[{"_id":"11229","series_title":"Proceedings of SPIE","publication":"Laser 3D Manufacturing XI","title":"Additively manufactured pressure sensor for embedding in 3D-printed below-knee orthosis","author":[{"last_name":"Shahane","id":"82525","full_name":"Shahane, Akshay Manoj","first_name":"Akshay Manoj"},{"orcid":"0000-0003-2116-156X","last_name":"Shrotri","id":"74090","full_name":"Shrotri, Abhijeet Narendra","first_name":"Abhijeet Narendra"},{"first_name":"Christian","full_name":"Wittenbröker, Christian","id":"83111","last_name":"Wittenbröker"},{"orcid":"https://orcid.org/0000-0001-7293-6893","first_name":"Oliver","id":"51864","last_name":"Stübbe","full_name":"Stübbe, Oliver"}],"intvolume":" 12876","language":[{"iso":"eng"}],"date_created":"2024-03-17T16:03:08Z","publication_status":"published","volume":12876,"citation":{"mla":"Shahane, Akshay Manoj, et al. “Additively Manufactured Pressure Sensor for Embedding in 3D-Printed below-Knee Orthosis.” Laser 3D Manufacturing XI, edited by Bo Gu and Hongqiang Chen, vol. 12876, SPIE, 2024, https://doi.org/10.1117/12.2692220.","apa":"Shahane, A. M., Shrotri, A. N., Wittenbröker, C., & Stübbe, O. (2024). Additively manufactured pressure sensor for embedding in 3D-printed below-knee orthosis. In B. Gu & H. Chen (Eds.), Laser 3D Manufacturing XI (Vol. 12876). SPIE. https://doi.org/10.1117/12.2692220","short":"A.M. Shahane, A.N. Shrotri, C. Wittenbröker, O. Stübbe, Additively Manufactured Pressure Sensor for Embedding in 3D-Printed below-Knee Orthosis, SPIE, 2024.","chicago-de":"Shahane, Akshay Manoj, Abhijeet Narendra Shrotri, Christian Wittenbröker und Oliver Stübbe. 2024. Additively manufactured pressure sensor for embedding in 3D-printed below-knee orthosis. Hg. von Bo Gu und Hongqiang Chen. Laser 3D Manufacturing XI. Bd. 12876. Proceedings of SPIE. SPIE. doi:10.1117/12.2692220, .","ufg":"Shahane, Akshay Manoj u. a.: Additively manufactured pressure sensor for embedding in 3D-printed below-knee orthosis, Bd. 12876, hg. von Gu, Bo/Chen, Hongqiang, o. O. 2024 (Proceedings of SPIE).","havard":"A.M. Shahane, A.N. Shrotri, C. Wittenbröker, O. Stübbe, Additively manufactured pressure sensor for embedding in 3D-printed below-knee orthosis, SPIE, 2024.","din1505-2-1":"Shahane, Akshay Manoj ; Shrotri, Abhijeet Narendra ; Wittenbröker, Christian ; Stübbe, Oliver ; Gu, B. ; Chen, H. (Hrsg.): Additively manufactured pressure sensor for embedding in 3D-printed below-knee orthosis, Proceedings of SPIE. Bd. 12876 : SPIE, 2024","bjps":"Shahane AM et al. (2024) Additively Manufactured Pressure Sensor for Embedding in 3D-Printed below-Knee Orthosis, Gu B and Chen H (eds). SPIE.","chicago":"Shahane, Akshay Manoj, Abhijeet Narendra Shrotri, Christian Wittenbröker, and Oliver Stübbe. Additively Manufactured Pressure Sensor for Embedding in 3D-Printed below-Knee Orthosis. Edited by Bo Gu and Hongqiang Chen. Laser 3D Manufacturing XI. Vol. 12876. Proceedings of SPIE. SPIE, 2024. https://doi.org/10.1117/12.2692220.","ieee":"A. M. Shahane, A. N. Shrotri, C. Wittenbröker, and O. Stübbe, Additively manufactured pressure sensor for embedding in 3D-printed below-knee orthosis, vol. 12876. SPIE, 2024. doi: 10.1117/12.2692220.","van":"Shahane AM, Shrotri AN, Wittenbröker C, Stübbe O. Additively manufactured pressure sensor for embedding in 3D-printed below-knee orthosis. Gu B, Chen H, editors. Laser 3D Manufacturing XI. SPIE; 2024. (Proceedings of SPIE; vol. 12876).","ama":"Shahane AM, Shrotri AN, Wittenbröker C, Stübbe O. Additively Manufactured Pressure Sensor for Embedding in 3D-Printed below-Knee Orthosis. Vol 12876. (Gu B, Chen H, eds.). SPIE; 2024. doi:10.1117/12.2692220"},"conference":{"name":"SPIE LASE","end_date":"2024-01-01","start_date":"2024-01-27","location":"San Francisco, California, United States"},"abstract":[{"text":"Additive manufacturing enables direct prototyping of complex 3D-objects that are difficult to manufacture using conventional methods. It is widely used to fabricate cost-efficient prototypes and portrays as a bridging technology to connect different scientific and industrial fields, e.g. Engineering, Medicine, etc. Consequently, additive manufacturing finds its applications in the production of patient-specific orthoses. This paper discusses the application of the stereolithography apparatus process to develop a pressure sensor based on an optical waveguide principle to embed into a below-knee orthosis. For Orthopaedic patients, the below-knee orthosis must be adjusted to the lower leg at regular intervals due to anthropometric changes in patient’s body to achieve proper mobility and correct load. Currently, this alteration relies on the patient’s estimation of support load and is only sub-optimal. Hence, the concept of developing an intelligent orthosis with a novel embedded optical system to monitor the exact support load at the neuralgic is proposed. ","lang":"eng"}],"department":[{"_id":"DEP5020"},{"_id":"DEP6020"}],"user_id":"51864","year":"2024","status":"public","date_updated":"2024-04-19T11:50:43Z","doi":"10.1117/12.2692220","type":"conference_editor_article","publisher":"SPIE","editor":[{"first_name":"Bo","last_name":"Gu","full_name":"Gu, Bo"},{"first_name":"Hongqiang","full_name":"Chen, Hongqiang","last_name":"Chen"}]},{"doi":"10.1117/12.3017000","date_updated":"2024-10-08T07:41:38Z","editor":[{"last_name":"von Freymann","full_name":"von Freymann, Georg","first_name":"Georg"},{"full_name":"Herkommer, Alois M.","last_name":"Herkommer","first_name":"Alois M."},{"first_name":"Manuel","full_name":"Flury, Manuel","last_name":"Flury"}],"publisher":"SPIE","type":"conference_editor_article","abstract":[{"text":"This paper proposes an innovative approach of manufacturing optical fibers using nozzle-mask-aided additive manufacturing. Nozzle-masks ease 3D-printing of optical fibers allowing the manufacturing or drawing of optical fibers of up to 10 μm diameter. These nozzle-masks feature a suction mechanism to prevent clogging of printhead and mask. The extrusion of Polymethyl-methacrylate material through the print-head and nozzle-mask simplifies the rapid prototyping of the optical fibers. ","lang":"eng"}],"conference":{"name":"3D Printed Optics and Additive Photonic Manufacturing IV","end_date":"2024-04-09","start_date":"2024-04-08","location":"Strasbourg"},"page":"12995 0A","status":"public","user_id":"74090","year":"2024","department":[{"_id":"DEP5020"},{"_id":"DEP6020"}],"title":"Design and simulation of a nozzle-mask for optical fiber 3D-printing","citation":{"ama":"Shrotri AN, Wittenbröker C, Preu S, Stübbe O. Design and Simulation of a Nozzle-Mask for Optical Fiber 3D-Printing. Vol 12995. (von Freymann G, Herkommer AM, Flury M, eds.). SPIE; 2024:12995 0A. doi:10.1117/12.3017000","van":"Shrotri AN, Wittenbröker C, Preu S, Stübbe O. Design and simulation of a nozzle-mask for optical fiber 3D-printing. von Freymann G, Herkommer AM, Flury M, editors. 3D Printed Optics and Additive Photonic Manufacturing IV. Bellingham, Washington, USA: SPIE; 2024. (Proceedings of SPIE; vol. 12995).","ieee":"A. N. Shrotri, C. Wittenbröker, S. Preu, and O. Stübbe, Design and simulation of a nozzle-mask for optical fiber 3D-printing, vol. 12995. Bellingham, Washington, USA: SPIE, 2024, p. 12995 0A. doi: 10.1117/12.3017000.","chicago":"Shrotri, Abhijeet Narendra, Christian Wittenbröker, Sascha Preu, and Oliver Stübbe. Design and Simulation of a Nozzle-Mask for Optical Fiber 3D-Printing. Edited by Georg von Freymann, Alois M. Herkommer, and Manuel Flury. 3D Printed Optics and Additive Photonic Manufacturing IV. Vol. 12995. Proceedings of SPIE. Bellingham, Washington, USA: SPIE, 2024. https://doi.org/10.1117/12.3017000.","din1505-2-1":"Shrotri, Abhijeet Narendra ; Wittenbröker, Christian ; Preu, Sascha ; Stübbe, Oliver ; von Freymann, G. ; Herkommer, A. M. ; Flury, M. (Hrsg.): Design and simulation of a nozzle-mask for optical fiber 3D-printing, Proceedings of SPIE. Bd. 12995. Bellingham, Washington, USA : SPIE, 2024","bjps":"Shrotri AN et al. (2024) Design and Simulation of a Nozzle-Mask for Optical Fiber 3D-Printing, von Freymann G, Herkommer AM and Flury M (eds). Bellingham, Washington, USA: SPIE.","havard":"A.N. Shrotri, C. Wittenbröker, S. Preu, O. Stübbe, Design and simulation of a nozzle-mask for optical fiber 3D-printing, SPIE, Bellingham, Washington, USA, 2024.","chicago-de":"Shrotri, Abhijeet Narendra, Christian Wittenbröker, Sascha Preu und Oliver Stübbe. 2024. Design and simulation of a nozzle-mask for optical fiber 3D-printing. Hg. von Georg von Freymann, Alois M. Herkommer, und Manuel Flury. 3D Printed Optics and Additive Photonic Manufacturing IV. Bd. 12995. Proceedings of SPIE. Bellingham, Washington, USA: SPIE. doi:10.1117/12.3017000, .","ufg":"Shrotri, Abhijeet Narendra u. a.: Design and simulation of a nozzle-mask for optical fiber 3D-printing, Bd. 12995, hg. von Freymann, Georg von/Herkommer, Alois M./Flury, Manuel, Bellingham, Washington, USA 2024 (Proceedings of SPIE).","apa":"Shrotri, A. N., Wittenbröker, C., Preu, S., & Stübbe, O. (2024). Design and simulation of a nozzle-mask for optical fiber 3D-printing. In G. von Freymann, A. M. Herkommer, & M. Flury (Eds.), 3D Printed Optics and Additive Photonic Manufacturing IV (Vol. 12995, p. 12995 0A). SPIE. https://doi.org/10.1117/12.3017000","mla":"Shrotri, Abhijeet Narendra, et al. “Design and Simulation of a Nozzle-Mask for Optical Fiber 3D-Printing.” 3D Printed Optics and Additive Photonic Manufacturing IV, edited by Georg von Freymann et al., vol. 12995, SPIE, 2024, p. 12995 0A, https://doi.org/10.1117/12.3017000.","short":"A.N. Shrotri, C. Wittenbröker, S. Preu, O. Stübbe, Design and Simulation of a Nozzle-Mask for Optical Fiber 3D-Printing, SPIE, Bellingham, Washington, USA, 2024."},"place":"Bellingham, Washington, USA","publication_status":"published","volume":12995,"date_created":"2024-06-24T08:16:25Z","language":[{"iso":"eng"}],"author":[{"full_name":"Shrotri, Abhijeet Narendra","last_name":"Shrotri","id":"74090","first_name":"Abhijeet Narendra","orcid":"0000-0003-2116-156X"},{"full_name":"Wittenbröker, Christian","id":"83111","last_name":"Wittenbröker","first_name":"Christian"},{"first_name":"Sascha","last_name":"Preu","full_name":"Preu, Sascha"},{"orcid":"https://orcid.org/0000-0001-7293-6893","first_name":"Oliver","id":"51864","last_name":"Stübbe","full_name":"Stübbe, Oliver"}],"intvolume":" 12995","publication_identifier":{"eisbn":["9781510673090"],"isbn":["9781510673083"],"eissn":["1996-756X "],"issn":["0277-786X "]},"_id":"11594","publication":"3D Printed Optics and Additive Photonic Manufacturing IV","series_title":"Proceedings of SPIE"},{"abstract":[{"text":"The ability to manufacture complex 3D-objects directly from its CAD model is the important reason why additive manufacturing is being widely used to fabricate cost-efficient prototypes and preferred over conventional manufacturing methods. Moreover, it portrays as a bridging technology to connect different scientific and industrial fields, e.g. Engineering, Medicine, etc. Consequently, additive manufacturing finds its applications in the production of patient-specific orthoses. This paper discusses the development of a pressure sensor based on an optical waveguide principle manufactured using stereolithography apparatus process to embed into a below-knee orthosis. For Orthopedic patients, the below-knee orthosis must be adjusted to the lower leg at regular intervals due to anthropometric changes in patient’s body to achieve proper mobility and correct load. Currently, this alteration relies on the patient’s estimation of support load which is only sub-optimal. Hence, the concept of developing an intelligent orthosis with a novel embedded optical system to monitor the exact support load at the neuralgic is proposed.","lang":"eng"}],"conference":{"location":"Strasbourg","name":"3D Printed Optics and Additive Photonic Manufacturing IV","start_date":"2024-04-08","end_date":"2024-04-09"},"status":"public","user_id":"83781","year":"2024","department":[{"_id":"DEP5020"},{"_id":"DEP6020"}],"date_updated":"2024-07-17T13:02:26Z","doi":"10.1117/12.3016629","publisher":"SPIE","editor":[{"full_name":"von Freymann, Georg","last_name":"von Freymann","first_name":"Georg"},{"first_name":"Alois M.","last_name":"Herkommer","full_name":"Herkommer, Alois M."},{"first_name":"Manuel","full_name":"Flury, Manuel","last_name":"Flury"}],"type":"conference_editor_article","_id":"11595","publication":"3D Printed Optics and Additive Photonic Manufacturing IV","series_title":"Proceedings of SPIE","title":"Manufacturing of solid core optical waveguide based pressure sensor for 3D-printed below-knee orthosis","place":"Bellingham, Washington, USA","citation":{"ieee":"A. M. Shahane, A. N. Shrotri, C. Wittenbröker, and O. Stübbe, Manufacturing of solid core optical waveguide based pressure sensor for 3D-printed below-knee orthosis, vol. 12995. Bellingham, Washington, USA: SPIE, 2024. doi: 10.1117/12.3016629.","ama":"Shahane AM, Shrotri AN, Wittenbröker C, Stübbe O. Manufacturing of Solid Core Optical Waveguide Based Pressure Sensor for 3D-Printed below-Knee Orthosis. Vol 12995. (von Freymann G, Herkommer AM, Flury M, eds.). SPIE; 2024. doi:10.1117/12.3016629","van":"Shahane AM, Shrotri AN, Wittenbröker C, Stübbe O. Manufacturing of solid core optical waveguide based pressure sensor for 3D-printed below-knee orthosis. von Freymann G, Herkommer AM, Flury M, editors. 3D Printed Optics and Additive Photonic Manufacturing IV. Bellingham, Washington, USA: SPIE; 2024. (Proceedings of SPIE; vol. 12995).","bjps":"Shahane AM et al. (2024) Manufacturing of Solid Core Optical Waveguide Based Pressure Sensor for 3D-Printed below-Knee Orthosis, von Freymann G, Herkommer AM and Flury M (eds). Bellingham, Washington, USA: SPIE.","din1505-2-1":"Shahane, Akshay Manoj ; Shrotri, Abhijeet Narendra ; Wittenbröker, Christian ; Stübbe, Oliver ; von Freymann, G. ; Herkommer, A. M. ; Flury, M. (Hrsg.): Manufacturing of solid core optical waveguide based pressure sensor for 3D-printed below-knee orthosis, Proceedings of SPIE. Bd. 12995. Bellingham, Washington, USA : SPIE, 2024","chicago":"Shahane, Akshay Manoj, Abhijeet Narendra Shrotri, Christian Wittenbröker, and Oliver Stübbe. Manufacturing of Solid Core Optical Waveguide Based Pressure Sensor for 3D-Printed below-Knee Orthosis. Edited by Georg von Freymann, Alois M. Herkommer, and Manuel Flury. 3D Printed Optics and Additive Photonic Manufacturing IV. Vol. 12995. Proceedings of SPIE. Bellingham, Washington, USA: SPIE, 2024. https://doi.org/10.1117/12.3016629.","havard":"A.M. Shahane, A.N. Shrotri, C. Wittenbröker, O. Stübbe, Manufacturing of solid core optical waveguide based pressure sensor for 3D-printed below-knee orthosis, SPIE, Bellingham, Washington, USA, 2024.","short":"A.M. Shahane, A.N. Shrotri, C. Wittenbröker, O. Stübbe, Manufacturing of Solid Core Optical Waveguide Based Pressure Sensor for 3D-Printed below-Knee Orthosis, SPIE, Bellingham, Washington, USA, 2024.","apa":"Shahane, A. M., Shrotri, A. N., Wittenbröker, C., & Stübbe, O. (2024). Manufacturing of solid core optical waveguide based pressure sensor for 3D-printed below-knee orthosis. In G. von Freymann, A. M. Herkommer, & M. Flury (Eds.), 3D Printed Optics and Additive Photonic Manufacturing IV (Vol. 12995). SPIE. https://doi.org/10.1117/12.3016629","mla":"Shahane, Akshay Manoj, et al. “Manufacturing of Solid Core Optical Waveguide Based Pressure Sensor for 3D-Printed below-Knee Orthosis.” 3D Printed Optics and Additive Photonic Manufacturing IV, edited by Georg von Freymann et al., vol. 12995, SPIE, 2024, https://doi.org/10.1117/12.3016629.","ufg":"Shahane, Akshay Manoj u. a.: Manufacturing of solid core optical waveguide based pressure sensor for 3D-printed below-knee orthosis, Bd. 12995, hg. von Freymann, Georg von/Herkommer, Alois M./Flury, Manuel, Bellingham, Washington, USA 2024 (Proceedings of SPIE).","chicago-de":"Shahane, Akshay Manoj, Abhijeet Narendra Shrotri, Christian Wittenbröker und Oliver Stübbe. 2024. Manufacturing of solid core optical waveguide based pressure sensor for 3D-printed below-knee orthosis. Hg. von Georg von Freymann, Alois M. Herkommer, und Manuel Flury. 3D Printed Optics and Additive Photonic Manufacturing IV. Bd. 12995. Proceedings of SPIE. Bellingham, Washington, USA: SPIE. doi:10.1117/12.3016629, ."},"language":[{"iso":"eng"}],"date_created":"2024-06-24T08:17:52Z","publication_status":"published","volume":12995,"intvolume":" 12995","author":[{"full_name":"Shahane, Akshay Manoj","id":"82525","last_name":"Shahane","first_name":"Akshay Manoj"},{"orcid":"0000-0003-2116-156X","full_name":"Shrotri, Abhijeet Narendra","id":"74090","last_name":"Shrotri","first_name":"Abhijeet Narendra"},{"full_name":"Wittenbröker, Christian","id":"83111","last_name":"Wittenbröker","first_name":"Christian"},{"first_name":"Oliver","full_name":"Stübbe, Oliver","id":"51864","last_name":"Stübbe","orcid":"https://orcid.org/0000-0001-7293-6893"}],"publication_identifier":{"isbn":["9781510673083"],"eissn":["1996-756X"],"issn":["0277-786X"],"eisbn":["9781510673090"]}}]