Silicone-based composites as surgical breast models for oncoplasty training

Kılıç, Deniz and Üstbaş, Burçin and Budak, Ece Polen and Eyisoylu, Hande and Yılmaz, Cem and Eldem, Barkin and Akbulut, Özge (2016) Silicone-based composites as surgical breast models for oncoplasty training. In: Humanitarian Technology: Science, Systems and Global Impact (HumTech2016), Boston, United States

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Official URL: http://dx.doi.org/10.1016/j.proeng.2016.08.131


Surgeons-in-training necessitate practice to improve their skill sets and the shift towards simulation-based trainings enables trainees to learn at their own pace and experience custom-based cases rather than responding to the immediate needs of the patients. Oncoplasty for breast cancer encompasses tumor removal and subsequent breast reconstruction; and there are several oncoplastic techniques to master for proper treatment of the patients. For training purposes, closest media to reality, fresh cadavers, are hard to obtain due to their price and/or unavailability. There is a need for a sustainable, reliable, and affordable platform to diffuse simulation-based trainings to medical curricula and provide trainings even in resource-limited settings. Silicone-based composite models can be designed and manufactured to fulfil the necessities of breast surgery such as precise incision, epidermal undermining, suturing, and resisting suture tension after excision of a considerable mass. We have shown the performance of such a stand-alone breast model for two oncoplastic techniques, “Batwing Mammoplasty” and “Modified Inferior Flap Rezai”. This model can be used in settings where it is difficult and/or expensive to find fresh cadavers. This cost-effective and practical solution also eliminates the need for chemical/cold storage and risk of infections/molding, thus making it a preferable tool for teaching hospitals and also for individual practice. In addition, the model is suitable to be used in self-diagnosis trainings, as well as a communication platform between surgeons and patients.

Item Type:Papers in Conference Proceedings
Uncontrolled Keywords:Surgical simulation; surgical model; breast model; oncoplasty
Subjects:T Technology > TA Engineering (General). Civil engineering (General) > TA401-492 Materials of engineering and construction. Mechanics of materials
ID Code:29830
Deposited By:Özge Akbulut
Deposited On:12 Nov 2016 22:24
Last Modified:12 Nov 2016 22:24

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