Engineering a clearer view of bone healing

Healing a broken bone can take months, and knowing whether recovery is on track often takes just as long. Doctors typically rely on periodic X-rays, capturing two-dimensional images to see how the bone is growing back together. Patients return for follow-up scans every few weeks or months, repeating the cycle until the bone shows signs of complete healing.

Healing of shin bone (tibia) fractures, in particular, slows or stalls up to 25% of the time. Factors such as age or underlying health conditions like diabetes can influence the speed of fracture healing. Delayed or incomplete healing can lead to long-term pain and ongoing medical care.

A new five-year, approximately $3 million project led by University of Delaware mechanical engineer Michael Hast seeks to develop radiation-free imaging techniques that identify problems with bone healing sooner. Supported by an R01 grant from the National Institutes of Health, the work strives to help health care providers take a more proactive approach to addressing problems with bone healing. If successful, this approach could enable faster, more personalized patient care.

Hast's lab develops and uses 3D computational models to estimate the strength of a healing bone. Such models allow the team to simulate real-world stresses, such as twisting, to evaluate how sturdy a fracture is as it mends. Traditionally, these personalized models have been built from computed tomography (CT) scans. The drawback is that each CT scan exposes patients to ionizing radiation, which can be harmful with frequent exposure.

Recent advances in magnetic resonance imaging (MRI) are giving researchers a new way to look at bones without exposing patients to radiation. While standard MRI technology provides detailed views of soft tissues, it struggles with hard, dense bone. A new approach called ultrashort echo time MRI now makes it possible to quickly capture detailed images of healing bone fractures.

"The ability to perform radiation-free imaging of the healing bone is a game-changer," said Hast. "With enough data, we should be able to identify problems with fracture healing much earlier. This could guide treatment decisions, such as adjusting physical therapy routines or activity levels."