Your search keyword '"OSSEOINTEGRATION"' showing total 1,594 results

1. Dental Implant with Porous Structure and Anchorage: Design and Bench Testing in a Calf Rib Model Study.

Author

Lovera, Keila, Vanaclocha, Vicente, Atienza, Carlos M., Vanaclocha, Amparo, Jordá-Gómez, Pablo, Saiz-Sapena, Nieves, and Vanaclocha, Leyre

Abstract

Primary dental implant stability is critical to enable osseointegration. We assessed the primary stability of our newly designed dental implant. We used the calf rib bone animal model. Our implant has an outside tapered screw with two inside barrettes that deploy with a second screw situated at the implant's crown. We used ten calf ribs with III/IV bone density and inserted ten implants per rib. We deployed the barrettes in the calf rib's transversal direction to support against the nearby cortical bone. We measured the primary implant's stability with resonance frequency analysis and collected the Implant Stability Quota (ISQ) in the transverse and longitudinal calf rib planes before (PRE) and after (POS) deploying the barrette. The mean ISQ was PRE 84.00 ± 3.56 and POS 84.73 ± 4.53 (p = 0.84) in the longitudinal plane and PRE 81.80 ± 2.74 and POS 83.53 ± 4.53 (0.27) in the transverse plane. The barrettes' insertion increases our dental implant primary stability by 11% in the transverse plane and 2% in the longitudinal plane. Our dental implant ISQ values are in the higher range than those reported in the literature and reflect high primary stability after insertion. The barrette deployment improves the dental implant's primary stability, particularly in the direction in which it deploys (transverse plane). [ABSTRACT FROM AUTHOR]

Published

2025

2. Optimization of Peri-Implant Bone Repair in Estrogen-Deficient Rats on a Cafeteria Diet: The Combined Effects of Systemic Risedronate and Genistein-Functionalized Implants.

Author

de Castro, Tatiany Aparecida, Hassumi, Jaqueline Suemi, Julião, Gabriela Morais, Dutra, Marina Corrêa, da Silva, Ana Cláudia Ervolino, Monteiro, Naara Gabriela, de Souza Batista, Fábio Roberto, Mulinari-Santos, Gabriel, Lisboa-Filho, Paulo Noronha, and Okamoto, Roberta

Abstract

Estrogen deficiency, coupled with a cafeteria diet (CD), can impair peri-implant bone repair, posing a significant challenge to implant success in affected individuals. Thus, it is crucial to explore strategies for implant functionalization and systemic treatments that could alleviate these bone alterations. This study aimed to assess peri-implant bone repair in ovariectomized (OVX) rats subjected to a CD, with a focus on implants functionalized with genistein (GEN), compared to conventional implants (CONV), and the effects of systemic treatment with risedronate sodium (RIS). In total, thirty-six female rats were assigned to three groups: rats with estrogen (SHAM), rats with estrogen deficiency and CD (OVX-CD), rats with estrogen deficiency, CD, and systemic RIS treatment (OVX-CD-RIS). All rats underwent bilateral extraction of the first upper molars followed by implant installation. Each group was further subdivided based on implant type: conventional implants (CONV) or GEN-functionalized implants, resulting in six subgroups (n = 6). The study employed several analyses, including reverse torque testing, microcomputed tomography (Micro-CT), epifluorescence microscopy, and molecular assays. The main result demonstrated that the OVX-CD-RIS/GEN subgroup exhibited significantly higher reverse torque values, indicating stronger implant stability. Micro-CT scans revealed a greater bone volume in the OVX-CD-RIS/GEN subgroup compared to other subgroups. Epifluorescence microscopy also demonstrated an increased mineral apposition rate in both the OVX-CD/GEN and OVX-CD-RIS/GEN subgroups. Molecular analysis indicated elevated expression levels of osteocalcin, alkaline phosphatase, and vascular endothelial growth factor in the OVX-CD-RIS/GEN subgroup. In conclusion, the combined treatment of systemic RIS and GEN-functionalized implants significantly enhanced peri-implant bone repair, offering a promising strategy to improve implant outcomes in postmenopausal women with metabolic syndrome. [ABSTRACT FROM AUTHOR]

Published

2025

3. Long-Term Clinical Outcomes of Transalveolar Maxillary Sinus Floor Elevation with Rotatory Instruments: An 8-Year Follow-Up Prospective Clinical Study.

Author

Jiménez-Guerra, Álvaro, Velasco-Ortega, Eugenio, Matos-Garrido, Nuno, Ortiz-García, Iván, Moreno-Muñoz, Jesús, Núñez-Márquez, Enrique, Rondón-Romero, José-Luis, Kewalramani, Naresh, Salgado-Peralvo, Ángel-Orión, and Monsalve-Guil, Loreto

Subjects

*DENTAL implants, *SURVIVAL rate, *SINUS augmentation, *ALVEOLAR process, *MAXILLARY sinus

Abstract

Background: Transalveolar sinus floor elevation (TSFE) is a surgical technique for the placement of dental implants in patients with reduced height of the maxillary posterior alveolar bone. This study aims to demonstrate the clinical outcomes of TSFE using the minimal invasive sinus elevation (MISE) technique in partially and totally edentulous maxillary patients. Methods: This prospective clinical study followed STROBE guidelines. TSFE was performed using the MISE technique with the simultaneous placement of implants. Dental implants were loaded at 6 months. Maxillary vertical bone gain was measured by CBCT, and marginal bone loss was assessed by periapical radiographs. Results: Ninety-one patients, with a mean age of 62.1 ± 11.8 years, were treated with TSFE and the placement of 107 implants, with a mean follow-up of 96.2 ± 11.7 months. An increase of 4.3 ± 0.4 mm in bone height was achieved, with a dental implant cumulative survival rate of 97.2%. Peri-implantitis was observed in 9.3% of implants, and membrane perforation occurred in 7.7% of cases. Technical complications were noted in 5.5% of patients. Conclusions: Within the limitations of this clinical study, it can be concluded that the MISE technique is a successful protocol for the placement of implants in the posterior maxilla with reduced height of the alveolar ridge, with a rate of biological and prosthetic complications below 10% over an average follow-up period of 8 years. [ABSTRACT FROM AUTHOR]

Published

2025

4. Single Teeth and Partial Implant Rehabilitations Using Ultra-Hydrophilic Multi-Zone Anodized Surface Implants: A Retrospective Study with 1-Year Follow-Up.

Author

de Araújo Nobre, Miguel, Antunes, Carolina, Ferro, Ana, Lopes, Armando, Gouveia, Miguel, Nunes, Mariana, and Santos, Diogo

Subjects

*SURVIVAL rate, *DENTURES, *DENTAL implants, *SMOKING, *BONE resorption

Abstract

Background/Objectives: In the last decades, dental implant surfaces have been evolving to increase success and implant survival rates. More studies evaluating outcomes with implants with ultra-hydrophilic multi-zone anodized surfaces are necessary. The aim of this study is to evaluate the short-term outcome of implants of conical connection with anodized ultra-hydrophilic surfaces for support of single teeth and partial rehabilitations. Methods: In this retrospective study, patients received parallel-walled implants with a gradually anodized surface. The primary outcome measure was implant survival. Secondary outcome measures were marginal bone loss and mechanical and biological complications. This study included 253 conical connection implants with anodized ultra-hydrophilic surfaces, placed in 145 patients (71 males and 74 females; average age: 55.8 years). Sixty patients presented comorbidities, and 19 patients presented smoking habits. Results: Ten patients (15 implants) were lost to follow-up. Two implants failed in two patients, resulting in a cumulative survival rate of 99.2%, with 98.5% and 100% for males and females, respectively, and 99.1% and 100% for single teeth and partial rehabilitations, respectively. The average marginal bone loss was 0.52 mm at 1 year, with 0.60 mm and 0.42 mm for males and females, respectively, and 0.52 mm and 0.50 mm for single teeth and partial rehabilitations, respectively. The rate of mechanical complications was 4.8% and 3.2% at patient and implant levels, respectively. Biological complications occurred in one patient (0.7%) at one implant (0.4%). Conclusions: These results indicate that the use of implants with ultra-hydrophilic multi-zone anodized surfaces for single teeth and partial rehabilitations is viable in the short term. [ABSTRACT FROM AUTHOR]

Published

2025

5. Comparison of One-Drill Protocol to Sequential Drilling In Vitro and In Vivo.

Author

Rugova, Sihana and Abboud, Marcus

Subjects

*DENTAL implants, *DENTAL drilling, *INFRARED cameras, *THERMAL stresses, *BITS (Drilling & boring), *OSSEOINTEGRATION

Abstract

This study compares the heat generated during bone drilling using different protocols and implant systems, first in vitro and then in vivo with an animal model. In the experimental phase, thermal data were collected using an infrared camera while preparing implant beds in bone similes. The heat generated by a one-drill protocol with a new-generation drill bit and the Straumann BLT sequential drilling protocol was evaluated. The experimental study was then replicated in an animal model to assess the impact of these protocols on early osseointegration, measured by bone-to-implant contact (BIC) at three weeks post-surgery for Straumann BLT SLActive and Medentika Quattrocone implants. The results showed the BLT sequential protocol generated significantly more heat during drilling in bone similes compared to the new-generation drill bit. In the animal model, a histological analysis revealed a trend favoring shorter drilling protocols, with reduced drilling times and a potential advantage for osseointegration, though the BIC differences were not statistically significant. These findings suggest that minimizing the number of drilling steps and thermal stress may enhance osseointegration more effectively than advanced implant surface treatments. This aligns with emerging views on the importance of optimized drilling protocols and designs to reduce heat generation and better preserve surrounding bone structure. [ABSTRACT FROM AUTHOR]

Published

2025

6. Long-Term Clinical Study on Sandblasted–Acid-Etched Surface Dental Implants: 12-Year Follow-Up.

Author

Velasco-Ortega, Eugenio, Pato-Mourelo, Jesús, López-López, Borja, Monsalve-Guil, Loreto, Moreno-Muñoz, Jesús, López-López, José, Núñez-Márquez, Enrique, Matos Garrido, Nuno, Rondón-Romero, José Luis, Jiménez-Guerra, Álvaro, and Ortiz-García, Iván

Subjects

*SURVIVAL rate, *DENTAL implants, *SAND blasting, *OPERATIVE surgery, *PERI-implantitis, *OSSEOINTEGRATION

Abstract

Sandblasting and acid etching are common procedures used to treat implant surfaces, enhancing osseointegration and improving clinical success rates. This clinical study aimed to evaluate the long-term outcomes of sandblasted and acid-etched implants. A total of 303 implants were placed in 114 partially and totally edentulous patients using a two-stage surgical technique and an early loading protocol (6–8 weeks). Clinical findings for implants and prosthetics were evaluated over a 12-year follow-up period. A total of 12 implants (3.9%) failed, with 3 failures occurring during the healing period before loading and 9 due to peri-implantitis. The cumulative survival rate for all implants was 96.1%. A total of 156 prostheses were placed on 300 implants, 87 single crowns, 45 partial fixed bridges, 9 full-arch fixed restorations, and 15 overdentures. The mean marginal bone loss was 1.18 mm. (SD. 0.64 mm.). Thirty-nine implants (13%) in twenty-four patients exhibited peri-implantitis. Technical complications, including prosthetic screw loosening or fracture, ceramic chipping, and acrylic fractures, were observed in 24 subjects (21.1%). Sandblasted and acid-etched surface implants placed in the maxilla and mandible reported favorable outcomes and stable tissue conditions with an early loading protocol. [ABSTRACT FROM AUTHOR]

Published

2025

7. Optimising β-Ti21S Alloy Lattice Structures for Enhanced Femoral Implants: A Study on Mechanical and Biological Performance.

Author

Emanuelli, Lorena, Babaei, Melika, De Biasi, Raffaele, du Plessis, Anton, Trivisonno, Andrea, Agostinacchio, Francesca, Motta, Antonella, Benedetti, Matteo, and Pellizzari, Massimo

Subjects

*POISSON'S ratio, *FATIGUE limit, *ELASTIC modulus, *CANCELLOUS bone, *MINIMAL surfaces

Abstract

The metastable β-Ti21S alloy exhibits a lower elastic modulus than Ti-6Al-4V ELI while maintaining high mechanical strength and ductility. To address stress shielding, this study explores the integration of lattice structures within prosthetics, which is made possible through additive manufacturing. Continuous adhesion between the implant and bone is essential; therefore, auxetic bow-tie structures with a negative Poisson's ratio are proposed for regions under tensile stress, while Triply Periodic Minimal Surface (TPMS) structures with a positive Poisson's ratio are recommended for areas under compressive stress. This research examines the manufacturability and quasi-static mechanical behaviour of two auxetic bow-tie (AUX 2.5 and AUX 3.5) and two TPMS structures (TPMS 2.5 and TPMS 1.5) in β-Ti21S alloy produced via laser powder bed fusion. Micro-CT reveals printability issues in TPMS 1.5, affecting pore size and reducing fatigue resistance compared to TPMS 2.5. AUX 3.5's low stiffness matches cancellous bone but shows insufficient yield strength and fatigue resistance for femoral implants. Biological tests confirm non-toxicity and enhanced cell activity in β-Ti21S structures. The study concludes that the β-Ti21S alloy, especially with TPMS 2.5 structures, demonstrates promising mechanical and biological properties for femoral implants. However, challenges like poor printability in TPMS 1.5 are acknowledged and should be addressed in future research. [ABSTRACT FROM AUTHOR]

Published

2025

8. The Influence of Osteoporosis and Diabetes on Dental Implant Stability: A Pilot Study.

Author

Sachelarie, Liliana, Scrobota, Ioana, Cioara, Felicia, Ghitea, Timea Claudia, Stefanescu, Corina Laura, Todor, Liana, and Potra Cicalau, Georgiana Ioana

Subjects

TYPE 2 diabetes, DENTAL implants, TOOTH loss, PEOPLE with diabetes, OSSEOINTEGRATION

Abstract

Background and Objectives: Dental implants are a reliable solution for tooth loss; however, systemic conditions like osteoporosis and diabetes, which affect bone quality, healing, and stability, underline the importance of understanding their impact on enhanced outcomes. This study evaluated the comparative effects of osteoporosis and diabetes on dental implant stability over 12 months, utilizing objective implant mobility and stability measures. Materials and Methods: This prospective cohort study involved 50 patients, divided into 21 with type 2 diabetes and 29 with osteoporosis, with implant stability assessed at 6 and 12 months using Osstell ISQ and Periotest M devices and statistical analysis identifying differences between groups and time intervals at a significance level of p < 0.05. Results: At 6 months, the osteoporosis group showed higher initial stability (mean ISQ: 67.04 ± 5.42) compared to the diabetes group (mean ISQ: 62.10 ± 5.46; p = 0.0215)), and by 12 months, both groups showed significant improvements in ISQ scores (osteoporosis: 68.93 ± 4.83; diabetes: 65.79 ± 3.87), with Periotest values indicating more significant reductions in implant mobility, particularly in diabetic patients (osteoporosis: −3.34 ± 1.59; diabetes: −2.81 ± 1.44; p = 0.0001). Conclusions: Osteoporosis and diabetes significantly impact implant stability through distinct osseointegration pathways, emphasizing the need for personalized treatment plans to improve patient outcomes. [ABSTRACT FROM AUTHOR]

Published

2025

9. Developments in Dental Implant Surface Modification.

Author

Łosiewicz, Bożena, Osak, Patrycja, Nowińska, Delfina, and Maszybrocka, Joanna

Subjects

TECHNOLOGICAL innovations, DENTAL implants, DENTITION, THREE-dimensional printing, SURFACE roughness, OSSEOINTEGRATION

Abstract

The development of dental implants has significantly advanced due to technological innovations aimed at improving their performance and patient outcomes. This work presents key factors influencing the success of dental implants, including osseointegration, which is the direct connection between living bone and the implant surface, and the various surface modifications that enhance this process. This review highlights the importance of surface roughness, chemical composition, and the use of bioactive coatings to promote better integration with surrounding bone tissue. Innovations such as nanotechnology, 3D printing, and smart surfaces are paving the way for more effective and personalized dental implant solutions. This review underscores the importance of ongoing research and development to improve success rates, enhance patient comfort, and reduce healing times. It focuses on creating cost-effective, reliable methods that integrate multiple functions, such as combining antibacterial and osteoconductive properties to improve overall implant performance. [ABSTRACT FROM AUTHOR]

Published

2025

10. Evaluation of Bone–Implant Interface: Effects of Angiotensin II Receptor Blockade in Hypertensive Rats.

Author

Mulinari-Santos, Gabriel, Santos, Jaqueline Silva dos, de Souza Batista, Fábio Roberto, Pitol-Palin, Letícia, Silva, Ana Cláudia Ervolino da, Botacin, Paulo Roberto, Antoniali, Cristina, and Okamoto, Roberta

Subjects

ANGIOTENSIN-receptor blockers, BONE remodeling, ANGIOTENSIN II, LABORATORY rats, BONE metabolism

Abstract

Hypertension is a global health concern not only correlated with cardiovascular complications, but also with impaired bone metabolism, potentially affecting healing at the bone–implant interface. Losartan, an angiotensin II receptor blocker (ARB) commonly prescribed for hypertension, has shown beneficial effects on bone healing in spontaneously hypertensive rats (SHRs). However, the influence of hypertension and ARBs like losartan on the bone cellular response at the bone–implant interface remains underexplored. Methods: A total of 32 rats were included in this study: 16 SHRs, with 8 receiving losartan (30 mg/kg daily) and 8 receiving no treatment, and 16 normotensive Wistar rats, with 8 receiving losartan and 8 receiving no treatment. After one week of treatment, titanium implants were placed into the tibia of all the animals. The bone–implant interface was assessed 60 days post-implantation using micro-computed tomography (µCT) and an immunohistochemical analysis. Results: (i) The ARB treatment significantly increased the bone volume and bone–implant contact in the SHRs receiving losartan compared to the untreated SHRs. (ii) Consistent with the µCT findings, the immunohistochemistry further confirmed regular bone turnover and increased osteocalcin (OC) mineralization in the treated SHRs. In contrast, no alterations in the bone microarchitecture were noted in the Wistar rats treated with losartan. Conclusions: The results suggest that losartan, an ARB drug, improves bone volume and bone turnover at the bone–implant interface in SHRs. [ABSTRACT FROM AUTHOR]

Published

2025

11. Biomechanics of Osseointegration of a Dental Implant in the Mandible Under Shock Wave Therapy: In Silico Study.

Author

Smolin, Alexey, Eremina, Galina, Martyshina, Irina, and Xie, Jing

Subjects

*EXTRACORPOREAL shock wave therapy, *DENTAL implants, *METALS in surgery, *DENTURES, *HYDROSTATIC pressure, *OSSEOINTEGRATION

Abstract

The most time-consuming aspect of dental prosthesis installation is the osseointegration of a metal implant with bone tissue. The acceleration of this process may be achieved through the use of extracorporeal shock wave therapy. The objective of this study is to investigate the conditions for osseointegration of the second premolar implant in the mandibular segment through the use of a poroelastic model implemented in the movable cellular automaton method. The mandibular segment under consideration includes a spongy tissue layer, 600 µm in thickness, covered with a cortical layer, 400 µm in thickness, and a gum layer, 400 µm in thickness. Furthermore, the periodontal layers of the roots of the first premolar and first molar were considered, while the implant of the second premolar was situated within a shell of specific tissue that corresponded to the phase of osseointegration. The model was subjected to both physiological loading and shock wave loading across the three main phases of osseointegration. The resulting fields of hydrostatic pressure and interstitial fluid pressure were then subjected to analysis in accordance with the mechanobiological principles. The results obtained have indicated that low-intensity shock wave therapy can accelerate and promote direct osseointegration: 0.05–0.15 mJ/mm2 in the first and second phases and less than 0.05 mJ/mm2 in the third phase. In comparison to physiological loads (when bone tissue regeneration conditions are observed only around the implant distal end), shock waves offer the primary advantage of creating conditions conducive to osseointegration along the entire surface of the implant simultaneously. This can significantly influence the rate of implant integration during the initial osteoinduction phase and, most crucially, during the longest final phase of bone remodeling. [ABSTRACT FROM AUTHOR]

Published

2024

12. Nanostructures in Orthopedics: Advancing Diagnostics, Targeted Therapies, and Tissue Regeneration.

Author

Frączek, Wiktoria, Kotela, Andrzej, Kotela, Ireneusz, and Grodzik, Marta

Subjects

*OSSEOINTEGRATION, *HEALING, *CHONDROGENESIS, *NANOTECHNOLOGY, *BONE growth

Abstract

Nanotechnology, delving into the realm of nanometric structures, stands as a transformative force in orthopedics, reshaping diagnostics, and numerous regenerative interventions. Commencing with diagnostics, this scientific discipline empowers accurate analyses of various diseases and implant stability, heralding an era of unparalleled precision. Acting as carriers for medications, nanomaterials introduce novel therapeutic possibilities, propelling the field towards more targeted and effective treatments. In arthroplasty, nanostructural modifications to implant surfaces not only enhance mechanical properties but also promote superior osteointegration and durability. Simultaneously, nanotechnology propels tissue regeneration, with nanostructured dressings emerging as pivotal elements in accelerating wound healing. As we navigate the frontiers of nanotechnology, ongoing research illuminates promising avenues for further advancements, assuring a future where orthopedic practices are not only personalized but also highly efficient, promising a captivating journey through groundbreaking innovations and tailored patient care. [ABSTRACT FROM AUTHOR]

Published

2024

13. Cell-Type-Specific ROS–AKT/mTOR–Autophagy Interplay—Should It Be Addressed in Periimplantitis?

Author

Butucescu, Mihai, Imre, Marina, Rus-Hrincu, Florentina, Voicu-Balasea, Bianca, Popa, Alexandra, Moisa, Mihai, Ripszky, Alexandra, Neculau, Cristina, Pituru, Silviu Mirel, and Pârvu, Simona

Subjects

*ALVEOLAR process, *DENDRITIC cells, *OSSEOINTEGRATION, *FIBROBLASTS, *AUTOPHAGY, *OSSEOINTEGRATED dental implants

Abstract

Periimplantitis represents an inflammatory disease of the soft and hard tissues surrounding the osseointegrated dental implant, triggering progressive damage to the alveolar bone. Cumulative data have revealed that periimplantitis plays a crucial part in implant failure. Due to the strategic roles of autophagy and its upstream coordinator, the AKT/mTOR pathway, in inflammatory responses, the crosstalk between them in the context of periimplantitis should become a key research target, as it opens up an area of interesting data with clinical significance. Therefore, in this article, we aimed to briefly review the existing data concerning the complex roles played by ROS in the interplay between the AKT/mTOR signaling pathway and autophagy in periimplantitis, in each of the main cell types involved in periimplantitis pathogenesis and evolution. Knowing how to modulate specifically the autophagic machinery in each of the cellular types involved in the healing and osseointegration steps post implant surgery can help the clinician to make the most appropriate post-surgery decisions. These decisions might be crucial in order to prevent the occurrence of periimplantitis and ensure the proper conditions for effective osseointegration, depending on patients' clinical particularities. [ABSTRACT FROM AUTHOR]

Published

2024

14. Mg-Doped Carbonated Hydroxyapatite and Tricalcium Phosphate Anodized Coatings on Titanium Implant Alloys.

Author

Parekh, Amisha, Moore, Maggie, Janorkar, Amol V., and Roach, Michael D.

Subjects

TITANIUM alloys, PHOSPHATE coating, ORTHOPEDIC implants, HYDROXYAPATITE coating, OXIDE coating

Abstract

Featured Application: Magnesium-doped carbonated hydroxyapatite and tricalcium phosphate anodized coatings are applied in alpha, beta, and duplex titanium alloys to improve osseointegration. The rising demand for dental and orthopedic implants and their frequent aseptic loosening failure mode necessitate the drive to continue modifying implant surfaces to improve osseointegration outcomes. Plasma-sprayed hydroxyapatite coatings are widely used but are prone to delamination. This study involves a single-step anodization process utilizing a novel electrolyte to produce Mg-doped carbonated hydroxyapatite and tricalcium phosphate-containing coatings on four titanium alloy surfaces. XRD confirmed hydroxyapatite and tricalcium phosphate formation, with FTIR examination revealing carbonate substitutions indicative of bone-like apatite formation in each oxide. SEM analyses revealed micro- and nano-scaled surface features on each oxide. SEM and EDS analyses of the oxide coating cross-sections showed each group to be bi-layered with an inner titanium dioxide-rich layer and an outer hydroxyapatite/tricalcium phosphate-rich layer. The oxide layer adhesion quality was shown to be good on CPTi, TAV, and TiMo α + β implant alloy surfaces. Unfortunately, the anodization process also resulted in an undesirable and embrittling omega phase at the substrate–oxide interface due to the migration of molybdenum into the inner oxide. Nonetheless, the anodized coatings on the CPTi and TAV alloy substrates, which are the most widely used titanium alloys for implant applications, show much potential for improving future patient outcomes. [ABSTRACT FROM AUTHOR]

Published

2024

15. Pro-Inflammatory Cytokines Expressed During the Initial Phases of Osseointegration: A Systematic Review.

Author

Baker, Matt, Fernandes, Daniel, and Figueredo, Carlos Marcelo S.

Subjects

*DENTAL implants, *OSSEOINTEGRATION, *PROGNOSIS, *CHEMOKINES, *MEDICAL personnel

Abstract

Background: Identifying patients with a strong pro-inflammatory phenotype may allow clinicians to underpin high-risk individuals based on early inflammatory marker profiles and to personalize approaches to preventative treatments. Aim: The objective of this systematic review is to synthesize the results of previous studies on osseointegration to show which pro-inflammatory cytokines and chemokines have been detected and quantified during the initial phase of osseointegration. Material and methods: PubMed, Embase, Scopus, ISI Web of Science, and Cochrane Library were searched for articles published until August 2024. A descriptive summary was produced to explain study variations, including patients' characteristics and results. The methodological quality of each included study was assessed based on Downs and Black's checklist. Results: 30 studies were selected for inclusion. In total, 710 patients received 1329 implants (an average of 1.87 implants per participant). A total of 32 biomarkers were analyzed. The overall trend observed in levels of pro-inflammatory cytokines and chemokines appears to be an early peak, followed by a progressive reduction in levels throughout the observation periods. Conclusions: The available evidence suggests that a strong expression of pro-inflammatory biomarkers is a feature of osseointegration, and an over- or underexpression of certain biomarkers could have an effect on early marginal bone levels. Several of these markers are mechanistically implicated with implant pathology; however, the prognostic value of early cytokine expression and correlation with long-term clinical outcomes requires further research. [ABSTRACT FROM AUTHOR]

Published

2024

16. Biocompatibility Analysis of the Silver-Coated Microporous Titanium Implants Manufactured with 3D-Printing Technology.

Author

Shevtsov, Maxim, Pitkin, Emil, Combs, Stephanie E., Yudintceva, Natalia, Nazarov, Denis, Meulen, Greg Van Der, Preucil, Chris, Akkaoui, Michael, and Pitkin, Mark

Subjects

*PHYSICAL vapor deposition, *EXTRACELLULAR matrix, *POLYMERASE chain reaction, *TITANIUM alloys, *OSTEOCALCIN, *CELL adhesion

Abstract

3D-printed microporous titanium scaffolds enjoy good biointegration with the residuum's soft and bone tissues, and they promote excellent biomechanical properties in attached prostheses. Implant-associated infection, however, remains a major clinical challenge. Silver-based implant coatings can potentially reduce bacterial growth and inhibit biofilm formation, thereby reducing the risk of periprosthetic infections. In the current study, a 1-µm thick silver coating was prepared on the surface of a 3D-printed microporous titanium alloy with physical vapor deposition (PVD), with a final silver content of 1.00 ± 02 mg/cm2. Cell viability was evaluated with an MTT assay of MC3T3-E1 osteoblasts and human dermal fibroblasts cultured on the surface of the implants, and showed low cytotoxicity for cells during the 14-day follow-up period. Quantitative real-time polymerase chain reaction (RT-PCR) analysis of the relative gene expression of the extracellular matrix components (fibronectin, vitronectin, type I collagen) and cell adhesion markers (α2, α5, αV, β1 integrins) in dermal fibroblasts showed that cell adhesion was not reduced by the silver coating of the microporous implants. An RT-PCR analysis of gene expression related to osteogenic differentiation, including TGF-β1, SMAD4, osteocalcin, osteopontin, and osteonectin in MC3T3-E1 osteoblasts, demonstrated that silver coating did not reduce the osteogenic activity of cells and, to the contrary, enhanced the activity of the TGF-β signaling pathway. For representative sample S5 on day 14, the gene expression levels were 7.15 ± 0.29 (osteonectin), 6.08 ± 0.12 (osteocalcin), and 11.19 ± 0.77 (osteopontin). In conclusion, the data indicate that the silver coating of the microporous titanium implants did not reduce the biointegrative or osteoinductive properties of the titanium scaffold, a finding that argues in favor of applying this coating in designing personalized osseointegrated implants. [ABSTRACT FROM AUTHOR]

Published

2024

17. Stromal-Cell-Derived Factor-1 Antibody Decreased Cancellous Osseointegration Strength in a Murine Tibial Implant Model.

Author

Suhardi, Vincentius J., Oktarina, Anastasia, Ricciardi, Benjamin F., Bostrom, Mathias P. G., and Yang, Xu

Subjects

*OSSEOINTEGRATION, *STROMAL cell-derived factor 1, *CXCR4 receptors, *CELL communication, *MONOCLONAL antibodies, *INTRAPERITONEAL injections

Abstract

Background: Active recruitment of osteogenic cells by secreted signaling factors, such as stromal-cell-derived factor 1 (SDF-1), has recently been proposed as a novel strategy to enhance osseointegration. However, the intrinsic importance of the SDF-1/C-X-C chemokine receptor type 4 (CXCR4) axis in promoting osseointegration is unknown. To study the role of SDF-1/CXCR4 in osseointegration, we blocked the SDF-1/CXCR4 pathway in a murine tibial implant model through repeated administrations of an antibody against SDF-1. Methods: Using our previously described murine tibial implant model (N = 24), mice were randomized into an anti-SDF-1 group and a control group (N = 12/group). Intraperitoneal injections of CXCL12/SDF-1 monoclonal antibody (84 µg/mouse) or mouse IgG1 isotype were administered on days 2, 4, 7, 10, 13, 16, 19, 22, and 25 post-surgery. Mice were euthanized 4 weeks post-surgery. Peri-implant bone mass and architecture were determined through microcomputed tomography (µ-CT). Bone implant strength was detected through implant pull-out testing. Results: Inhibition of the SDF-1/CXCR4 pathway significantly reduced host bone–implant interface strength but did not significantly change the cancellous architecture surrounding the implant. Conclusion: SDF-1/CXCR4 is an important pathway to achieve maximum implant osseointegration. However, inhibition of the pathway did not completely eliminate osseointegration. [ABSTRACT FROM AUTHOR]

Published

2024

18. Osseointegration of Implants Through Ti Biofunctionalization with Biomass from Chlorella sorokiniana UTEX 1230 and Synechococcus sp. PCC 7002.

Author

Bravo, Yarelis, Miranda, Alejandra M., Hernandez-Tenorio, Fabian, Sáez, Alex A., and Paredes, Virginia

Subjects

*CHLORELLA sorokiniana, *HYDROPHILIC surfaces, *CONTACT angle, *MEDICAL equipment, *OSSEOINTEGRATION, *CYTOTOXINS

Abstract

The inadequate osseointegration of titanium implants remains a significant challenge in orthopedics, limiting the long-term efficacy of prostheses and medical devices. It has been determined that biological aging of the titanium surface compromises the implant–bone tissue interaction due to increased hydrophobicity and accumulation of organic molecules. To address this issue, an innovative strategy has been proposed: the biofunctionalization of Ti6Al4V surfaces utilizing biomass derived from Chlorella sorokiniana UTEX 1230 and Synechococcus sp. PCC 7002. This research was structured to encompass microalgal culture optimization through biocompatibility evaluation of biofunctionalized surfaces. Biofunctionalization stages were analyzed using contact angle measurements, EDS, SEM, and cellular assays. It was observed that piranha solution activation generated a hydrophilic surface, while silanization was more efficient in samples treated for 14 h. It was found that Synechococcus sp. PCC 7002 presented a higher biomass concentration on the surface compared to C. sorokiniana UTEX 1230. Cytotoxicity assays revealed that the coating with Synechococcus sp. PCC 7002 was potentially non-cytotoxic, with a cell viability of 86.8%. SEM images showed a significant number of cells adhered to the treated sample. In conclusion, the potential of using microalgal biomass to biofunctionalize titanium surfaces has been demonstrated, offering an innovative alternative to improve implant–tissue interaction and, consequently, the osseointegration process in orthopedic applications. [ABSTRACT FROM AUTHOR]

Published

2024

19. Biomechanical Finite Element Analysis of Two Types of Short-Angled Implants Across Various Bone Classifications.

Author

Ceddia, Mario, Romasco, Tea, De Bortoli Jr., Nilton, Mello, Bruno Freitas, Piattelli, Adriano, Mijiritsky, Eitan, Di Pietro, Natalia, and Trentadue, Bartolomeo

Subjects

*FINITE element method, *COMPACT bone, *DENTAL implants, *CANCELLOUS bone, *BONE resorption, *OSSEOINTEGRATION

Abstract

The aim of this finite element analysis (FEA) was to investigate the distribution of von Mises stress within dental implant components, as well as trabecular and cortical bone. The study considered various bone qualities that influence cortical thickness in contact with the implant, specifically examining cortical thicknesses of 0.5, 1.5, and 3 mm, corresponding to Bergkvist's classifications IV, III, and II, respectively. A simplified 3D model of the bone was developed for the analysis. Two short implants were inserted into the model: one with a 30° inclined abutment (IA) and another positioned at a 30° angle featuring a straight abutment (II). A vertical force (120 N) was applied to the upper surface of the abutments. FEA software was employed to assess the stresses on the peri-implant tissues and the implants. The findings indicated that a reduction in cortical bone thickness results in an increase in stress within the cortical bone. For IA, the stresses recorded 32.56, 56.12, and 96.14 MPa for cortical thicknesses of 3, 1.5, and 0.5 mm, respectively. Conversely, II exhibited increased stresses across all bone qualities (52.32, 76.15, and 126.32 MPa for the same cortical thicknesses). It is advisable to avoid II in cases of poor bone quality and thin cortical due to the heightened risk of overload-induced bone resorption; however, it may be preferable to use IA in scenarios involving good bone quality and thicker cortical. [ABSTRACT FROM AUTHOR]

Published

2024

20. Nonlinear Finite Element Analysis of Bone–Implant Contact in Three Short Dental Implant Models with Varying Osseointegration Percentages.

Author

Alemayehu, Dawit Bogale, Todoh, Masahiro, and Huang, Song-Jeng

Subjects

DENTAL implants, CANCELLOUS bone, FINITE element method, OPERATIVE dentistry, STRAINS & stresses (Mechanics)

Abstract

Objectives: Dental implants have become a cornerstone of restorative dentistry, providing a long-lasting method for tooth replacement. The degree of osseointegration has a significant effect on biomechanical stability at the bone–implant contact (BIC), determining the continued efficacy of these implants. However, the exact consequences of changing osseointegration levels on different implant designs, especially in bones with variable densities, are not well known. Methods: This study used 3D finite element analysis (FEA) to look at the biomechanical performance of three short dental implants: BioMet 3iT3, Straumann® Standard Plus Short-Regular Neck (SPS-RN), and Straumann® Standard Plus Short-Wide Neck (SPS-WN). This paper tested the implants at four stages of osseointegration: 25%, 50%, 75%, and 100% in both high-density (bone type III) and low-density (bone type IV) cancellous bone. It also created and examined realistic CAD models under static occlusal loading conditions to assess stress distribution and major strains at the bone–implant contact. Results: The study discovered that as osseointegration increases, von Mises stress and principal strains go down significantly for all implant types. The SPS-WN implant had the lowest strain values, especially for bone with low density. These reductions demonstrate increased mechanical stability as the bone–implant interface becomes more capable of dispersing mechanical stresses, minimizing the potential for localized deformation and bone resorption. Conclusions: The results highlight the importance of achieving optimum osseointegration to reduce mechanical stress and increase the lifespan of dental implants. The SPS-WN type implant performed better in biomechanical tests than the others, especially when bone conditions were not ideal. This makes it a great choice for clinical applications that need long-term implant success. [ABSTRACT FROM AUTHOR]

Published

2024

21. Effects of Platelet-Rich Fibrin on Bone Healing Around Implants Placed in Maxillary Sinuses: A Histomorphometric Assessment in Rabbits.

Author

Grossi-Oliveira, Gustavo Augusto, Dallazen, Eduardo, Asbi, Thabet, Fonseca-Santos, João Matheus, Ribeiro-Júnior, Paulo Domingos, Shibli, Jamil A., Massari Grecco, Cinthya, Magro-Filho, Osvaldo, Mourão, Carlos Fernando, Haim, Doron, Mayer, Yaniv, and Faverani, Leonardo P.

Subjects

SINUS augmentation, BONE resorption, PLATELET-rich fibrin, THROMBOSIS, BONE substitutes, OSSEOINTEGRATION

Abstract

This study investigated the effect of platelet-rich fibrin (PRF) on bone healing around implants placed in elevated sinus cavities. Forty New Zealand albino rabbits were divided into eight groups, based on the time of sacrifice (14 or 40 days) and the material used: blood clot (control), hydroxyapatite (HA) from bovine bone, HA combined with PRF, and PRF alone. Each group consisted of five animals (n = 5). A histological analysis measured bone-to-implant contact (BIC) and bone area fraction occupancy (BAFO). The results showed significant increases in the BIC and BAFO values at 40 days compared to 14 days in most groups. At day 14, the HA+PRF group had higher BIC than the clot and the PRF alone groups. At 40 days, HA+PRF maintained the highest BIC across all groups (p < 0.05), though it did not show an advantage for BAFO. These findings indicate that combining HA with PRF promotes better osseointegration around implants placed immediately in maxillary sinus augmentation. Given the limited research on PRF's biological impact, these results underscore the importance of evaluating PRF's role in peri-implant healing and its potential benefits for clinical use in sinus augmentation. [ABSTRACT FROM AUTHOR]

Published

2024

22. Nanotechnology-Enhanced Orthopaedic Surgery.

Author

Pang, Alexander Shao-Rong, Liau, Zi Qiang Glen, Oh, Jacob Yoong-Leong, and Srinivasan, Dinesh Kumar

Subjects

PROSTHESIS-related infections, ORTHOPEDIC surgery, ORTHOPEDIC implants, BONE regeneration, SURFACE preparation, DRUG delivery systems, OSSEOINTEGRATION

Abstract

Nanomaterials hold significant promise for the future of orthopaedic implants due to their ability to mimic the nanoscale components of the bone, such as collagen fibrils and hydroxyapatite. Nanomaterials can regulate cell behaviour while offering mechanical strength and biocompatibility, making them ideal for bone repair and tissue regeneration. This comprehensive review explores the key existing and potential applications of nanotechnology in orthopaedics, including bone tissue engineering, drug delivery systems, systems combatting implant-related infections, and the surface preparation of implants to enhance osseointegration. These innovations are poised to revolutionise orthopaedic care by improving implant durability, reducing infection risks, and promoting bone regeneration to deliver personalised treatment and create better patient outcomes. [ABSTRACT FROM AUTHOR]

Published

2024

23. Micro-CT Structure Analysis on Dental Implants: Preliminary In Vitro Trial.

Author

Galletti, Fulvia, D'Angelo, Tommaso, Fiorillo, Luca, Lo Giudice, Paola, Irrera, Natasha, Rizzo, Giuseppina, and Cervino, Gabriele

Subjects

BONE physiology, DENTAL implants, BONES, IN vitro studies, DENTAL abutments, OSSEOINTEGRATION, COMPUTER software, COMPUTED tomography, DENTURES, TREATMENT effectiveness, NARRATIVES, COMPARATIVE studies, PROSTHESIS design & construction, EVALUATION

Abstract

Introduction: This preliminary in vitro study aims to evaluate the application of micro-CT in analyzing the microstructural coupling between dental implant fixtures and prosthetic abutments, with an emphasis on understanding the effectiveness and limitations of this technique in dental implantology. Materials and Methods: A search of PubMed, MEDLINE, and the Cochrane Library up to May 2024 identified eight relevant studies that examined different facets of dental implantology, such as osseointegration, implant stability, and the comparative accuracy of micro-CT versus other imaging techniques. A comparative micro-CT radiographic analysis was performed on five different implant fixtures with respective prosthetic and healing abutments, by using SkyScan1174 micro-CT. Results: The reviewed studies demonstrated that micro-CT is reliable for assessing bone quality, implant stability, and the microstructural integrity of dental implants. Micro-computed tomography (micro-CT) studies reveal bone–implant contact (BIC) ratios of 40–80%, bone volume per total volume (BV/TV) values of 20–60%, and detect microgaps as small as 0.3 µm, highlighting its high-resolution capability (5–10 µm) for detailed implant analysis. The comparative analysis of the implant fixtures analyzed the implant–abutment connection, highlighting the relevance of implant design for ensuring stability. Conclusions: Micro-CT analysis has proven to be a valuable tool for evaluating the intricate microstructural properties of dental implants, offering insights into implant stability, bone quality, and osseointegration. The literature reviewed highlights consistent findings that underscore micro-CT's accuracy and reliability in capturing high-resolution data, suggesting its potential as a standard imaging modality in implant research and clinical assessment. [ABSTRACT FROM AUTHOR]

Published

2024

24. Microstructural Evaluation of Dental Implant Success Using Micro-CT: A Comprehensive Review.

Author

Setiawan, Krisnadi, Primarti, Risti Saptarini, Sitam, Suhardjo, Suridwan, Wawan, Usri, Kosterman, and Latief, Fourier Dzar Eljabbar

Subjects

THREE-dimensional imaging, X-ray computed microtomography, DENTAL implants, BONE grafting, BONE measurement, OSSEOINTEGRATION

Abstract

Micro-computed tomography (micro-CT) is an invaluable tool for the evaluation of dental implant success, whereby the assessment of bone microstructure is conducted. This review examines the role of micro-CT in evaluating bone microstructure in dental implants. A review of the current literature reveals that micro-CT enables the accurate measurement of bone volume, trabecular morphology, and connectivity density, all of which play a crucial role in implant stability. The high-resolution three-dimensional visualization capabilities of micro-CT are also beneficial for the analysis of osseointegration and the evaluation of bone augmentation biomaterials. Despite the existence of challenges such as imaging artifacts and limitations in in vivo applications, advancements in sub-micron resolution and artificial intelligence integration offer promise for improving diagnostic capabilities. Micro-CT provides valuable insights into bone microarchitecture and osseointegration dynamics, which have the potential to enhance pre-operative planning and clinical outcomes in dental implantology. Future research should prioritize the standardization of micro-CT analysis protocols and the exploration of direct clinical applications of this technology. [ABSTRACT FROM AUTHOR]

Published

2024

25. Bone Integration of Femtosecond Laser-Treated Dental Implants with Nanostructured Surfaces: A Controlled Animal Study.

Author

Do, Woo-Seok, Son, Keun-Ba-Da, Son, Young-Tak, Kim, Yong-Gun, Hwang, Sung-Min, Hwang, Jun-Ho, Lee, Jong-Hoon, Kim, Hyun-Deok, Lee, Kyu-Bok, and Lee, Jae-Mok

Subjects

DENTAL implants, MICROSCOPY, X-ray computed microtomography, SURGICAL site, SURFACE preparation, RESONANCE frequency analysis, FEMTOSECOND lasers

Abstract

Background: The purpose of this study is to compare bone union and soft-tissue healing in titanium implants with sandblasted, large-grit, acid-etched surfaces (SLA group) and femtosecond laser-treated surfaces (FEMTO group) in a rabbit model. Methods: Implants were inserted into rabbit tibiae, and implant stability, soft-tissue healing, and microscopic analyses (micro-CT and biopsy) were conducted. All animals maintained normal weight and health post-surgery. Results: Hemostasis was achieved at the laser incision site on the surgery day, but healing was slower compared to conventional methods. Micro-CT showed no significant differences in new bone formation or inflammatory tissue infiltration between groups. Tissue biopsy revealed slightly higher bone-implant contact in the FEMTO group compared to the SLA group, though not statistically significant. Conclusion: These findings suggest that femtosecond laser surface treatment may provide bone union comparable to or better than SLA treatment, though laser-assisted soft-tissue incisions heal more slowly. [ABSTRACT FROM AUTHOR]

Published

2024

26. Comparative Study of Surface Modification Techniques for Enhancing Biocompatibility of Ti-6Al-4V Alloy in Dental Implants.

Author

Hsiao, Vincent K. S., Shih, Ming-Hao, Wu, Hsi-Chin, and Wu, Tair-I

Subjects

ORTHOPEDIC implants, DENTAL metallurgy, DENTAL implants, CYTOCOMPATIBILITY, ELECTROLYTIC corrosion, SHOT peening

Abstract

This study investigates the effects of various surface modification techniques on the Ti-6Al-4V alloy for biomedical applications. Mechanical treatments (sandblasting, shot peening) and electrochemical corrosion using different electrolytes were employed to modify surface characteristics. Surface morphology, roughness, hardness, and chemical composition were analyzed using SEM, profilometry, and Raman spectroscopy. Cell attachment studies revealed that combined treatments, particularly shot peening followed by HF/HNO3 etching, significantly enhanced cell adhesion and distribution. The results demonstrate the potential for tailoring Ti-6Al-4V surfaces to optimize biocompatibility and osseointegration properties for dental and orthopedic implants. [ABSTRACT FROM AUTHOR]

Published

2024

27. Simultaneous Osseo- and Odontointegration of Titanium Implants: Description of Two Cases in Human and Animal Models and Review of Their Experimental and Clinical Implications.

Author

Valdivia-Gandur, Iván, Manzanares-Céspedes, María Cristina, Astudillo-Rozas, Wilson, Aceituno-Antezana, Oscar, Tallón-Walton, Victòria, and Beltrán, Víctor

Subjects

*DENTAL implants, *TOOTH roots, *CEMENTUM, *IMPACTION of teeth, *EXPERIMENTAL literature, *OSSEOINTEGRATION

Abstract

Two cases of calcified bone and dental tissue integration with titanium implants are presented, along with a review of the literature on their experimental and clinical implications. First, histological analyses of a titanium implant extracted from a patient with iimplant disease revealed the integration of both dental and bone tissue on the implant's surface. Secondly, a biocompatibility study in an animal model documented two implants in contact with tooth roots. Samples from both animal and human models demonstrated simultaneous osseointegration and dental tissue neoformation, with the latter attributed to the activity of cementoblasts. The literature review confirms the formation of cementum around dental implants in contact with teeth. Certain clinical reports have proposed the insertion of implants into bone sites containing impacted teeth as a conservative treatment alternative, avoiding the need for tooth extraction surgery and demonstrating the successful integration of teeth, bone, and dental implants. Furthermore, the documented natural formation of periodontal tissues around dental implants provided a foundation for tissue engineering studies aimed at realizing implant–bone relationships similar to those of natural bone–tooth structures. The primary challenges remain the long-term preservation of periodontal-like tissue formed on implants and the imparting of functional proprioceptive properties. [ABSTRACT FROM AUTHOR]

Published

2024

28. Comparative Evaluation of Bone–Implant Contact in Various Surface-Treated Dental Implants Using High-Resolution Micro-CT in Rabbits' Bone.

Author

Zieliński, Rafał, Puszkarz, Adam K., Piętka, Tomasz, Sowiński, Jerzy, Sadowska-Sowińska, Monika, Kołkowska, Agata, and Simka, Wojciech

Subjects

*X-ray computed microtomography, *DENTAL implants, *SAND blasting, *SOFTWARE development tools, *OSSEOINTEGRATION, *ANODIC oxidation of metals

Abstract

This study evaluated the bone-to-implant contact (BIC) of various surface-treated dental implants using high-resolution micro-CT in rabbit bone, focusing on the effects of different treatments on osseointegration and implant stability before and after bone demineralization. Six male New Zealand White rabbits were used. Four implant types were tested: machined surface with anodizing, only etching, sandblasting with Al2O3 + etching, and sandblasting with TiO2 + etching. Implants were scanned with high-resolution micro-CT before and after demineralization. Parameters like implant volume, surface area, and BIC were determined using specific software tools. During demineralization, the BIC changed about 6% for machined surface with anodizing, 5% for only etching, 4% for sandblasting with Al2O3 + etching, and 10% for sandblasting with TiO2 + etching. Demineralization reduced BIC percentages, notably in the machined surface with anodizing and sandblasting with TiO2 + etching groups. Etching and sandblasting combined with etching showed higher initial BIC compared to anodizing alone. Demineralization negatively impacted the BIC across all treatments. This study underscores the importance of surface modification in implant integration, especially in compromised bone. Further research with larger sample sizes and advanced techniques is recommended. [ABSTRACT FROM AUTHOR]

Published

2024

29. A Murine Model of Non-Wear-Particle-Induced Aseptic Loosening.

Author

Suhardi, Vincentius, Oktarina, Anastasia, Niu, Yingzhen, Sosa, Branden, Retzky, Julia, Greenblatt, Matthew, Ivashkiv, Lionel, Bostrom, Mathias, and Yang, Xu

Subjects

*ARTHROPLASTY, *MESENCHYMAL stem cells, *VASCULAR endothelium, *OSSEOINTEGRATION, *PROGENITOR cells

Abstract

Background: The current murine models of peri-implant osseointegration failure are associated with wear particles. However, the current clinical osseointegration failure is not associated with wear particles. Here, we develop a murine model of osseointegration failure not associated with wear particles and validate it by comparing the cellular composition of interfacial tissues with human samples collected during total joint arthroplasty revision for aseptic loosening. Materials and Methods: Thirty-two 16-week-old female C57BL/6 mice underwent implantation with a press-fitted roughened titanium implant (Control, n = 11) to induce normal osseointegration and a press-fitted smooth polymethylmethacrylate implant (PMMA, n = 11), a loosely fitted smooth titanium implant (Smooth-Ti, n = 5) or a loosely fitted roughened titanium implant (Overdrill, n = 5) to induce osseointegration failure. Pullout testing was used to determine the strength of the bone–implant interface (n = 6 of each for Control and PMMA groups) at 2 weeks after implantation. Histology (n = 2/group) and immunofluorescence (n = 3/group) were used to determine the cellular composition of bone–implant interfacial tissue, and this was compared with two human samples. Results: Osseointegration failure was confirmed with grossly loosening implants and the presence of fibrous tissue identified via histology. The maximum pullout load in the PMMA group was 87% lower than in the Control group (2.8 ± 0.6 N vs. 21 ± 1.5 N, p < 0.001). With immunofluorescence, abundant fibroblasts (PDGFRα+ TCF4+ and PDGFRα+ Pu1+) were observed in osseointegration failure groups and the human samples, but not in controls. Interestingly, CD146+PDGFRα+ and LepR+PDGFRα+ mesenchymal progenitors, osteoblasts (OPN+), vascular endothelium (EMCN+) cells were observed in all groups, indicating dynamic osteogenic activity. Macrophages, only M2, were observed in conditions producing fibrous tissue. Conclusions: In this newly developed non-wear-particle-related murine osseointegration failure model, the cellular composition of human and murine interfacial tissue implicates specific populations of fibroblasts in fibrous tissue formation and implies that these cells may derive from mesenchymal stem cells. [ABSTRACT FROM AUTHOR]

Published

2024

30. Histomorphometric Analysis of Osseointegrated Intraosseous Dental Implants Using Undecalcified Specimens: A Scoping Review.

Author

Peev, Stefan, Yotsova, Ralitsa, and Parushev, Ivaylo

Subjects

*OSSEOINTEGRATED dental implants, *DENTAL implants, *EVIDENCE gaps, *TOLUIDINE blue, *BONE density

Abstract

Bone histology and histomorphometry are reliable diagnostic tools for the assessment of the bone–implant interface, material safety and biocompatibility, and tissue response. They allow for the qualitative and quantitative analysis of undecalcified bone specimens. This scoping review aims to identify the most common staining techniques, study models for in vivo experiments, and histomorphometric parameters used for quantitative bone evaluation of osseointegrated dental implants in the last decade. The Web of Science, PubMed, and Scopus databases were searched on 1 July 2024 for relevant articles in English, published in the last ten years, and the data were exported to an MS Excel spreadsheet. A total of 115 studies met the eligibility criteria and were included in the present review. The results indicate that the most common study models are dogs, rabbits, and pigs. Some of the most frequently used methods for the assessment of the bone–implant interface are the Toluidine blue, Stevenel's blue with Van Gieson, and Levai–Laczko stainings. The results from this study demonstrate that the most commonly used histomorphometric parameters in implant dentistry are the bone-to-implant contact (BIC), bone area fraction occupancy (BAFO), bone area (BA), and bone density (BD). This review presents the recent trends in histomorphometric analysis of dental implants and identifies some research gaps that necessitate further research. [ABSTRACT FROM AUTHOR]

Published

2024

31. Preclinical Experimental Study on New Cervical Implant Design to Improve Peri-Implant Tissue Healing.

Author

Gehrke, Sergio Alexandre, Cortellari, Guillermo Castro, Júnior, Jaime Aramburú, Treichel, Tiago Luis Eilers, Bianchini, Marco Aurelio, Scarano, Antonio, and De Aza, Piedad N.

Subjects

*SURFACE preparation, *DENTAL implants, *TIME measurements, *CONTROL groups, *HISTOMORPHOMETRY, *OSSEOINTEGRATION, *ENDOSSEOUS dental implants

Abstract

Objectives: In this preclinical study, we used an experimental rabbit model to investigate the effects of a new implant design that involves specific changes to the cervical portion, using a conventional implant design in the control group. Materials and Methods: We used 10 rabbits and 40 dental implants with two different macrogeometries. Two groups were formed (n = 20 per group): the Collo group, wherein implants with the new cervical design were used, which present a concavity (reduction in diameter) in the first 3.5 mm, the portion without surface treatment; the Control group, wherein conical implants with the conventional design were used, with surface treatment throughout the body. All implants were 4 mm in diameter and 10 mm in length. The initial implant stability quotient (ISQ) was measured immediately after the implant insertion (T1) and sample removal (T2 and T3). The animals (n = five animals/time) were euthanized at 3 weeks (T1) and 4 weeks (T2). Histological sections were prepared and the bone–implant contact (BIC%) and tissue area fraction occupancy (TAFO%) percentages were analyzed in the predetermined cervical area; namely, the first 4 mm from the implant platform. Results: The ISQ values showed no statistical differences at T1 and T2 (p = 0.9458 and p = 0.1103, respectively) between the groups. However, at T3, higher values were found for the Collo group (p = 0.0475) than those found for the Control group. The Collo samples presented higher BIC% values than those of the Control group, with statistical differences of p = 0.0009 at 3 weeks and p = 0.0007 at 4 weeks. There were statistical differences in the TAFO% (new bone, medullary spaces, and the collagen matrix) between the groups at each evaluation time (p < 0.001). Conclusions: Considering the limitations of the present preclinical study, the results demonstrate that the new implant design (the Collo group) had higher implant stability (ISQ) values in the samples after 4 weeks of implantation. Furthermore, the histomorphometric BIC% and TAFO% analyses showed that the Collo group had higher values at both measurement times than the Control group did. These findings indicate that changes made to the cervical design of the Collo group implants may benefit the maintenance of peri-implant tissue health. [ABSTRACT FROM AUTHOR]

Published

2024

32. From Mechanical Machining Technology: A New Solution That Integrates Blades to the Implant to Control the Stress to the Peri-Implant Cortical Bone.

Author

Ferri, Mauro, Guzzo, Marco, Omori, Hiroyuki, Hazama, Yuma, Masotta, Nicodemo Vittorio, and Botticelli, Daniele

Subjects

*COMPACT bone, *BONE resorption, *RADIAL stresses, *BONE density, *OSSEOINTEGRATION, *TREATMENT effectiveness

Abstract

Background: To prevent excessive compression of the cortical layer, which can lead to marginal bone loss, various companies have introduced specialized drills. However, these drills often lack the necessary precision, as the operator's hand may neither be stable enough to prevent ovalization and over-widening nor precise enough to maintain coaxial alignment. Therefore, the aim of this study was to develop a device capable of achieving calibrated cortical preparation in terms of both dimension and coaxiality. Methods: A machining technology based on drilling principles was employed to create the device. Results: Nine blades were incorporated between the transmucosal neck and the implant threads, enabling the blades to cut the cortical bone coaxially during the implant insertion process. Conclusions: The primary goal of this study was to develop an implant capable of achieving calibrated cortical bone preparation, ensuring both precise dimensional control and coaxial alignment. This design incorporates integrated blades that allow for controlled cortical decompression, helping to manage radial compressive stresses during implant placement. Although the experimental studies cited were conducted independently of this research, they validate the functional efficacy of this implant design, demonstrating its ability to promote osseointegration and preserve marginal bone. The results suggest that this implant configuration holds the potential for improving clinical outcomes, particularly in cases where bone quality or density poses challenges to implant stability. [ABSTRACT FROM AUTHOR]

Published

2024

33. Soft Tissue Reconstruction and Integration to Implant After Bone-Tumor Resection: A Current Concept Review.

Author

Pesare, Elisa, Vitiello, Raffaele, Greco, Tommaso, Solarino, Giuseppe, Maccauro, Giulio, and Ziranu, Antonio

Subjects

*ORTHOPEDIC implants, *POLYETHYLENE terephthalate, *OSSEOINTEGRATION, *PROSTHETICS, *TREATMENT effectiveness, *LIMB salvage

Abstract

Introduction: With the advancements in chemotherapy for malignant bone tumors, the number of patients eligible for limb salvage surgery has increased. Surgeons face a subsequent challenge in limb-sparing resection due to the need for reconstructing soft tissue coverage. The aim of this review is to focus on the present state of the field in these areas, highlighting recent advancements. Methods: A literature research was conducted using keywords such as "soft tissue", "integration", "reconstruction", "megaprosthesis", and "soft tissue coverage", on different databases, and following the Preferred Reporting Items for Systematic Reviews and Meta-analyses (PRISMA) criteria, a total of 35 studies were selected. Results: In recent times, there has been a growing emphasis on different techniques such mesh application, allograft-prosthesis composites, allograft reconstruction, a polyethylene terephthalate (PET) tube, prosthesis itself and certain metals utilized for implant coatings are used in soft tissue reconstruction. Conclusion: While tissue-engineered constructs and advancements in biological and cellular approaches have shown potential for enhancing osseointegration and interactions with soft tissues and implants, the actual clinical outcomes have frequently fallen short of expectations. The success of soft tissue integration is crucial for achieving functional outcomes, minimizing complications, and ensuring the long-term stability of orthopedic implants. [ABSTRACT FROM AUTHOR]

Published

2024

34. Sonification of Deproteinized Bovine Bone Functionalized with Genistein Enhances Bone Repair in Peri-Implant Bone Defects in Ovariectomized Rats.

Author

Duarte, Nathália Dantas, Mulinari-Santos, Gabriel, Batista, Fábio Roberto de Souza, Gomes, Marcelly Braga, Monteiro, Naara Gabriela, Silva, Ana Cláudia Ervolino da, Gruber, Reinhard, Lisboa-Filho, Paulo Noronha, Gomes-Ferreira, Pedro Henrique Silva, and Okamoto, Roberta

Subjects

THROMBOSIS, BONE substitutes, DENTAL implants, BONE remodeling, GENISTEIN, BONE regeneration, SONICATION

Abstract

Estrogen deficiency is one of several contributing factors to catabolic changes in bone surrounding dental implants, impairing bone repair in defects requiring bone regeneration. Functionalizing bone substitutes is an alternative approach among various strategies to address this challenge. In this study, the aim was to evaluate the effect of functionalizing deproteinized bovine bone (Bio-Oss®, BO) with genistein via sonication on peri-implant bone defects in ovariectomized rats. The animals were randomly distributed according to the treatment into the following four groups (n = 10): BO sonicated with genistein (BOS + GEN), BO sonicated alone (BOS), untreated BO (BO), and blood clot only (CLOT). After twenty-eight days, implant removal torque was determined, and the peri-implant bone parameters were calculated based on computed microtomography. Additionally, the gene expression of bone turnover markers was evaluated. As a main result, the functionalization with genistein increased implant removal torque and the peri-implant bone volume in the BOS + GEN group compared to both BOS and BO groups (both p < 0.05). These findings suggest that the sonification of deproteinized bovine bone functionalized with genistein improves bone repair in peri-implant bone defects in ovariectomized rats. [ABSTRACT FROM AUTHOR]

Published

2024

35. Predictable Full Digital Workflow Using Stackable Surgical Templates for Complete Dental Arch Rehabilitation with Implant-Supported Fixed Restorations—Case Series and Proof of Concept.

Author

Cristache, Corina Marilena, Burlacu Vatamanu, Oana Elena, Butnarasu, Cristian Corneliu, Mihut, Tamara, and Sgiea, Eliza Denisa

Subjects

DENTAL arch, CONE beam computed tomography, DENTAL implants, SIMULATED patients, OSSEOINTEGRATION

Abstract

Background: In recent years, advancements in digital dentistry have provided new opportunities for more predictable and efficient treatment options, particularly in patients with failing dentition. This study aimed to evaluate the effectiveness and accuracy of a fully digital workflow using stackable surgical templates for complete dental arch rehabilitation with implant-supported fixed restorations. Methods: Four patients, comprising two males and two females with a mean age of 66 years, were included in this case series. Each patient underwent meticulous digital planning, including CBCT and intraoral scanning, to create a virtual patient for preoperative assessment and virtual treatment planning. The assessment of the trueness of implant positioning was conducted in Geomagic Control X software (version 2017.0.3) by referencing anatomical landmarks from both the preoperative and one-year postoperative CBCT scans. Results: A total of 25 dental implants were placed in the maxilla, followed by the installation of long-term provisional restorations. The results showed minimal deviation between the planned and actual implant positions, with mean 3D coronal, apical, and angular discrepancies of 0.87 mm, 2.04 mm, and 2.67°, respectively. All implants achieved successful osseointegration, and no failures were recorded, resulting in a 100% survival rate at the one-year follow-up. Patients reported high satisfaction with both the esthetic and functional outcomes based on their subjective feedback. Conclusions: The findings suggest that the use of a fully digital workflow with stackable surgical templates is a reliable and effective approach for immediate implant placement and prosthetic rehabilitation, enhancing treatment precision and patient comfort. [ABSTRACT FROM AUTHOR]

Published

2024

36. Thermal Evaluation of Bone Drilling with a One-Drill Protocol.

Author

Rugova, Sihana and Abboud, Marcus

Subjects

*ORTHOPEDIC surgery, *DENTAL implants, *OPERATIVE dentistry, *HIGH temperatures, *OSTEOTOMY, *OSSEOINTEGRATION

Abstract

This study evaluates the thermal impact of a one-drill protocol for osteotomy preparation in dental implant surgery. Our findings demonstrate a significant reduction in heat generation compared to traditional sequential drilling, suggesting potential benefits for implant osseointegration and patient comfort. Specifically, the one-drill protocol was associated with lower peak temperatures and a reduced duration of elevated temperatures. These findings suggest that the one-drill protocol may contribute to improved implant stability and reduce the risk of thermal-induced bone damage. While further research is needed to confirm these findings in clinical settings, the results of this study provide promising evidence for the potential advantages of the one-drill protocol in dental implant surgery. Additionally, the one-drill protocol may offer simplified surgical workflows and reduced instrument management, potentially leading to improved efficiency and cost-effectiveness in dental implant procedures. [ABSTRACT FROM AUTHOR]

Published

2024

37. Prospective Randomized Controlled Clinical Trial to Evaluate the Safety and Efficacy of ACTLINK Plasma Treatment for Promoting Osseointegration and Bone Regeneration in Dental Implants.

Author

Kwon, Jin-Seon, Cho, Won-Tak, Lee, Jong-Ho, Joo, Ji-Young, Lee, Jae-Yeol, Lim, Youbong, Jeon, Hyun-Jeong, and Huh, Jung-Bo

Subjects

*BONE regeneration, *DENTAL implants, *CLINICAL trials, *RANDOMIZED controlled trials, *PLASMA stability, *OSSEOINTEGRATION

Abstract

Recent studies have explored surface treatments, such as increasing the hydrophilicity of implant fixtures, to enhance the osseointegration of implants. This prospective clinical study aimed to assess the clinical stability and efficacy of plasma treatment applied to implants with sandblast−acid etching (SLA) surfaces before placement. Twenty-eight patients requiring implant placement provided consent and were assigned randomly to either the SLA group without plasma treatment or the SLA/plasma group with plasma treatment. Recall checks were conducted one and three months after the first-stage surgery, followed by a second surgery at four months. Although no significant differences in buccal bone defects or implant stability were observed between the groups, the SLA/plasma group showed significant increases in marginal bone changes on the mesial and distal sides, as assessed using periapical radiographs. This study underscores the potential of pre-implantation plasma treatment to enhance bone regeneration around implants. [ABSTRACT FROM AUTHOR]

Published

2024

38. Harmonic Vibration Analysis in a Simplified Model for Monitoring Transfemoral Implant Loosening.

Author

Zhou, Qingsong, Rose, Louis Raymond Francis, Ebeling, Peter, Russ, Matthias, Fitzgerald, Mark, and Chiu, Wing Kong

Subjects

*STRUCTURAL health monitoring, *TORSIONAL vibration, *TORQUE, *DETECTORS, *OSSEOINTEGRATION

Abstract

A simplified axisymmetric model of a transfemoral osseointegration implant was used to investigate the influence of the contact condition at the bone–implant interface on the vibrational response. The experimental setup allowed the degree of implant tightness to be controlled using a circumferential compression device affixed to the bone. Diametrically placed sensors allowed torsional modes to be distinguished from flexural modes. The results showed that the structural resonant frequencies did not shift significantly with tightness levels. The first torsional mode of vibration was found to be particularly sensitive to interface loosening. Harmonics in the vibrational response became prominent when the amplitude of the applied torque increased beyond a critical level. The torque level at which the third harmonic begins to rise correlated with implant criticality, suggesting a potential strategy for early detection of implant loosening based on monitoring the amplitude of the third harmonic of the torsional mode. [ABSTRACT FROM AUTHOR]

Published

2024

39. Osseointegration of Dental Implants after Vacuum Plasma Surface Treatment In Vivo.

Author

Kahm, Se Hoon, Lee, Sang Hwa, Lim, Youbong, Jeon, Hyun Jeong, and Yun, Kyoung-In

Subjects

DENTAL implants, BIOMEDICAL materials, DENTAL materials, SURFACE preparation, X-ray computed microtomography, OSSEOINTEGRATION

Abstract

Previous studies have highlighted the need for post-treatment of implants due to surface aging. This study investigated the effect of vacuum plasma (VP) treatment on the osseointegration of sandblasted, large grit, acid-etched (SLA) implant surfaces. The hypothesis was that VP might enhance implant stability, measured by implant stability quotient (ISQ) and histological osseointegration through bone-to-implant contact (BIC) and bone area ratio (BA) in rabbit models. Eighteen implants were either untreated or treated with VP and installed into the femurs of six rabbits, which were sacrificed after four weeks. Histological analyses of BIC and BA, along with micro-CT analysis of bone volume and ISQ, were performed. The VP-treated group showed higher levels of BA, bone volume, and ISQ, but no statistically significant differences were observed between the control and experimental groups. Despite limitations, both groups achieved better osseointegration and regeneration, warranting further studies on plasma treatment effects over varying implantation periods. [ABSTRACT FROM AUTHOR]

Published

2024

40. Immediate Loading Full-Arch 3D-Printed Implant-Supported Fixed Rehabilitation: A Case Report with 24-Month Follow-Up.

Author

de Carvalho Formiga, Márcio, Fuller, Renato, Ardelean, Lavinia Cosmina, and Shibli, Jamil Awad

Subjects

DENTAL implants, THREE-dimensional printing, OSSEOINTEGRATION, PROSTHETICS, REHABILITATION

Abstract

Implant-supported immediate loading full-arch rehabilitation has been documented in the literature. More recently, computed surgical guides have frequently been used since they facilitate planning and performing surgical treatment without the need to raise a flap, thus reducing trauma and morbidity. This case report describes an immediate full-arch, fixed rehabilitation with full loading placed on four commercially available 3D-printed implants, with a 24-month follow-up. The implants were placed with the help of a digitally planned 3D-printed surgical guide. The provisional fixed prosthesis installed immediately was replaced after 3 months. At the time, the soft and hard tissue around the implants appeared stable, without signs of inflammation. The same situation was observed at the 24-month follow-up. Three-dimensional-printed implants seem to be a promising choice in this case. However, further clinical studies with longer follow-up periods are necessary to confirm their efficacy. [ABSTRACT FROM AUTHOR]

Published

2024

41. Evaluation of Bone Turnover around Short Finned Implants in Atrophic Posterior Maxilla: A Finite Element Study.

Author

Kondratiev, Andrii, Demenko, Vladislav, Linetskiy, Igor, Weisskircher, Hans-Werner, and Linetska, Larysa

Subjects

DENTAL implants, BIOMECHANICS, COMPUTER simulation, BONE resorption, OSSEOINTEGRATION, STRUCTURAL models, BONE density, COMPLICATIONS of prosthesis, PERIODONTAL disease, DENTURES, TITANIUM, COMPACT bone, ELASTICITY, FINITE element method, PHYSIOLOGIC strain, MAXILLA, CANCELLOUS bone, BONE remodeling, PROSTHESIS design & construction, PERIODONTITIS

Abstract

Background/Objectives: Dental implants have emerged as a modern solution for edentulous jaws, showing high success rates. However, the implant's success often hinges on the patient's bone quality and quantity, leading to higher failure rates in poor bone sites. To address this issue, short implants have become a viable alternative to traditional approaches like bone sinus lifting. Among these, Bicon® short implants with a plateau design are popular for their increased surface area, offering potential advantages over threaded implants. Despite their promise, the variability in patient-specific bone quality remains a critical factor influencing implant success and bone turnover regulated by bone strains. Excessive strains can lead to bone loss and implant failure according to Frost's "Mechanostat" theory. To better understand the implant biomechanical environment, numerical simulation (FEA) is invaluable for correlating implant and bone parameters with strain fields in adjacent bone. The goal was to establish key relationships between short implant geometry, bone quality and quantity, and strain levels in the adjacent bone of patient-dependent elasticity to mitigate the risk of implant failure by avoiding pathological strains. Methods: Nine Bicon Integra-CP™ implants were chosen. Using CT scans, three-dimensional models of the posterior maxilla were created in Solidworks 2022 software to represent the most challenging scenario with minimal available bone, and the implant models were positioned in the jaw with the implant apex supported by the sinus cortical bone. Outer dimensions of the maxilla segment models were determined based on a prior convergence test. Implants and abutments were considered as a single unit made of titanium alloy. The bone segments simulated types III/IV bone by different cancellous bone elasticities and by variable cortical bone elasticity moduli selected based on an experimental data range. Both implants and bone were treated as linearly elastic and isotropic materials. Boundary conditions were restraining the disto-mesial and cranial surfaces of the bone segments. The bone–implant assemblies were subjected to oblique loads, and the bone's first principal strain fields were analyzed. Maximum strain values were compared with the "minimum effective strain pathological" threshold of 3000 microstrain to assess the implant prognosis. Results: Physiological strains ranging from 490 to 3000 microstrain were observed in the crestal cortical bone, with no excessive strains detected at the implant neck area across different implant dimensions and cortical bone elasticity. In cancellous bone, maximum strains were observed at the first fin tip and were influenced by the implant diameter and length, as well as bone quality and cortical bone elasticity. In the spectrum of modeled bone elasticity and implant dimensions, increasing implant diameter from 4.5 to 6.0 mm resulted in a reduction in maximum strains by 34% to 52%, depending on bone type and cortical bone elasticity. Similarly, increasing implant length from 5.0 to 8.0 mm led to a reduction in maximum strains by 15% to 37%. Additionally, a two-fold reduction in cancellous bone elasticity modulus (type IV vs. III) corresponded to an increase in maximum strains by 16% to 59%. Also, maximum strains increased by 86% to 129% due to a decrease in patient-dependent cortical bone elasticity from the softest to the most rigid bone. Conclusions: The findings have practical implications for dental practitioners planning short finned implants in the posterior maxilla. In cases where the quality of cortical bone is uncertain and bone height is insufficient, wider 6.0 mm diameter implants should be preferred to mitigate the risk of pathological strains. Further investigations of cortical bone architecture and elasticity in the posterior maxilla are recommended to develop comprehensive clinical recommendations considering bone volume and quality limitations. Such research can potentially enable the placement of narrower implants in cases of insufficient bone. [ABSTRACT FROM AUTHOR]

Published

2024

42. A Real Time Delphi Study on the Challenges and Adverse Events to Percutaneous Osseointegrated Implant Integration and Long-Term Fixation in Limb Amputation.

Author

Ahmed, Kirstin and Ortiz-Catalan, Max

Subjects

AMPUTATION, ARTIFICIAL limbs, PROSTHETICS, CONSENSUS (Social sciences), RISK assessment, PATIENT selection, OSSEOINTEGRATION, FOCUS groups, DATA analysis, RESEARCH funding, PROSTHESIS-related infections, COMPLICATIONS of prosthesis, STATISTICAL sampling, KRUSKAL-Wallis Test, ARTIFICIAL implants, STATISTICS, ONE-way analysis of variance, ADVERSE health care events, DELPHI method, PHYSICIANS, HEALTH care teams, DISEASE risk factors

Abstract

Percutaneous Osseointegrated Implants (POI) affix artificial limbs to the body after amputation. Several adverse events challenge mainstream uptake of this technology. This study aims to achieve a consensus regarding "the challenges and adverse events to POI integration and long-term fixation in limb amputation". We sought a panel of clinical experts divided by profession into surgical, clinical, or clinical academic categories. We used a real time eDelphi method to develop consensus on both the challenges and adverse event items, enabling anonymity, iteration, controlled feedback, and statistical aggregation of group responses. The full panel agreed that the most impactful items are amongst 10 key challenges and eight adverse events. Panellists were in consensus regarding the five most impactful challenges, which were, in decreasing order: patient selection, absence of a multidisciplinary team, design of the implant, soft tissue stability and an experienced surgical team. Panellists considered the five most impactful adverse events, in decreasing order, to be the following: no biological fixation, deep infection, aseptic loosening, no mechanical fixation, and implant breakage. Consensus was obtained on implant breakage and deep infection items. The proportion of consensus from the whole panel across all items was in line with the literature, and we observed an improvement in consensus once the panel was stratified based on job, expertise and implant system. [ABSTRACT FROM AUTHOR]

Published

2024

43. Allograft Screws as Fixation of the Scarf Osteotomy.

Author

Döring, Kevin, Apprich, Sebastian, Hanna, Markus, Windhager, Reinhard, and Puchner, Stephan

Subjects

*BONE screws, *BONE remodeling, *COMPACT bone, *OSTEOTOMY, *OSSEOINTEGRATION, *HOMOGRAFTS

Abstract

Background: In comparison to titanium screws, novel cortical bone allograft screws may come with advantages in osseointegration and with avoidance of potential material removal surgery after scarf osteotomy. Methods: A scarf osteotomy with allograft bone screws as fixation was performed in 21 patients (30 feet). Clinical and radiological parameters were prospectively collected until one year after surgery. A retrospective control group, consisting of 75 patients (82 feet) after scarf osteotomy using headless compression screws, was used to compare clinical outcomes. Results: After fixation with allograft bone screws, the mean preoperative AOFAS score increased from 51.5 points preoperatively to 93.5 points one year after surgery. In radiological assessments, a continuous osseointegration with the remodeling of the bone screw was observed in all patients that finished follow-up. However, four metatarsal fractures occurred early postoperatively after fixation using allograft bone screws. There were only three material removal surgeries in patients treated with headless compression screws. Conclusions: Allograft bone screws display a safe fixation and are a biological alternative for scarf osteotomy. Enough distance between the screw and the proximal osteotomy should be ensured to avoid fractures. [ABSTRACT FROM AUTHOR]

Published

2024

44. Comparison In Vitro Study on the Interface between Skin and Bone Cell Cultures and Microporous Titanium Samples Manufactured with 3D Printing Technology Versus Sintered Samples.

Author

Shevtsov, Maxim, Pitkin, Emil, Combs, Stephanie E., Meulen, Greg Van Der, Preucil, Chris, and Pitkin, Mark

Subjects

*EXTRACELLULAR matrix, *OSTEOCALCIN, *THREE-dimensional printing, *POLYMERASE chain reaction, *OSTEOPONTIN, *CELL adhesion

Abstract

Percutaneous implants osseointegrated into the residuum of a person with limb amputation need to provide mechanical stability and protection against infections. Although significant progress has been made in the biointegration of percutaneous implants, the problem of forming a reliable natural barrier at the level of the surface of the implant and the skin and bone tissues remains unresolved. The use of a microporous implant structure incorporated into the Skin and Bone Integrated Pylon (SBIP) should address the issue by allowing soft and bone tissues to grow directly into the implant structure itself, which, in turn, should form a reliable barrier to infections and support strong osseointegration. To evaluate biological interactions between dermal fibroblasts and MC3T3-E1 osteoblasts in vitro, small titanium discs (with varying pore sizes and volume fractions to achieve deep porosity) were fabricated via 3D printing and sintering. The cell viability MTT assay demonstrated low cytotoxicity for cells co-cultured in the pores of the 3D-printed and sintered Ti samples during the 14-day follow-up period. A subsequent Quantitative Real-Time Polymerase Chain Reaction (RT-PCR) analysis of the relative gene expression of biomarkers that are associated with cell adhesion (α2, α5, αV, and β1 integrins) and extracellular matrix components (fibronectin, vitronectin, type I collagen) demonstrated that micropore sizes ranging from 200 to 500 µm of the 3D printed and sintered Ti discs were favorable for dermal fibroblast adhesion. For example, for representative 3D-printed Ti sample S6 at 72 h the values were 4.71 ± 0.08 (α2 integrin), 4.96 ± 0.08 (α5 integrin), 4.71 ± 0.08 (αV integrin), and 1.87 ± 0.12 (β1 integrin). In contrast, Ti discs with pore sizes ranging from 400 to 800 µm demonstrated the best results (in terms of marker expression related to osteogenic differentiation, including osteopontin, osteonectin, osteocalcin, TGF-β1, and SMAD4) for MC3T3-E1 cells. For example, for the representative 3D sample S4 on day 14, the marker levels were 11.19 ± 0.77 (osteopontin), 7.15 ± 0.29 (osteonectin), and 6.08 ± 0.12 (osteocalcin), while for sintered samples the levels of markers constituted 5.85 ± 0.4 (osteopontin), 4.45 ± 0.36 (osteonectin), and 4.46 ± 0.3 (osteocalcin). In conclusion, the data obtained show the high biointegrative properties of porous titanium structures, while the ability to implement several pore options in one structure using 3D printing makes it possible to create personalized implants for the best one-time integration with both skin and bone tissues. [ABSTRACT FROM AUTHOR]

Published

2024

45. Can Vitamin D Levels Influence Bone Metabolism and Osseointegration of Dental Implants? An Umbrella Review.

Author

Tallon, Eduardo, Macedo, José Paulo, Faria, Ana, Tallon, José Maria, Pinto, Marta, and Pereira, Jorge

Subjects

BONE metabolism, DENTAL implants, VITAMIN D deficiency, OSSEOINTEGRATION, COMPLICATIONS of prosthesis, CINAHL database, DESCRIPTIVE statistics, SYSTEMATIC reviews, MEDLINE, MEDICAL databases, ONLINE information services, CONFIDENCE intervals, VITAMIN D, BIOMARKERS, DIETARY supplements

Abstract

Introduction: Due to the large amount of scientific evidence on the subject and the limitations and incongruities in previous reviews, the primary aim of this umbrella review is to gather all the information regarding the importance of vitamin D levels in the osseointegration of dental implants. Methods: The literature search was performed in PubMed, Web of Science, CINAHL Plus, Cochrane Library, and Academic Search Complete throughout the search expression ["vitamin D" AND ("dental implant" OR "dental implants")]. Results: The initial search yielded 351 results, but at the end of the process, only five systematic reviews were selected. Conclusions: Vitamin D seems to have a positive effect on the osseointegration of dental implants and on the reduction of dental implant failures; however, it is recommended that future studies take into account the limitations mentioned in this study in order to increase the validity and quality of scientific evidence on the subject. [ABSTRACT FROM AUTHOR]

Published

2024

46. Nanotechnology and Its Application in Dentistry: A Systematic Review of Recent Advances and Innovations.

Author

Dipalma, Gianna, Inchingolo, Alessio Danilo, Guglielmo, Mariafrancesca, Morolla, Roberta, Palumbo, Irene, Riccaldo, Lilla, Mancini, Antonio, Palermo, Andrea, Malcangi, Giuseppina, Inchingolo, Angelo Michele, and Inchingolo, Francesco

Subjects

*OPERATIVE dentistry, *DENTAL materials, *DENTAL equipment, *DENTAL care, *OSSEOINTEGRATION

Abstract

Background: This study looks at the clinical applications of nanotechnology in dentistry, with an emphasis on implantology, preventive care, orthodontics, restorative dentistry, and endodontics. Methods: Following PRISMA criteria and registered in PROSPERO (ID: CRD 564245), a PubMed, Scopus, and Web of Science search was conducted for studies from January 2014 to April 2024. The criteria were English-language research on nanotechnology in dental coatings, with a focus on clinical trials and observational studies. The electronic database search yielded 8881 publications. Following the screening process, 17 records were selected for qualitative analysis. Results: Nanotechnology has revolutionized dentistry. In orthodontics, nanoparticles improve antibacterial characteristics, durability, and biocompatibility, lowering bacterial colonization and plaque. In preventative care, Casein Phosphopeptide-Amorphous Calcium Phosphate (CPP-ACP) combined with stannous fluoride (SnF2) and nano-sized sodium trimetaphosphate (TMPnano) substantially remineralizes enamel. Nanostructured surfaces in dental implants, particularly those containing calcium, improve osseointegration and stability. Nanoparticles in restorative dentistry improve composite and adhesive strength, aesthetics, and longevity. Conclusions: Nanotechnology improves dental materials and equipment, resulting in better treatment outcomes and increased patient comfort. Its integration provides more effective treatments, which improves dental care and patient outcomes. More research is needed to overcome present problems and expand nanotechnology's medicinal applications. [ABSTRACT FROM AUTHOR]

Published

2024

47. Influence of Trabecular Bone Presence on Osseodensification Instrumentation: An In Vivo Study in Sheep.

Author

Stauber, Zachary, Wu, Shangtao, Herbert, Justin E., Willers, Amanda, Bergamo, Edmara T. P., Nayak, Vasudev Vivekanand, Mirsky, Nicholas A., Castellano, Arthur, Jabori, Sinan K., Parra, Marcelo V., Bonfante, Estevam A., Witek, Lukasz, and Coelho, Paulo G.

Subjects

*BONE growth, *BONE remodeling, *LABORATORY animals, *OSTEOTOMY, *EXPERIMENTAL groups, *OSSEOINTEGRATION

Abstract

Osseodensification enhances the stability of endosteal implants. However, pre-clinical studies utilizing osseodensification instrumentation do not account for the limited presence of trabeculae seen clinically. This study aimed to evaluate the effect of osseodensification instrumentation on osteotomy healing in scenarios with and without the presence of trabecular bone. A ~10 cm incision was made over the hip of twelve sheep. Trabecular bone was surgically removed from twelve sites (one site/animal; negative control (Neg. Ctrl)) and left intact at twelve sites (one site/animal; experimental group (Exp.)). All osteotomies were created using the osseodensification drilling protocol. Each osteotomy received an endosteal implant and was evaluated after 3 or 12 weeks of healing (n = 6 animals/time). Histology revealed increased woven and lamellar bone surrounding the implants in the Exp. group relative to the Neg. Ctrl group. The Exp. group demonstrated the presence of bone fragments, which acted as nucleating sites, thereby enhancing the bone formation and remodeling processes. Bone-to-implant contact (%BIC) and bone area fractional occupancy (%BAFO) were significantly higher in the Exp. group relative to the Neg. Ctrl group both at 3 weeks (p = 0.009 and p = 0.043) and 12 weeks (p = 0.010 and p = 0.008). Osseodensification instrumentation in the presence of trabecular bone significantly improved osseointegration. However, no negative influences such as necrosis, inflammation, microfractures, or dehiscence were observed in the absence/limited presence of trabeculae. [ABSTRACT FROM AUTHOR]

Published

2024

48. The Biocompatibility and the Effect of Titanium and PEKK on the Osseointegration of Customized Facial Implants.

Author

Hong, Sung-Ok, Pyo, Ju-Yeon, On, Sung-Woon, Seo, Ja-Yeong, and Choi, Jin-Young

Subjects

*FACIAL bones, *MANDIBLE, *BONE growth, *CAD/CAM systems, *BONE regeneration, *PERIOSTEUM

Abstract

The purpose of this study was to investigate the optimization of computer-aided design/computer-aided manufacturing (CAD/CAM) patient-specific implants for mandibular facial bone defects and compare the biocompatibility and osseointegration of machined titanium (Ma), Sandblasted/Large-grit/Acid-etched (SLA) titanium, and polyetherketoneketone (PEKK) facial implants. We hypothesized that the facial implants made of SLA titanium had superior osseointegration when applied to the gonial angle defect and prevented the senile atrophy of the bone. Histologic findings of the soft-tissue reaction, hard-tissue reaction, and bone–implant contact (BIC (%) of 24 Ma, SLA, and PEKK facial implants at 8 and 12 weeks were investigated. There was no statistical difference in the soft tissue reaction. Bone was formed below the periosteum in all facial implants at 12 weeks and the BIC values were significantly different at both 8 and 12 weeks (p < 0.05). Ma, SLA, and PEKK facial implants are biocompatible with osseointegration properties. SLA can enhance osseointegration and provoke minimal soft tissue reactions, making them the most suitable choice. They provide an excellent environment for bone regeneration and, over the long term, may prevent atrophy caused by an aging mandible. The bone formation between the lateral surface of the facial implant and periosteum may assist in osseointegration and stabilization. [ABSTRACT FROM AUTHOR]

Published

2024

49. Zirconia Dental Implant Designs and Surface Modifications: A Narrative Review.

Author

Ciszyński, Michał, Chwaliszewski, Bartosz, Simka, Wojciech, Dominiak, Marzena, Gedrange, Tomasz, and Hadzik, Jakub

Subjects

*DENTAL implants, *SURFACE preparation, *OXIDE ceramics, *OSSEOINTEGRATION, *CERAMIC materials

Abstract

Titanium currently has a well-established position as the gold standard for manufacturing dental implants; however, it is not free of flaws. Mentions of possible soft-tissue discoloration, corrosion, and possible allergic reactions have led to the development of zirconia dental implants. Various techniques for the surface modification of titanium have been applied to increase titanium implants' ability to osseointegrate. Similarly, to achieve the best possible results, zirconia dental implants have also had their surface modified to promote proper healing and satisfactory long-term results. Despite zirconium oxide being a ceramic material, not simply a metal, there have been mentions of it being susceptible to corrosion too. In this article, we aim to review the literature available on zirconia implants, the available techniques for the surface modification of zirconia, and the effects of these techniques on zirconia's biological properties. Zirconia's biocompatibility and ability to osseointegrate appears unquestionably good. Despite some of its mechanical properties being, factually, inferior to those of titanium, the benefits seem to outweigh the drawbacks. Zirconia implants show very good success rates in clinical research. This is partially due to available methods of surface treatment, including nanotopography alterations, which allow for improved wettability, bone-to-implant contact, and osteointegration in general. [ABSTRACT FROM AUTHOR]

Published

2024

50. The Effect of Increasing Thread Depth on the Initial Stability of Dental Implants: An In Vitro Study.

Author

Cucinelli, Chiara, Pereira, Miguel Silva, Borges, Tiago, Figueiredo, Rui, and Leitão-Almeida, Bruno

Subjects

*RESONANCE frequency analysis, *DENTAL implants, *ARTIFICIAL bones, *OSSEOINTEGRATION, *STANDARD deviations

Abstract

Background: The long-term success of dental implants largely depends on achieving primary stability, previously described as crucial to obtaining osseointegration and immediate loading protocol requirements. Implant thread depths seem to be one of the key factors influencing primary stability, particularly in low-density bone. Insertion torque (IT) and resonance frequency analysis (RFA) are considered the most reliable tests to assess primary stability. The aim of this work was to evaluate how different thread depths of commercially available dental implants affect primary stability in low-density D3 bone. Materials and Methods: An in vitro study was carried out between February 2024 and March 2024. Twenty-four dental implants were divided into four groups (six implants each) according to their thread depths (Group A: 4 mm, Group B: 4.5 mm, Group C: 5 mm, Group D: 5.5 mm) and were inserted in D3-type artificial bone blocks. The main outcome variables were the IT and the Implant Stability Quotient (ISQ) measured in four different areas of the implant (buccal, lingual, mesial, and distal) with an Osstel® ISQ reader. Descriptive and inferential analyses of the data were performed, and the significance value was set at 5%. Results: A total of 24 implants were analyzed. The highest IT values were obtained in Group D, with a mean of 54.03 Ncm (standard deviation (SD) = 8.99), while the lowest measurements were observed in Group A (mean = 25.12; SD: 2.96 N.cm). The mean ISQ values were consistently higher in Group D for each analyzed area, with a mean of 70.13 N.cm (SD = 1.12). Conclusions: Taking into consideration the limitations of this in vitro study, greater thread depths seem to increase the primary stability of dental implants placed in soft bone. Furthermore, a positive correlation was observed between all IT and ISQ values, regardless of the thread depth. [ABSTRACT FROM AUTHOR]

Published

2024