AI Article Synopsis
- The study investigated the impact of mechanical trauma on testicular tissue in laboratory rats, highlighting risks like tissue damage and infertility.
- Observations were made at various intervals post-trauma, with both control and experimental groups, focusing on structural changes in the testis through advanced microscopy techniques.
- Significant deterioration in testicular structure and function was noted in the experimental group, with changes worsening over time, suggesting the potential for similar outcomes in clinical settings.
Article Abstract
Objective: Mechanical trauma to the testicles poses a potential risk of tissue destruction, disruption of local blood supply, and impairment of spermatogenesis, which can ultimately lead to infertility. Therefore, investigating this topic is crucial. The study aimed to identify cytological and morphological changes in the testicular tissue of laboratory rats following mechanical trauma to the organ.
Methods: Observations were recorded on days 7, 14, 30, and 90 post-trauma. The experiment involved two groups of animals: a control group of healthy animals and an experimental group that sustained blunt mechanical trauma. Tissue samples were collected, fixed, dehydrated, and embedded in paraffin; subsequently, sections were prepared and stained. Structural changes in tissues and cells were documented using light and transmission electron microscopy.
Results: In the experimental sample, notable changes included a decrease in organ weight, thickening of the protein shell and tubule walls, sclerotisation of the tubule membrane, narrowing of tubule diameter, reduced spermatozoa and spermatids titre, diminished capillary network and spermatogenic epithelium, uneven blood vessel lumen expansion, and decreased volume of Leydig cell nuclei. Additionally, in cells under different functional loads, the cytoplasm was vacuolated, mitochondrial cristae and the Golgi apparatus were diminished, cytoplasm volume decreased, karyopyknosis was observed, and uncharacteristic protrusions appeared on the surface of the cytoplasmic membrane. The severity of destruction at the cellular and tissue levels showed a positive correlation with time.
Conclusion: The data obtained from these model sites can be predictive for clinical trials.
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| http://dx.doi.org/10.5653/cerm.2024.07080 | DOI Listing |
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