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15 pages, 1975 KB  
Article
Subcrestal Versus Bone-Level One-Stage Implants: A 3-Year Randomized Controlled Clinical Trial
by Magda Mensi, Eleonora Scotti, Stefano Calza, Niccolò Cea, Eugenio Romeo and Antonino Palazzolo
Appl. Sci. 2026, 16(13), 6781; https://doi.org/10.3390/app16136781 - 6 Jul 2026
Abstract
Marginal bone preservation around osseointegrated dental implants continues to represent a critical challenge in modern implant dentistry. To address this issue, subcrestal implant placement along the apico-coronal axis has been proposed as a reliable clinical strategy aimed at reducing the risk of implant [...] Read more.
Marginal bone preservation around osseointegrated dental implants continues to represent a critical challenge in modern implant dentistry. To address this issue, subcrestal implant placement along the apico-coronal axis has been proposed as a reliable clinical strategy aimed at reducing the risk of implant thread exposure within the oral environment. In the present study, 38 healthy patients were treated with either bone-level implants (BLG-Control) or implants positioned 2 mm subcrestally (SCG-Test). All implants featured an internal conical connection and a platform-switching design. In addition, implants in the test group were restored using an immediate tissue-level abutment following the one-time abutment (OTA) protocol. Marginal bone modifications (MBMs) were evaluated through standardized radiographic examinations performed at surgery (T0), implant loading (T1), and after 6 (T2), 12 (T3), 24 (T4), and 36 (T5) months of functional loading. MBMs, meaning the overall changes in the radiographic bone structure over time, were categorized as bone loss (BL) when occurring apical to the implant neck, and as bone remodeling (BR) when detected coronally to the implant neck. Clinical parameters, including probing pocket depth (PPD), bleeding on probing (BoP), and plaque index (PI), were also recorded and analyzed throughout the follow-up period. At the 36-month evaluation, mean MBM values were 0.61 mm for the test group and 0.58 mm for the control group. After three years of follow-up, the test group demonstrated a mean PPD of 2.03 mm, compared with 2.78 mm in the control group. Bleeding on probing was recorded at 13% in the test group and 11% in the control group, while plaque index values were 11% and 5%, respectively. Within the limitations of the present investigation, implants placed 2 mm subcrestally and characterized by an internal conical connection combined with platform switching demonstrated favorable clinical and radiographic outcomes over a short- to medium-term observation period of three years. When compared with equicrestally positioned implants, the subcrestal approach seemed to favor the peri-implant hard tissue conditions while reducing the possibility of marginal bone loss below the implant neck. However, one should bear in mind that this clinical behavior applies specifically to the investigated implant design and should be interpreted within the limitations of the present study. Full article
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22 pages, 2074 KB  
Review
Biomimetic Surface Engineering of Ti-15Zr (Roxolid™) Implants: Enhancing Osseointegration and Bone Regeneration—A Comprehensive Review
by Antonio Libonati, Danilo Marroni, Giulio Barbalace, Giulia Campanella, Carla Clemente, Francesco Campanella, Lucrezia Secreti and Vincenzo Campanella
Biomimetics 2026, 11(7), 471; https://doi.org/10.3390/biomimetics11070471 (registering DOI) - 6 Jul 2026
Abstract
Titanium-based dental implants have evolved significantly, with the development of binary alloys like Ti-15Zr (Roxolid™) representing a pivotal advancement in mechanical performance. Current research focuses on biomimetic surface engineering to further accelerate osseointegration and optimize bone regeneration, particularly in clinically compromised sites. This [...] Read more.
Titanium-based dental implants have evolved significantly, with the development of binary alloys like Ti-15Zr (Roxolid™) representing a pivotal advancement in mechanical performance. Current research focuses on biomimetic surface engineering to further accelerate osseointegration and optimize bone regeneration, particularly in clinically compromised sites. This review constitutes a narrative synthesis of how these strategies replicate the bone extracellular matrix (ECM) through a holistic framework of architectural, mechanical, and biochemical integration. A structured literature search across PubMed, Scopus, and Web of Science (2010–2026) identified relevant studies focusing on the synergy between Ti-15Zr substrates and surface modifications. Evidence confirms that the high fatigue strength of Roxolid™ alloys provides an ideal foundation for advanced, hierarchical surface engineering without compromising structural integrity. This strategy utilizes macro-topography for primary stability, nano-topography for protein adsorption, and bio-functionalization (e.g., RGD peptides and osteogenic ions) to direct mesenchymal stem cell (MSC) differentiation. This synergy accelerates the transition from passive to active osseointegration, effectively bridging the “biological gap” during early healing. Biomimetic engineering transforms implants into instructive biological platforms, improving outcomes for patients with compromised bone quality and facilitating predictable immediate loading protocols. Full article
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12 pages, 8712 KB  
Article
Clinical Outcomes of the Canine Bypass Anchorage Technique for Severe Maxillary Bone Deficiency: A Case Report Series
by Calin Romulus Fodor, Marta Bieńkowska, Bartosz Dalewski and Łukasz Pałka
Reports 2026, 9(2), 195; https://doi.org/10.3390/reports9020195 - 22 Jun 2026
Viewed by 736
Abstract
Background/Objectives: Advanced implant anchorage techniques are increasingly used to manage severe maxillary bone deficiency and to avoid extensive bone augmentation procedures. This case series report aimed to describe the canine bypass anchorage technique and to evaluate the short- to medium-term clinical outcomes and [...] Read more.
Background/Objectives: Advanced implant anchorage techniques are increasingly used to manage severe maxillary bone deficiency and to avoid extensive bone augmentation procedures. This case series report aimed to describe the canine bypass anchorage technique and to evaluate the short- to medium-term clinical outcomes and survival of implants placed using this approach. Materials and Methods: Thirteen patients presenting with missing maxillary premolars or posterior segments and insufficient alveolar bone height for conventional axial implant placement were treated using the canine bypass technique. A total of 19 long one-piece implants were inserted palatally to the canine root, engaging distant cortical bone of the nasal cavity and/or palatal alveolar process. Pre- and postoperative cone-beam computed tomography (CBCT) examinations were performed to assess implant positioning and anchorage. Patients were followed up to 3.5 years. Results: The mean follow-up period was 26.1 ± 10.8 months. Nasal cortical anchorage was achieved in 84.2% of implants, and palatal cortical anchorage in 73.7%; both anchorage types were obtained simultaneously in 57.9% of cases. The mean distance between the implant and canine root was 1.27 ± 1.4 mm (range: −1.0 to 4.5 mm), including cases of direct implant–tooth contact and periodontal ligament space transgression. All implants remained functional throughout the observation period, yielding a cumulative survival rate of 100%. Canine pulp vitality was preserved in all non-endodontically treated teeth. Conclusions: Within the limitations of this case series report, the canine bypass anchorage technique appears to be a feasible and minimally invasive treatment option for maxillary rehabilitation with implant-supported restoration in selected patients with severe bone deficiency, potentially allowing avoidance of sinus augmentation procedures. Further prospective studies with larger patient cohorts and longer follow-up periods are required to confirm the long-term safety, predictability, and clinical applicability of this approach. Full article
(This article belongs to the Section Dentistry/Oral Medicine)
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16 pages, 2323 KB  
Article
Fully Guided Implant Placement and Immediate Loading for the Restoration of the Edentulous Maxilla with a Fixed Dental Prosthesis: Report of Two Clinical Cases
by Panagiotis Lampropoulos, Nikitas Sykaras, Nikolaos Nikitas Giannakopoulos and Stefanos Kourtis
Dent. J. 2026, 14(6), 373; https://doi.org/10.3390/dj14060373 - 16 Jun 2026
Viewed by 261
Abstract
Objective: The purpose of these two clinical cases reports was to present the variations in the surgical and prosthetic procedures related to an implant-supported fixed dental prosthesis (FDP) in the edentulous maxilla, following a fully guided implantation protocol and immediate loading. Case presentation [...] Read more.
Objective: The purpose of these two clinical cases reports was to present the variations in the surgical and prosthetic procedures related to an implant-supported fixed dental prosthesis (FDP) in the edentulous maxilla, following a fully guided implantation protocol and immediate loading. Case presentation: Two patients, one with terminal dentition and one with a completely edentulous maxilla, expressed the desire for immediate rehabilitation with an FDP and avoidance of multiple and complex surgical procedures. The clinical protocol for both cases included meticulous presurgical planning combining radiographic examination, diagnostic wax-up (conventional or digital), prosthetically driven digital planning of implant placement, fabrication of a surgical guide for fully guided implant installation, and delivery of a screw-retained fixed restoration. There was no report of any implant failure; the FDPs could be delivered as planned, and both patients expressed their satisfaction with the functional and esthetic outcomes. The clinical situation was stable at the recall. Full article
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14 pages, 1619 KB  
Case Report
Conversion Techniques for Immediate-Loading Interim Implant-Supported Complete-Arch Fixed Dental Prostheses (ISCFDPs): Four Clinical Reports
by Toshiki Nagai, Chao-Chieh Yang, Amal Al-Faraj, Matthew G. Thompson, Elizabeth Rubalcava, Apisit Akarapattananukul and Wei-Shao Lin
Dent. J. 2026, 14(6), 350; https://doi.org/10.3390/dj14060350 - 8 Jun 2026
Viewed by 452
Abstract
Background/Objectives: Immediate-loading interim implant-supported complete-arch fixed dental prostheses (ISCFDPs) are widely used for immediate loading in edentulous patients. Although traditional denture conversion techniques are well established, newer systems aim to improve efficiency and prosthesis integrity. This clinical report aims to describe and compare [...] Read more.
Background/Objectives: Immediate-loading interim implant-supported complete-arch fixed dental prostheses (ISCFDPs) are widely used for immediate loading in edentulous patients. Although traditional denture conversion techniques are well established, newer systems aim to improve efficiency and prosthesis integrity. This clinical report aims to describe and compare four chairside conversion techniques for immediate-loading interim ISCFDPs. Methods: Four clinical cases were treated using different conversion techniques, including conventional denture conversion, guided conversion with static computer-assisted implant surgery (s-CAIS), and two closed-mouth pickup systems (SMART Denture Conversion and EasyPro). Clinical workflows, procedural characteristics, and prosthetic considerations were evaluated. Results: All techniques enabled the successful fabrication of immediate-loaded interim ISCFDPs. Conventional conversion was flexible and cost-effective but technique-sensitive and associated with increased risk of prosthesis weakening. Guided conversion improved structural integrity and reduced intraoral adjustment but required precise planning and higher costs. Closed-mouth systems preserved occlusion, minimized denture modification, and reduced chairside time, though they relied on proprietary components and had limited clinical evidence. Conclusions: Each conversion technique presents distinct advantages and limitations. Selection should be based on clinical conditions, available resources, and clinician experience. Further studies are needed to validate the long-term outcomes of emerging conversion systems. Full article
(This article belongs to the Special Issue Dental Disease Research in the USA)
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22 pages, 4113 KB  
Article
Digitally Planned and Guide-Delivered Provisionalization for Emergence Profile Shaping in the Esthetic Zone: Clinical Outcomes and Complications in a Retrospective Single-Arm Cohort Study
by Cristinel Adrian Nechita, Corina Marilena Cristache, Oana Elena Burlacu Vatamanu, Cristian Corneliu Butnarasu and Victor Nimigean
J. Clin. Med. 2026, 15(10), 3945; https://doi.org/10.3390/jcm15103945 - 20 May 2026
Viewed by 471
Abstract
Background/Objectives: Immediate provisionalization in the esthetic zone is a well-documented but technique-sensitive procedure, and the choice of provisional connection geometry, with or without an antirotational index, remains debated. The aim of this retrospective single-arm cohort clinical study was to evaluate the clinical performance [...] Read more.
Background/Objectives: Immediate provisionalization in the esthetic zone is a well-documented but technique-sensitive procedure, and the choice of provisional connection geometry, with or without an antirotational index, remains debated. The aim of this retrospective single-arm cohort clinical study was to evaluate the clinical performance of a digitally planned, guide-delivered provisionalization protocol using prefabricated provisional crowns connected to 5-degree Morse taper implants without an antirotational index, with emphasis on emergence profile shaping and peri-implant tissue stability at one year; Methods: Twenty consecutive single-implant cases treated according to the standardized protocol from January 2024 onward and completing at least one year of follow-up after definitive crown delivery by the February 2026 data-lock date were included (19 female, 1 male; mean age 38.1 ± 12.7 years; 18 anterior and 2 premolar sites). All implants were placed with primary insertion torque ≥ 30 N·cm (mean 34.75 ± 2.55 N·cm) and immediately restored with a digitally designed, non-antirotational provisional crown. Primary outcome was provisional retention without major intervention; secondary outcomes included biologic complications, papilla score, marginal bone change at T0–T3 and T3–T4, and buccal contour change (T0 vs. T2 intraoral scan superimposition). Wilson 95% confidence intervals, Fisher’s exact test, and Mann–Whitney U test were used (α = 0.05); Results: Provisional retention without major intervention was 75.0% (15/20; 95% CI 53.1–88.8). Biologic complications were uncommon (bleeding on probing, suppuration, midfacial recession, and chairside adjustment, each 5.0%). Mean total marginal bone loss at one year was 0.37 ± 0.20 mm; mean buccal contour gain was 1.41 ± 0.48 mm. A complete papilla was preserved in 70.0% of cases. Conclusions: Digitally planned, guide-delivered provisionalization on a non-antirotational 5-degree Morse taper interface appears clinically feasible for emergence profile shaping in the esthetic zone, with favorable peri-implant tissue outcomes at one year. Full article
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9 pages, 2635 KB  
Article
Prevalence and Morphology of the Palatal Bone Reservoir in the Posterior Maxilla as an Alternative to Maxillary Sinus Lift: A Cross-Sectional Retrospective Analysis Determined by Helical CT Scan
by Andrei Krasovsky, Ahmad Hija, Husam El Khatib, Ori Blanc, Amir Bilder, Chaim Ohayon, Tal Capucha and Omri Emodi
Dent. J. 2026, 14(5), 260; https://doi.org/10.3390/dj14050260 - 30 Apr 2026
Viewed by 966
Abstract
Background: Maxillary sinus lift is among the most common preprosthetic procedures in the posterior maxilla due to alveolar ridge resorption and the maxillary sinus pneumatization. It often extends treatment duration, significantly increases costs, and is not without complications. Objective: To explore the prevalence [...] Read more.
Background: Maxillary sinus lift is among the most common preprosthetic procedures in the posterior maxilla due to alveolar ridge resorption and the maxillary sinus pneumatization. It often extends treatment duration, significantly increases costs, and is not without complications. Objective: To explore the prevalence and morphology of the palatal bone reservoir as a viable site for dental implant insertion, offering a conservative alternative to avoid maxillary sinus lift. Methods: DICOM data sets from helical CT of maxillofacial trauma patients aged 50 years and older were used to perform virtual dental implant positioning in the edentulous second premolar, first molar, or second molar areas using ImplaStation software (version 5.3.2; ProDigiDent, Inc., Scottsdale, AZ, USA). A 3D Slicer software (version 5.3.2; ProDigiDent, Inc., Scottsdale, AZ, USA) was used to calculate the volume of the palatal bone reservoir and identify its mean density. The density of the residual alveolar process was also identified and compared with that of the previous one. Results: A total of 1822 maxillofacial trauma cases with helical CT between 2015 and 2025 were retrieved. After exclusion, 305 cases were analyzed. A total of 65 implants were virtually positioned in 50 patients. The mean volume of the palatal bone reservoir was 229 ± 139.2 mm3 with a mean radiodensity of 546.7 ± 159.6 HU. The mean radiodensity of the residual alveolar process was 286.3 ± 118.0 HU. The palatal bone reservoir was significantly denser than the residual alveolar process (95% CI [184.2, 336.6]; p < 0.01). Conclusions: The presence of a palatal bone reservoir is not uncommon and can offer a more conservative alternative for implant placement, potentially increasing primary stability and facilitating immediate loading. Full article
(This article belongs to the Special Issue Implant Dentistry—the Surgical Prosthetic Interplay)
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15 pages, 3776 KB  
Article
Influence of Immediate Versus Delayed Loading on Peri-Implant Bone Healing: A Comparative FEA Study of Titanium Threaded and Scaffold Dental Implants
by Giuseppe Casalino, Mario Ceddia, Nicola Contuzzi, Luciano Lamberti and Bartolomeo Trentadue
Materials 2026, 19(8), 1607; https://doi.org/10.3390/ma19081607 - 16 Apr 2026
Viewed by 606
Abstract
Background: Immediate loading of dental implants shortens treatment time and improves early function, but it also exposes the healing peri-implant tissue to a critical mechanical environment. This study compared the biomechanical and mechanobiological response of a conventional threaded implant and a porous scaffold-based [...] Read more.
Background: Immediate loading of dental implants shortens treatment time and improves early function, but it also exposes the healing peri-implant tissue to a critical mechanical environment. This study compared the biomechanical and mechanobiological response of a conventional threaded implant and a porous scaffold-based implant under immediate and delayed loading conditions. Methods: A three-dimensional finite element model of a bone block with a 0.2 mm peri-implant callus was developed in ABAQUS/Standard. Model A was a threaded Ti-6Al-4V implant, while Model B was a porous implant with 64.26% porosity. Bone tissues were modeled as poroelastic materials. Immediate and delayed loading were simulated through frictional and tied bone-implant interfaces, respectively. Mechanobiological predictions were performed using the Prendergast-Huiskes stimulus. Results: Under immediate loading, the porous implant reduced cortical bone stress (32.5 MPa vs. 88 MPa) and markedly increased callus stimulation (20.5–31.6 MPa vs. about 2.5 MPa) compared with the threaded implant. Mechanobiological analysis showed that Model B promoted higher fractions of immature and mature bone and lower fractions of cartilage and fibrous tissue. In all cases, implant stresses remained below the yield strength of the corresponding materials. Conclusions: The porous implant provided a more favorable mechanical environment for early peri-implant healing, particularly under immediate loading, and may be a promising strategy to enhance callus maturation and reduce stress shielding. Full article
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15 pages, 1740 KB  
Article
Immediate Loading After Implant Placement with Relocation of the Inferior Alveolar Nerve in Atrophic Mandibles: A Four-Year Retrospective Evaluation
by Raffaele Vinci, Saverio Cosola, Gian Luca Pancrazi and Marco Esposito
Oral 2026, 6(2), 45; https://doi.org/10.3390/oral6020045 - 15 Apr 2026
Viewed by 677
Abstract
Objectives: To retrospectively evaluate the survival rate and complications of immediately loaded implant-supported restorations in atrophic mandibles of patients subjected to inferior alveolar nerve relocation for the placement of dental implants. Methods: Consecutively treated patients having a follow-up of four years [...] Read more.
Objectives: To retrospectively evaluate the survival rate and complications of immediately loaded implant-supported restorations in atrophic mandibles of patients subjected to inferior alveolar nerve relocation for the placement of dental implants. Methods: Consecutively treated patients having a follow-up of four years after loading of implants immediately placed after inferior alveolar nerve repositioning were included. Outcome measures were implant and prothesis survival rates and any type of complications related to the surgery, in particular related to post-operative neurosensory disturbance. Results: Data from 14 consecutive patients rehabilitated with 51 implants were analyzed. All provisional prosthetic restorations could be immediately placed after implant placement, none failed, and no patient dropped out over the four years after definitive loading. Only one implant failed. One day postoperatively, all patients experienced dysesthesia or paresthesia. At two weeks, nine patients had a total neurological recovery and one had partial recovery, while the remaining four patients did not recover. One mandible fractured three weeks after implant placement. At one-year post-loading, one patient was still affected by neurosensory dysfunction and three partially recovered (one of these had it preoperatively). After three years, two patients still presented partial recovery. After four years, no further changes were recorded, and no patients reported total neurosensory dysfunction. The patient with the fractured mandible recovered completely with no neurosensory disturbances. Conclusions: Implant placement in atrophic mandibles following inferior alveolar nerve transposition or lateralization may represent a viable alternative to vertical ridge augmentation, with the added advantage of allowing immediate fixed provisional prothesis. Although severe complications and neurosensory disturbances are not uncommon, all patients experience gradual recovery within one to three years. Full article
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14 pages, 1443 KB  
Article
Finite Element Analysis of Peri-Implant Stress in Maxillary All-on-Four Rehabilitation: Effects of Posterior Implant Angulation and Loading Protocol
by Juan Alberto Aristizábal-Hoyos, Leidy Katherine Gil-Tabares, Natalia Giraldo-Vélez, Martha Isabel Torres-Arteaga, Catalina Garces-Gonzalez, Olga Patricia López-Soto, Héctor Fuentes-Barría, Raúl Aguilera-Eguía and Lisse Angarita-Davila
Materials 2026, 19(6), 1239; https://doi.org/10.3390/ma19061239 - 20 Mar 2026
Viewed by 558
Abstract
Objective: To evaluate the biomechanical effects of varying posterior implant inclinations and loading protocols on peri-implant stress distribution in full-arch maxillary rehabilitations using the All-on-Four concept. Methodology: A three-dimensional finite element model of an edentulous atrophic maxilla was developed from a digital point [...] Read more.
Objective: To evaluate the biomechanical effects of varying posterior implant inclinations and loading protocols on peri-implant stress distribution in full-arch maxillary rehabilitations using the All-on-Four concept. Methodology: A three-dimensional finite element model of an edentulous atrophic maxilla was developed from a digital point cloud. Four implants were placed according to the All-on-Four protocol: two anterior vertical implants and two posterior implants with inclinations of 0°, 15°, 30°, or 45°. Mini-abutments and a titanium bar prosthesis were included. Material properties were assumed as homogeneous, isotropic, and linearly elastic. Immediate loading was simulated using frictional contacts (µ = 0.3), whereas delayed loading assumed complete osseointegration (bonded contacts). The models were meshed using 10-node quadratic tetrahedral elements (SOLID187) in ANSYS®. Maximum von Mises stress in cortical bone, cancellous bone, implants, abutments, and the prosthetic bar was assessed. Results: Posterior implant tilt significantly reduced peri-implant stress. Under immediate loading, the highest stress occurred at 0° inclination in the posterior left implant (82.36 MPa) and decreased progressively with increasing tilt, reaching 33.63 MPa at 45° (≈59% reduction). Delayed loading generally produces lower stress magnitudes, particularly at extreme tilts. Anterior implants experienced lower stress levels across all configurations. Comparative analysis demonstrated that immediate loading increased stress at lower angulations, while differences between loading protocols were minimal at higher inclinations. Conclusions: Posterior implant angulation and loading protocol critically influence peri-implant stress distribution. Increased posterior tilt combined with appropriate loading reduces peak cortical bone stresses, supporting biomechanical optimization in All-on-Four maxillary rehabilitations. Full article
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16 pages, 7122 KB  
Technical Note
From Resection to Rehabilitation in One Day: Digital Workflow for Mandibular Reconstruction with Fibular Free Flap and Immediate Dental Rehabilitation Using CAD/CAM Guides at the Point of Care
by Matthias Ureel, Benjamin Denoiseux, Katrien Brijs, Pieter-Jan Boderé, Nicolas Dhooghe and Renaat Coopman
Craniomaxillofac. Trauma Reconstr. 2026, 19(1), 15; https://doi.org/10.3390/cmtr19010015 - 12 Mar 2026
Viewed by 1689
Abstract
By using virtual surgical planning (VSP) and 3D printed guides, complex maxillofacial defects can be reconstructed with high accuracy and predictability. A fully digital workflow resulting in a modular all-in-one 3D printed guide system for fibula osteotomies, bone segment positioning, fully guided dental [...] Read more.
By using virtual surgical planning (VSP) and 3D printed guides, complex maxillofacial defects can be reconstructed with high accuracy and predictability. A fully digital workflow resulting in a modular all-in-one 3D printed guide system for fibula osteotomies, bone segment positioning, fully guided dental implant placement and dental prosthesis fixation for mandibular reconstruction was developed at Ghent University Hospital. A follicular ameloblastoma of the left mandible was resected in a 28-year-old male. The defect was reconstructed with a two-segment fibular free flap with immediate placement of three dental implants and immediate implant loading with a screw-retained bridge. A split thickness skin graft and Elemental PerioPlast were used as wound dressing. Comparison of the preoperative planning with the postoperative CT-scan showed a deviation immediately after surgery, which was no longer present at the 6-month follow-up. The patient achieved a stable occlusion and 44 mm mouth opening and reported high satisfaction. This case illustrates that fully digital, immediate mandibular reconstruction with simultaneous implant placement and prosthetic rehabilitation is feasible and accurate and enhances early functional recovery. Future improvements in intraoperative validation may further refine accuracy and reproducibility in complex oncologic reconstructions. Full article
(This article belongs to the Special Issue Innovation in Oral- and Cranio-Maxillofacial Reconstruction)
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20 pages, 9590 KB  
Article
Computer-Guided Flapless Immediate Function Dental Implants for Full-Arch Rehabilitations Using the All-on-4 Concept: A 12-Year Clinical and 10-Year Radiographic Retrospective Study
by Miguel de Araújo Nobre, Armando Lopes, Carolina Antunes and Francisco Salvado
Prosthesis 2026, 8(2), 13; https://doi.org/10.3390/prosthesis8020013 - 26 Jan 2026
Viewed by 2189
Abstract
Background/Objectives: Implant-supported rehabilitations using the All-on-4 concept represent a viable treatment option for completely edentulous patients. The guided surgery software allows for the performance of a flapless computer-guided surgery with similar results to those achieved through a flap surgery. This study aimed to [...] Read more.
Background/Objectives: Implant-supported rehabilitations using the All-on-4 concept represent a viable treatment option for completely edentulous patients. The guided surgery software allows for the performance of a flapless computer-guided surgery with similar results to those achieved through a flap surgery. This study aimed to evaluate the long-term outcomes of complete edentulous implant-supported rehabilitations using an All-on-4 arrangement, following a computer-guided protocol. Methods: A total of 111 patients (68 females, 43 males) with an average age of 60.9 years ± 9.67 years were treated. The primary outcome measures were implant and prosthetic survival. Secondary outcome measures were marginal bone loss (MBL) and the incidence of mechanical and biological complications. Results: Thirty-nine patients were lost to follow-up. Thirty-seven implants and five prostheses failed, rendering a 92.5% implant cumulative survival rate and a 96.2% prosthetic survival rate at 12 years. The average MBL per implant was 1.19 ± 1.16 mm, with 1.26 ± 1.33 mm for axial implants and 1.12 ± 0.95 mm for tilted implants at 10 years. The incidence rate of mechanical complications at the patient level was 90.1% for provisional prostheses and 55.9% for definitive prostheses. The rate of biological complications was 14.3% at the implant level. Conclusions: Full-arch rehabilitations following an All-on-4 implant arrangement and assisted by a computer-guided protocol may be a viable alternative for patients with edentulism/hopeless teeth in the long term. Full article
(This article belongs to the Collection Oral Implantology: Current Aspects and Future Perspectives)
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13 pages, 1165 KB  
Article
Effect of Altered Cervical Thread Pitch on the Primary Stability of Dental Implants
by Lászlo Major, Ibrahim Barrak, Gábor Braunitzer, József Piffkó and Mark Adam Antal
J. Clin. Med. 2026, 15(2), 864; https://doi.org/10.3390/jcm15020864 - 21 Jan 2026
Cited by 1 | Viewed by 542
Abstract
Background: The macrogeometry and shape of dental implants strongly influence primary stability, which may at times result in excessively high insertion torque. This in vitro study aimed to evaluate whether increasing coronal thread density could reduce insertion torque without compromising primary stability. Methods: [...] Read more.
Background: The macrogeometry and shape of dental implants strongly influence primary stability, which may at times result in excessively high insertion torque. This in vitro study aimed to evaluate whether increasing coronal thread density could reduce insertion torque without compromising primary stability. Methods: Two conical implants with identical macrogeometry and surface characteristics (Ø 4.2 × 11.5 mm) differed only in the thread pitch of the coronal 3 mm: a modified version (27% more coronal threads; Group 1) and a standard, commercially available version (Group 2). Thirty implants of each design were inserted into high-density (D1; 40 PCF; pounds per cubic foot) and low-density (D3; 20 PCF) polyurethane blocks (n = 120). Insertion torque (IT) and implant stability quotient (ISQ, measured by resonance frequency analysis) were recorded. Group comparisons used the Kruskal–Wallis test, and a generalized linear model (GLM) assessed the independent effects of IT and design on ISQ in D1 bone. Results: In D1 bone, Group 2 showed higher IT (median 74.0 vs. 63.5 N·cm; p < 0.001) and ISQ (mean 79.1 vs. 77.4; p ≤ 0.030). The GLM identified IT as a negative predictor of ISQ (β = −0.267 per 1 N·cm; p < 0.001), and Group 2 was associated with higher ISQ (+3.90; p < 0.001). In D3 bone, Group 2 again exhibited higher IT (median 37.5 vs. 33.0 N·cm; p < 0.001), while ISQ values were similar between designs (all p > 0.35). Conclusions: Increasing coronal thread density lowers insertion torque without reducing stability in softer bone and maintains sufficient ISQ for immediate loading in dense bone, making the design advantageous for varied bone qualities. Full article
(This article belongs to the Special Issue Dental Implantology: Clinical Updates and Perspectives—2nd Edition)
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17 pages, 2270 KB  
Article
Guided Implant Surgery in Oral Cancer Patients: Initial Clinical Experience from an Academic Point-of-Care Manufacturing Unit
by Manuel Tousidonis, Jose-Ignacio Salmeron, Santiago Ochandiano, Ruben Perez-Mañanes, Estela Gomez-Larren, Elena Aguilera-Jimenez, Carla de Gregorio-Bermejo, Diego Fernández-Acosta, Borja Gonzalez-Moure, Saad Khayat and Carlos Navarro-Cuellar
Medicina 2026, 62(1), 151; https://doi.org/10.3390/medicina62010151 - 12 Jan 2026
Viewed by 1217
Abstract
Background and Objectives: Implant-supported rehabilitation after oral cancer surgery remains technically and biologically demanding due to altered anatomy, scar tissue, and prior radiotherapy. Digital workflows and hospital-based point-of-care (POC) manufacturing now enable personalized, prosthetically driven implant placement with static surgical guides fabricated [...] Read more.
Background and Objectives: Implant-supported rehabilitation after oral cancer surgery remains technically and biologically demanding due to altered anatomy, scar tissue, and prior radiotherapy. Digital workflows and hospital-based point-of-care (POC) manufacturing now enable personalized, prosthetically driven implant placement with static surgical guides fabricated within the clinical environment. This study reports the initial clinical experience of an academic POC manufacturing unit (UPAM3D) implementing static guided implant surgery in oral cancer patients and compares this approach with conventional outsourcing and dynamic navigation methods. Materials and Methods: A retrospective review of 30 consecutive cases (2021–2024) treated with POC-manufactured static guides was conducted using data from the UPAM3D registry. Each record included design, fabrication, and sterilization parameters compliant with ISO 13485 standards. Demographic, surgical, and prosthetic variables were analyzed, including anatomical site (maxilla or mandible), guide type, material, radiotherapy history, number of Ticare Implants®, and loading strategy. Results: All surgical guides were designed and 3D printed in-house using biocompatible resins (BioMed Clear, Dental SG, or LT Clear). The annual number of POC procedures increased progressively (2 → 6 → 6 → 16). Most cases involved oncologic reconstructions of the maxilla or mandible, including irradiated fields. When recorded, primary stability values (mean ISQ ≈ 79) allowed immediate or early loading (ISQ ≥ 70). No major intraoperative or postoperative complications occurred, and all guides met sterilization and traceability standards. Conclusions: Point-of-care manufacturing enables efficient, accurate, and patient-specific guided implant rehabilitation after oral cancer surgery, optimizing functional and esthetic outcomes while reducing procedural time and dependence on external providers. Integrating this process into clinical workflows supports personalized treatment planning and broadens access to advanced implant reconstruction within multidisciplinary oncology care. Full article
(This article belongs to the Special Issue Research on Oral and Maxillofacial Surgery)
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Article
Two-Year Outcomes of Tissue-Level and Bone-Level Two-Piece Zirconia Implants: A Case Series
by Sonja Žarković Gjurin, Katja Povšič, Tom Kobe, Borut Žužek, Rok Gašperšič and Čedomir Oblak
Oral 2026, 6(1), 1; https://doi.org/10.3390/oral6010001 - 19 Dec 2025
Cited by 1 | Viewed by 1172
Abstract
Background/objectives: Zirconia dental implants are increasingly recognised as an alternative to titanium implants due to their biocompatibility and aesthetics. Initially developed as one-piece systems, zirconia implants have evolved into two-piece designs with different platform levels; however, comparative data on their primary and [...] Read more.
Background/objectives: Zirconia dental implants are increasingly recognised as an alternative to titanium implants due to their biocompatibility and aesthetics. Initially developed as one-piece systems, zirconia implants have evolved into two-piece designs with different platform levels; however, comparative data on their primary and secondary stability– particularly as assessed by resonance frequency analysis (RFA)—and marginal bone dynamics remain limited. This case series aimed to evaluate the implant stability and marginal bone changes of two-piece zirconia implants with bone-level (BL) and tissue-level (TL) platforms in patients missing maxillary premolars. Methods: Thirteen zirconia implants (n = 13; 7 BL, 6 TL; Z5-TL/Z5-BL, Z-Systems, Switzerland) were placed in 11 patients with healed ridges. The implant stability quotient (ISQ) was measured immediately after insertion and before prosthetic loading. Lithium disilicate crowns were cemented after four months, and follow-ups were conducted for an average of 35 months (SD = 12). Results: Initial ISQ values ranged from 73 to 79, increasing to 76–84 at 3–4 months, indicating high implant stability for both BL and TL implants. The extent of marginal bone loss (MBL) after two years was greater around BL implants (mean 0.46 mm) compared to TL implants (mean 0.2 mm), although probing depths and bleeding on probing remained minimal in both groups, with only one TL implant showing gingival recession. Conclusions: Over a short observation period, two-piece zirconia implants with tissue-level platforms appeared to demonstrate superior marginal tissue stability. Further, larger-scale controlled studies are required to confirm these preliminary observations. Full article
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