Osseodensification Drilling vs. Standard Protocol of Implant Site Preparation: An In Vitro Study on Polyurethane Foam Sheets

Comuzzi, Luca; Tumedei, Margherita; Piattelli, Adriano; Iezzi, Giovanna

doi:10.3390/prosthesis2020008

Cited by 6 publications

(8 citation statements)

References 42 publications

(63 reference statements)

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“…The results of the present study showed that improved implant performance was found in higher polyurethane densities, as already reported in the literature, where a direct relationship between PS and bone density was found [4,7,11,[28][29][30][31]. Moreover, the polyurethane solid rigid blocks are able to avoid the local and anatomical variability of the native bone tissues, with no mechanical alteration connected with the environmental condition, and produce a standardized model for dental implant testing [20,23,26]. On the contrary, a limitation of the polyurethane substrates is that this material does not permit a validated evaluation of other parameters, such as the drilling temperature, or histological findings, and does not provide a consistent translational comparison of the implant interface with a human bone.…”

Section: Discussionsupporting

confidence: 81%

“…The polyurethane solid rigid block has been proposed as an artificial substitute to simulate in vitro the mechanical behaviour of the bone tissue for dental implant positioning [18][19][20][21][22][23]. This material has the advantage of a homogeneous structure, and an additional dense layer can be added to simulate the cortical component of the native jawbone anatomy in the posterior maxilla [24][25][26]. The symmetrical linear chains of polyurethane monomers, provided by hexa-methylene sequences, results in an increased level of ordered and very strong superstructures, associated with the high magnitude of crystallinity of the polyurethane phase, and a large self-assembling process of linear hard components [27].…”

Section: Introductionmentioning

confidence: 99%

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An In Vitro Analysis on Polyurethane Foam Blocks of the Insertion Torque (IT) Values, Removal Torque Values (RTVs), and Resonance Frequency Analysis (RFA) Values in Tapered and Cylindrical Implants

Comuzzi¹,

Tumedei

D’Arcangelo

et al. 2021

IJERPH

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Background: Several different dental implant microgeometries have been investigated in the literature for use in low-density bone sites. The polyurethane solid rigid blocks represent an optimal in vitro study model for dental implants, because their composition is characterized by symmetrical linear chains of monomers of hexa-methylene sequences producing a self-polymerization process. The aim of the present investigation was to evaluate the primary stability of cylindrical and tapered implants positioned into low-density polyurethane solid rigid blocks. Materials and Methods: Two different macrogeometries, cylindrical (4 mm diameter and 10 mm length) and tapered dental implants (4.20 mm diameter and 10 mm length), were investigated in the present study. The implants were inserted into 10 PCF and 20 PCF polyurethane blocks, with and without an additional cortical layer. The insertion torque (IT) values, the removal torque values (RTVs), and the resonance frequency analysis (RFA) values were measured and recorded. Results: A total of 80 sites were tested, and a significant increased primary stability (PS) was detected in favour of tapered dental implants when compared to cylindrical implants in all experimental conditions (p < 0.05). Higher IT, RT, and RFA values were measured in tapered implants in 10 and 20 PCF polyurethane blocks, both with and without the additional cortical layer. Conclusions: Both implants showed sufficient primary stability in poor density substrates, while, on the other hand, the tapered microgeometry showed characteristics that could also lead to clinical application in low-density posterior maxillary sites, even with a drastically decreased bone cortical component.

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Section: Discussionsupporting

confidence: 81%

Section: Introductionmentioning

confidence: 99%

An In Vitro Analysis on Polyurethane Foam Blocks of the Insertion Torque (IT) Values, Removal Torque Values (RTVs), and Resonance Frequency Analysis (RFA) Values in Tapered and Cylindrical Implants

Comuzzi¹,

Tumedei

D’Arcangelo

et al. 2021

IJERPH

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“…12 –15 Comuzzi et al reported that, in standardized condition on low-density polyurethane study, the macro-geometry induced the main effect on the primary stability, while the osseodensification drilling procedure produced the more visible effect on stability in presence of a residual cortical bone. 16 Moreover, Gehrke et al reported the key role of the implant macro-geometry on a sheep study, while the self-tapping and round apex macro-geometry is able to influence significantly the percentage of new bone formation and the deposition of highly vascularized osteogenic matrix within the marrow spaces, 17 where the number and thickness of bone trabeculae increase with the loading of the dental implants. 18 In vivo, no radiographical and hystological evidence in crestal bone resorption were present were evident between the osseodensification procedure, 19 –21 the drilling technique 22 and ultrasonic device approach.…”

Section: Introductionmentioning

confidence: 99%

An in vitro evaluation on polyurethane foam sheets of the insertion torque, removal torque values, and resonance frequency analysis (RFA) of a self-tapping threads and round apex implant

et al. 2020

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The dental implant primary stability and micromovement absence represent critical factor for dental implant osseointegration. The aim of the present in vitro investigation was to simulate the bone response on different polyurethane densities the effect of self-tapping threads and round apex implant geometry. A total of 40 implants were positioned in D1, D2, D3 and D4 polyurethane block densities following a calibrated drilling protocol. The Insertion, removal Torque and resonance frequency analysis (RFA) means were calculated. All experimental conditions showed insertion torque values >30 Ncm. A significant higher insertion torque, removal and RFA was present in D1 polyurethane. Similar evidences were evidenced for D3 and D4. The effectiveness of the present study suggested a valuable clinical advantage for self-tapping threads and round apex implant using, such as in case of reduced bone density in the posterior maxilla

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“…The sample size measurement was oriented in accordance with the mean and standard deviation of a previous study, [28] while the alpha error was set at 0.05 with an effect size of 0.34, and the power (1-beta) was 0.95. The minimum number was 39 sites for each drilling protocol, with a total of 156 sites.…”

Section: Discussionmentioning

confidence: 99%

Comparative In Vitro Evaluation of the Primary Stability in D3 Synthetic Bone of Two Different Shapes and Pitches of the Implant Threads

et al. 2021

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Background: Implant primary stability can be affected by several factors related to implant macrogeometry, local anatomy, and surgical techniques. The aim of this research was to study primary stability on polyurethane foam sheets of wide-threaded implant design compared to narrow-threaded implants. Materials and methods: Two different implant designs were positioned on D3 density polyurethane blocks in a standardized environment: the wide-threaded implant and the narrow-threaded implant, for a total of 160 specimens. Moreover, for each group, two different sizes were considered: 3.8mm × 12mm and 4.8mm × 12 mm. The insertion torque (IT) values, the removal strength (RT), and the Periotest analyses were evaluated. Results: A significantly higher IT and RT was reported for wide-threaded implants and two-stage implants (p < 0.01), compared to the narrow-threaded implants. The diameters seemed to provide a significant effect on the primary stability for both implants’ geometry (p < 0.01). A higher mean of the one-stage implant was evident in the Periotest measurements (p < 0.01). Conclusions: Both of the implants showed sufficient stability in polyurethane artificial simulation, while the wide-threaded implant design showed a higher primary stability on alveolar cancellous synthetic bone in vitro. Additionally, the prosthetic joint connection seemed to have a determinant effect on Periotest analysis, and the one-stage implants seemed to provide a high stability of the fixture when positioned in the osteotomy, which could be important for the immediate loading protocol.

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Osseodensification Drilling vs. Standard Protocol of Implant Site Preparation: An In Vitro Study on Polyurethane Foam Sheets

Cited by 6 publications

References 42 publications

An In Vitro Analysis on Polyurethane Foam Blocks of the Insertion Torque (IT) Values, Removal Torque Values (RTVs), and Resonance Frequency Analysis (RFA) Values in Tapered and Cylindrical Implants

An In Vitro Analysis on Polyurethane Foam Blocks of the Insertion Torque (IT) Values, Removal Torque Values (RTVs), and Resonance Frequency Analysis (RFA) Values in Tapered and Cylindrical Implants

An in vitro evaluation on polyurethane foam sheets of the insertion torque, removal torque values, and resonance frequency analysis (RFA) of a self-tapping threads and round apex implant

Comparative In Vitro Evaluation of the Primary Stability in D3 Synthetic Bone of Two Different Shapes and Pitches of the Implant Threads

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