Studying joint kinematics is of interest to improve prosthesis design and to characterize postoperative motion. State of the art techniques register bones segmented from prior computed tomography or magnetic resonance scans with X-ray fluoroscopic sequences. Elimination of the prior 3D acquisition could potentially lower costs and radiation dose. Therefore, we propose to substitute the segmented bone surface with a statistical shape model based estimate. A dedicated dynamic reconstruction and tracking algorithm was developed estimating the shape based on all frames, and pose per frame. The algorithm minimizes the difference between the projected bone contour and image edges. To increase robustness, we employ a dynamic prior, image features,...
Seventeen bones (sixteen cadaveric bones and one plastic bone) were used to validate a method for re...
The kinematic analysis of joint motion has proven to significantly improve orthopedic surgeries by e...
3D video-fluoroscopy can accurately estimate in-vivo kinematics of joint prosthesis. To this aim, fo...
Studying joint kinematics is of interest to improve prosthesis design and to characterize postoperat...
Three-dimensional patient specific bone models are required in a range of medical applications, such...
State-of-the-art fluoroscopic knee kinematic analysis methods require the patient-specific bone shap...
PURPOSE: Precise knee kinematics assessment helps to diagnose knee pathologies and to improve the d...
In orthopedic surgery, precise kinematics assessment helps the diagnosis and the planning of the int...
The reliable knowledge that model-based three-dimensional (3D) fluoroscopy can provide about in vivo...
Reconstruction of patient-specific 3D bone surface from 2D calibrated fluoroscopic images and a poin...
Fluoroscopic analysis is an important tool for assessing in vivo kinematics of knee prostheses. Most...
To understand the kinematic effects of surgery, arthroplasty or conservative treatments, a noninvasi...
We present a novel framework for inferring 3D carpal bone kinematics and bone shapes from a single v...
We present a novel framework for estimating the 3D poses and shapes of the carpal bones from single ...
An in-silico assessment of the performance of 3D video-fluoroscopy for the analysis of the kinemati...
Seventeen bones (sixteen cadaveric bones and one plastic bone) were used to validate a method for re...
The kinematic analysis of joint motion has proven to significantly improve orthopedic surgeries by e...
3D video-fluoroscopy can accurately estimate in-vivo kinematics of joint prosthesis. To this aim, fo...
Studying joint kinematics is of interest to improve prosthesis design and to characterize postoperat...
Three-dimensional patient specific bone models are required in a range of medical applications, such...
State-of-the-art fluoroscopic knee kinematic analysis methods require the patient-specific bone shap...
PURPOSE: Precise knee kinematics assessment helps to diagnose knee pathologies and to improve the d...
In orthopedic surgery, precise kinematics assessment helps the diagnosis and the planning of the int...
The reliable knowledge that model-based three-dimensional (3D) fluoroscopy can provide about in vivo...
Reconstruction of patient-specific 3D bone surface from 2D calibrated fluoroscopic images and a poin...
Fluoroscopic analysis is an important tool for assessing in vivo kinematics of knee prostheses. Most...
To understand the kinematic effects of surgery, arthroplasty or conservative treatments, a noninvasi...
We present a novel framework for inferring 3D carpal bone kinematics and bone shapes from a single v...
We present a novel framework for estimating the 3D poses and shapes of the carpal bones from single ...
An in-silico assessment of the performance of 3D video-fluoroscopy for the analysis of the kinemati...
Seventeen bones (sixteen cadaveric bones and one plastic bone) were used to validate a method for re...
The kinematic analysis of joint motion has proven to significantly improve orthopedic surgeries by e...
3D video-fluoroscopy can accurately estimate in-vivo kinematics of joint prosthesis. To this aim, fo...