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Journal of Peking University (Health Sciences) ›› 2021, Vol. 53 ›› Issue (3): 598-601. doi: 10.19723/j.issn.1671-167X.2021.03.027

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Application of iodine staining technique for tumor identification in Micro-CT of mouse model with skull base-infratemporal fossa tumor

YANG Rong1,LI Qing-xiang1,WANG Yi-fei1,ZHOU Wen2,WANG Wen3,GUO Chuan-bin1,LIU Hao2,Δ(),GUO Yu-xing1,Δ()   

  1. 1. Department of Oral and Maxillofacial Surgery,Peking University School and Hospital of Stomatology & National Clinical Research Center for Oral Diseases & National Engineering Laboratory for Digital and Material Technology of Stomatology & Beijing Key Laboratory of Digital Stomatology, Beijing 100081, China
    2. Central Laboratory,Peking University School and Hospital of Stomatology, Beijing 100081, China
    3. Department of Orthodontics, Hospital of Stomotology, Hebei Medical University, Shijiazhuang 050017, China
  • Received:2019-06-18 Online:2021-06-18 Published:2021-06-16
  • Contact: Hao LIU,Yu-xing GUO E-mail:sdu2003@126.com;gladiater1984@163.com
  • Supported by:
    National Natural Foundation of China(81672664);National Natural Foundation of China(81700935);Capital Featured Clinical Application Research Project of Beijing Municipal Science & Technology Commission(Z161100000516043)

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Abstract:

Objective: To establish an animal model with malignant tumor in the skull base-infratemporal region , and to explore the role of iodine staining technique in identifying tumor tissues with Micro-CT data . Methods: Sedation anesthesia was carried out on 12 BABL/c nude mice using inhaled isoflurane, and then WSU-HN6 cells that cultured and immortalized from human tongue squamous cell carcinoma were injected into the right infratemporal fossa via the submandibular area. The procedure was carried out under ultrasonographic guidance. The nude mice were sacrificed after 3 weeks observation. The head specimens were fixed and scanned by Micro-CT, and repeated scans were performed after staining with 3.75% compound iodine solution. Following decalcification in 20% EDTA for 2-4 weeks, the head specimens were embedded and sectioned. Hematoxylin and eosin staining and Pan-Keratin immunohistochemical staining were carried out. Bright-field microscopy and stereomicroscopy were used to visualize. The Micro-CT data were analyzed using iPlan software (Brainlab). Results: Non-traumatic ultrasonography was used to guide HN-6 cells injection and confirm skull-base tumor formation in all the animals. Ultrasonographic guidance reduced the risk of cervical vessel injury when transferring tumor cells into the skull base space. An obvious asymmetrical appearance was detected via ultrasonography 3 weeks after tumor cell injection. The Micro-CT analysis showed that the bone was obviously damaged on the right side of the skull base, but the soft tissue image was unrecognizable. After four days staining with compound iodine solution, the morphology of the tumor and surrounding soft tissue could be clearly identified. Hematoxylin and eosin staining showed the tumor formation of the right infratemporal fossa region accompanied by bone destruction. Human keratin immunohistochemical staining showed that the tumor tissue originated from human squamous cell carcinoma, and the polynuclear osteoclasts could be seen at the margin of the skull base bone resorption. Conclusion: The animal model with malignant tumor in the skull base-infratemporal region could be successfully established via submandibular injection under ultrasound-guidance. Bone changes of the skull were easily observed on Micro-CT, but the tumor counter was not able to be distinguished from surrounding soft tissue. The 3.75% compound iodine staining of the head specimen could help discern the tumor and surrounding soft tissue in more details.

Key words: Skull base, Tumor, Nude mice, Compound iodine solution

CLC Number: 

  • R329.4

Figure 1

Micro-CT images of nude mice before and after staining with compound iodine solution A, B, coronal and axial views of Micro-CT scan before compound iodine solution staining indicated the bony invasion on the right side of the skull base easily (white arrows), but couldn’t determine the tumor location precisely; C, D, coronal and axial views of Micro-CT scan after compound iodine solution staining, reflected the skull base tumor (red dotted lines) from the surrounded muscles easily."

Figure 2

Skull base tumors of murine model verified using H-E and immunohistochemical staining A, H-E staining showed a mass of atypia epithelial cells from the skull base tumor specimen; B, human cytokeratin immunohistochemical staining showed that the tumor was epithelial-derived squamous cell carcinoma; C, H-E staining of the destruction region of skull bone, red box shows the bone tissue with empty bone lacuna, black dotted box was enlarged as the figure 2D; D, the polynuclear osteoclasts at the margin of skull base bone resorption indicated by red arrow."

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