2019
DOI: 10.3390/ma12193110
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Development of 18 Quality Control Gates for Additive Manufacturing of Error Free Patient-Specific Implants

Abstract: Unlike subtractive manufacturing technologies, additive manufacturing (AM) can fabricate complex shapes from the macro to the micro scale, thereby allowing the design of patient-specific implants following a biomimetic approach for the reconstruction of complex bone configurations. Nevertheless, factors such as high design variability and changeable customer needs are re-shaping current medical standards and quality control strategies in this sector. Such factors necessitate the urgent formulation of comprehen… Show more

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Cited by 20 publications
(10 citation statements)
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References 117 publications
(150 reference statements)
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“…Therefore, there is an urgent need for engineering management research that focuses on regulatory models that foster innovation and are capable of covering the technical considerations for designing, manufacturing, and testing such medical devices. Taking this into consideration, we believe that the integration of our previous work coupled with the 3D risks assessment method proposed in this study can serve as a basis for a new regulatory model for additively manufactured patient‐specific bone implants.…”
Section: Discussionmentioning
confidence: 95%
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“…Therefore, there is an urgent need for engineering management research that focuses on regulatory models that foster innovation and are capable of covering the technical considerations for designing, manufacturing, and testing such medical devices. Taking this into consideration, we believe that the integration of our previous work coupled with the 3D risks assessment method proposed in this study can serve as a basis for a new regulatory model for additively manufactured patient‐specific bone implants.…”
Section: Discussionmentioning
confidence: 95%
“…Rapid growth in the patient‐specific bone implant market creates new risks and challenges, which in combination with insufficient investment in reliability engineering and manufacturability in AM, exposes the industry to high risk of product failure . This is because long‐term product quality and performance is not yet established . Moreover, medical regulatory bodies are confronted with updating standards to enable innovation, while also ensuring long‐term patient safety and product performance .…”
Section: Introductionmentioning
confidence: 99%
“…The design freedom of AM allows its use in difficult clinical scenarios in which bone diseases, deformities, and trauma usually necessitate the reconstruction of bone defects with complex anatomical shapes, which is extremely difficult even for the most skilled surgeon [22]. The complex reconstruction of bone defects is possible through combining the advantages of AM with CAD and medical imaging technologies, such as computed tomography and magnetic resonance, to fabricate implants according to the patient's specific anatomy, thus achieving an exact adaptation to the region of implantation [23]. In the search of suitable materials for AM, bone regeneration, and implant application tissue engineering has focused on developing a variety of different types of synthetic and natural materials.…”
Section: Additive Manufacturingmentioning
confidence: 99%
“…With porous Ti and Ti alloy bio-metamaterials, osseointegration is also improved, and superior results have been accomplished in relation to mechanical properties. Nonetheless, pores act as stress concentrators, reducing the material load capacity [23]. As a result, for the design of load-bearing prostheses, it is crucial to balance mechanical properties with biological stimulation.…”
Section: Metals and Titanium As A Bio-metamaterialsmentioning
confidence: 99%
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