about
Magnetic resonance elastography: a general overview of its current and future applications in brain imaging.Minimally disruptive needle insertion: a biologically inspired solutionMethod to Reduce Target Motion Through Needle-Tissue InteractionsRobotic control in knee joint replacement surgery.Computer-assisted hip resurfacing surgery using the acrobot navigation system.A review of medical robotics for minimally invasive soft tissue surgery.Highly resolved strain imaging during needle insertion: Results with a novel biologically inspired device.Needle geometry, target migration and substrate interactions in high resolution.A low-cost, high-field-strength magnetic resonance imaging-compatible actuator.Laser Doppler sensing for blood vessel detection with a biologically inspired steerable needle.Assessment of pose repeatability and specimen repositioning of a robotic joint testing platform.Smooth path planning for a biologically-inspired neurosurgical probe.Deformation invariant bounding spheres for dynamic active constraints in surgery.Very low-dose computed tomography for planning and outcome measurement in knee replacement. The imperial knee protocol.Hands-on robotic unicompartmental knee replacement: a prospective, randomised controlled study of the acrobot system.Microtextured surfaces for deep-brain stimulation electrodes: a biologically inspired design to reduce lead migration.Robotic clinical trials of uni-condylar arthroplasty.Preoperative planning and intraoperative guidance for accurate computer-assisted minimally invasive hip resurfacing surgery.The first clinical application of a "hands-on" robotic knee surgery system.Insertion experiments of a biologically inspired microtextured and multi-part probe based on reciprocal motion.Detailed finite element simulations of probe insertion into solid elastic material using a cohesive zone approach.Development and validation of a numerical model for cross-section optimization of a multi-part probe for soft tissue intervention.Rate dependency during needle insertions with a biologically inspired steering system: an experimental study.Finite element analysis of unicompartmental knee arthroplastyPredicting failure in soft tissue phantoms via modeling of non-predetermined tear progressionExperimental evaluation of a novel steerable probe with a programmable bevel tip inspired by nature
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description
onderzoeker
@nl
researcher
@en
հետազոտող
@hy
name
Ferdinando Rodriguez y Baena
@ast
Ferdinando Rodriguez y Baena
@en
Ferdinando Rodriguez y Baena
@es
Ferdinando Rodriguez y Baena
@nl
Ferdinando Rodriguez y Baena
@sl
type
label
Ferdinando Rodriguez y Baena
@ast
Ferdinando Rodriguez y Baena
@en
Ferdinando Rodriguez y Baena
@es
Ferdinando Rodriguez y Baena
@nl
Ferdinando Rodriguez y Baena
@sl
prefLabel
Ferdinando Rodriguez y Baena
@ast
Ferdinando Rodriguez y Baena
@en
Ferdinando Rodriguez y Baena
@es
Ferdinando Rodriguez y Baena
@nl
Ferdinando Rodriguez y Baena
@sl
P1053
C-5627-2009
P106
P1153
15132536100
P2456
P2798
P31
P3829
P496
0000-0002-5199-9083