| Number |
Name |
Abstract Title |
|---|
|
1
|
David Hormuth |
Biophysical Model of glioma growth constrained by in vivo imaging data |
|
2
|
Spyros Stamatelos |
Tumor Vascular Perfusion and Oxygenation through Computational Modeling and High-Resolution Imaging |
|
3
|
Le Zhang |
No Title |
|
4
|
Jared Weis |
Prediction of breast tumor response to neoadjuvant chemotherapy using a mechanically coupled tumor growth model |
|
5
|
Kerri-Ann Norton |
The Effects of Cancer Stem Cell Seeding Location in an Agent Based Model of Tumor Growth. |
|
6
|
Dalin Tang |
A Multiscale Modeling Approach to Determine Optimal Mechanical Conditions for Myocardial Cell Delivery and Contracting Band Generation: Improving Pulmonary Valve Replacement Surgery Outcome |
|
7
|
Anthony Hunt |
Explanatory, Concrete Insight Into Location-Dependent, Multiscale Aspects of Drug-Induced Liver Injury |
|
8
|
Ravi Radhakrishnan |
Physiologically Validated Models for Adhesion of Functionalized Nanocarriers to Endothelium in Targeted Drug Delivery |
|
9
|
David Eckmann |
Generalized Langevin Dynamics for Functionalized Nanocarrier Adhesion to Cell Surfaces in the Presence of Hydrodynamic Interactions |
|
10
|
James Sluka |
Blood Flow and Oxygen Distribution in a Simulated 3D Liver Lobule |
|
11
|
Maciek Swat |
A Component-Based Simulation Environment for Developing and Running Multi-Scale Virtual-Tissue |
|
12
|
Jacob Barhak |
The Reference Model for Disease Progression Sensitivity to Bio-Marker Correlation in Base Population; Poster |
|
13
|
Darren Tyson |
Modeling the role of single cell fate heterogeneity in overall tumor response during targeted anticancer treatment |
|
14
|
Markus Buehler |
Modeling and Experiment to Predict Protein Biomaterial Performance |
|
15
|
Dongmin Guo |
Multiscale modeling of influenza infection for related intervention strategies |
|
16
|
Denise Kirschner |
Contribution of granuloma characteristics and antibiotic exposure to treatment outcomes in Mycobacterium tuberculosis infection |
|
17
|
Jennifer Linderman |
Multi-Scale Modeling Predicts a Balance of Tumor Necrosis Factor-α and Interleukin-10 Controls the Granuloma Environment During Mycobacterium tuberculosis Infection |
|
18
|
Philip McQueen |
Modeling of Malaria Parasite Populations Dynamics and Transmission |
|
19
|
Salvador Dura-Bernal |
From neurons to muscles: virtual musculoskeletal arm driven by sensorimotor cortex model |
|
20
|
Cliff Kerr |
Multiscale modeling of cortical information flow in Parkinson's disease |
|
21
|
Alix Witthoft |
No Title |
|
22
|
Gianluca Lazzi |
Multi-Scale Modeling of Electrical Stimulation of the Retina |
|
23
|
Michael Miga |
Soft Tissue Image-Guided Surgery: Computational Modeling Enabling Therapy |
|
24
|
Robert McDougal |
NEURON for multiscale simulations: reaction-diffusion meets electrophysiology |
|
25
|
Sam Neymotin |
Calcium electro-chemical dynamics support nonsynaptic plasticity in a multiscale model of a pyramidal neuron |
|
26
|
James Park |
Inputs Drive Cell Phenotype Variability |
|
27a
|
Danielle DeCicco |
Modeling microRNA Regulatory Network Changes in the Brainstem during Hypertension Development |
|
27b
|
Warren Anderson |
Simulating the roles of cytokine signaling in the neural control of blood pressure |
|
28
|
Michael Saunders |
Conservation analysis of genome-scale biochemical networks |
|
29
|
Makadia Hirenkuma |
Variability in cell-to-cell signaling dynamics to transcriptional regulatory phenotype |
|
30
|
Xiaobo Zhou |
eBone System: Systems Biology Approach for Bone Regeneration |
|
31
|
Edward Sander |
Predicting Matrix Reorganization by Fibroblasts in Vitro with a Partitioned Fiber-Based Multi-scale Model |
|
32
|
Melissa Knothe Tate |
Defining Next Generation Stem Cell Mechanics Studies for Prospective Guidance of Lineage Commitment |
|
33
|
Melissa Knothe Tate |
Incorporating Mechanical Feedback and Mediation of Biochemical Factors in Mechanistic Models of Tissue Genesis by Stem Cells |
|
34
|
Vivi Andasari |
Multiscale Modeling of Multiple Myeloma and Osteoclast Interactions in the Hypoxic Bone Marrow Microenvironment |
|
35
|
Peter Laz |
Characterizing Intersubject Variability for Population-Based Evaluations of Joint Mechanics |
|
36
|
Kevin Shelburne |
Validation of a Natural Knee Model for Muscle-Driven Single-Framework Simulation |
|
37
|
Jennifer Linderman |
Tunable resolution as a systems biology method for multi-scale, multi-compartment computational models |
|
38
|
Huiming Peng |
Systems biology approach to understanding the immune system of prostate cancer post-castration |
|
39
|
Yuekai Sun |
Proximal Newton-type methods for minimizing composite functions |
|
40
|
Teresa Pitts |
Coordination of swallow and breathing: in vivo and computational model simulations |
|
41
|
Daniel Einstein |
Multiscale investigation of spatially heterogeneous alveolar stresses in ventilator-induced lung injury |
|
42
|
Ching-Long Lin |
Toward a population-based analysis of aerosol delivery in the human lungs: image-based automatic mesh generation and numerical simulation |
|
43
|
Mike King |
Simulation of platelet, thrombus and erythrocyte hydrodynamic interactions in a 3D arteriole with in vivo comparison |
|
44
|
Andrew Dolan |
A Quantitative Model of Calcium Regulation in a Homeostatic and Activated Platelet |
|
45
|
Mei Yan Lee |
Gender Prediction based on Platelet Pairwise Agonist Scanning (PAS) Synergy Scores |
|
46
|
Liang-Hui Chu |
Construction of PADPIN: Protein-Protein Interaction Networks in Peripheral Artery Disease |
|
47
|
Katherine Zhang |
An integrative Multi-Scale Model of Extracellular Matrix Mechanics in Vascular Remodeling |
