Prof Kerry Landman : Find an Expert : The University of Melbourne

Prof Kerry Landman

Honorary (Professor Emeritus)

School of Mathematics and Statistics

147 Scholarly works

7 Projects

HIGHLIGHTS

2019
Journal article
Mathematical modelling indicates that lower activity of the haemostatic system in neonates is primarily due to lower prothrombin concentration
DOI: 10.1038/s41598-019-40435-7
2019
Journal article
Addressing Interdisciplinary Difficulties in Developmental Biology/Mathematical Collaborations: A Neural Crest Example
DOI: 10.1007/978-1-4939-9412-0_2
2018
Journal article
Stochastic clonal expansion of "superstars" enhances the reserve capacity of enteric nervous system precursor cells
DOI: 10.1016/j.ydbio.2018.01.020
2018
Journal article
Distinguishing cell shoving mechanisms
DOI: 10.1371/journal.pone.0193975
2018
Journal article
A Multicellular Model of Intestinal Crypt Buckling and Fission
DOI: 10.1007/s11538-017-0377-z
2018
Book Chapter
PCA Modelling of Multi-species Cell Clusters: Ganglion Development in the Gastrointestinal Nervous System
DOI: 10.1007/978-3-319-65558-1_17
2017
Journal article
What is the optimal distribution of myelin along a single axon?
DOI: 10.1016/j.neulet.2017.08.037

RECENT SCHOLARLY WORKS

2017
Conference Proceedings
Enteric nervous system formation: disproportionate stochastic clonal expansion of a few initiating vagal neural crest cells
DOI: 10.1016/j.mod.2017.04.061
2017
Conference Proceedings
Differential Clonal Expansion in an Invading Cell Population: Clonal Advantage or Dumb Luck?
DOI: 10.1159/000452793
2016
Journal article
Evidence for cooperative selection of axons for myelination by adjacent oligodendrocytes in the optic nerve
DOI: 10.1371/journal.pone.0165673

RECENT PROJECTS

2014
Research Grant
Building Macroscale Models From Microscale Probabilistic Models
2011
Research Grant
From Single Cell to Collective Cell Migration in Multicellular Systems: Mathematical and Computational Modelling of Real Biological Systems
2008
Research Grant
Mathematical Modelling in Developmental Biology
2007
Research Contracts
Understanding How Cells Invade Tissues
2006
Research Grant
Multi-Scale Modelling of Cell Migration in Developmental Biology

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Prof Kerry Landman

Honorary (Professor Emeritus)

School of Mathematics and Statistics

HIGHLIGHTS

2019

Mathematical modelling indicates that lower activity of the haemostatic system in neonates is primarily due to lower prothrombin concentration

2019

Addressing Interdisciplinary Difficulties in Developmental Biology/Mathematical Collaborations: A Neural Crest Example

2018

Stochastic clonal expansion of "superstars" enhances the reserve capacity of enteric nervous system precursor cells

2018

Distinguishing cell shoving mechanisms

2018

A Multicellular Model of Intestinal Crypt Buckling and Fission

2018

PCA Modelling of Multi-species Cell Clusters: Ganglion Development in the Gastrointestinal Nervous System

2017

What is the optimal distribution of myelin along a single axon?

Kerry Landman

RECENT SCHOLARLY WORKS

2017

Enteric nervous system formation: disproportionate stochastic clonal expansion of a few initiating vagal neural crest cells

2017

Differential Clonal Expansion in an Invading Cell Population: Clonal Advantage or Dumb Luck?

2016

Evidence for cooperative selection of axons for myelination by adjacent oligodendrocytes in the optic nerve

RECENT PROJECTS

2014

Building Macroscale Models From Microscale Probabilistic Models

2011

From Single Cell to Collective Cell Migration in Multicellular Systems: Mathematical and Computational Modelling of Real Biological Systems

2008

Mathematical Modelling in Developmental Biology

2007

Understanding How Cells Invade Tissues

2006

Multi-Scale Modelling of Cell Migration in Developmental Biology