From: Individualized medicine using 3D printing technology in gynecology: a scoping review
First author, date | Data Source | Software | 3D Printer | 3D Printing Material | Cost per Model (USD) | Production Time | No. of Models |
---|---|---|---|---|---|---|---|
Ajao, 2017 [11] | MRI | Mediprint | PolyJet J750, Stratasys | NS | NS | NS | 1 |
Baek, 2016 [12] | CT | NS | Objet 260 CONNEX 3D printer, Stratasys | NS | NS | NS | 1 |
Barbosa, 2019 [13] | MRI | 3D PolyJet Studio; GrabcaD Print | Polyjet J750, Stratasys | Veroclear rGD810; Vero Magenta rGD 851; Tango Plus FlX930 | NS | 86mins – 30 hrs | 4 |
Barsky, 2018 [14] | Trial/error | SolidWorks | Fused deposition modeling printer (model NS) | Polylactic acid | $10.94 | 2 hrs | 3 |
Chang, 2018 [15] | CT/MRI | NS | Fortus 450mc, Stratasys | Polymer materials | NS | NS | 5 |
Chen, 2017 [16] | MRI | NS | NS | NS | NS | NS | 2 |
Flaxman, 2020 [17] | MRI | NS | NS | Resin | NS | NS | 5 |
Hadden, 2018 [18] | MRI | NS | NS | NS | NS | NS | NS |
Jiang, 2020 [4] | CT/MRI | Materialise Mimics, Geomagic | LITE450HD-B, Shanghai Liantai Technology Co Ltd. | Medical curing resin | NS | NS | 32 |
Kudla, 2019 [19] | MRI | Eclipse; SolidWorks; Brachyvision | NS | NS | NS | NS | 1 |
Laan, 2019 [20] | MRI | Oncentra, 3D Slicer; SolidWorks; MeVi-sLab; MatLab | Digital light processing (DLP)-based printer (Perfactory 4 mini XL, Envisiontec) | Liquid photopolymer resin | NS | NS | 2 |
Lindegaard, 2016 [21] | CT/MRI | BrachyVision; Matlab; SolidWorks | Projet 3510 SD, 3D Systems | Visijet M3 Crystal, 3D Systems | NS | 3 days (Print: 9 hrs) | 2 |
Logar, 2019 [22] | MRI | BrachyVision | Formiga P100 3D printer | Biocompatible polyamide PA 2200 | NS | NS | 9 |
Logar, 2020 [23] | MRI | NS | Selective laser sintering technology (model NS) | Biocompatible polyamide PA | NS | NS | 2 |
Mackey, 2019 [24] | MRI | 3D Slicer | Ultimaker 3 Extended 3D printer | Polylactic acid filament | $35.00 | 49.5 hrs (printing) | 1 |
Mohammadi, 2021 [25] | CT | Fusion 360; Meshmixer | UnionTech RS Pro 600 | High-temp resinFLHTAM02 model, Formlabs Inc. | NS | 4–5 hrs | NS |
Pavan, 2021 [26] | Trial/error | NS | NS | Polylactic acid | NS | NS | NS |
Petric, 2019 [27] | MRI | NS | NS | Biocompatible autoclavable material | NS | NS | 13 |
Qu, 2017 [28] | CT | NS | NS | NS | NS | NS | 1 |
Qu, 2019 [29] | NS | NS | NS | NS | NS | NS | NS |
Qu, 2021 [30] | CT | Magics, Materialise | RS6000, Shanghai Liantaiv 3D Technology Company Inc. | NS | NS | NS | 38 |
Reddy, 2019 [31] | MRI | Mediprint | PolyJet J750, Stratasys | Polymer | NS | NS | 3 |
Sayed Aluwee, 2017 [32] | MRI | NS | Fused deposition modeling printer (model NS) | Polylactic acid with biodegradable thermoplastic | NS | 3–5 days | 5 |
Sekii, 2018 [33] | CT/MRI | CAD Software, Fusion 360 v.2.03174, Autodesk Inc. | Outsourced, DMM.com | Polycarbonate/acrylonitrile-butadiene-styrene (PC-ABS) polymer alloy | NS | Design: 2-3 hrs Print: 6-7 days | 2 |
Semeniuk, 2021 [34] | CT | Eclipse; Oncentra; Matlab | NS | Biocompatible polymethyl methacrylate; tungsten-polylactic acid composite | NS | Design: 3 hrs Print: 3 hrs | 2 |
Sethi, 2014 [35] | Physical exam | CAD software, Autodesk Inc. | Fortus 400mc, Stratasys | PC-ISO biocompatible thermoplastic | NS | NS | 1 |
Sethi, 2016 [36] | Physical exam | CAD software, Autodesk Inc. | Fortus 400mc, Stratasys | PC-ISO thermoplastic | NS | NS | 3 |
Wadi-Ramahi, 2018 [37] | CT | CAD software | NS | NS | NS | NS | 2 |
Wang, 2020 [38] | MRI | 3DDOCTOR | NS | Thermoplastics | NS | NS | 50 |
Yuan, 2019 [39] | CT/MRI | Prowess Panther, Unicorn 3D template system | EP-A650 | NS | NS | NS | 11 |
Zhao, 2019 [40] | NS | NS | NS | NS | NS | NS | 18 |
Zhao, 2019 [40] | CT | 3ds Max, Autodesk Inc.; MakerBot | Replicator+, MakerBot | Polylactic acid | NS | NS | 1 |