Add to ORKGThe complex anatomical structure of the brain and the vulnerability of its tissues make difficult to reach targets located in deep brain areas with rigid needles without causing damages to the adjacent tissues. Steerable catheter technology allows accessibility to the difficult anatomy. Since a steerable catheter can only unfold its full potential when following the best trajectory within the brain, there is the need of pre-operatively planning the path of the probe minimizing length of the trajectory and maximizing distance to vessels, while respecting the kinematic constraints of the catheter. Among path planning methods for surgical steerable catheters, graph based and the sampling based methods, are unable in approaching human level, g...
This thesis explores novel human-machine interface hardware, methods and algorithms for robotic assi...
The treatment of cerebro- and cardiovascular diseases requires complex and challenging navigation of...
A major challenge during autonomous navigation in endovascular interventions is the complexity of op...
The complex anatomical structure of the brain and the vulnerability of its tissues make difficult to...
Objective: This paper presents a safe and effective keyhole neurosurgery intra-operative planning fr...
Path planning algorithms for steerable catheters, must guarantee anatomical obstacles avoidance, red...
Endovascular intervention has become a mainstream treatment of cardiovascular diseases. However, mul...
Autonomous robots in endovascular operations have the potential to navigate circulatory systems safe...
Structural Intervention Cardiology (SIC) is a miniinvasive intervention with a catheter based approa...
Structural Intervention Cardiology (SIC) is a miniinvasive intervention with a catheter based approa...
The present work describes a novel approach to trajectory planning for minimally invasive surgery co...
Purpose Endovascular intervention is limited by two-dimensional intraoperative imaging and prolonged...
Endovascular catheters are used for state of the art therapies of many widespread diseases. Navigati...
Abstract – There is an increasing realization that Minimally Invasive Surgery (MIS) is a specialized...
This thesis explores novel human-machine interface hardware, methods and algorithms for robotic assi...
The treatment of cerebro- and cardiovascular diseases requires complex and challenging navigation of...
A major challenge during autonomous navigation in endovascular interventions is the complexity of op...
The complex anatomical structure of the brain and the vulnerability of its tissues make difficult to...
Objective: This paper presents a safe and effective keyhole neurosurgery intra-operative planning fr...
Path planning algorithms for steerable catheters, must guarantee anatomical obstacles avoidance, red...
Endovascular intervention has become a mainstream treatment of cardiovascular diseases. However, mul...
Autonomous robots in endovascular operations have the potential to navigate circulatory systems safe...
Structural Intervention Cardiology (SIC) is a miniinvasive intervention with a catheter based approa...
Structural Intervention Cardiology (SIC) is a miniinvasive intervention with a catheter based approa...
The present work describes a novel approach to trajectory planning for minimally invasive surgery co...
Purpose Endovascular intervention is limited by two-dimensional intraoperative imaging and prolonged...
Endovascular catheters are used for state of the art therapies of many widespread diseases. Navigati...
Abstract – There is an increasing realization that Minimally Invasive Surgery (MIS) is a specialized...
This thesis explores novel human-machine interface hardware, methods and algorithms for robotic assi...
The treatment of cerebro- and cardiovascular diseases requires complex and challenging navigation of...
A major challenge during autonomous navigation in endovascular interventions is the complexity of op...
