Construction of a Pig Alveolar Cleft Model in Imitation of Cleft Lip and Palate Congenital Deformity

Alveolar cleft repair is a key step in multiple disciplinary treatment for patients with cleft lip/and palate. Although autologous bone grafting has been used worldwide over the past half century, alternative advanced techniques, such as the use of bone substitutes and guided tissue regeneration, ha...

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Bibliographic Details
Published in:Tissue engineering. Part C, Methods Methods, 2022-03, Vol.28 (3), p.127-135
Main Authors: Zhou, Xia, Du, Changjiang, Ma, Lian
Format: Article
Language:English
Subjects:
Animals
Bone Transplantation - methods
Cleft Lip - surgery
Cleft Palate - pathology
Cleft Palate - surgery
Humans
Imitative Behavior
Protocols
Protocols Article
Swine
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Summary:Alveolar cleft repair is a key step in multiple disciplinary treatment for patients with cleft lip/and palate. Although autologous bone grafting has been used worldwide over the past half century, alternative advanced techniques, such as the use of bone substitutes and guided tissue regeneration, have shown their great potentials and have been recommended by a growing number of physicians and surgeons. The employment of new therapeutic approaches and devices in clinical routine requires tremendous experimental efforts and appropriate animal models with similar sizes and sites of deformity to that of human both anatomically and physiologically. The aim of this study is to develop a juvenile porcine model with surgically created alveolar clefts imitating congenital alveolar cleft in the cleft lip and palate. Alveolar defects between second incisor and canine were surgically created in two miniature pigs (unilateral cleft in P1 and P2); bilateral alveolar defects were surgically created between first and third incisor in one miniature pig (P3) using piezo surgery. Pigs were sacrificed (P1 at 1 month after the surgery and P2 at 3 months postoperatively) and the evaluation of defects were performed by assessing result from the computed tomography (CT) scan and histopathological examination. Postoperative CT scan results showed that the size of the defect remained the same, whereas the edge of the defect became irregular 3 months after the surgery. In all pig subjects, histopathological examination found no sign of osteogenesis in the area of defect, indicating that our surgical procedure was successful in establishing porcine models for alveolar cleft in congenital cleft lip and palate. In conclusion, we developed alveolar cleft in porcine models to mimic the size, site, and environment of congenital alveolar cleft in cleft lip and palate. The novel animal model can be employed in pilot studies for the purpose of optimizing the current surgical treatment techniques as well as developing new treatment procedures and test the bone substitute materials. The bilateral model can be applied in further control studies.
ISSN:1937-3384
1937-3392
DOI:10.1089/ten.tec.2022.0019