Three-Dimensional Model Printing in Oral and Maxillofacial Reconstructive Surgery: Comparison of Three-Dimensional Models and Multislice Computed Tomography Scans

Latief, Adhitya; Suhardi, Pradono; Badri, Cholid

doi:10.22159/ijap.2017.v9s2.18

Cited by 4 publications

(4 citation statements)

References 15 publications

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“…Material standards will continue to constrain and guide the feasibility of new manufacturing techniques for specific applications. Bioink of extrinsic matrix material has the potential to have a significant impact on the area of 3D bioprinted scaffolds when it comes to the construction components [134].…”

Section: In Medical Fieldmentioning

confidence: 99%

3d Printing: A Review on the Transformation of Additive Manufacturing

KUMAR

SINGH

et al. 2022

Int J App Pharm

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3D printing and nanotechnology have been two of the most important tools in the development of personalized medical treatments. More recently, their alliance has developed in an effort to create new, flexible, multidisciplinary, and/or medical and drug-wise products. Therefore, a comprehensive review of scientific studies, including 3D printing and nanomaterials on the development of new pharmaceutical methods and medical applications for the treatment and prevention of diseases, is presented here with the help of secondary research from most recent articles. 3D printing, also known as additive manufacturing, has held the power of building a new class of active nanocomposites. With the ability to print a layer of complex 3D objects by layer, additional production of nanomaterials can be used in new ways to significantly control architectural structures of all sizes. The high efficiency of embedded nanomaterials can further extend the power of nanocomposites to structures such as gradients in thermal conductivity, converted photonic emissions, and increased energy and reduced weight. According to the survey done by annual industry, around 50% of the market of 3d printing in the industrial sectors is credited to created prototypes by means of photopolymers. While, Formlabs, Stratasys, HP, Desktop Metal, Ultimaker, Carbon, EOS, Nanoscribe and Markforged are among the top additive manufacturers. This work is hereby an effort to focus on different techniques, merits and demerits, applications, recent advances, relation with nanotechnology along with future aspects.

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Section: In Medical Fieldmentioning

confidence: 99%

3d Printing: A Review on the Transformation of Additive Manufacturing

KUMAR

SINGH

et al. 2022

Int J App Pharm

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“…Stereolithography is the method of computer regulated laser beam is used to make liquid polymer/resin as solid, by this means creating a 3D structure. 30 Stereolithography has several advantages over former types of other 3DP, predominantly it's astonishing resolution and dodging of thermal practices can be harmful for specific drug molecules. 31…”

Section: Stereolithography (Figure 3)mentioning

confidence: 99%

3D Printing in Pharmaceutical Technology – A Review

Ponni

Swamivelmanickam

Sivakrishnan

2020

IJPI

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Three-dimensional printing is a revolutionary technique that uses computer aided design software and programming to create three dimensional objects by placing material on a substrate. 3D printing is an additive layer manufacturing techniques, where consecutive layers of material are deposited or solidified to form a 3D structure. Medicinal substances is configured in three dimensional with computer assisted design module and transformed to a machine legible form which suggests the exterior emerge of the 3D dose form, then it sliced this surface into number of different printable coats and convey these layers to the machine. The different 3D printing techniques has been developing and developed to fabricate novel solid dosage forms, which are among the most well-known and discrete products today. The 3D printing process desires to be espoused by pharmaceutical sector and capable of exploring the marvels fetched by the approach. 3D printing can include a very new possibilities to optimized medicine. The current review is an effort of briefing various methods

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“…Various technologies are used for 3D printing in drug dosage form development [16]. These technologies are: Inkjet printing, Fused deposition modelling, Stereolithography (SLA), Direct energy deposition, Direct write, Zip dose, Thermal inkjet, Selective laser sintering [44]. In inkjet printing, combination of active pharmaceutical ingredients and excipients are precisely sprayed on the substrate or base and are solidified to obtain desired product.…”

Section: Introductionmentioning

confidence: 99%

“…Stereolithography is the technique in which a computer controlled laser beam is used to solidify the liquid polymer or resin, thereby creating 3D structure. [44] In directed energy deposition process a printing apparatus consist of a multi-axis robotic arm with a nozzle, an energy source (laser, electron, or plasma), and a substrate to deposit melted material. For creating a 3D structure, the melted materials by the energy source are deposited on the substrate through nozzles, and then harden [45].…”

Section: Introductionmentioning

confidence: 99%

3d Printing for the Future of Pharmaceuticals Dosages Forms

et al. 2018

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With the rapid pace of development in industrial sector, the pharma sector and researchers involved are equally contributing in developing the latest technology for the growth and development. The computer-aided designs and manufacturing that provides 3 Dimensional printed dosage forms is the new step being taken into consideration. With the FDA approval to first 3D printed tablet in August 2015, Spritam, 3 Dimensional printing (3DP) has become the all new method for preparation of drug delivery system. 3D printing has the capability of dispensing the drug more accurately, precisely, and the layer by layer assembly helps in forming complex composition and geometries. 3D printing enables the preparation of personalised dosage form and tailored release profiles. 3D printing can be seen as future of solid dosage forms produced on demand, with customised dose and possibly lower in cost. It can help in reducing side effects caused by excessive doses. This review highlights the 3D printing technology and its applications in growth of pharmaceutical sector. An overview of reviews was conducted to locate published literature between 2000 and 2017.

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Three-Dimensional Model Printing in Oral and Maxillofacial Reconstructive Surgery: Comparison of Three-Dimensional Models and Multislice Computed Tomography Scans

Cited by 4 publications

References 15 publications

3d Printing: A Review on the Transformation of Additive Manufacturing

3d Printing: A Review on the Transformation of Additive Manufacturing

3D Printing in Pharmaceutical Technology – A Review

3d Printing for the Future of Pharmaceuticals Dosages Forms

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