Publication:

Load-bearing capacity, internal accuracy and time-efficiency of heat-pressed, milled and 3D-printed lithium disilicate ultra-thin occlusal veneers

Date

Date

Date
2024
Journal Article
Published version
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Paqué, P. N., Gantner, C., Mätzener, K. J., Ozcan, M., & Ioannidis, A. (2024). Load-bearing capacity, internal accuracy and time-efficiency of heat-pressed, milled and 3D-printed lithium disilicate ultra-thin occlusal veneers. Dental Materials, 40(10), 1602–1610. https://doi.org/10.1016/j.dental.2024.07.017

Abstract

Abstract

Abstract

OBJECTIVES The primary aim of this in vitro study was to compare the load-bearing capacity of lithium disilicate occlusal veneers, fabricated via different manufacturing processes. Secondary objectives included assessing internal accuracy and production time-efficiency. METHODS Four fabrication methods for ultra-thin lithium disilicate occlusal veneers on extracted human molars with simulated erosive defects were compared (n = 20/group): CAM: milled lithium disilicate (IPS e.max CAD); HPR: heat-pressed lithium disilicate (IPS e.max Pr

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12 since deposited on 2025-02-11
7last week
Acq. date: 2025-11-13

Views

54 since deposited on 2025-02-11
53last week
Acq. date: 2025-11-13

Citations

4 in Web of Science Acq. date: 2025-07-30
4 in Scopus Acq. date: 2025-06-30

Additional indexing

Creators (Authors)

  • Paqué, Pune Nina
    affiliation.icon.alt
  • Gantner, Cindy
    affiliation.icon.alt
  • Mätzener, Kiren Jan
    affiliation.icon.alt
  • Ozcan, Mutlu  orcid-logo
    affiliation.icon.alt
  • Ioannidis, Alexis
    affiliation.icon.alt

Journal/Series Title

Journal/Series Title

Journal/Series Title
Dental Materials

Volume

Volume

Volume
40

Number

Number

Number
10

Page range/Item number

Page range/Item number

Page range/Item number
1602

Page end

Page end

Page end
1610

Item Type

Item Type

Item Type
Journal Article

In collections

Publications of Clinic of Reconstructive Dentistry
Publications of Clinic for Masticatory Disorders

Dewey Decimal Classifikation

Dewey Decimal Classifikation

Dewey Decimal Classifikation
610 Medicine & health

Language

Language

Language
English

Publication date

Publication date

Publication date
2024-10

Date available

Date available

Date available
2025-02-11

Publisher

Publisher

Publisher
Elsevier

ISSN or e-ISSN

ISSN or e-ISSN

ISSN or e-ISSN
0109-5641

OA Status

OA Status

OA Status
Hybrid

Free Access at

Free Access at

Free Access at
DOI

Publisher DOI

https://doi.org/10.1016/j.dental.2024.07.017

PubMed ID

PubMed ID

PubMed ID
39079765

Related item

Related item

Related item
Load-bearing capacity, internal accuracy and time-efficiency of heat-pressed, milled and 3D-printed lithium disilicate ultra-thin occlusal veneers

Metrics

Downloads

12 since deposited on 2025-02-11
7last week
Acq. date: 2025-11-13

Views

54 since deposited on 2025-02-11
53last week
Acq. date: 2025-11-13

Citations

4 in Web of Science Acq. date: 2025-07-30
4 in Scopus Acq. date: 2025-06-30

Citations

Citation copied

Paqué, P. N., Gantner, C., Mätzener, K. J., Ozcan, M., & Ioannidis, A. (2024). Load-bearing capacity, internal accuracy and time-efficiency of heat-pressed, milled and 3D-printed lithium disilicate ultra-thin occlusal veneers. Dental Materials, 40(10), 1602–1610. https://doi.org/10.1016/j.dental.2024.07.017

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Permanent URL

https://doi.org/10.5167/uzh-274629

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Files available to download:1
51_1_s2.0_S0109564124002070_main.pdfview fileDownload PDF|1Download5.46 MB
Content:Published Version
Language:eng
Licence:
CC BY 4.0
51_1_s2.0_S0109564124002070_main.pdfview fileDownload PDF|1Download5.46 MB
Content:Published Version
Language:eng
Licence:
CC BY 4.0

Files

Files

Files
Files available to download:1
51_1_s2.0_S0109564124002070_main.pdfview fileDownload PDF|1Download5.46 MB
Content:Published Version
Language:eng
Licence:
CC BY 4.0
51_1_s2.0_S0109564124002070_main.pdfview fileDownload PDF|1Download5.46 MB
Content:Published Version
Language:eng
Licence:
CC BY 4.0
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