Automatic Probe Movement Guidance for Freehand Obstetric Ultrasound
This system can lower the required operator expertise for obstetric ultrasound scanning, potentially aiding worldwide deployment, though it is incremental as it builds on existing ultrasound guidance methods.
The authors tackled the problem of acquiring standard planes in freehand obstetric ultrasound by developing the first real-time probe movement guidance system, achieving accuracies of 88.8% for goal prediction and 90.9% for action prediction.
We present the first system that provides real-time probe movement guidance for acquiring standard planes in routine freehand obstetric ultrasound scanning. Such a system can contribute to the worldwide deployment of obstetric ultrasound scanning by lowering the required level of operator expertise. The system employs an artificial neural network that receives the ultrasound video signal and the motion signal of an inertial measurement unit (IMU) that is attached to the probe, and predicts a guidance signal. The network termed US-GuideNet predicts either the movement towards the standard plane position (goal prediction), or the next movement that an expert sonographer would perform (action prediction). While existing models for other ultrasound applications are trained with simulations or phantoms, we train our model with real-world ultrasound video and probe motion data from 464 routine clinical scans by 17 accredited sonographers. Evaluations for 3 standard plane types show that the model provides a useful guidance signal with an accuracy of 88.8% for goal prediction and 90.9% for action prediction.