclei) in the epithelium as well as floating freely