The Experts below are selected from a list of 1698 Experts worldwide ranked by ideXlab platform
Jin Sook Yoon - One of the best experts on this subject based on the ideXlab platform.
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Semi-automated fabrication of customized Ocular Prosthesis with three–dimensional printing and sublimation transfer printing technology
Scientific Reports, 2019Co-Authors: Jaesang Ko, Seung Woon Baek, So Hyun Kim, Min Kyung Chae, Jin Sook YoonAbstract:An Ocular Prosthesis is a custom-made polymeric insert that can be placed in an anophthalmic socket for cosmetic rehabilitation of patients who have lost their eyes. The process of creating such a custom-made Ocular Prosthesis is time-consuming and labor-intensive because it involves artistic work that is carried out manually. This paper proposes a novel semi-automated method for fabricating customized Ocular prostheses using three-dimensional (3D) printing and sublimation transfer printing. In the proposed method, an impression mold of the patient’s anophthalmic socket is first optically scanned using a 3D scanner to produce a 3D model. The Ocular Prosthesis is then produced via a digital light processing 3D printer using biocompatible photopolymer resin. Subsequently, an image of the iris and blood vessels of the eye is prepared by modifying a photographed image of the contralateral normal eye, and printed onto the 3D-printed Ocular Prosthesis using a dye sublimation transfer technique. Cytotoxicity assessments of the base material and fabricated Ocular Prosthesis indicate that there is no adverse effect on cellular viability and proliferation. The proposed method reduces the time and skill required to fabricate a customized Ocular Prosthesis, and is expected to provide patients with easier access to quality custom-made Ocular prostheses.
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semi automated fabrication of customized Ocular Prosthesis with three dimensional printing and sublimation transfer printing technology
Scientific Reports, 2019Co-Authors: So Hyun Kim, Seung Woon Baek, Min Kyung Chae, Jin Sook YoonAbstract:An Ocular Prosthesis is a custom-made polymeric insert that can be placed in an anophthalmic socket for cosmetic rehabilitation of patients who have lost their eyes. The process of creating such a custom-made Ocular Prosthesis is time-consuming and labor-intensive because it involves artistic work that is carried out manually. This paper proposes a novel semi-automated method for fabricating customized Ocular prostheses using three-dimensional (3D) printing and sublimation transfer printing. In the proposed method, an impression mold of the patient’s anophthalmic socket is first optically scanned using a 3D scanner to produce a 3D model. The Ocular Prosthesis is then produced via a digital light processing 3D printer using biocompatible photopolymer resin. Subsequently, an image of the iris and blood vessels of the eye is prepared by modifying a photographed image of the contralateral normal eye, and printed onto the 3D-printed Ocular Prosthesis using a dye sublimation transfer technique. Cytotoxicity assessments of the base material and fabricated Ocular Prosthesis indicate that there is no adverse effect on cellular viability and proliferation. The proposed method reduces the time and skill required to fabricate a customized Ocular Prosthesis, and is expected to provide patients with easier access to quality custom-made Ocular prostheses.
So Hyun Kim - One of the best experts on this subject based on the ideXlab platform.
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Semi-automated fabrication of customized Ocular Prosthesis with three–dimensional printing and sublimation transfer printing technology
Scientific Reports, 2019Co-Authors: Jaesang Ko, Seung Woon Baek, So Hyun Kim, Min Kyung Chae, Jin Sook YoonAbstract:An Ocular Prosthesis is a custom-made polymeric insert that can be placed in an anophthalmic socket for cosmetic rehabilitation of patients who have lost their eyes. The process of creating such a custom-made Ocular Prosthesis is time-consuming and labor-intensive because it involves artistic work that is carried out manually. This paper proposes a novel semi-automated method for fabricating customized Ocular prostheses using three-dimensional (3D) printing and sublimation transfer printing. In the proposed method, an impression mold of the patient’s anophthalmic socket is first optically scanned using a 3D scanner to produce a 3D model. The Ocular Prosthesis is then produced via a digital light processing 3D printer using biocompatible photopolymer resin. Subsequently, an image of the iris and blood vessels of the eye is prepared by modifying a photographed image of the contralateral normal eye, and printed onto the 3D-printed Ocular Prosthesis using a dye sublimation transfer technique. Cytotoxicity assessments of the base material and fabricated Ocular Prosthesis indicate that there is no adverse effect on cellular viability and proliferation. The proposed method reduces the time and skill required to fabricate a customized Ocular Prosthesis, and is expected to provide patients with easier access to quality custom-made Ocular prostheses.
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semi automated fabrication of customized Ocular Prosthesis with three dimensional printing and sublimation transfer printing technology
Scientific Reports, 2019Co-Authors: So Hyun Kim, Seung Woon Baek, Min Kyung Chae, Jin Sook YoonAbstract:An Ocular Prosthesis is a custom-made polymeric insert that can be placed in an anophthalmic socket for cosmetic rehabilitation of patients who have lost their eyes. The process of creating such a custom-made Ocular Prosthesis is time-consuming and labor-intensive because it involves artistic work that is carried out manually. This paper proposes a novel semi-automated method for fabricating customized Ocular prostheses using three-dimensional (3D) printing and sublimation transfer printing. In the proposed method, an impression mold of the patient’s anophthalmic socket is first optically scanned using a 3D scanner to produce a 3D model. The Ocular Prosthesis is then produced via a digital light processing 3D printer using biocompatible photopolymer resin. Subsequently, an image of the iris and blood vessels of the eye is prepared by modifying a photographed image of the contralateral normal eye, and printed onto the 3D-printed Ocular Prosthesis using a dye sublimation transfer technique. Cytotoxicity assessments of the base material and fabricated Ocular Prosthesis indicate that there is no adverse effect on cellular viability and proliferation. The proposed method reduces the time and skill required to fabricate a customized Ocular Prosthesis, and is expected to provide patients with easier access to quality custom-made Ocular prostheses.
Min Kyung Chae - One of the best experts on this subject based on the ideXlab platform.
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Semi-automated fabrication of customized Ocular Prosthesis with three–dimensional printing and sublimation transfer printing technology
Scientific Reports, 2019Co-Authors: Jaesang Ko, Seung Woon Baek, So Hyun Kim, Min Kyung Chae, Jin Sook YoonAbstract:An Ocular Prosthesis is a custom-made polymeric insert that can be placed in an anophthalmic socket for cosmetic rehabilitation of patients who have lost their eyes. The process of creating such a custom-made Ocular Prosthesis is time-consuming and labor-intensive because it involves artistic work that is carried out manually. This paper proposes a novel semi-automated method for fabricating customized Ocular prostheses using three-dimensional (3D) printing and sublimation transfer printing. In the proposed method, an impression mold of the patient’s anophthalmic socket is first optically scanned using a 3D scanner to produce a 3D model. The Ocular Prosthesis is then produced via a digital light processing 3D printer using biocompatible photopolymer resin. Subsequently, an image of the iris and blood vessels of the eye is prepared by modifying a photographed image of the contralateral normal eye, and printed onto the 3D-printed Ocular Prosthesis using a dye sublimation transfer technique. Cytotoxicity assessments of the base material and fabricated Ocular Prosthesis indicate that there is no adverse effect on cellular viability and proliferation. The proposed method reduces the time and skill required to fabricate a customized Ocular Prosthesis, and is expected to provide patients with easier access to quality custom-made Ocular prostheses.
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semi automated fabrication of customized Ocular Prosthesis with three dimensional printing and sublimation transfer printing technology
Scientific Reports, 2019Co-Authors: So Hyun Kim, Seung Woon Baek, Min Kyung Chae, Jin Sook YoonAbstract:An Ocular Prosthesis is a custom-made polymeric insert that can be placed in an anophthalmic socket for cosmetic rehabilitation of patients who have lost their eyes. The process of creating such a custom-made Ocular Prosthesis is time-consuming and labor-intensive because it involves artistic work that is carried out manually. This paper proposes a novel semi-automated method for fabricating customized Ocular prostheses using three-dimensional (3D) printing and sublimation transfer printing. In the proposed method, an impression mold of the patient’s anophthalmic socket is first optically scanned using a 3D scanner to produce a 3D model. The Ocular Prosthesis is then produced via a digital light processing 3D printer using biocompatible photopolymer resin. Subsequently, an image of the iris and blood vessels of the eye is prepared by modifying a photographed image of the contralateral normal eye, and printed onto the 3D-printed Ocular Prosthesis using a dye sublimation transfer technique. Cytotoxicity assessments of the base material and fabricated Ocular Prosthesis indicate that there is no adverse effect on cellular viability and proliferation. The proposed method reduces the time and skill required to fabricate a customized Ocular Prosthesis, and is expected to provide patients with easier access to quality custom-made Ocular prostheses.
Seung Woon Baek - One of the best experts on this subject based on the ideXlab platform.
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Semi-automated fabrication of customized Ocular Prosthesis with three–dimensional printing and sublimation transfer printing technology
Scientific Reports, 2019Co-Authors: Jaesang Ko, Seung Woon Baek, So Hyun Kim, Min Kyung Chae, Jin Sook YoonAbstract:An Ocular Prosthesis is a custom-made polymeric insert that can be placed in an anophthalmic socket for cosmetic rehabilitation of patients who have lost their eyes. The process of creating such a custom-made Ocular Prosthesis is time-consuming and labor-intensive because it involves artistic work that is carried out manually. This paper proposes a novel semi-automated method for fabricating customized Ocular prostheses using three-dimensional (3D) printing and sublimation transfer printing. In the proposed method, an impression mold of the patient’s anophthalmic socket is first optically scanned using a 3D scanner to produce a 3D model. The Ocular Prosthesis is then produced via a digital light processing 3D printer using biocompatible photopolymer resin. Subsequently, an image of the iris and blood vessels of the eye is prepared by modifying a photographed image of the contralateral normal eye, and printed onto the 3D-printed Ocular Prosthesis using a dye sublimation transfer technique. Cytotoxicity assessments of the base material and fabricated Ocular Prosthesis indicate that there is no adverse effect on cellular viability and proliferation. The proposed method reduces the time and skill required to fabricate a customized Ocular Prosthesis, and is expected to provide patients with easier access to quality custom-made Ocular prostheses.
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semi automated fabrication of customized Ocular Prosthesis with three dimensional printing and sublimation transfer printing technology
Scientific Reports, 2019Co-Authors: So Hyun Kim, Seung Woon Baek, Min Kyung Chae, Jin Sook YoonAbstract:An Ocular Prosthesis is a custom-made polymeric insert that can be placed in an anophthalmic socket for cosmetic rehabilitation of patients who have lost their eyes. The process of creating such a custom-made Ocular Prosthesis is time-consuming and labor-intensive because it involves artistic work that is carried out manually. This paper proposes a novel semi-automated method for fabricating customized Ocular prostheses using three-dimensional (3D) printing and sublimation transfer printing. In the proposed method, an impression mold of the patient’s anophthalmic socket is first optically scanned using a 3D scanner to produce a 3D model. The Ocular Prosthesis is then produced via a digital light processing 3D printer using biocompatible photopolymer resin. Subsequently, an image of the iris and blood vessels of the eye is prepared by modifying a photographed image of the contralateral normal eye, and printed onto the 3D-printed Ocular Prosthesis using a dye sublimation transfer technique. Cytotoxicity assessments of the base material and fabricated Ocular Prosthesis indicate that there is no adverse effect on cellular viability and proliferation. The proposed method reduces the time and skill required to fabricate a customized Ocular Prosthesis, and is expected to provide patients with easier access to quality custom-made Ocular prostheses.
Jaesang Ko - One of the best experts on this subject based on the ideXlab platform.
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Semi-automated fabrication of customized Ocular Prosthesis with three–dimensional printing and sublimation transfer printing technology
Scientific Reports, 2019Co-Authors: Jaesang Ko, Seung Woon Baek, So Hyun Kim, Min Kyung Chae, Jin Sook YoonAbstract:An Ocular Prosthesis is a custom-made polymeric insert that can be placed in an anophthalmic socket for cosmetic rehabilitation of patients who have lost their eyes. The process of creating such a custom-made Ocular Prosthesis is time-consuming and labor-intensive because it involves artistic work that is carried out manually. This paper proposes a novel semi-automated method for fabricating customized Ocular prostheses using three-dimensional (3D) printing and sublimation transfer printing. In the proposed method, an impression mold of the patient’s anophthalmic socket is first optically scanned using a 3D scanner to produce a 3D model. The Ocular Prosthesis is then produced via a digital light processing 3D printer using biocompatible photopolymer resin. Subsequently, an image of the iris and blood vessels of the eye is prepared by modifying a photographed image of the contralateral normal eye, and printed onto the 3D-printed Ocular Prosthesis using a dye sublimation transfer technique. Cytotoxicity assessments of the base material and fabricated Ocular Prosthesis indicate that there is no adverse effect on cellular viability and proliferation. The proposed method reduces the time and skill required to fabricate a customized Ocular Prosthesis, and is expected to provide patients with easier access to quality custom-made Ocular prostheses.
