Optical modeling of extraoral defects

Reitemeier, Bernd; Notni, Gunther; Heinze, Matthias; Schöne, Christine; Schmidt, Anja; Fichtner, Dieter

doi:10.1016/j.prosdent.2003.10.010

Cited by 69 publications

(44 citation statements)

References 11 publications

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“…14,15 Some authors suggest that the chromatic changes in artificial irises come not simply from degradation caused by exposure to environmental factors, but rather mainly from the process of polymerization in the acrylic resin that covers over the paint. [16][17][18][19][20] With the aim of increasing the stability of the prosthesis color in the face of aging caused by the artificial iris paint exposure to environmental factors and minimizing the effects of the polymerization process, the use of prefabricated caps has won favor over other techniques of ocular prosthesis production. 17,[21][22][23][24] In conjunction with this technique, a protective varnish can be applied over the paint of the artificial iris to reduce chromatic changes.…”

Section: Introductionmentioning

confidence: 99%

Chromatic changes to artificial irises produced using different techniques

et al. 2013

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Abstract. Ocular prostheses are important determinants of their users' aesthetic recovery and self-esteem. Because of use, ocular prostheses longevity is strongly affected by instability of the iris color due to polymerization. The goal of this study is to examine how the color of the artificial iris button is affected by different techniques of artificial wear and by the application of varnish following polymerization of the colorless acrylic resin that covers the colored paint. We produce 60 samples (n ¼ 10) according to the wear technique applied: conventional technique without varnish (PE); conventional technique with varnish (PEV); technique involving a prefabricated cap without varnish (CA); technique involving a prefabricated cap with varnish (CAV); technique involving inverted painting without varnish (PI); and technique involving inverted painting with varnish (PIV). Color readings using a spectrophotometer are taken before and after polymerization. We submitted the data obtained to analyses of variance and Tukey's test (P < 0.05). The color test shows significant changes after polymerization in all groups. The PE and PI techniques have clinically acceptable values of ΔE, independent of whether we apply varnish to protect the paint. The PI technique produces the least color change, whereas the PE and CA techniques significantly improve color stability.

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Section: Introductionmentioning

confidence: 99%

Chromatic changes to artificial irises produced using different techniques

et al. 2013

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“…Maintaining of the CT based 3D virtual model of the craniofacial structures as well as the defect area has been reported as the preliminary requirements for the surgeon to select an appropriate site for patients whose anatomy does not allow placement of implants conventionally [32][33][34][35].…”

Section: Discussionmentioning

confidence: 99%

“…This method consists of the production of the 3D objects by using data transferred CT image files. Craniofacial defect and neighboring hard and soft tissues, prototypes of the prostheses and surgical guides may be manufactured with stereolithography [29,30,[33][34][35]37]. The data about hard and soft craniofacial structures and the defect may be acquired by CT, magnetic resonance imaging and optic scanning of the surface by using various light sources [31,32].…”

Section: Discussionmentioning

confidence: 99%

“…On the other hand, implant locations can be planned virtually [26,28,29]. For this purpose, implant site may be scanned radiographically or optically [30][31][32] and modeled digitally [33][34][35]. Surgical guides produced with stereolithographic (STL) techniques in order to the computerized tomography (CT)-based planning, may be employed in surgical intervention [36][37][38].…”

Section: Introductionmentioning

confidence: 99%

See 1 more Smart Citation

Bone and Skin-Supported Stereolithographic Surgical Guides for Cranio-Facial Implant Placement

Çötert

Yılmaz

2015

J. Maxillofac. Oral Surg.

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Purpose Osseointegrated skin-penetrating implants enhance the retention and stability of the craniofacial prostheses and provide the long-term comfort. However, to determine the implant locations is a great challenge facing the surgeon. Implants may either be located in conventional manner or by STL generated surgical guides. Materials and Methods Present study reports the CT based 3D virtual modeling, preoperative virtual planning and the implant placement by using a STL surgical guide, in an anotia case. Results Employed materials and the methods facilitated the implant surgery while improving the operational security. Conclusions CT based 3D virtual modeling of the surgical site, determining the implant locations virtually and the STL guided placement of the craniofacial implants, were found useful applications in order to facilitating the surgical intervention and providing prevention from complications.

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“…Most important disadvantages of this system are requirement of equipment and high cost. 6,7 RE or 3D digitizing 8 can be used to capture the morphology of deficient and normal ears as well as casts made by impression. 9,10 Some blind spots (undercuts) result in missing data patches and need to be manually "stitched," but the latest CT/MRI systems combined with medical modeling software can yield correct anatomical details and have been successfully used for the ear region.…”

Section: Rapid Prototypingmentioning

confidence: 99%

Retracted

Shah¹

2016

Prosthetics &Amp; Orthotics International

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At the request of the editor Mayank Shah ‘Auricular prosthesis fabrication using computer-aided design and rapid prototyping technologies’ Prosthetics and Orthotics International, published online before print on October 8, 2013 as doi:10.1177/0309364613504779 has been retracted. This is because it contains unattributed overlap with K. Subburaj, C. Nair, S. Rajesh, S. M. Meshram, B. Ravi ‘Rapid development of auricular prosthesis using CAD and rapid prototyping technologies’ International Journal of Oral & Maxillofacial Surgery 2007; 36: 938–943 doi:10.1016/j.ijom.2007.07.013

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Optical modeling of extraoral defects

Cited by 69 publications

References 11 publications

Chromatic changes to artificial irises produced using different techniques

Chromatic changes to artificial irises produced using different techniques

Bone and Skin-Supported Stereolithographic Surgical Guides for Cranio-Facial Implant Placement

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