Abstract
Simple SummaryVertical alveolar osteogenesis distraction (VAOD) technique appears to provide the best results in terms of vertical bone gain. Before its use in humans, most devices are tested on experimental animals. Currently, there is no consensus on which is the ideal biological animal model for VAOD studies. In this review, it has been found that the animal model influences the results. In addition, the most used, easier to handle, and with less complications was the Mongrel dog. The use of pigs and minipigs, given their difficult handling and poor hygiene, is not recommended.This study is aimed at synthesizing all available evidence on vertical alveolar osteogenesis distraction (VAOD) in animal trials to determine whether the animal model used and its handling influence or not, and find which is the most appropriate animal model for this specific technique. This systematic review has been carried out following the PRISMA statements. Bibliographic sources have been consulted manually by two reviewers. Risk of bias was assessed using a version of the Newcastle-Ottawa-Scale (NOS). The selection criteria established by expert researchers were applied in order to decide which studies should be included in the review. Twenty-six studies met the inclusion criteria and were included in the review. Twenty-four of them had a high quality (score between 7 and 9), two medium quality (score between 4 and 6), and none low quality (score between 1 and 3). The highest possible score was 9 (using the NOS). Six studies complied with all NOS criteria. The animal model has been seen to influence the results, leading to failure in some cases. The most used animal model on VAOD, with fewer complications, was the Mongrel dog. The use of the pig and minipig is not recommended, due to the difficulties in handling and complications encountered.
Highlights
In oral implantology, one of the most common challenges is the deficiency of mandibular or maxillary alveolar bone height or width
Based on abstracts and titles, 37 studies were removed after applying study criteria; 5 studies were written in a language other than English (3 in Chinese, 1 in Japanese, and 1 in German), 5 were eliminated because they did not practice oral distraction in the alveolar bone, and 27 studies were removed because horizontal distraction was performed
This review focused on a total of 26 studies that evaluated vertical alveolar osteogenesis distraction (VAOD)
Summary
One of the most common challenges is the deficiency of mandibular or maxillary alveolar bone height or width. The available techniques that allow the use of long implants without reducing the vertical size of the crown are: augmentation of the floor of the maxillary sinus, the placement of pterygoid implants, and dental nerve transposition [2]. To modify the crown-implant length ratio, other techniques such as guided bone regeneration (GBR), autologous bone grafting, and vertical. Animals 2020, 10, 2347 alveolar distraction can be used [3]. All these techniques increase alveolar ridge height and, thereby, allow the utilization of shorter crowns and large implants. The biological basis of osteogenic distraction (OD) is called callotasis
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
