2024 / 04

Next Paper
DOI: 10.24075/brsmu.2024.037

OPINION

Prospects for the use of long-living printed temporary orthopedic structures

Proskokova SV, Enikeev AM, Pirogov AE, Kuliev RM
About authors

Pirogov Russian National Research Medical University, Moscow, Russia

Correspondence should be addressed: Amir M. Enikeev
Ostrovityanova, 1, str. 9, Moscow, 117997, Russia; moc.liamg@tra.tamots.rima

About paper

Author contribution: Proskokova SV — project management, manuscript editing; Enikeev AM — literature search and analysis, manuscript writing; Pirogov AE, Kuliev RM — manuscript editing.

Received: 2024-07-16 Accepted: 2024-08-03 Published online: 2024-08-30
|
  1. Apresyan SV. Optimizaciya vremennyh zubnyh protezov iz poliuretana [dissertaciya]. M., 2012. Russian.
  2. Babunashvili GB. Kliniko-laboratornoe obosnovanie primenenie materiala «Akrodent» dlya vremennyh zubnyh protezov [dissertaciya]. M., 2007. Russian.
  3. Luckaya IK, Novak NV, Ershov-Pavlov P E. Primenenie vremennyh koronok na etape protezirovaniya zubov keramicheskimi konstrukciyami. Sovremennaya stomatologiya. 2017; 4 (69): 51–54. Russian.
  4. YUmashev AV, Mihajlova MV, Kuderova IG, Kristal EA. Varianty ispol'zovaniya 3D skanirovaniya v ortopedicheskoj stomatologii. Vestnik novyh medicinskih tekhnologij. Elektronnoe izdanie. 2015; 1: 2–6. Russian.
  5. Evsevev EN. Obzor tekhnologij 3D-pechati. Science Time. 2017; 10 (46): 11–15. Russian.
  6. ZHulev EN. Sravnitel'naya ocenka razmernoj tochnosti iskusstvennyh koronok, izgotovlennyh s pomoshch'yu CAD/CAM sistemy i 3d PRINTERA po tekhnologii. Vestnik novyh medicinskih tekhnologij. Elektronnoe izdanie. 2020; 3: 40–45. Russian.
  7. Shnajder SD, Nurieva NS, YUrasov AD. Issledovaniya prochnosti i uprugosti na trekhtochechnyj izgib materialov vremennyh konstrukcij pryamym sposobom i koronok metodom 3d-pechati. Stomatologicheskaya vesna v Belgorode — 2022: Sbornik trudov Mezhdunarodnoj nauchno-prakticheskoj konferencii v ramkah mezhdunarodnogo stomatologicheskogo festivalya «Ploshchadka bezopasnosti stomatologicheskogo pacienta», posvyashchennogo 100-letiyu Moskovskogo gosudarstvennogo mediko-stomatologicheskogo universiteta im. A. I. Evdokimova, Belgorod, 09 iyunya 2022 goda. Belgorod: Belgorodskij gosudarstvennyj nacional'nyj issledovatel'skij universitet, 2022; s. 260–262. Russian.
  8. Tasın S, Ismatullaev A. Comparative evaluation of the effect of thermocycling on the mechanical properties of conventionally polymerized, CAD-CAM milled, and 3D-printed interim materials. J Prosthet Dent. 2022; 127: 173.e1–173.e8. PubMed PMID: 34756771.
  9. Mayer J, Stawarczyk B, Vogt K, Hickel R, Edelhoff D, Reymus M. Influence of cleaning methods after 3D printing on two-body wear and fracture load of resin-based temporary crown and bridge material. Clin Oral Investig. 2021; 25 (10): 5987–96. PubMed PMID: 33811531.
  10. Albahri R, Yoon HI, Lee JD, Yoon S, Lee SJ. Shear bond strength of provisional repair materials bonded to 3D printed resin. J Dent Sci. 2021; 16 (1): 261–7. PubMed PMID: 33384807.
  11. Alzahrani SJ, Hajjaj MS, Azhari AA, Ahmed WM, Yeslam HE, Carvalho RM. Mechanical properties of three-dimensional printed provisional resin materials for crown and fixed dental prosthesis: a systematic review. Bioengineering. 2023; 10 (6): 663. PubMed PMID: 37370594.
  12. Manjunath KS, Sridhar K, Gopinath V, Sankar K, Sundaram A, Gupta N, et al. Facile manufacturing of fused-deposition modeled composite scaffolds for tissue engineering-an embedding model with plasticity for incorporation of additives. Biomed Mater. 2020; 16 (1): 015028. PubMed PMID: 33331292.
  13. Myagmar G, Lee JH, Ahn JS, Yeo IL, Yoon HI, Han JS. Wear of 3D printed and CAD/CAM milled interim resin materials after chewing simulation. J Adv Prosthodont. 2021; 13 (3): 144–51. PMID: 34234924.
  14. Tahayeri A, Morgan M, Fugolin AP, Bompolaki D, Athirasala A, Pfeifer CS, et al. 3D printed versus conventionally cured provisional crown and bridge dental materials. Dent Mater. 2018; 34 (2): 192–200. PubMed PMID: 29110921.
  15. Vokulova YU. A., ZHulev E. N. Sravnitel'naya ocenka ekonomicheskogo obosnovaniya izgotovleniya vremennyh iskusstvennyh koronok, poluchennyh s pomoshch'yu tradicionnyh i cifrovyh tekhnologij. The Scientific Heritage. 2020; 47–2 (47): 3–6.