Titlebook: Medical Image Computing and Computer-Assisted Intervention - MICCAI 2014; 17th International C Polina Golland,Nobuhiko Hata,Robert Howe Con

阻塞

Patient-Specific Simulation of Implant Placement and Function for Cochlear Implantation Surgery Planfunction before surgery. A Statistical Shape Model (SSM) is created from high-resolution human .CT data to capture important anatomical details. A Finite Element Model (FEM) is built and adapted to the patient using the results of the SSM. Electrical simulations based on Maxwell’s equations for the

covert

A Computer-Based Simulation of Obstetric Forceps Placementtly, i.e. symmetrically, the inner surface of each blade maximises the area in contact with the fetal head. On the contrary, when the blades are applied asymmetrically, the contact areas between the inner surface of the blades and the fetal head are minimal and at distinct locations at the left and

放肆的你

Real-Time Muscle Deformation via Decoupled Modeling of Solid and Muscle Fiber Mechanicsl formulation in terms of computation cost and accuracy, that mixes a volumetric tissue model based on finite element method (3D FEM), a muscle fiber model (Hill contractile 1D element) and a membrane model accounting for aponeurosis tissue (2D FEM). The separate models are mechanically binded using

Irascible

Estimating Anatomically-Correct Reference Model for Craniomaxillofacial Deformity via Sparse Represergical planning for CMF surgery is challenging due to the absence of a patient-specific reference model. In this paper, we present a method to automatically estimate an anatomically correct reference shape of jaws for the patient requiring orthognathic surgery, a common type of CMF surgery. We emplo

octogenarian

Introducing Interactive Inverse FEM Simulation and Its Application for Adaptive Radiotherapyrelies on non-linear real-time Finite Element Method (FEM) within a constraint-based framework. Given a set of few registered points provided by the user, a real-time optimization adapts the boundary conditions and(/or) some parameters of the FEM in order to obtain the adequate geometrical deformati

螢火蟲

TGIF: Topological Gap In-Fill for Vascular Networksically motivated simulation framework to iteratively generate artificial, yet physiologically meaningful, vasculatures for the correction of vascular connectivity. The generative approach is guided by a simplified angiogenesis model, while at the same time topological and morphological evidence extr

infelicitous

Longitudinal Alignment of Disease Progression in Fibrosing Interstitial Lung Diseased of disease progression at the time of data acquisition, the limited number of scans and varying scanning intervals. We propose a method for temporally aligning imaging data from multiple patients driven by disease appearance. It aligns follow-up series of different patients ., and creates a cross-

Champion

Time-Warped Geodesic Regression development or degeneration. While highly-flexible models to analyze time-varying image and shape data based on generalizations of splines and polynomials have been proposed recently, they come at the cost of substantially more complex inference. Our focus in this paper is therefore to keep the mod

GLIDE

我就不公正

Splines for Diffeomorphic Image Regressionover time, such as geodesic regression, the method can capture more complex spatio-temporal deformations. In particular, it is a first step towards capturing periodic motions for example of the heart or the lung. Starting from a variational formulation of splines the proposed approach allows for the