Effects of buccal bi‐cortical anchorages on primary stability of dental implants: a numerical approach of natural frequency analysis

Wang, K.; Li, D. H.; Guo, Jiusi; Liu, B. L.; Shi, Shanshan

doi:10.1111/j.1365-2842.2009.01936.x

Cited by 11 publications

(10 citation statements)

References 24 publications

(30 reference statements)

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“…Irrespective of the vertical or horizontal load, the comprehensive relative displacement of the implants gradually increased along with the reduction in bone density (D2 > D3 > D4). This finding is in agreement with earlier work [43]. …”

Section: Discussionsupporting

confidence: 95%

Influence of Thread Pitch, Helix Angle, and Compactness on Micromotion of Immediately Loaded Implants in Three Types of Bone Quality: A Three-Dimensional Finite Element Analysis

Packham

Xiong

Tan

et al. 2014

BioMed Research International

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This study investigated the influence of thread pitch, helix angle, and compactness on micromotion in immediately loaded implants in bone of varying density (D2, D3, and D4). Five models of the three-dimensional finite element (0.8 mm pitch, 1.6 mm pitch, 2.4 mm pitch, double-threaded, and triple-threaded implants) in three types of bone were created using Pro/E, Hypermesh, and ABAQUS software. The study had three groups: Group 1, different pitches (Pitch Group); Group 2, same compactness but different helix angles (Angle Group); and Group 3, same helix angle but different compactness (Compact Group). Implant micromotion was assessed as the comprehensive relative displacement. We found that vertical relative displacement was affected by thread pitch, helix angle, and compactness. Under vertical loading, displacement was positively correlated with thread pitch and helix angle but negatively with compactness. Under horizontal loading in D2, the influence of pitch, helix angle, and compactness on implant stability was limited; however, in D3 and D4, the influence of pitch, helix angle, and compactness on implant stability is increased. The additional evidence was provided that trabecular bone density has less effect on implant micromotion than cortical bone thickness. Bone type amplifies the influence of thread pattern on displacement.

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Section: Discussionsupporting

confidence: 95%

Influence of Thread Pitch, Helix Angle, and Compactness on Micromotion of Immediately Loaded Implants in Three Types of Bone Quality: A Three-Dimensional Finite Element Analysis

Packham

Xiong

Tan

et al. 2014

BioMed Research International

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“…) and for additional cortical anchorage at the buccal or lingual aspect with a desired engagement of the cortical layer of 0.5–1 mm (Wang et al. ). Regarding our results, the reported higher primary implant stability in the anterior mandible (Mesa et al.…”

Section: Discussionmentioning

confidence: 99%

Morphometric characteristics of cortical and trabecular bone in atrophic edentulous mandibles

Bertl

Subotic

Heimel

et al. 2014

Clinical Oral Implants Res

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“…Wang et al investigated the influence of the buccal (lingual) type of bi-cortical anchorage on the primary implant stability using 3D FE models, and further clarified the relationship between the primary stability and various bi-cortical engagements. They assumed a frictional contact to simulate the initial conditions of the implant-bone interface after implantation [21]. Thus, the in vitro model can be regarded as the immediate implantation situation, and the implant-bone interface is a non-integrated (not bonded) surface.…”

Section: Rf Differences Between Measurements and Numerical Simulationsmentioning

confidence: 99%

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Zhuang

Pan

et al. 2013

J. Med. Biol. Eng.

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This study develops a non-contact vibro-acoustic detection technique for measuring the defect quantity and determining the imperfection orientation surrounding a bone-implant interface. Acoustic excitation through a miniature loud speaker and vibration response measurement using a capacity-type displacement sensor are applied to accomplish this task to prevent the mass loading effect on the structure to be examined. The proposed non-contact excitationresponse measurements are verified using a series of designated in vitro defect models, and the measured resonance frequencies (RFs) are used to discriminate interfacial structure variations. A finite element modal analysis is conducted to validate the measured RFs. Additionally, a prototype device is developed and applied to assess the osseointegration between dental implants and tibia in an in vivo animal model. A comparison of in vitro experimental results with numerical simulations shows that the RFs in the defective orientation are significantly smaller than those in the complete direction (p < 0.05), and that the values decrease with increasing defect quantity (p < 0.05). Moreover, the defect depth affects RF variation. In the in vivo experiments, the RF levels in the lateral direction of the tibia are much higher than those in the axial direction (p < 0.05) of the tibia. The RF values in the axial direction for two implants have no significant difference (p = 0.552), but the RFs in the lateral direction for implant 2 are higher than those for implant 1 (p < 0.05). The RF changes can be compared to assess osseointegration development. The proposed technique is promising for assisting dentists in the assessment of implant stability after surgery.

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Effects of buccal bi‐cortical anchorages on primary stability of dental implants: a numerical approach of natural frequency analysis

Cited by 11 publications

References 24 publications

Influence of Thread Pitch, Helix Angle, and Compactness on Micromotion of Immediately Loaded Implants in Three Types of Bone Quality: A Three-Dimensional Finite Element Analysis

Influence of Thread Pitch, Helix Angle, and Compactness on Micromotion of Immediately Loaded Implants in Three Types of Bone Quality: A Three-Dimensional Finite Element Analysis

Morphometric characteristics of cortical and trabecular bone in atrophic edentulous mandibles

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