Add to ORKGWe developed a method to produce tubular in vitro models of the cerebral vessels from real patient data. Three-dimensional data sets obtained from patients undergoing rotational angiography were used for stereolithographic biomodeling by using rapid prototyping technology. In a second step, tubular reproductions of the cerebral vessels were obtained by using the lost-wax technique. These reproductions can be useful for hemodynamic research and for the development and preclinical evaluation of new endovascular treatment methods
Visualizing medical images from patients as physical 3D models (phantom models) have many roles in t...
The main purpose of this work is to investigate a simple way of making polydimensiloxane (PDMS) anat...
Transparent stereolithographic rapid prototyping (RP) technology has already demonstrated in literat...
BACKGROUND Recently computed tomographic angiography (CTA) and MR angiography (MRA) have been used t...
International audiencePerianeurysmal hemodynamics play a vital role in the initiation, growth and ru...
Background: Simulation-based techniques using three-dimensional models are gaining popularity in neu...
BACKGROUND AND PURPOSE: We present a relatively simple approach that physicians can use to reconstru...
Summary: Anin vitro model of the main human cerebral arteries with or without saccular arterial aneu...
The purpose of this work is mainly to manufacture several anatomical models in a polymeric material...
BACKGROUND Treatment of complex intracranial aneurysms requires strategic pre-interventional or p...
BACKGROUND AND PURPOSE: Realistic, population based cerebrovascular replicas are required for the de...
OBJECTIVE: To assess the ability of the "wall-carving (WC) image technique", which uses vascular ima...
International audienceEndovascular interventions can benefit from interactive simulation in their tr...
BACKGROUND AND PURPOSE: Realistic, population based cerebrovascular replicas are required for the de...
Poster of SPIE Conference held in San Diego - CA, USA, 10/15 FebruaryRapid Prototyping (RP) is a tec...
Visualizing medical images from patients as physical 3D models (phantom models) have many roles in t...
The main purpose of this work is to investigate a simple way of making polydimensiloxane (PDMS) anat...
Transparent stereolithographic rapid prototyping (RP) technology has already demonstrated in literat...
BACKGROUND Recently computed tomographic angiography (CTA) and MR angiography (MRA) have been used t...
International audiencePerianeurysmal hemodynamics play a vital role in the initiation, growth and ru...
Background: Simulation-based techniques using three-dimensional models are gaining popularity in neu...
BACKGROUND AND PURPOSE: We present a relatively simple approach that physicians can use to reconstru...
Summary: Anin vitro model of the main human cerebral arteries with or without saccular arterial aneu...
The purpose of this work is mainly to manufacture several anatomical models in a polymeric material...
BACKGROUND Treatment of complex intracranial aneurysms requires strategic pre-interventional or p...
BACKGROUND AND PURPOSE: Realistic, population based cerebrovascular replicas are required for the de...
OBJECTIVE: To assess the ability of the "wall-carving (WC) image technique", which uses vascular ima...
International audienceEndovascular interventions can benefit from interactive simulation in their tr...
BACKGROUND AND PURPOSE: Realistic, population based cerebrovascular replicas are required for the de...
Poster of SPIE Conference held in San Diego - CA, USA, 10/15 FebruaryRapid Prototyping (RP) is a tec...
Visualizing medical images from patients as physical 3D models (phantom models) have many roles in t...
The main purpose of this work is to investigate a simple way of making polydimensiloxane (PDMS) anat...
Transparent stereolithographic rapid prototyping (RP) technology has already demonstrated in literat...