The Advent of a New Era in Digital Healthcare: A Role for 3D Printing Technologies in Drug Manufacturing?

Andreadis, Ioannis I.; Gioumouxouzis, Christos I.; Eleftheriadis, Georgios K.; Fatouros, Dimitrios G.

doi:10.3390/pharmaceutics14030609

Cited by 40 publications

(20 citation statements)

References 75 publications

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“…This applies in particular to the issues of legal and ethical regulations (including the so-called ethical AI), but also shortages of materials and drugs, and the need to ensure a sufficiently high quality of the product. The acceptability of the above-mentioned directions of the healthcare system development by medical specialists, patients, and their families is crucial to include in the research spectrum of possible future scenarios for the implementation of 3D printing in healthcare and to discuss problems that must be foreseen and solved before they even appear [ 9 ]. Budzik et al [ 10 ] proposed a comprehensive control system for the additive manufacturing process for Industry 4.0.…”

Section: Discussionmentioning

confidence: 99%

“…The Industry 4.0 paradigm introduced robotization, automation, and computerization, among other things, so that the modeling and simulation of production processes in real time or close to real time would allow the most efficient and cost-effective methods of testing, selecting, and using (preferably waste-free, with recycling) technologically advanced materials as part of the modern production processes [ 9 ]. A production plant that uses, for example, advanced reverse engineering processes (3D scanning—adaptation—3D printing) should therefore provide massively personalized products with a controlled high quality [ 10 , 11 ].…”

Section: Introductionmentioning

confidence: 99%

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AI-Based Support System for Monitoring the Quality of a Product within Industry 4.0 Paradigm

Rojek

Dostatni

Kopowski

et al. 2022

Sensors

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Three-dimensional (3D) printing, also known as additive manufacturing (AM), has already shown its potential in the fourth technological revolution (Industry 4.0), demonstrating remarkable applications in manufacturing, including of medical devices. The aim of this publication is to present the novel concept of support by artificial intelligence (AI) for quality control of AM of medical devices made of polymeric materials, based on the example of our own elbow exoskeleton. The methodology of the above-mentioned inspection process differs depending on the intended application of 3D printing as well as 3D scanning or reverse engineering. The use of artificial intelligence increases the versatility of this process, allowing it to be adapted to specific needs. This brings not only innovative scientific and technological solutions, but also a significant economic and social impact through faster operation, greater efficiency, and cost savings. The article also indicates the limitations and directions for the further development of the proposed solution.

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Section: Discussionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

AI-Based Support System for Monitoring the Quality of a Product within Industry 4.0 Paradigm

Rojek

Dostatni

Kopowski

et al. 2022

Sensors

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“…It can be inferred from the results of BET analysis that solid dispersion with drug to polymer ratio of 1:4 or above can be a good candidate for 3 rd generation solid dispersions. Moreover, amorphous and porous solid dispersions are good candidates for 3D tablet printing [72,73].…”

Section: Discussionmentioning

confidence: 99%

Determination of Alteration in Micromeritic Properties of a Solid Dispersion: Brunauer-Emmett-Teller Based Adsorption and Other Structured Approaches

et al. 2022

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The present study is focused on the use of solid dispersion technology to triumph over the solubility-related problems of bexarotene which is currently used for treating various types of cancer and has shown potential inhibitory action on COVID-19 main protease and human ACE2 receptors. It is based on comparison of green locust bean gum and synthetic poloxamer as polymers using extensive mechanistic methods to explore the mechanism behind solubility enhancement and to find suitable concentration of drug to polymer ratio to prepare porous 3 rd generation solid dispersion. The prepared solid dispersions were characterized using different studies like X-ray diffraction (XRD), thermal gravimetric analysis (TGA), scanning electron microscopy (SEM), Brunauer-Emmett-Teller (BET), differential scanning calorimetry (DSC), and particle size analysis in order to determine the exact changes occurred in the product which are responsible for enhancing solubility profiles of an insoluble drug. The results showed different profiles for particle size, solubility, dissolution rate, porosity, BET, and Langmuir specific surface area of prepared solid dispersions by using different polymers. In addition to the comparison of polymers, the BET analysis deeply explored the changes occurred in all dispersions when the concentration of polymer was increased. The optimized solid dispersion prepared with MLBG using lyophilization technique showed reduced particle size of 745.7±4.4 nm, utmost solubility of 63.97%, pore size of 211.597 Å, BET and Langmuir specific surface area of 5.6413 m 2 /g and 8.2757 m 2 /g, respectively.

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“…In the original publication [ 1 ], there was a mistake in the legend for Figure 1. The legend did not include the reproduction permission from the author.…”

Section: Figure Legendmentioning

confidence: 99%

Correction: Andreadis et al. The Advent of a New Era in Digital Healthcare: A Role for 3D Printing Technologies in Drug Manufacturing? Pharmaceutics 2022, 14, 609

et al. 2022

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The Advent of a New Era in Digital Healthcare: A Role for 3D Printing Technologies in Drug Manufacturing?

Cited by 40 publications

References 75 publications

AI-Based Support System for Monitoring the Quality of a Product within Industry 4.0 Paradigm

AI-Based Support System for Monitoring the Quality of a Product within Industry 4.0 Paradigm

Determination of Alteration in Micromeritic Properties of a Solid Dispersion: Brunauer-Emmett-Teller Based Adsorption and Other Structured Approaches

Correction: Andreadis et al. The Advent of a New Era in Digital Healthcare: A Role for 3D Printing Technologies in Drug Manufacturing? Pharmaceutics 2022, 14, 609

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