Evaluating the Effects of Dynamic Navigation on the Accuracy and Outcomes of the Autogenous Bone Ring Technique for Vertical Ridge Augmentation: A Pilot Randomized Controlled Trial
ABSTRACT Objectives Autogenous bone ring technique (BRT) is a one‐stage vertical augmentation approach with simultaneous implant placement. The aim of this study was to compare the accuracy and efficacy of autogenous BRT assisted by dynamic navigation (DN) with freehand approach (FA) for vertical ri...
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| Published in | Clinical oral implants research Vol. 36; no. 5; pp. 650 - 661 |
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| Main Authors | , , , , , |
| Format | Journal Article |
| Language | English |
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01.05.2025
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| ISSN | 0905-7161 1600-0501 1600-0501 |
| DOI | 10.1111/clr.14412 |
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| Abstract | ABSTRACT
Objectives
Autogenous bone ring technique (BRT) is a one‐stage vertical augmentation approach with simultaneous implant placement. The aim of this study was to compare the accuracy and efficacy of autogenous BRT assisted by dynamic navigation (DN) with freehand approach (FA) for vertical ridge augmentation.
Materials and Methods
Twenty‐four patients eligible for autogenous BRT were randomly assigned to DN or FA groups. Digital preoperative design was conducted for both groups. BRT surgeries were executed with or without the aid of DN in the two groups. Accuracy outcomes evaluated angular and linear deviations at the bone ring in the donor site (BR‐D), recipient site (BR‐R), and implant entry/apex between planned and actual positions revealed by cone‐beam computed tomography. Vertical augmentation‐related outcomes, surgical complications, and patient‐reported outcomes were assessed over 6 months.
Results
Twenty‐four patients underwent surgery while one was lost to follow‐up. The DN group showed significantly lower mean (SD) BR‐R angular (3.58 [2.07] vs. 8.77 [4.20]°) and entry deviation (1.43 [0.51] vs. 2.01 [0.70] mm). For BR‐D, the DN group had significantly lower angular (4.80 [2.62] vs. 12.97 [6.26]°), entry (1.45 [0.96] vs. 3.52 [1.54] mm), and apex deviation (1.28 [0.64] vs. 3.50 [1.47] mm) compared to the FA group. Implant angular deviation (3.74 [2.14] vs. 9.17 [4.39]°) and apex deviation (1.75 [0.44] vs. 2.35 [0.82] mm) was significantly lower in the DN group. In the FA group, one patient exhibited temporary lower lip hypoesthesia. No significant differences were observed in vertical bone gain, resorption, or patient‐reported outcomes.
Conclusions
Compared to FA, DN may improve the accuracy of autogenous BRT procedures for vertical ridge augmentation while minimizing invasiveness.
Trail Registration
This study was registered at the Chinese Clinical Trial Registry (https://www.chictr.org.cn; Registration No. ChiCTR2200065585; registration date: 2022/11/09). |
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| AbstractList | Autogenous bone ring technique (BRT) is a one-stage vertical augmentation approach with simultaneous implant placement. The aim of this study was to compare the accuracy and efficacy of autogenous BRT assisted by dynamic navigation (DN) with freehand approach (FA) for vertical ridge augmentation.
Twenty-four patients eligible for autogenous BRT were randomly assigned to DN or FA groups. Digital preoperative design was conducted for both groups. BRT surgeries were executed with or without the aid of DN in the two groups. Accuracy outcomes evaluated angular and linear deviations at the bone ring in the donor site (BR-D), recipient site (BR-R), and implant entry/apex between planned and actual positions revealed by cone-beam computed tomography. Vertical augmentation-related outcomes, surgical complications, and patient-reported outcomes were assessed over 6 months.
Twenty-four patients underwent surgery while one was lost to follow-up. The DN group showed significantly lower mean (SD) BR-R angular (3.58 [2.07] vs. 8.77 [4.20]°) and entry deviation (1.43 [0.51] vs. 2.01 [0.70] mm). For BR-D, the DN group had significantly lower angular (4.80 [2.62] vs. 12.97 [6.26]°), entry (1.45 [0.96] vs. 3.52 [1.54] mm), and apex deviation (1.28 [0.64] vs. 3.50 [1.47] mm) compared to the FA group. Implant angular deviation (3.74 [2.14] vs. 9.17 [4.39]°) and apex deviation (1.75 [0.44] vs. 2.35 [0.82] mm) was significantly lower in the DN group. In the FA group, one patient exhibited temporary lower lip hypoesthesia. No significant differences were observed in vertical bone gain, resorption, or patient-reported outcomes.
Compared to FA, DN may improve the accuracy of autogenous BRT procedures for vertical ridge augmentation while minimizing invasiveness.
This study was registered at the Chinese Clinical Trial Registry (https://www.chictr.org.cn; Registration No. ChiCTR2200065585; registration date: 2022/11/09). Objectives Autogenous bone ring technique (BRT) is a one‐stage vertical augmentation approach with simultaneous implant placement. The aim of this study was to compare the accuracy and efficacy of autogenous BRT assisted by dynamic navigation (DN) with freehand approach (FA) for vertical ridge augmentation. Materials and Methods Twenty‐four patients eligible for autogenous BRT were randomly assigned to DN or FA groups. Digital preoperative design was conducted for both groups. BRT surgeries were executed with or without the aid of DN in the two groups. Accuracy outcomes evaluated angular and linear deviations at the bone ring in the donor site (BR‐D), recipient site (BR‐R), and implant entry/apex between planned and actual positions revealed by cone‐beam computed tomography. Vertical augmentation‐related outcomes, surgical complications, and patient‐reported outcomes were assessed over 6 months. Results Twenty‐four patients underwent surgery while one was lost to follow‐up. The DN group showed significantly lower mean (SD) BR‐R angular (3.58 [2.07] vs. 8.77 [4.20]°) and entry deviation (1.43 [0.51] vs. 2.01 [0.70] mm). For BR‐D, the DN group had significantly lower angular (4.80 [2.62] vs. 12.97 [6.26]°), entry (1.45 [0.96] vs. 3.52 [1.54] mm), and apex deviation (1.28 [0.64] vs. 3.50 [1.47] mm) compared to the FA group. Implant angular deviation (3.74 [2.14] vs. 9.17 [4.39]°) and apex deviation (1.75 [0.44] vs. 2.35 [0.82] mm) was significantly lower in the DN group. In the FA group, one patient exhibited temporary lower lip hypoesthesia. No significant differences were observed in vertical bone gain, resorption, or patient‐reported outcomes. Conclusions Compared to FA, DN may improve the accuracy of autogenous BRT procedures for vertical ridge augmentation while minimizing invasiveness. Trail Registration This study was registered at the Chinese Clinical Trial Registry (https://www.chictr.org.cn; Registration No. ChiCTR2200065585; registration date: 2022/11/09). Autogenous bone ring technique (BRT) is a one-stage vertical augmentation approach with simultaneous implant placement. The aim of this study was to compare the accuracy and efficacy of autogenous BRT assisted by dynamic navigation (DN) with freehand approach (FA) for vertical ridge augmentation.OBJECTIVESAutogenous bone ring technique (BRT) is a one-stage vertical augmentation approach with simultaneous implant placement. The aim of this study was to compare the accuracy and efficacy of autogenous BRT assisted by dynamic navigation (DN) with freehand approach (FA) for vertical ridge augmentation.Twenty-four patients eligible for autogenous BRT were randomly assigned to DN or FA groups. Digital preoperative design was conducted for both groups. BRT surgeries were executed with or without the aid of DN in the two groups. Accuracy outcomes evaluated angular and linear deviations at the bone ring in the donor site (BR-D), recipient site (BR-R), and implant entry/apex between planned and actual positions revealed by cone-beam computed tomography. Vertical augmentation-related outcomes, surgical complications, and patient-reported outcomes were assessed over 6 months.MATERIALS AND METHODSTwenty-four patients eligible for autogenous BRT were randomly assigned to DN or FA groups. Digital preoperative design was conducted for both groups. BRT surgeries were executed with or without the aid of DN in the two groups. Accuracy outcomes evaluated angular and linear deviations at the bone ring in the donor site (BR-D), recipient site (BR-R), and implant entry/apex between planned and actual positions revealed by cone-beam computed tomography. Vertical augmentation-related outcomes, surgical complications, and patient-reported outcomes were assessed over 6 months.Twenty-four patients underwent surgery while one was lost to follow-up. The DN group showed significantly lower mean (SD) BR-R angular (3.58 [2.07] vs. 8.77 [4.20]°) and entry deviation (1.43 [0.51] vs. 2.01 [0.70] mm). For BR-D, the DN group had significantly lower angular (4.80 [2.62] vs. 12.97 [6.26]°), entry (1.45 [0.96] vs. 3.52 [1.54] mm), and apex deviation (1.28 [0.64] vs. 3.50 [1.47] mm) compared to the FA group. Implant angular deviation (3.74 [2.14] vs. 9.17 [4.39]°) and apex deviation (1.75 [0.44] vs. 2.35 [0.82] mm) was significantly lower in the DN group. In the FA group, one patient exhibited temporary lower lip hypoesthesia. No significant differences were observed in vertical bone gain, resorption, or patient-reported outcomes.RESULTSTwenty-four patients underwent surgery while one was lost to follow-up. The DN group showed significantly lower mean (SD) BR-R angular (3.58 [2.07] vs. 8.77 [4.20]°) and entry deviation (1.43 [0.51] vs. 2.01 [0.70] mm). For BR-D, the DN group had significantly lower angular (4.80 [2.62] vs. 12.97 [6.26]°), entry (1.45 [0.96] vs. 3.52 [1.54] mm), and apex deviation (1.28 [0.64] vs. 3.50 [1.47] mm) compared to the FA group. Implant angular deviation (3.74 [2.14] vs. 9.17 [4.39]°) and apex deviation (1.75 [0.44] vs. 2.35 [0.82] mm) was significantly lower in the DN group. In the FA group, one patient exhibited temporary lower lip hypoesthesia. No significant differences were observed in vertical bone gain, resorption, or patient-reported outcomes.Compared to FA, DN may improve the accuracy of autogenous BRT procedures for vertical ridge augmentation while minimizing invasiveness.CONCLUSIONSCompared to FA, DN may improve the accuracy of autogenous BRT procedures for vertical ridge augmentation while minimizing invasiveness.This study was registered at the Chinese Clinical Trial Registry (https://www.chictr.org.cn; Registration No. ChiCTR2200065585; registration date: 2022/11/09).TRAIL REGISTRATIONThis study was registered at the Chinese Clinical Trial Registry (https://www.chictr.org.cn; Registration No. ChiCTR2200065585; registration date: 2022/11/09). ABSTRACT Objectives Autogenous bone ring technique (BRT) is a one‐stage vertical augmentation approach with simultaneous implant placement. The aim of this study was to compare the accuracy and efficacy of autogenous BRT assisted by dynamic navigation (DN) with freehand approach (FA) for vertical ridge augmentation. Materials and Methods Twenty‐four patients eligible for autogenous BRT were randomly assigned to DN or FA groups. Digital preoperative design was conducted for both groups. BRT surgeries were executed with or without the aid of DN in the two groups. Accuracy outcomes evaluated angular and linear deviations at the bone ring in the donor site (BR‐D), recipient site (BR‐R), and implant entry/apex between planned and actual positions revealed by cone‐beam computed tomography. Vertical augmentation‐related outcomes, surgical complications, and patient‐reported outcomes were assessed over 6 months. Results Twenty‐four patients underwent surgery while one was lost to follow‐up. The DN group showed significantly lower mean (SD) BR‐R angular (3.58 [2.07] vs. 8.77 [4.20]°) and entry deviation (1.43 [0.51] vs. 2.01 [0.70] mm). For BR‐D, the DN group had significantly lower angular (4.80 [2.62] vs. 12.97 [6.26]°), entry (1.45 [0.96] vs. 3.52 [1.54] mm), and apex deviation (1.28 [0.64] vs. 3.50 [1.47] mm) compared to the FA group. Implant angular deviation (3.74 [2.14] vs. 9.17 [4.39]°) and apex deviation (1.75 [0.44] vs. 2.35 [0.82] mm) was significantly lower in the DN group. In the FA group, one patient exhibited temporary lower lip hypoesthesia. No significant differences were observed in vertical bone gain, resorption, or patient‐reported outcomes. Conclusions Compared to FA, DN may improve the accuracy of autogenous BRT procedures for vertical ridge augmentation while minimizing invasiveness. Trail Registration This study was registered at the Chinese Clinical Trial Registry (https://www.chictr.org.cn; Registration No. ChiCTR2200065585; registration date: 2022/11/09). |
| Author | Zhu, Ning Chang, Yu‐chen Liu, Jiayu Gao, Xianming Chen, Gang Zhang, Yu |
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| BackLink | https://www.ncbi.nlm.nih.gov/pubmed/39912295$$D View this record in MEDLINE/PubMed |
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| Keywords | alveolar ridge augmentation dental implants bone ring technique bone transplantation surgical navigation systems |
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| Notes | Yu‐chen Chang and Ning Zhu contributed equally as the first authors. Funding This study was supported by the Program for New Clinical Techniques and Therapies of Peking University School and Hospital of Stomatology (PKUSSNCT‐22A01), and Beijing Natural Science Foundation (L232113). ObjectType-Article-1 SourceType-Scholarly Journals-1 ObjectType-Feature-2 content type line 14 content type line 23 |
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Autogenous bone ring technique (BRT) is a one‐stage vertical augmentation approach with simultaneous implant placement. The aim of this... Autogenous bone ring technique (BRT) is a one-stage vertical augmentation approach with simultaneous implant placement. The aim of this study was to compare... Objectives Autogenous bone ring technique (BRT) is a one‐stage vertical augmentation approach with simultaneous implant placement. The aim of this study was to... |
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| SubjectTerms | Accuracy Adult alveolar ridge augmentation Alveolar Ridge Augmentation - methods Bone resorption bone ring technique bone transplantation Bone Transplantation - methods Computed tomography Cone-Beam Computed Tomography Dental Implantation, Endosseous - methods dental implants Deviation Female Humans Invasiveness Male Middle Aged Navigation Patients Pilot Projects Registration Surgery Surgery, Computer-Assisted - methods surgical navigation systems Treatment Outcome |
| Title | Evaluating the Effects of Dynamic Navigation on the Accuracy and Outcomes of the Autogenous Bone Ring Technique for Vertical Ridge Augmentation: A Pilot Randomized Controlled Trial |
| URI | https://onlinelibrary.wiley.com/doi/abs/10.1111%2Fclr.14412 https://www.ncbi.nlm.nih.gov/pubmed/39912295 https://www.proquest.com/docview/3228943668 https://www.proquest.com/docview/3163868440 |
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