AI Article Synopsis
- - The study aimed to evaluate how different surface treatments (machined surface, laser-treated, and laser with hydroxyapatite) affect bone tissue behavior using a biomimetic approach on rabbit tibiae.
- - Methods included implantation of 30 implants in 20 rabbits, where various analyses like SEM, biomechanical tests, and histometric measurements were utilized to assess bone formation around the implants.
- - Results indicated that laser-treated implants, especially those with hydroxyapatite, showed significantly better bonding and integration with bone tissue compared to machined surfaces, demonstrating that these treatments enhance bone deposition on implants.
Article Abstract
(1) Objective: The aim of this study was to assess the biological behavior of bone tissue on a machined surface (MS) and modifications made by a laser beam (LS) and by a laser beam incorporated with hydroxyapatite (HA) using a biomimetic method without thermic treatment (LHS). (2) Methods: Scanning electron microscopy coupled with energy-dispersive X-ray spectrometry (SEM/EDX) was performed before and after installation in the rabbit tibiae. A total of 20 Albinus rabbits randomly received 30 implants of 3.75 × 10 mm in the right and left tibias, with two implants on each surface in each tibia. In the animals belonging to the 4-week euthanasia period group, intramuscular application of the fluorochromes calcein and alizarin was performed. In implants placed mesially in the tibiofemoral joint, biomechanical analysis was performed by means of a removal torque (N/cm). The tibias with the implants located distally to the joint were submitted for analysis by confocal laser microscopy (mineral apposition rate) and for histometric analysis by bone contact implant (%BIC) and newly formed bone area (%NBA). (3) Results: The SEM showed differences between the surfaces. The biomechanical analysis revealed significant differences in removal torque values between the MSs and LHSs over a 2-week period. Over a 4-week period, both the LSs and LHSs demonstrated removal torque values statistically higher than the MSs. BIC of the LHS implants were statistically superior to MS at the 2-week period and LHS and LS surfaces were statistically superior to MS at the 4-week period. Statistical analysis of the NBA of the implants showed difference between the LHS and MS in the period of 2 weeks. (4) Conclusions: The modifications of the LSs and LHSs provided important physicochemical modifications that favored the deposition of bone tissue on the surface of the implants.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC11274123 | PMC |
| http://dx.doi.org/10.3390/biology13070533 | DOI Listing |
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