Research strategy on developing additive manufactured bespoke ophthalmic instruments assisted by an online integrated platform

School of Engineering

Associated organisational unit

Structures, Materials and Manufacturing

Keywords

bespoke opthalmic instruments, medical informatics, additive manufacturing, functional analysis

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Research output: Contribution to Journal/Magazine › Journal article › peer-review

Published

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Research strategy on developing additive manufactured bespoke ophthalmic instruments assisted by an online integrated platform. / Lupeanu, Mihaela; Rennie, Allan; Rosu, Maria-Magdalena et al.
In: Buletinul Ştiinţific al Universităţii Politehnica Bucureşti, Seria D – Inginerie Mecanică, Vol. 76, No. 2, 04.2014, p. 143-162.

Research output: Contribution to Journal/Magazine › Journal article › peer-review

Harvard

Lupeanu, M, Rennie, A, Rosu, M-M & Moagar-Poladian, G 2014, 'Research strategy on developing additive manufactured bespoke ophthalmic instruments assisted by an online integrated platform', Buletinul Ştiinţific al Universităţii Politehnica Bucureşti, Seria D – Inginerie Mecanică, vol. 76, no. 2, pp. 143-162. <http://www.scientificbulletin.upb.ro/rev_docs_arhiva/reze43_223540.pdf>

APA

Lupeanu, M., Rennie, A., Rosu, M-M., & Moagar-Poladian, G. (2014). Research strategy on developing additive manufactured bespoke ophthalmic instruments assisted by an online integrated platform. Buletinul Ştiinţific al Universităţii Politehnica Bucureşti, Seria D – Inginerie Mecanică, 76(2), 143-162. http://www.scientificbulletin.upb.ro/rev_docs_arhiva/reze43_223540.pdf

Vancouver

Lupeanu M, Rennie A, Rosu M-M, Moagar-Poladian G. Research strategy on developing additive manufactured bespoke ophthalmic instruments assisted by an online integrated platform. Buletinul Ştiinţific al Universităţii Politehnica Bucureşti, Seria D – Inginerie Mecanică. 2014 Apr;76(2):143-162.

Author

Lupeanu, Mihaela ; Rennie, Allan ; Rosu, Maria-Magdalena et al. / Research strategy on developing additive manufactured bespoke ophthalmic instruments assisted by an online integrated platform. In: Buletinul Ştiinţific al Universităţii Politehnica Bucureşti, Seria D – Inginerie Mecanică. 2014 ; Vol. 76, No. 2. pp. 143-162.

Bibtex

@article{19e7a8c899bc470a8dc57543898ba10f,

title = "Research strategy on developing additive manufactured bespoke ophthalmic instruments assisted by an online integrated platform",

abstract = "Globally, the number of people of all ages visually impaired is estimated to be 285 million. Almost half of these visual impairments require surgical intervention by means of treatment. The current paper proposes a theoretical research strategy to set the background on developing innovative and affordable solutions to the global problem of accessibility to ophthalmological corrective surgeries. These solutions are reflected both in the application of additive manufacturing (AM) technologies to obtain bespoke ophthalmic surgical instruments and in providing a set of software tools designed to assist the medical process for improved overall results.",

keywords = "bespoke opthalmic instruments, medical informatics, additive manufacturing, functional analysis",

author = "Mihaela Lupeanu and Allan Rennie and Maria-Magdalena Rosu and Gabriel Moagar-Poladian",

year = "2014",

month = apr,

language = "English",

volume = "76",

pages = "143--162",

journal = "Buletinul {\c S}tiin{\c t}ific al Universit{\u a}{\c t}ii Politehnica Bucure{\c s}ti, Seria D – Inginerie Mecanic{\u a}",

issn = "1454-2358",

publisher = "Politechnica University of Bucharest",

number = "2",

}

RIS

TY - JOUR

T1 - Research strategy on developing additive manufactured bespoke ophthalmic instruments assisted by an online integrated platform

AU - Lupeanu, Mihaela

AU - Rennie, Allan

AU - Rosu, Maria-Magdalena

AU - Moagar-Poladian, Gabriel

PY - 2014/4

Y1 - 2014/4

N2 - Globally, the number of people of all ages visually impaired is estimated to be 285 million. Almost half of these visual impairments require surgical intervention by means of treatment. The current paper proposes a theoretical research strategy to set the background on developing innovative and affordable solutions to the global problem of accessibility to ophthalmological corrective surgeries. These solutions are reflected both in the application of additive manufacturing (AM) technologies to obtain bespoke ophthalmic surgical instruments and in providing a set of software tools designed to assist the medical process for improved overall results.

AB - Globally, the number of people of all ages visually impaired is estimated to be 285 million. Almost half of these visual impairments require surgical intervention by means of treatment. The current paper proposes a theoretical research strategy to set the background on developing innovative and affordable solutions to the global problem of accessibility to ophthalmological corrective surgeries. These solutions are reflected both in the application of additive manufacturing (AM) technologies to obtain bespoke ophthalmic surgical instruments and in providing a set of software tools designed to assist the medical process for improved overall results.

KW - bespoke opthalmic instruments

KW - medical informatics

KW - additive manufacturing

KW - functional analysis

M3 - Journal article

VL - 76

SP - 143

EP - 162

JO - Buletinul Ştiinţific al Universităţii Politehnica Bucureşti, Seria D – Inginerie Mecanică

JF - Buletinul Ştiinţific al Universităţii Politehnica Bucureşti, Seria D – Inginerie Mecanică

SN - 1454-2358

IS - 2

ER -

Research

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