Effect of repair and thermal cycling on the flexural strength of denture base materials fabricated from different methods

Faik Tuğut; Tuğçe Koyu

doi:10.7126/cumudj.1285020

Araştırma Makalesi

Yıl 2023, Cilt: 26 Sayı: 2, 157 - 163, 23.06.2023

Faik Tuğut Tuğçe Koyu

https://doi.org/10.7126/cumudj.1285020

Öz

Kaynakça

1. AlQahtani M, Haralur SB. Influence of Different Repair Acrylic Resin and Thermocycling on the Flexural Strength of Denture Base Resin. Medicina 2020; 56:50.
2. Prpić V, Schauperl Z, Ćatić A, Dulčić N, Čimić S. Comparison of Mechanical Properties of 3D-Printed, CAD/CAM, and Conventional Denture Base Materials. J Prosthodont. 2020; 29: 524-528.
3. Fouda SM, Gad MM, Ellakany P, A Al Ghamdi M, Khan SQ, Akhtar S, Ali MS, Al-Harbi FA. Flexural Properties, Impact Strength, and Hardness of Nanodiamond-Modified PMMA Denture Base Resin. Int J Biomater. 2022 Jul 9;2022:6583084.
4. Khot Kalyani Jalindar, Basavaraj S. Salagundi, Rupesh P.L, Mallikarjuna D.M, Unni Pympallil and Pallavi N.T. Comparıson and evaluatıon of flexural strength of heat polymerızed acrylıc resın after repaır wıth zırconıa oxıde and alumınıum oxıde reınforced autopolymerızıng acrylıc resın wıth two dıfferent repaır desıgns and wıth and wıthout surface treatment - an ınvıtro study. Int J Adv Res 2020; 8: 973-987.
5. Arioli Filho JN, Butignon LE, Pereira Rde P, Lucas MG, Mollo Fde A Jr. Flexural strength of acrylic resin repairs processed by different methods: water bath, microwave energy, and chemical polymerization. J Appl Oral Sci 2011;19: 249-53.
6. Gad MMA, Abualsaud R, Al-Thobity AM, Almaskin DF, AlZaher ZA, Abushowmi TH, Qaw MS, Akhtar S, Al-Harbi FA. Effect of SiO2 Nanoparticles Addition on the Flexural Strength of Repaired Acrylic Denture Base. Eur J Dent 2020; 14:19-23.
7. Mahajan H, Chandu GS, Mishra SK. An in vitro study of the effect of the design of repair surface on the transverse strength of repaired acrylic resin using auto polymerizing resin. Niger J Clin Pract 2014;17: 38-42.
8. Abualsaud R, Gad MM. Flexural Strength of CAD/CAM Denture Base Materials: Systematic Review and Meta-analysis of In-vitro Studies. J Int Soc Prev Community Dent 2022 8; 12: 160-170.
9. Zeidan AAE, Sherif AF, Baraka Y, Abualsaud R, Abdelrahim RA, Gad MM, Helal MA. Evaluation of the Effect of Different Construction Techniques of CAD-CAM Milled, 3D-Printed, and Polyamide Denture Base Resins on Flexural Strength: An In Vitro Comparative Study. J Prosthodont 2023; 32:77-82.
10. Helal MA, Fadl-Alah A, Baraka YM, Gad MM, Emam AM. In-vitro Comparative Evaluation for the Surface Properties and Impact Strength of CAD/CAM Milled, 3D Printed, and Polyamide Denture Base Resins. J Int Soc Prev Community Dent 2022; 12: 126-131.
11. Mugri MH, Jain S, Sayed ME, Halawi AHA, Hamzi SAI, Aljohani RAS, Madkhali ZMA, Khalid A, Jokhadar HF, Almarzouki M, Alhumaidan GA, Alshahrani AA, Alqahtani SM, Alqahtani NM, Lunkad H. Effects of Smokeless Tobacco on Color Stability and Surface Roughness of 3D-Printed, CAD/CAM-Milled, and Conventional Denture Base Materials: An In Vitro Study. Biomedicines 2023; 11:491.
12. Alzaid M, AlToraibily F, Al-Qarni FD, Al-Thobity AM, Akhtar S, Ali S, Al-Harbi FA, Gad MM. The Effect of Salivary pH on the Flexural Strength and Surface Properties of CAD/CAM Denture Base Materials. Eur J Dent 2023;17: 234-241.
13. Gad MM, Albazroun Z, Aldajani F, Elakel AM, El Zayat M, Akhtar S, Khan SQ, Ali S, Rahoma AM. Repair Bond Strength of Conventionally and Digitally Fabricated Denture Base Resins to Auto-Polymerized Acrylic Resin: Surface Treatment Effects In Vitro. Materials (Basel) 2022; 15: 9062.
14. Çakmak G, Donmez MB, Akay C, Abou-Ayash S, Schimmel M, Yilmaz B. Effect of Thermal Cycling on the Flexural Strength and Hardness of New-Generation Denture Base Materials. J Prosthodont 2023; 32: 81-86.
15. Deb S, Muniswamy L, Thota G, Thota L, Swarnakar A, Deepak PV, Badiyani BK, Kumar A. Impact of Surface Treatment with Different Repair Acrylic Resin on the Flexural Strength of Denture Base Resin: An in Vitro Study. J Contemp Dent Pract 2020; 21:1137-1140.
16. Ateş, S. M., Çağlar, İ., Korkmaz, F. M. , Süleyman, F. & Yeşil Duymuş, Z. Farklı mekanik yüzey işlemleri ile tamir edilen akrilik kaide rezininin transvers dayanımı. Acta Odontologica Turcica 2018; 35: 49-55.
17. Freitas RFCP, Duarte S, Feitosa S, Dutra V, Lin WS, Panariello BHD, Carreiro ADFP. Physical, Mechanical, and Anti-Biofilm Formation Properties of CAD-CAM Milled or 3D Printed Denture Base Resins: In Vitro Analysis. J Prosthodont 2023; 32: 38-44.
18. Ayman AD: The residual monomer content and mechanical properties of CAD/CAM resins used in the fabrication of complete dentures as compared to heat-cured resins. Electron Physician 2017; 9:4766-4772.
19. Pacquet W, Benoit A, Hatege-Kimana C, et al: Mechanical properties of CAD/CAM denture base resins. Int J Prosthodont 2019; 32: 104-106.
20. Steinmassl O, Offermanns V, Stock W, et al: In vitro analysis of the fracture resistance of CAD/CAM denture base resins. Materials (Basel) 2018; 11: 401.
21. Aguirre BC, Chen JH, Kontogiorgos ED, Murchison DF, Nagy WW. Flexural strength of denture base acrylic resins processed by conventional and CAD-CAM methods. J Prosthet Dent 2020;123: 641-646.

Effect of repair and thermal cycling on the flexural strength of denture base materials fabricated from different methods

Yıl 2023, Cilt: 26 Sayı: 2, 157 - 163, 23.06.2023

Faik Tuğut Tuğçe Koyu

https://doi.org/10.7126/cumudj.1285020

Öz

Objective: The aim of this study was to evaluate the flexural strength of the denture base materials produced by different methods after repair and was to evaluate effect of thermal aging.
Materials and Methods: A total of 120 specimens were fabricated by conventional, CAD/CAM milled, and 3D-printed denture base materials for this in vitro study. Specimens were divided into four groups; non-repaired groups (N), repaired groups (R), non-repaired-aged groups (N-aged), and repaired-aged (R-aged) groups. In N groups, specimens were stored in the water bath for 24 h before the flexural strength test. In N-aged groups, samples were subjected to thermal aging for 5000 cycles, then tested. For repaired R groups, samples were repaired with auto-polymerized acrylic resin and storage in the water bath for 24 h then tested. For the R-aged groups, samples were repaired with auto-polymerized acrylic resin, aged for 5000 cycles, then tested. Specimens were performed a three-point loading test using a universal testing machine. Data were analyzed using Wilcoxon and Kruskal-Wallis tests.
Results: When the groups were compared with each other, the difference between all groups was found to be statistically significant (p<0,05). Regardless of the thermal cycling process, in N groups, the highest flexural strength was recorded in N-CAD group (92,53±6,52 MPa), the lowest flexural strength was recorded in N-3D group (33,72±2,74 MPa). Regardless of the thermal cycling process, in R groups, the highest flexural strength was recorded in R-C groups (31,80±5,86 MPa) and the lowest flexural strength was recorded in R-3D groups (8,37±1,20 MPa). Thermal cycling and repair process showed a decreasing effect on flexural strength in all groups.
Conclusions: The ideal flexural strength among denture base materials was found in CAD/CAM milled denture base materials.

Anahtar Kelimeler

denture base resin, CAD/CAM, 3D-Printed, Repair

Kaynakça

1. AlQahtani M, Haralur SB. Influence of Different Repair Acrylic Resin and Thermocycling on the Flexural Strength of Denture Base Resin. Medicina 2020; 56:50.
2. Prpić V, Schauperl Z, Ćatić A, Dulčić N, Čimić S. Comparison of Mechanical Properties of 3D-Printed, CAD/CAM, and Conventional Denture Base Materials. J Prosthodont. 2020; 29: 524-528.
3. Fouda SM, Gad MM, Ellakany P, A Al Ghamdi M, Khan SQ, Akhtar S, Ali MS, Al-Harbi FA. Flexural Properties, Impact Strength, and Hardness of Nanodiamond-Modified PMMA Denture Base Resin. Int J Biomater. 2022 Jul 9;2022:6583084.
4. Khot Kalyani Jalindar, Basavaraj S. Salagundi, Rupesh P.L, Mallikarjuna D.M, Unni Pympallil and Pallavi N.T. Comparıson and evaluatıon of flexural strength of heat polymerızed acrylıc resın after repaır wıth zırconıa oxıde and alumınıum oxıde reınforced autopolymerızıng acrylıc resın wıth two dıfferent repaır desıgns and wıth and wıthout surface treatment - an ınvıtro study. Int J Adv Res 2020; 8: 973-987.
5. Arioli Filho JN, Butignon LE, Pereira Rde P, Lucas MG, Mollo Fde A Jr. Flexural strength of acrylic resin repairs processed by different methods: water bath, microwave energy, and chemical polymerization. J Appl Oral Sci 2011;19: 249-53.
6. Gad MMA, Abualsaud R, Al-Thobity AM, Almaskin DF, AlZaher ZA, Abushowmi TH, Qaw MS, Akhtar S, Al-Harbi FA. Effect of SiO2 Nanoparticles Addition on the Flexural Strength of Repaired Acrylic Denture Base. Eur J Dent 2020; 14:19-23.
7. Mahajan H, Chandu GS, Mishra SK. An in vitro study of the effect of the design of repair surface on the transverse strength of repaired acrylic resin using auto polymerizing resin. Niger J Clin Pract 2014;17: 38-42.
8. Abualsaud R, Gad MM. Flexural Strength of CAD/CAM Denture Base Materials: Systematic Review and Meta-analysis of In-vitro Studies. J Int Soc Prev Community Dent 2022 8; 12: 160-170.
9. Zeidan AAE, Sherif AF, Baraka Y, Abualsaud R, Abdelrahim RA, Gad MM, Helal MA. Evaluation of the Effect of Different Construction Techniques of CAD-CAM Milled, 3D-Printed, and Polyamide Denture Base Resins on Flexural Strength: An In Vitro Comparative Study. J Prosthodont 2023; 32:77-82.
10. Helal MA, Fadl-Alah A, Baraka YM, Gad MM, Emam AM. In-vitro Comparative Evaluation for the Surface Properties and Impact Strength of CAD/CAM Milled, 3D Printed, and Polyamide Denture Base Resins. J Int Soc Prev Community Dent 2022; 12: 126-131.
11. Mugri MH, Jain S, Sayed ME, Halawi AHA, Hamzi SAI, Aljohani RAS, Madkhali ZMA, Khalid A, Jokhadar HF, Almarzouki M, Alhumaidan GA, Alshahrani AA, Alqahtani SM, Alqahtani NM, Lunkad H. Effects of Smokeless Tobacco on Color Stability and Surface Roughness of 3D-Printed, CAD/CAM-Milled, and Conventional Denture Base Materials: An In Vitro Study. Biomedicines 2023; 11:491.
12. Alzaid M, AlToraibily F, Al-Qarni FD, Al-Thobity AM, Akhtar S, Ali S, Al-Harbi FA, Gad MM. The Effect of Salivary pH on the Flexural Strength and Surface Properties of CAD/CAM Denture Base Materials. Eur J Dent 2023;17: 234-241.
13. Gad MM, Albazroun Z, Aldajani F, Elakel AM, El Zayat M, Akhtar S, Khan SQ, Ali S, Rahoma AM. Repair Bond Strength of Conventionally and Digitally Fabricated Denture Base Resins to Auto-Polymerized Acrylic Resin: Surface Treatment Effects In Vitro. Materials (Basel) 2022; 15: 9062.
14. Çakmak G, Donmez MB, Akay C, Abou-Ayash S, Schimmel M, Yilmaz B. Effect of Thermal Cycling on the Flexural Strength and Hardness of New-Generation Denture Base Materials. J Prosthodont 2023; 32: 81-86.
15. Deb S, Muniswamy L, Thota G, Thota L, Swarnakar A, Deepak PV, Badiyani BK, Kumar A. Impact of Surface Treatment with Different Repair Acrylic Resin on the Flexural Strength of Denture Base Resin: An in Vitro Study. J Contemp Dent Pract 2020; 21:1137-1140.
16. Ateş, S. M., Çağlar, İ., Korkmaz, F. M. , Süleyman, F. & Yeşil Duymuş, Z. Farklı mekanik yüzey işlemleri ile tamir edilen akrilik kaide rezininin transvers dayanımı. Acta Odontologica Turcica 2018; 35: 49-55.
17. Freitas RFCP, Duarte S, Feitosa S, Dutra V, Lin WS, Panariello BHD, Carreiro ADFP. Physical, Mechanical, and Anti-Biofilm Formation Properties of CAD-CAM Milled or 3D Printed Denture Base Resins: In Vitro Analysis. J Prosthodont 2023; 32: 38-44.
18. Ayman AD: The residual monomer content and mechanical properties of CAD/CAM resins used in the fabrication of complete dentures as compared to heat-cured resins. Electron Physician 2017; 9:4766-4772.
19. Pacquet W, Benoit A, Hatege-Kimana C, et al: Mechanical properties of CAD/CAM denture base resins. Int J Prosthodont 2019; 32: 104-106.
20. Steinmassl O, Offermanns V, Stock W, et al: In vitro analysis of the fracture resistance of CAD/CAM denture base resins. Materials (Basel) 2018; 11: 401.
21. Aguirre BC, Chen JH, Kontogiorgos ED, Murchison DF, Nagy WW. Flexural strength of denture base acrylic resins processed by conventional and CAD-CAM methods. J Prosthet Dent 2020;123: 641-646.

Toplam 21 adet kaynakça vardır.

Ayrıntılar

Birincil Dil	İngilizce
Konular	Sağlık Kurumları Yönetimi
Bölüm	Original Research Articles
Yazarlar	Faik Tuğut 0000-0002-6323-407X Tuğçe Koyu 0000-0002-2235-7540
Yayımlanma Tarihi	23 Haziran 2023
Gönderilme Tarihi	18 Nisan 2023
Yayımlandığı Sayı	Yıl 2023Cilt: 26 Sayı: 2

Kaynak Göster

EndNote	Tuğut F, Koyu T (01 Haziran 2023) Effect of repair and thermal cycling on the flexural strength of denture base materials fabricated from different methods. Cumhuriyet Dental Journal 26 2 157–163.

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Cumhuriyet Dental Journal (Cumhuriyet Dent J, CDJ) is the official publication of Cumhuriyet University Faculty of Dentistry. CDJ is an international journal dedicated to the latest advancement of dentistry. The aim of this journal is to provide a platform for scientists and academicians all over the world to promote, share, and discuss various new issues and developments in different areas of dentistry. First issue of the Journal of Cumhuriyet University Faculty of Dentistry was published in 1998. In 2010, journal's name was changed as Cumhuriyet Dental Journal. Journal’s publication language is English.

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