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The Effects of Light Crystal Display 3D Printers, Storage Time and Steam Sterilization on the Dimensional Stability of a Photopolymer Resin for Surgical Guides: An In Vitro Study

Պահպանված է:
Հրատարակված է:Materials vol. 18, no. 3 (2025), p. 474
Հիմնական հեղինակ: Pranno, Nicola
Այլ հեղինակներ: Franchina, Alessio, De Angelis, Francesca, Bossù, Maurizio, Salucci, Alessandro, Brauner, Edoardo, Cristalli, Maria Paola, Gerardo La Monaca
Հրապարակվել է:
MDPI AG
Խորագրեր:
United States > US
China
Software
Tomography
Accuracy
Photopolymers
Transplants & implants
Medical technology
Surgical instruments
Resins
Surgical equipment
3-D printers
Dimensional changes
Medical equipment
Computer aided testing
Displays
Computer aided design > CAD
Three dimensional printing
Manufacturing
Dimensional stability
Process parameters
Statistical analysis
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LEADER 00000nab a2200000uu 4500
001 3165858313
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022 |a 1996-1944 
024 7 |a 10.3390/ma18030474  |2 doi 
035 |a 3165858313 
045 2 |b d20250101  |b d20251231 
084 |a 231532  |2 nlm 
100 1 |a Pranno, Nicola  |u Department of Oral and Maxillo-Facial Sciences, Sapienza, University of Rome, 6 Caserta Street, 00161 Rome, Italy; <email>nicola.pranno@uniroma1.it</email> (N.P.); <email>francesca.deangelis@uniroma1.it</email> (F.D.A.); <email>maurizio.bossu@uniroma1.it</email> (M.B.); <email>alessandro.salucci@uniroma1.it</email> (A.S.); <email>edoardo.brauner@uniroma1.it</email> (E.B.); <email>mariapaola.cristalli@uniroma1.it</email> (M.P.C.); 
245 1 |a The Effects of Light Crystal Display 3D Printers, Storage Time and Steam Sterilization on the Dimensional Stability of a Photopolymer Resin for Surgical Guides: An In Vitro Study 
260 |b MDPI AG  |c 2025 
513 |a Journal Article 
520 3 |a Background: Implant surgical guides manufactured in-house using 3D printing technology are widely used in clinical practice to translate virtual planning to the operative field. Aim: The present in vitro study investigated the dimensional changes of 3D surgical guides printed in-house using Shining 3D surgical guide resin (SG01). Materials and methods: Five test bodies, varying in shape and dimensions, were designed using computer-aided design (CAD) software and manufactured using three different Light Crystal Display (LCD) 3D printers (AccuFab-L4D, Elegoo Mars Pro 3, and Zortrax Inspire). Specific printing and post-processing parameters for the SG01 resin were set to produce 25 test bodies (5 of each shape) from each of the three printers, resulting in a total of 75 samples. The dimensional changes were evaluated using a digital calliper at four different time points: immediately after printing (T0), one month after storage (T1), immediately after sterilization (T2), and one month after sterilization (T3). Results: All the test bodies showed deviations from the overall CAD reference value of 12.25 mm after printing and post-processing (T0) and following steam sterilization (T2). Similar trends were observed for the effect of storage times at T1 and T3. The AccuFab prints demonstrated a better dimensional stability than the Elegoo and Zortrax samples. Conclusions: The LCD 3D printers, sterilization, and storage times influenced the dimensional stability of the test bodies made with SGO1 resin. 
651 4 |a United States--US 
651 4 |a China 
653 |a Software 
653 |a Tomography 
653 |a Accuracy 
653 |a Photopolymers 
653 |a Transplants & implants 
653 |a Medical technology 
653 |a Surgical instruments 
653 |a Resins 
653 |a Surgical equipment 
653 |a 3-D printers 
653 |a Dimensional changes 
653 |a Medical equipment 
653 |a Computer aided testing 
653 |a Displays 
653 |a Computer aided design--CAD 
653 |a Three dimensional printing 
653 |a Manufacturing 
653 |a Dimensional stability 
653 |a Process parameters 
653 |a Statistical analysis 
700 1 |a Franchina, Alessio  |u Indipendent Researcher, 44 Legione Gallieno Street, 36100 Vicenza, Italy 
700 1 |a De Angelis, Francesca  |u Department of Oral and Maxillo-Facial Sciences, Sapienza, University of Rome, 6 Caserta Street, 00161 Rome, Italy; <email>nicola.pranno@uniroma1.it</email> (N.P.); <email>francesca.deangelis@uniroma1.it</email> (F.D.A.); <email>maurizio.bossu@uniroma1.it</email> (M.B.); <email>alessandro.salucci@uniroma1.it</email> (A.S.); <email>edoardo.brauner@uniroma1.it</email> (E.B.); <email>mariapaola.cristalli@uniroma1.it</email> (M.P.C.); 
700 1 |a Bossù, Maurizio  |u Department of Oral and Maxillo-Facial Sciences, Sapienza, University of Rome, 6 Caserta Street, 00161 Rome, Italy; <email>nicola.pranno@uniroma1.it</email> (N.P.); <email>francesca.deangelis@uniroma1.it</email> (F.D.A.); <email>maurizio.bossu@uniroma1.it</email> (M.B.); <email>alessandro.salucci@uniroma1.it</email> (A.S.); <email>edoardo.brauner@uniroma1.it</email> (E.B.); <email>mariapaola.cristalli@uniroma1.it</email> (M.P.C.); 
700 1 |a Salucci, Alessandro  |u Department of Oral and Maxillo-Facial Sciences, Sapienza, University of Rome, 6 Caserta Street, 00161 Rome, Italy; <email>nicola.pranno@uniroma1.it</email> (N.P.); <email>francesca.deangelis@uniroma1.it</email> (F.D.A.); <email>maurizio.bossu@uniroma1.it</email> (M.B.); <email>alessandro.salucci@uniroma1.it</email> (A.S.); <email>edoardo.brauner@uniroma1.it</email> (E.B.); <email>mariapaola.cristalli@uniroma1.it</email> (M.P.C.); 
700 1 |a Brauner, Edoardo  |u Department of Oral and Maxillo-Facial Sciences, Sapienza, University of Rome, 6 Caserta Street, 00161 Rome, Italy; <email>nicola.pranno@uniroma1.it</email> (N.P.); <email>francesca.deangelis@uniroma1.it</email> (F.D.A.); <email>maurizio.bossu@uniroma1.it</email> (M.B.); <email>alessandro.salucci@uniroma1.it</email> (A.S.); <email>edoardo.brauner@uniroma1.it</email> (E.B.); <email>mariapaola.cristalli@uniroma1.it</email> (M.P.C.); 
700 1 |a Cristalli, Maria Paola  |u Department of Oral and Maxillo-Facial Sciences, Sapienza, University of Rome, 6 Caserta Street, 00161 Rome, Italy; <email>nicola.pranno@uniroma1.it</email> (N.P.); <email>francesca.deangelis@uniroma1.it</email> (F.D.A.); <email>maurizio.bossu@uniroma1.it</email> (M.B.); <email>alessandro.salucci@uniroma1.it</email> (A.S.); <email>edoardo.brauner@uniroma1.it</email> (E.B.); <email>mariapaola.cristalli@uniroma1.it</email> (M.P.C.); 
700 1 |a Gerardo La Monaca  |u Department of Oral and Maxillo-Facial Sciences, Sapienza, University of Rome, 6 Caserta Street, 00161 Rome, Italy; <email>nicola.pranno@uniroma1.it</email> (N.P.); <email>francesca.deangelis@uniroma1.it</email> (F.D.A.); <email>maurizio.bossu@uniroma1.it</email> (M.B.); <email>alessandro.salucci@uniroma1.it</email> (A.S.); <email>edoardo.brauner@uniroma1.it</email> (E.B.); <email>mariapaola.cristalli@uniroma1.it</email> (M.P.C.); 
773 0 |t Materials  |g vol. 18, no. 3 (2025), p. 474 
786 0 |d ProQuest  |t Materials Science Database 
856 4 1 |3 Citation/Abstract  |u https://www.proquest.com/docview/3165858313/abstract/embedded/H09TXR3UUZB2ISDL?source=fedsrch 
856 4 0 |3 Full Text + Graphics  |u https://www.proquest.com/docview/3165858313/fulltextwithgraphics/embedded/H09TXR3UUZB2ISDL?source=fedsrch 
856 4 0 |3 Full Text - PDF  |u https://www.proquest.com/docview/3165858313/fulltextPDF/embedded/H09TXR3UUZB2ISDL?source=fedsrch