We present a novel framework for estimating the 3D poses and shapes of the carpal bones from single view fluoroscopic sequences. A hybrid statistical model representing both the pose and shape variation of the carpal bones is built, based on a number of 3D CT data sets obtained from different subjects at different poses. Given a fluoroscopic sequence, the wrist pose, carpal bone pose and bone shapes are estimated iteratively by matching the statistical model with the 2D images. A specially designed cost function enables smoothed parameter estimation across frames and constrains local bone pose with a penalty term. We have evaluated the proposed method on both simulated data and real fluoroscopic sequences and demonstrated that the relative ...
Segmentation of the carpal bones from 3D imaging modalities, such as magnetic resonance imaging (MRI...
The human wrist contains eight carpal bones in which the scaphoid plays a key role in carpal stabili...
Three-dimensional patient specific bone models are required in a range of medical applications, such...
We present a novel framework for estimating the 3D poses and shapes of the carpal bones from single ...
We present a novel framework for inferring 3D carpal bone kinematics and bone shapes from a single v...
Statistical analysis of motion patterns of body joints is potentially useful for detecting and quant...
Carpal instability occurs when the wrist bones assume a pathological posture, e.g. due to ligament r...
An in-silico assessment of the performance of 3D video-fluoroscopy for the analysis of the kinemati...
The reliable knowledge that model-based three-dimensional (3D) fluoroscopy can provide about in vivo...
A three-dimensional (3D) CT technique was developed to analyze in vivo segmental carpal kinematics. ...
The authors developed a 3D CT technique to analyze in vivo variations in carpal bone position based ...
Objective. The purpose of this study was to accurately quantify three-dimensional in vivo kinematics...
The carpus is an articulation of eight bones that display complex, small, multidirectional behaviour...
For wrist complaints related to motion, a 2D radiograph or CT scan of the static wrist may not alway...
Studying joint kinematics is of interest to improve prosthesis design and to characterize postoperat...
Segmentation of the carpal bones from 3D imaging modalities, such as magnetic resonance imaging (MRI...
The human wrist contains eight carpal bones in which the scaphoid plays a key role in carpal stabili...
Three-dimensional patient specific bone models are required in a range of medical applications, such...
We present a novel framework for estimating the 3D poses and shapes of the carpal bones from single ...
We present a novel framework for inferring 3D carpal bone kinematics and bone shapes from a single v...
Statistical analysis of motion patterns of body joints is potentially useful for detecting and quant...
Carpal instability occurs when the wrist bones assume a pathological posture, e.g. due to ligament r...
An in-silico assessment of the performance of 3D video-fluoroscopy for the analysis of the kinemati...
The reliable knowledge that model-based three-dimensional (3D) fluoroscopy can provide about in vivo...
A three-dimensional (3D) CT technique was developed to analyze in vivo segmental carpal kinematics. ...
The authors developed a 3D CT technique to analyze in vivo variations in carpal bone position based ...
Objective. The purpose of this study was to accurately quantify three-dimensional in vivo kinematics...
The carpus is an articulation of eight bones that display complex, small, multidirectional behaviour...
For wrist complaints related to motion, a 2D radiograph or CT scan of the static wrist may not alway...
Studying joint kinematics is of interest to improve prosthesis design and to characterize postoperat...
Segmentation of the carpal bones from 3D imaging modalities, such as magnetic resonance imaging (MRI...
The human wrist contains eight carpal bones in which the scaphoid plays a key role in carpal stabili...
Three-dimensional patient specific bone models are required in a range of medical applications, such...