Call us 0808 208 5221
News & Insights - Student creates 3D model of kidney...

Student creates 3D model of kidney that could help train cancer surgeons

The 3D model was developed by Glasgow School of Art masters student Lisa Ferrie, could help train cancer surgeons

A student has used 3D printing technology to create a model of a kidney that could be used to help train cancer surgeons.

The model created by Glasgow School of Art (GSA) student Lisa Ferrie could help surgeons hone their skills in performing a robot-assisted laparoscopic partial nephrectomy – a procedure that removes part of the kidney affected by a tumour.

This type of training in robotic surgery is currently provided by virtual reality simulators as well as cadaveric and animal models which are expensive and not widely available.

Miss Ferrie, a medical visualisation and human anatomy masters student at the School of Visualisation and Simulation, worked with medical experts to develop the model.

Kidney model
The model kidney is filled with hydrogels that can simulate human tissue (Lisa Ferrie/PA)

She said: “There is an increasing incidence of kidney cancer within the UK and where possible surgeons will use a procedure known as a partial nephrectomy to treat it.

“The procedure removes only the part of the kidney affected by the tumour, which is done to preserve as much kidney function as possible while still removing the cancer. This procedure is very technically challenging and can only be performed by a few very skilled surgeons.

“I have a background in medical sciences and have developed a passion for improving medical education, clinical practice and patient care through the application of technology.

“The decision to focus on kidney cancer and the development of a surgical training model for robot-assisted laparoscopic partial nephrectomy was due to both my academic interest in the kidney and because the disease has personally affected my family.”

Starting with a CT scan from a patient who had kidney cancer, Miss Ferrie used 3D-printing technology to develop and evaluate an anatomically accurate, low-cost surgical training model of a kidney with a tumour.

Anatomically-accurate 3D moulds are printed which are then filled with hydrogels capable of simulating human tissue.

Surgeons and trainees can then use the model to hone their skills in robotic surgery.

Miss Ferrie is now keen to take forward her research and further develop the model.

As robotic surgery becomes more widely used in urology, this type of model will be invaluable

Fiona Rodger Urology specialist registrar

She worked closely with experts including consultant urological surgeon Grenville Oades and urology specialist registrar Flora Rodger, who are both based at the Queen Elizabeth University Hospital in Glasgow, and with the school of biomedical engineering at Glasgow University.

Mr Oades said: “The model looked and felt real.

“Overall I thought this model provided an excellent opportunity to practice a complex surgical technique in a non-virtual reality environment and would be very keen to incorporate it into surgical training.”

Miss Rodger said: “This realistic model provides a safe environment to develop skills in robotic surgery that would otherwise be reserved for later stages of training.

“It also allows you to get a feel for the instruments and tissue handling in a way that online modules struggle to recreate.

“As robotic surgery becomes more widely used in urology, this type of model will be invaluable.”

Miss Ferrie’s work will be on display in the GSA graduate degree show at Glasgow’s McLellan Galleries from August 23-29.

Investing in research and development is putting businesses ahead within their markets and with the ability to claim back some of the spend through the R&D tax credit scheme, it is worrying that more companies are not taking advantage of these government incentives.

If your business is developing something new, or improving an existing product or service, get in touch to find out whether you could benefit from government funding.