AI Article Synopsis
- The study observed two types of hyperchromic neurons in the rat sensorimotor cortex 100 days after exposure to hypoxic hypoxia, characterized by vacuolization in the cytoplasm.
- The first type of neurons exhibited irreversible dystrophic changes, indicating severe damage.
- The second type had no irreversible changes but showed alterations in their DNA-RNA-protein synthesis processes, suggesting functional disruptions.
Article Abstract
100 days after the exposure of the rat sensorimotor cortex to hypoxic hypoxia two types of hyperchromic neurons with vacuolization of the cytoplasm were described. Using electron cytochemical method for the differential staining of ribonucleoproteins, it has been shown that the first type of hyperchromic neurons were cells with irreversible dystrophic changes and the second type were cells without irreversible dystrophy but with changes in the DNA-RNA-protein synthesizing system.
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