10 research outputs found
Double acid etching treatment of dental implants for enhanced biological properties
Background: The topographical features on the surface of dental implants have been considered as a critical
parameter for enhancing the osseointegration of implants. In this work, we proposed a surface obtained by a
combination of shot blasting and double acid etching. The double acid etching was hypothesized to increase the
submicron topography and hence further stimulate the biological properties of the titanium implant.
Methods: The topographical features (surface roughness and real surface area), wettability and surface chemical
composition were analyzed.
Results: The results showed that the proposed method produced a dual roughness, mainly composed of randomly
distributed peaks and valleys with a superimposed nanoroughness, and hence with an increased specific
surface area. Despite the fact that the proposed method does not introduce significant chemical changes, this
treatment combination slightly increased the amount of titanium available on the surface, reducing potential
surface contaminants. Furthermore, the surface showed increased contact angle values demonstrating an enhanced
hydrophobicity on the surface. The biological behavior of the implants was then assessed by culturing
osteoblast-like cells on the surface, showing enhanced osteoblast adhesion, proliferation and differentiation on
the novel surface.
Conclusions: Based on these results, the described surface with dual roughness obtained by double acid etching
may be a novel route to obtain key features on the surface to enhance the osseointegration of the implant. Our
approach is a simple method to obtain a dual roughness that mimics the bone structure modified by osteoclasts
and increases surface area, which enhances osseointegration of dental implants.Peer ReviewedPostprint (author's final draft
Oral health-related quality of life changes after placement of immediately loaded single implants in healed alveolar ridges or extraction sockets : a 5-year prospective follow-up study
Objectives: The impact of single implants on oral health-related quality of life (OHRQoL) is scarcely investigated, especially when combined with immediate placement and loading in extraction sockets. The aim was to describe prospectively the changes of OHRQoL with single implants placed in the esthetic zone in healed ridges or in extraction sockets after 5 years.
Material and Methods: Ninety-six patients, enrolled at three clinical centers, received 102 single implants placed in a healed ridge (n = 54 implants/50 patients) or in extraction sockets (n = 48 implants/46 patients). Implants were immediately provisionalized, and permanent crowns were cemented after 12 weeks. Oral health impact profile questionnaires (OHIP-14) were completed before surgery, after 1 (provisional crown), 6 (permanent crown), 12 and 60 months, respectively. The overall OHIP-14 score pertains to seven domains with two items each and was assessed on a Likert scale of 0–4 (0 = never and 4 = very often). The evolution of the total OHIP-14 score and changes within all OHIP domains over time and between groups were assessed with a linear mixed-effect model analysis.
Results: After 5 years, overall implant survival was 98%. The total OHIP-14 score for both groups combined decreased from 0.50 at baseline to 0.17 at 6 months (P < 0.001), indicative of improvement. For both groups, this remained stable up to 5 years (P = 0.41). However, after 5 years, the total OHIP-14 score revealed a statistically significantly higher improvement in the healed group compared with the extraction group (P = 0.027).
Conclusion: Missing a single tooth in the maxillary esthetic zone leads to limited OHRQoL problems as reflected by a low overall OHIP score. However, OHRQoL improves less in the extraction group, reflecting that replacing a missing tooth is perceived as more beneficial than replacing a present tooth
In vitro comparative study between adhesion forces obtained on zirconia ceramic micromechanically treated with femtosecond laser (1027Â nm), carbon dioxide laser (10,600Â nm), and aluminum-oxide particles
8 pags., 2 figs., 6 tabs.Conventional surface roughening treatments used for silica-based ceramics in order to improve subsequent adhesion become unreliable for zirconia ceramics. Laser conditioning can be a good alternative. The purpose of this in vitro study was to compare conventional (macro) shear bond strength (SBS) values obtained between resin composite and zirconium oxide ceramic samples grouped according to different micromechanical treatments received, and examine differences in surface roughness. One-hundred and fifty disks of sintered zirconia were randomly divided into 5 groups and roughened as follows: (1) Group NOT, no surface treatment; (2) Group APA, abraded with 50-μm aluminum-oxide (Al2O3) particles; (3) Group TBS, abraded with 30-μm aluminum-oxide particles covered with silica; (4) Group CO2, irradiated with a CO2 laser which emitted in continuous wave mode at 3 W of power; and (5) Group FEM, irradiated with a pulsed femtosecond laser, with an incident energy of 10 μJ, a frequency of 1000 Hz, and a fluence of 1.3 kJ/cm2. All surfaces were treated with a MDP-containing adhesive/silane coupling agent mixture upon which were prepared and light polymerized composite resin cylinders. Shear bond strength was measured and samples were observed by scanning electron microscopy (SEM). Statistically significant differences (p < 0.05) were found among all groups, except between CO2 and FEM, which showed the highest adhesion values (15.12 ± 2.35 MPa and 16.03 ± 2.73 MPa). SEM revealed differences in surface patterns. CO2 laser irradiation can be an alternative to sandblasting, although it could also weaken the ceramic. Suitable surface patterns on zirconia ceramics can be obtained with ultrashort pulsed radiation emitted by a pulsed femtosecond laser.Peer reviewe
State of the Art of Different Zirconia Materials and Their Indications According to Evidence-Based Clinical Performance: A Narrative Review
The aim of this study was to perform a narrative review to identify the modifications applied to the chemical structure of third- and fourth-generation zirconia ceramics and to determine the influence of these changes on the mechanical and optical properties. A bibliographical search using relevant keywords was conducted in the PubMed® and EBSCO databases. The abstracts and full texts of the resulting articles were reviewed for final inclusion. Fifty-four articles were included in this review. The analyzed topics were: (1) the composition of first- and second-generation zirconia materials (Y-TZP), (2) the behavior of the studied generations in relation to mechanical and optical properties, and (3) the modifications that were carried out on third-generation (5Y-TZP) and fourth-generation (4Y-TZP) zirconia materials. However, studies focusing on these specific characteristics in third- and fourth-generation zirconia materials are scarce. The review shows that there is a lack of sufficient knowledge about the chemical modifications of zirconia in the new generations
Ion Release from Dental Implants, Prosthetic Abutments and Crowns under Physiological and Acidic Conditions
Ion release from dental implants and prosthetic restoration can affect osteointegration and implant viability over a long period of time. Therefore, the aim of this study was to study the ion release from implants and crowns, with and without intermediate anodized abutments, in two different media, simulating clinical conditions. The implants, intermediate prosthetic abutments and Cr–Co crowns were divided into two groups depending on the media: Hanks’ solution and 1% lactic acid, simulating body fluids and microbiologically conditioned fluids, respectively. The study followed the ISO 10271:2011 and 10993-15:2000 standards modified to simulate the replacement of fluids in the oral environment. The ions’ release was measured by inductively coupled plasma mass spectroscopy (ICP-EOS), and only aluminum, chromium, cobalt, titanium and vanadium were identified. Ion concentration was higher in lactic acid than in Hanks’ solution at all time points (p < 0.05). Only vanadium showed a very low ion release in lactic acid, with no statistically significant differences from the ion release in Hanks’ solution (p = 0.524). Both anodized abutments and the immersion medium influenced the release of ions and affected the corrosion of these structures. The presence of an intermediate anodized abutment also affected ion release, as the level of ions was lower in groups with this component
Oral health-related quality of life changes after placement of immediately loaded single implants in healed alveolar ridges or extraction sockets : a 5-year prospective follow-up study
OBJECTIVES: The impact of single implants on oral health-related quality of life (OHRQoL) is scarcely investigated, especially when combined with immediate placement and loading in extraction sockets. The aim was to describe prospectively the changes of OHRQoL with single implants placed in the esthetic zone in healed ridges or in extraction sockets after 5 years. MATERIAL AND METHODS: Ninety-six patients, enrolled at three clinical centers, received 102 single implants placed in a healed ridge (n = 54 implants/50 patients) or in extraction sockets (n = 48 implants/46 patients). Implants were immediately provisionalized, and permanent crowns were cemented after 12 weeks. Oral health impact profile questionnaires (OHIP-14) were completed before surgery, after 1 (provisional crown), 6 (permanent crown), 12 and 60 months, respectively. The overall OHIP-14 score pertains to seven domains with two items each and was assessed on a Likert scale of 0-4 (0 = never and 4 = very often). The evolution of the total OHIP-14 score and changes within all OHIP domains over time and between groups were assessed with a linear mixed-effect model analysis. RESULTS: After 5 years, overall implant survival was 98%. The total OHIP-14 score for both groups combined decreased from 0.50 at baseline to 0.17 at 6 months (P < 0.001), indicative of improvement. For both groups, this remained stable up to 5 years (P = 0.41). However, after 5 years, the total OHIP-14 score revealed a statistically significantly higher improvement in the healed group compared with the extraction group (P = 0.027). CONCLUSION: Missing a single tooth in the maxillary esthetic zone leads to limited OHRQoL problems as reflected by a low overall OHIP score. However, OHRQoL improves less in the extraction group, reflecting that replacing a missing tooth is perceived as more beneficial than replacing a present tooth
Comparison of radiographic and clinical outcomes following immediate provisionalization of single-tooth dental implants placed in healed alveolar ridges and extraction sockets
Purpose The primary goal of this study was to compare implant survival 12 months after immediate loading of single implants placed in healed ridges versus extraction sockets Secondary outcomes were to compare marginal bone adaptation and soft tissue changes over time Materials and Methods A prospective multicenter clinical investigation was initiated to assess clinical performance of immediately loaded implants in the maxilla Implant survival was ascertained at the time of impression making (8 to 10 weeks) and after 1 year by clinical stability Radiographic marginal bone levels, soft tissue levels, and plaque and bleeding scores were compared with baseline values (implant placement and provisionalization) Results One hundred thirty nine patients received 157 implants in the maxilla Single implants with provisional crowns were placed in extraction sockets of 55 patients (58 implants) and in healed ridges of 60 patients (65 implants) In addition, 19 patients (23 implants) required bone grafting prior to implant placement, and 11 implants in 10 patients among all groups were not immediately loaded because of insufficient initial stability after surgery Three implants (5 2%) failed in extraction sites and one implant (1 5%) failed in a healed ridge The mean change in marginal bone level 1 year after implant placement was 1 30 mm (SD 2 52) (gain) in extraction sockets and -0 40 mm (SD 1 43) (loss) in healed ridges The mucosal zenith was stable or moved incisally following definitive crown placement in 83 7% of immediate implants and 87 0% of implants placed in healed ridges Plaque and inflammation scores were low and did not differ between groups Conclusions The responses of local bone and soft tissues at immediately loaded implants placed in extraction sockets or healed ridges were similar Furthermore, these 1 year results suggest that clinical management of esthetically critical soft tissue may be predictably achieved in both indications INT J ORAL MAXILLOFAC IMPLANTS 2010,25 1222-123
Immediate Provisionalization of Dental Implants Placed in Healed Alveolar Ridges and Extraction Sockets : A 5-year Prospective Evaluation
Purpose: This 5-year prospective multicenter study compared implant survival and success, peri-implant health and soft tissue responses, crestal bone level stability, and complication rates following immediate loading of single OsseoSpeed implants placed in anterior maxillary healed ridges or extraction sockets. Materials and Methods: Individuals requiring anterior tooth replacement with single implants were treated and immediately provisionalized. Definitive all-ceramic crowns were placed at 12 weeks. Implant survival, bone levels, soft tissue levels, and peri-implant health were monitored for 5 years. Results: One hundred thirteen patients received implants in fresh sockets (55) and healed ridges (58). After 5 years, 45 and 49 patients remained for evaluation, respectively. During the first year, three implants failed in the extraction socket group (94.6% survival) and one implant failed in the healed ridge group (98.3% survival); this difference was not significant. No further implant failures were recorded. After 5 years, the interproximal crestal bone levels were located a mean of 0.43 +/- 0.63 mm and 0.38 +/- 0.62 mm from the reference points of implants in sockets and healed ridges (not a significant difference). In both groups, papillae increased over time and peri-implant mucosal zenith positions were stable from the time of definitive crown placement in sockets and healed ridges. Compared to flap surgery for implants in healed ridges, flapless surgery resulted in increased peri-implant mucosal tissue dimension (average, 0.78 +/- 1.34 mm vs 0.19 +/- 0.79 mm). Conclusion: After 5 years, the bone and soft tissue parameters that characterize implant success and contribute to dental implant esthetics were similar following the immediate provisionalization of implants in sockets and healed ridges. The overall tissue responses and reported implant survival support the immediate provisionalization of dental implants in situations involving healed ridges and, under ideal circumstances, extraction sockets
Double acid etching treatment of dental implants for enhanced biological properties
Background: The topographical features on the surface of dental implants have been considered as a critical
parameter for enhancing the osseointegration of implants. In this work, we proposed a surface obtained by a
combination of shot blasting and double acid etching. The double acid etching was hypothesized to increase the
submicron topography and hence further stimulate the biological properties of the titanium implant.
Methods: The topographical features (surface roughness and real surface area), wettability and surface chemical
composition were analyzed.
Results: The results showed that the proposed method produced a dual roughness, mainly composed of randomly
distributed peaks and valleys with a superimposed nanoroughness, and hence with an increased specific
surface area. Despite the fact that the proposed method does not introduce significant chemical changes, this
treatment combination slightly increased the amount of titanium available on the surface, reducing potential
surface contaminants. Furthermore, the surface showed increased contact angle values demonstrating an enhanced
hydrophobicity on the surface. The biological behavior of the implants was then assessed by culturing
osteoblast-like cells on the surface, showing enhanced osteoblast adhesion, proliferation and differentiation on
the novel surface.
Conclusions: Based on these results, the described surface with dual roughness obtained by double acid etching
may be a novel route to obtain key features on the surface to enhance the osseointegration of the implant. Our
approach is a simple method to obtain a dual roughness that mimics the bone structure modified by osteoclasts
and increases surface area, which enhances osseointegration of dental implants.Peer Reviewe