Impact of simultaneous placement of implant and block bone graft substitute: an in vivo peri-implant defect model

Thieu, Minh Khai Le; Homayouni, Amin; Hæren, Lena Ringsby; Tiainen, Hanna; Verket, Anders; Ellingsen, Jan Eirik; Rønold, Hans Jacob; Wohlfahrt, Johan Caspar; González‐Cantalapiedra, Antonio; Muñoz, Fernando; Permuy, María; Lyngstadaas, Ståle Petter; Haugen, Håvard Jostein

doi:10.1186/s40824-021-00245-3

Cited by 7 publications

(6 citation statements)

References 38 publications

(41 reference statements)

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“…The BTE approach using in vitro expansion of cells on a scaffold prior to grafting into bone represents a promising alternative to current clinical treatments. TiO2 scaffolds, as used here, show promising results in various in vivo experiments [6,8,11]. However, in a recent study [12] using a chronic non-contained bone defects application, less bone formation was observed in the TiO2 groups compared to membrane alone at the final time point of 12 weeks of healing.…”

Section: Discussionmentioning

confidence: 81%

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Osteoblasts in a Perfusion Flow Bioreactor—Tissue Engineered Constructs of TiO2 Scaffolds and Cells for Improved Clinical Performance

Schröder

Reseland

Haugen

2022

Cells

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Combining biomaterial scaffolds with cells serves as a promising strategy for engineering critical size defects; however, homogenous cellular growth within large scaffolds is challenging. Mechanical stimuli can enhance bone regeneration by modulating cellular growth and differentiation. Here, we compare dynamic seeding in a perfusion flow bioreactor with static seeding for a synthetic bone scaffold for up to 21 days using the cell line MC3T3-E1 and primary human osteoblast, confocal laser scanning microscopy, and real-time reverse transcriptase-polymerase chain reaction. The secretion of bone-related proteins was quantified using multiplex immunoassays. Dynamic culture improved cellular distribution through the TiO2 scaffold and induced a five-fold increase in cell number after 21 days. The relative mRNA expression of osteopontin of MC3T3-E1 was 40-fold enhanced after 7 and 21 days at a flow rate of 0.08 mL/min, and that of collagen type I alpha I expression was 18-fold after 21 days. A flow rate of 0.16 mL/min was 10-fold less effective. Dynamic culture increased the levels of dickkopf-related protein 1 (60-fold), osteoprotegrin (29-fold), interleukin-6 (23-fold), interleukin-8 (36-fold), monocyte chemoattractant protein 1 (28-fold) and vascular endothelial growth factor (6-fold) in the medium of primary human osteoblasts after 21 days compared to static seeding. The proposed method may have clinical potential for bone tissue engineering.

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Section: Discussionmentioning

confidence: 81%

“…Although TiO 2 scaffolds favor new bone ingrowth in vivo [6,8,11], in chronic bone defects the rate of bone growth was found to be too slow [12]. Therefore, bone tissue engineering (BTE) strategies are needed for these TiO 2 scaffolds to increase clinical translation.…”

Section: Introductionmentioning

confidence: 99%

Osteoblasts in a Perfusion Flow Bioreactor—Tissue Engineered Constructs of TiO2 Scaffolds and Cells for Improved Clinical Performance

Schröder

Reseland

Haugen

2022

Cells

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“…In general, the mechanical properties of barrier membranes should meet the clinical need to maintain structural integrity in surgery, as well as withstand forces from regenerating tissue and oral activities after surgery [46,47]. Our organic-inorganic (biphasic) hierarchical porous architectures solve the problem that the membranes absence of expected mechanical property usually fail to repair the periodontal tissue efficiently.…”

Section: Discussionmentioning

confidence: 99%

Modularized bioceramic scaffold/hydrogel membrane hierarchical architecture beneficial for periodontal tissue regeneration in dogs

et al. 2022

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Background Destruction of alveolar bone and periodontal ligament due to periodontal disease often requires surgical treatment to reconstruct the biological construction and functions of periodontium. Despite significant advances in dental implants in the past two decades, it remains a major challenge to adapt bone grafts and barrier membrane in surgery due to the complicated anatomy of tooth and defect contours. Herein, we developed a novel biphasic hierarchical architecture with modularized functions and shape based on alveolar bone anatomy to achieve the ideal outcomes. Methods The integrated hierarchical architecture comprising of nonstoichiometric wollastonite (nCSi) scaffolds and gelatin methacrylate/silanized hydroxypropyl methylcellulose (GelMA/Si-HPMC) hydrogel membrane was fabricated by digital light processing (DLP) and photo-crosslinked hydrogel injection technique respectively. The rheological parameters, mechanical properties and degradation rates of composite hydrogels were investigated. L-929 cells were cultured on the hydrogel samples to evaluate biocompatibility and cell barrier effect. Cell scratch assay, alkaline phosphatase (ALP) staining, and alizarin red (AR) staining were used to reveal the migration and osteogenic ability of hydrogel membrane based on mouse mandible-derived osteoblasts (MOBs). Subsequently, a critical-size one-wall periodontal defect model in dogs was prepared to evaluate the periodontal tissue reconstruction potential of the biphasic hierarchical architecture. Results The personalized hydrogel membrane integrating tightly with the nCSi scaffolds exhibited favorable cell viability and osteogenic ability in vitro, while the scratch assay showed that osteoblast migration was drastically correlated with Si-HPMC content in the composite hydrogel. The equivalent composite hydrogel has proven good physiochemical properties, and its membrane exhibited potent occlusive effect in vivo; meanwhile, the hierarchical architectures exerted a strong periodontal regeneration capability in the periodontal intrabony defect models of dogs. Histological examination showed effective bone and periodontal ligament regeneration in the biomimetic architecture system; however, soft tissue invasion was observed in the control group. Conclusions Our results suggested that such modularized hierarchical architectures have excellent potential as a next-generation oral implants, and this precisely tuned guided tissue regeneration route offer an opportunity for improving periodontal damage reconstruction and reducing operation sensitivity. Graphical Abstract

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“…Immediate placement of implants has many advantages such as preservation of alveolar bone , better implant orientation , esthetics and psychosocial benefits in addition to it overcomes the drawbacks of delayed implants such as prolonged treatment time, multiple appointments, reduction in alveolar bone dimensions and migration of teeth into the edentulous space (25) The distance between the socket walls and the implant surface may justify augmentation to predictably achieve bone implant contact (BIC) and prevent soft tissue collapse and many preclinical and clinical studies have documented the regeneration of horizontal gaps smaller than 2 mm in the presence of a stable blood clot but when the peri-implant gap distance was more than 2mm the bone graft should be used to seal this bony defect (26)(27)(28) It was postulated that topical application of melatonin has osteoconductive capacity, stimulate new bone formation and reduce the resorption of bone by inhibiting osteoclastogenesis ( 29) Hyaluronic acid play a key role during bone repair by stimulating cell migration, adhesion, and proliferation of undifferentiated mesenchymal cells inducing their differentiation into osteoblastic cells (30) IIP in the esthetic zone represents one of the major challenges in dentistry as it implies a multidisciplinary approach involving prosthetic and periodontal aspects to gain long term stability and functional results furthermore the postextraction morphology of the maxillary premolar sockets presents a number of challenges to clinicians seeking ideal implant position, including the morphology of the lateral walls of the extraction socket and the presence of the interradicular septum in addition to thin tissue biotypes which showed greater recession than thick tissue biotypes (31) (32) According to the previous studies, the role of topical melatonin and hyaluronic acid in establishment of high success osseointegration of immediate implants and minimizing crestal bone loss needs to be investigated.…”

Section: Discussionmentioning

confidence: 99%

Management Of Gap Distance Around Immediate Implants With Topical Melatonin Gel and Hyaluronic Acid ( A Randomized Clinical Trial)

amer

2022

Egyptian Dental Journal

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Background: Immediate post extraction implants are currently widely used; with this surgical technique a dental implant is placed after extraction of teeth in a fresh socket without waiting for any bone or soft tissue healing to reduce the treatment periods. Melatonin is physiologically existing in saliva, and it was found to influence both bone regeneration and fibroblast activation as well as hyaluronic acid which distributed widely throughout neural, connective, and epithelial tissues. Aim:The aim of the present study was to evaluate the effect of topically delivered melatonin gel and hyaluronic acid on dental implants placed into fresh extraction sockets clinically and radiographically. Subjects and Methods:Patients were eligible for the present study if they needed one immediate implant placement (IIP) replacing a tooth to be extracted within the maxillary premolar area. Thirty two adult patients were randomly allocated into four equal groups Group (A): Each patient in this group received immediate implant placement (IIP) with no filling material around the implant .Group (B) : Each patient in this group received IIP simultaneously with topical hyaluronic acid as a filling material into bone gaps around implant .Group (C) : Each patient in this group received IIP with topical melatonin gel plus topical hyaluronic acid to fill the bone gaps around implant .Group (D) : Each patient in this group received IIP with melatonin gel to fill the bone gaps around implant . Clinical and radiographic assessments were performed before IIP (baseline) and 6 months after implant placement. Clinical assessment includes bleeding index (BI), gingival index (GI) and probing depth (PD) while the radiographic assessment were performed using CBCT. Results:The results of this present study showed that local delivery of 1.2% hyaluronic acid and melatonin gel improve the clinical parameters around immediate implants but did not prevent bone loss as assessed by cone beam computed tomography analysis (CBCT). Conclusions:The short term follow up of 6 months of IIP in the maxillary premolar area showed successful clinical outcomes as assessed by clinical parameters and CBCT. IIP with or without simultaneous topical melatonin gel application and hyaluronic acid in the gap distance around the immediate implants did not prevent bone loss.

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Impact of simultaneous placement of implant and block bone graft substitute: an in vivo peri-implant defect model

Cited by 7 publications

References 38 publications

Osteoblasts in a Perfusion Flow Bioreactor—Tissue Engineered Constructs of TiO2 Scaffolds and Cells for Improved Clinical Performance

Osteoblasts in a Perfusion Flow Bioreactor—Tissue Engineered Constructs of TiO2 Scaffolds and Cells for Improved Clinical Performance

Modularized bioceramic scaffold/hydrogel membrane hierarchical architecture beneficial for periodontal tissue regeneration in dogs

Management Of Gap Distance Around Immediate Implants With Topical Melatonin Gel and Hyaluronic Acid ( A Randomized Clinical Trial)

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