Home /Research /A novel 3D-printed hybrid simulation model for robotic-assisted kidney transplantation (RAKT)
SURGICAL

A novel 3D-printed hybrid simulation model for robotic-assisted kidney transplantation (RAKT)

Raphael Uwechue, Petruţ Gogălniceanu, Nicos Kessaris, Nick Byrne, Pankaj Chandak, Jonathon Olsburgh, Kamran Ahmed, Nizam Mamode, Ioannis Loukopoulos

Year
2018
Citations
33
Access
Open access

Abstract

Robotic-assisted kidney transplantation (RAKT) offers key benefits for patients that have been demonstrated in several studies. A barrier to the wider uptake of RAKT is surgical skill acquisition. This is exacerbated by the challenges of modern surgery with reduced surgical training time, patient safety concerns and financial pressures. Simulation is a well-established method of developing surgical skill in a safe and controlled environment away from the patient. We have developed a 3D printed simulation model for the key step of the kidney transplant operation which is the vascular anastomosis. The model is anatomically accurate, based on the CT scans of patients and it incorporates deceased donor vascular tissue. Crucially, it was developed to be used in the robotic operating theatre with the operating robot to enhance its fidelity. It is portable and relatively inexpensive when compared with other forms of simulation such as virtual reality or animal lab training. It thus has the potential of being more accessible as a training tool for the safe acquisition of RAKT specific skills. We demonstrate this model here.

Keywords

Medicine3d printedTransplantationKey (lock)FidelityVirtual realityAnastomosisMedical physics3d modelRobot

Related papers

Browse all SURGICAL papers