Body & Mind

ProjectDR allows doctors to "see into" patients' bodies

View 3 Images
ProjectDR is demonstrated on a mannequin
University of Alberta
ProjectDR is demonstrated on a mannequin
University of Alberta
ProjectDR projects previously-obtained CT or MRI images onto the skin, so that they line up with the corresponding parts of the patient
University of Alberta
The current ProjectDR setup
University of Alberta
View gallery - 3 images

Imagine if doctors could see through a patient's skin, and their perspective of the underlying bones and organs changed accordingly as the person moved around. Well, that's what scientists at the University of Alberta have developed – kind of. It's still in the experimental phase, and is known as ProjectDR.

The technology doesn't actually make the skin transparent, nor does it provide real-time images of the insides of the patient. Instead, it projects previously-obtained three-dimensional CT or MRI images onto the skin, so that they line up with the corresponding parts of the patient.

The system incorporates a projector, infrared cameras, and markers that are placed in strategic locations on the patient's body. The cameras track those markers, allowing the system to know the orientation of the body, so that the images projected onto the skin can move as the patient does.

ProjectDR projects previously-obtained CT or MRI images onto the skin, so that they line up with the corresponding parts of the patient
University of Alberta

It's also possible for the system to project segmented images, such as only the lungs or only the blood vessels, depending on what the situation calls for.

"There are lots of applications for this technology, including in teaching, physiotherapy, laparoscopic surgery and even surgical planning," says Ian Watts, a computing science graduate student who created the system along with grad student Michael Fiest.

ProjectDR is demonstrated in the video below.

Source: University of Alberta

View gallery - 3 images
  • Facebook
  • Twitter
  • Flipboard
  • LinkedIn
1 comment
Sergius
This important advance in the field of imaging diagnosis can be associated with existing holographic and three-dimensional imaging processes, providing more accurate diagnoses and much more surgical safety.