19. Thrombus and postmortem blood clot: Difference between revisions
(Created page with "'''Staining''': HE '''Organ''': Thrombus (with myocardium) and postmortal clot '''Description''': Two different pieces of tissue are on the slide, one to the left and one to the right. The tissue to the right has no structure. It contains RBCs, WBCs and fibrin in a random arrangement. The tissue to the left has structure. On the bottom there is myocardium with interstitial fibrosis and enlarged nuclei. On the top we can see a lot of eosinophilic acellular material,...") |
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'''Staining''': HE | [[File:Thrombus and postmortal clot - overview.png|thumb|Overview of the slide]]'''Staining''': HE | ||
'''Organ''': Thrombus (with myocardium) and postmortal clot | '''Organ''': Thrombus (with myocardium) and postmortal clot | ||
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'''Description''': | '''Description''': | ||
Two different pieces of tissue are on the slide, one to the left and one to the right. | Two different pieces of tissue are on the slide, one to the left and one to the right. The tissue to the right has no structure. It contains RBCs, WBCs and fibrin in a random arrangement. The tissue to the left has structure. On the bottom there is myocardium with interstitial fibrosis and enlarged nuclei. On the top we can see a lot of eosinophilic acellular material, some cells and RBCs. Some endothelial cells can also be seen. | ||
The tissue to the right has no structure. It contains RBCs, WBCs and fibrin in a random arrangement. | |||
The tissue to the left has structure. On the bottom there is myocardium with interstitial fibrosis and enlarged nuclei. On the top we can see a lot of eosinophilic acellular material, some cells and RBCs. Some endothelial cells can also be seen. | |||
'''Causes of thrombosis''': | '''Causes of thrombosis''': | ||
| Line 17: | Line 13: | ||
** Abnormal blood flow | ** Abnormal blood flow | ||
** Hypercoagulability | ** Hypercoagulability | ||
[[File:Thrombus and postmortal clot - postmortal clot.png|thumb|The postmortal clot. It has no structure.]]'''Theory''': | |||
'''Theory''': | |||
The tissue to the right is a postmortal clot. It has no structure; it’s just the remnants of cells and fibrin that clump together after death. | The tissue to the right is a postmortal clot. It has no structure; it’s just the remnants of cells and fibrin that clump together after death. | ||
| Line 24: | Line 19: | ||
The tissue to the left is a thrombus attached to some myocardium. The myocardial cells have enlarged nuclei and we can see interstitial fibrosis among the myocardial cells, pointing to that this is hypertrophic myocardium. | The tissue to the left is a thrombus attached to some myocardium. The myocardial cells have enlarged nuclei and we can see interstitial fibrosis among the myocardial cells, pointing to that this is hypertrophic myocardium. | ||
The thrombus itself is of most interest here. It shows signs of ''organization'', the process where thrombi, exudate or dead tissue is converted into fibrous tissue. These signs are most visible in the middle of the thrombus, marked as “Lines of Zahn” on the overview picture below. | The thrombus itself is of most interest here. It shows signs of ''organization'', the process where thrombi, exudate or dead tissue is converted into fibrous tissue. These signs are most visible in the middle of the thrombus, marked as “Lines of Zahn” on the overview picture below.[[File:Thrombus and postmortal clot - myocardial hypertrophy.png|thumb|Signs of myocardial hypertrophy.]]If a thrombus doesn’t dissolve in around 24 hours will it undergo organization. Organization has three phases. In the first phase will macrophages and neutrophils digest the thrombus. In the second phase will fibroblasts enter the thrombus and initiate fibrosis. In the third phase will new vessels be formed inside the thrombus. | ||
If a thrombus doesn’t dissolve in around 24 hours will it undergo organization. Organization has three phases. In the first phase will macrophages and neutrophils digest the thrombus. In the second phase will fibroblasts enter the thrombus and initiate fibrosis. In the third phase will new vessels be formed inside the thrombus. | |||
The lines of Zahn are alternating lines of fibrin and RBCs that can be seen both microscopically and macroscopically. These lines are one morphological sign of organization here. | The lines of Zahn are alternating lines of fibrin and RBCs that can be seen both microscopically and macroscopically. These lines are one morphological sign of organization here. | ||
The other sign of organization is the ''vascularization''. Not far from the lines of Zahn can we see endothelial cells that are working to create new vessels. | The other sign of organization is the ''vascularization''. Not far from the lines of Zahn can we see endothelial cells that are working to create new vessels. | ||
[[File:Thrombus and postmortal clot - lines of Zahn.png|thumb|Lines of Zahn and vascularisation|left]] | |||
[[File:Thrombus and postmortal clot - lines of Zahn.png | |||
[[File:Thrombus and postmortal clot - endothelial cells.png|center|thumb|Endothelial cells]] | [[File:Thrombus and postmortal clot - endothelial cells.png|center|thumb|Endothelial cells]] | ||
[[Category:Pathology 1 - Histopathology slides]] | [[Category:Pathology 1 - Histopathology slides]] | ||
Latest revision as of 12:39, 5 July 2024
Staining: HE
Organ: Thrombus (with myocardium) and postmortal clot
Description:
Two different pieces of tissue are on the slide, one to the left and one to the right. The tissue to the right has no structure. It contains RBCs, WBCs and fibrin in a random arrangement. The tissue to the left has structure. On the bottom there is myocardium with interstitial fibrosis and enlarged nuclei. On the top we can see a lot of eosinophilic acellular material, some cells and RBCs. Some endothelial cells can also be seen.
Causes of thrombosis:
- Virchow’s triad
- Endothelial damage
- Abnormal blood flow
- Hypercoagulability
Theory:
The tissue to the right is a postmortal clot. It has no structure; it’s just the remnants of cells and fibrin that clump together after death.
The tissue to the left is a thrombus attached to some myocardium. The myocardial cells have enlarged nuclei and we can see interstitial fibrosis among the myocardial cells, pointing to that this is hypertrophic myocardium.
The thrombus itself is of most interest here. It shows signs of organization, the process where thrombi, exudate or dead tissue is converted into fibrous tissue. These signs are most visible in the middle of the thrombus, marked as “Lines of Zahn” on the overview picture below.
If a thrombus doesn’t dissolve in around 24 hours will it undergo organization. Organization has three phases. In the first phase will macrophages and neutrophils digest the thrombus. In the second phase will fibroblasts enter the thrombus and initiate fibrosis. In the third phase will new vessels be formed inside the thrombus.
The lines of Zahn are alternating lines of fibrin and RBCs that can be seen both microscopically and macroscopically. These lines are one morphological sign of organization here.
The other sign of organization is the vascularization. Not far from the lines of Zahn can we see endothelial cells that are working to create new vessels.
