Alveolar ridge atrophy brings great challenges for endosteal implantation due to the lack of adequate vertical bone mass to hold the implants.To overcome this limitation,we developed a novel dental implant design:sub-...Alveolar ridge atrophy brings great challenges for endosteal implantation due to the lack of adequate vertical bone mass to hold the implants.To overcome this limitation,we developed a novel dental implant design:sub-scaffold dental implant system(SDIS),which is composed of a metal implant and a micro-nano bioactive glass scaffold.This implant system can be directly implanted under mucous membranes without adding any biomolecules or destroying the alveolar ridge.To evaluate the performance of the novel implant system in vivo,SDISs were implanted into the subepicranial aponeurosis space of Sprague–Dawley rats.After 6 weeks,the SDIS and surrounding tissues were collected and analysed by micro-CT,scanning electron microscopy and histology.Our results showed that SDISs implanted into the sub-epicranial aponeurosis had integrated with the skull without any mobility and could stably support a denture.Moreover,this design achieved alveolar ridge augmentation,as active osteogenesis could be observed outside the cortical bone.Considering that the microenvironment of the sub-epicranial aponeurosis space is similar to that of the alveolar ridge,SDISs have great potential for clinical applications in the treatment of atrophic alveolar ridges.The study was approved by the Animal Care Committee of Guangdong Pharmaceutical University(approval No.2017370).展开更多
基金This study was financially supported by the National Key Research and Development Program of China(No.2018YFC1106300)the China Postdoctoral Science Foundation(No.2020M672732)+2 种基金the Natural Science Foundation of Guangdong Province of China(No.2019A1515110480)the Medical Scientific Research Foundation of Guangdong Province of China(No.A2020107)the Beijing Municipal Health Commission of China(Nos.BMHC-2019-9,BMHC-2018-4,PXM2020_026275_000002).
文摘Alveolar ridge atrophy brings great challenges for endosteal implantation due to the lack of adequate vertical bone mass to hold the implants.To overcome this limitation,we developed a novel dental implant design:sub-scaffold dental implant system(SDIS),which is composed of a metal implant and a micro-nano bioactive glass scaffold.This implant system can be directly implanted under mucous membranes without adding any biomolecules or destroying the alveolar ridge.To evaluate the performance of the novel implant system in vivo,SDISs were implanted into the subepicranial aponeurosis space of Sprague–Dawley rats.After 6 weeks,the SDIS and surrounding tissues were collected and analysed by micro-CT,scanning electron microscopy and histology.Our results showed that SDISs implanted into the sub-epicranial aponeurosis had integrated with the skull without any mobility and could stably support a denture.Moreover,this design achieved alveolar ridge augmentation,as active osteogenesis could be observed outside the cortical bone.Considering that the microenvironment of the sub-epicranial aponeurosis space is similar to that of the alveolar ridge,SDISs have great potential for clinical applications in the treatment of atrophic alveolar ridges.The study was approved by the Animal Care Committee of Guangdong Pharmaceutical University(approval No.2017370).
