High-resolution three-dimensional visualization of hepatic sinusoids in cirrhotic rats via serial histological sections

Yi Liu; Wen Juan Lv; Jian Bo Jian; Xiao Hong Xin; Xin-yan Zhao; Shu-Hong Hu

Ayuda

High-resolution three-dimensional visualization of hepatic sinusoids in cirrhotic rats via serial histological sections

Jing-Yi Liu ^[1] ; Wen-Juan Lv ^[3] ; Jian-Bo Jian ^[2] ; Xiao-Hong Xin ^[3] ; Xin-Yan Zhao ^[4] ; Chun-Hong Hu ^[3]
1. [1] Tianjin Medical University
  
  Tianjin Medical University
  
  China
2. [2] Tianjin Medical University General Hospital
  
  Tianjin Medical University General Hospital
  
  China
3. [3] Tianjin Medical , China
4. [4] Capital Medical , China
Mostrar afiliaciones +
Localización: Histology and histopathology: cellular and molecular biology, ISSN-e 1699-5848, ISSN 0213-3911, Vol. 36, Nº. 5, 2021, págs. 577-586
Idioma: inglés
Enlaces
- Texto completo
Resumen
- Aim. As a specialized intraparenchymal vascular conduit, hepatic sinusoids play a key role in liver microcirculation. This study aimed to explore the three-dimensional (3D) morphological changes of cirrhotic sinusoids by serial histological sections.
  
  Methods. Cirrhosis was induced by tail vein injection of albumin in Wistar rats with a positive antibody. A total of 356 serial histological sections were prepared from liver tissue blocks of normal and cirrhotic rats. The optical microscope images were registered and reconstructed, and 3D reconstructions of the fine structures of fibrous tissues and sinusoids were subsequently visualized.
  
  Results. The fibrosis area of the cirrhotic sample was 6-16 times that of the normal sample (P<0.001).
  
  Cirrhosis led to obvious changes in the distribution and morphology of sinusoids, which were mainly manifested as dilation, increased quantity and disordered distribution. Compared with normal liver, cirrhotic liver has a significantly increased volume ratio, number and volume of sinusoids (1.63-, 0.53-, and 1.75-fold, respectively, P<0.001). Furthermore, the samples were further divided into three zones according to the oxygen supply, and there were significant differences in the morphology of the sinusoids in the normal and cirrhotic samples (P<0.05). In particular, morphological parameters of the cirrhotic sinusoids near the portal area were obviously greater than those in the normal liver (P<0.05).
  
  Conclusion. 3D morphological structures of hepatic sinusoids were reconstructed, and the adaptive microstructure changes of cirrhotic sinusoids were accurately measured, which has an important implications for the study of hepatic microcirculation and pathological changes of cirrhosis.