Peri-Implant Marginal Bone Changes around Dental Implants with Platform-Switched and Platform-Matched Abutments: A Retrospective 5-Year Radiographic Evaluation.
Hsi-Kuei LinJerry Chin-Yi LinYu-Hwa PanEisner SalamancaYi-Ting ChangYung-Szu HsuYi-Fan WuChin-Kai LinOdontuya DorjWei-Jen ChangPublished in: Journal of personalized medicine (2022)
Preserving the marginal bone level (MBL) is essential for the long-term success of dental implant therapy, and bone remodeling around dental implants is considered to vary with time. Numerous studies comparing the platform-switching (PS) and platform-matching (PM) dental implants have indicated that PS dental implants showed a lesser reduction for the MBL, and the majority of them had a relatively short period. This study aimed to evaluate vertical and horizontal bone defects by using digital periapical radiographs to examine the changes in MBL around PM and PS dental implants over 5 years after functional loading. The vertical MBL (vMBL) was measured from the implant-abutment junction to the first bone-to-implant contact. The horizontal MBL (hMBL) was measured from the implant-abutment junction to the bone crest. All data were presented as means ± standard errors. Paired and independent t -tests with Welch's correction were used to analyze the data. A total of 61 dental implants in 38 patients after 5 years of functional loading were evaluated. Over time, PS dental implants were more likely to gain bone; by contrast, PM dental implants were more likely to lose bone during the observation time. Changes in vMBL for PS dental implants were significantly less than those for PM dental implants at 1-year ( p = 0.045), 3-year ( p = 0.021), and 5-year ( p = 0.010) loading. Likewise, changes in hMBL for PS dental implants were significantly smaller than in those for PM dental implants at 3-year ( p = 0.021) and 5-year ( p = 0.006) loading; however, the changes were minimal in both approaches. PS dental implants had a significant increment in the percentage of bone integration, whereas that for PM dental implants dropped over time, with no significance. In PS dental implants that occlude with natural teeth, vertical and horizontal bone gain was observed, and it was significant at 3 years ( p = 0.023). A significant horizontal bone gain was observed in the opposing natural teeth at 3-year ( p = 0.002) and 5-year loading ( p = 0.002). The PS concept appears to preserve more MBL around dental implants by stabilizing the vMBL and hMBL over a 5-year period. A minimal marginal bone change was detected in both concepts. The opposing natural teeth at PS dental implants showed a favorable effect on marginal bone tissues.
Keyphrases
- bone mineral density
- soft tissue
- bone loss
- bone regeneration
- air pollution
- particulate matter
- heavy metals
- postmenopausal women
- magnetic resonance imaging
- high throughput
- stem cells
- gene expression
- body composition
- magnetic resonance
- machine learning
- computed tomography
- ejection fraction
- water soluble
- risk assessment
- big data
- mesenchymal stem cells
- patient safety
- chronic kidney disease
- quality improvement