Corporate Banner
Satellite Banner
Cell Culture
Scientific Community
 
Become a Member | Sign in
Home>Events>This Event
  Events - June 2013


EMBO | EMBL Symposium: Cardiac Biology: From Development to Regenerative Medicine

07 Jun 2013 - 10 Jun 2013 - EMBL Heidelberg, Germany



Bookmark and Share


Regenerative medicine is a prime example of the interdisciplinary trend in contemporary biomedical research, incorporating developmental and stem cell biology, biomaterials and tissue engineering, gene and cell therapeutic approaches. The science underpinning recent advances in tissue repair has already provided significant clinical outcomes in many organ systems, yet the challenges facing regeneration of the cardiovascular system are particularly complex. The mature mammalian heart is particularly refractory to recovery after insult, mysteriously losing the robust cardiac regenerative capacity of the embryo, which is retained by other species into adulthood.

This conference will cover recent discoveries in cardiac developmental biology, compare cardiac systems across the evolutionary spectrum, and explore the fundamental barriers to cardiac self-renewal in the clinical context. International specialists will share their latest work in this challenging field, focusing on the interface of basic and translational research.

Topics

Heart development and evolution

Cardiovascular disease

Heart regenerative strategies

Therapeutic approaches 

Who should attend: 

Developmental Biologists

Cardiac Biologists

Cardiologists

Cardiothoraric Surgeons

Pediatric Cardiologists



Further information
Scientific News
The Rise of 3D Cell Culture and in vitro Model Systems for Drug Discovery and Toxicology
An overview of the current technology and the challenges and benefits over 2D cell culture models plus some of the latest advances relating to human health research.
A Boost for Regenerative Medicine
Growing tissues and organs in the lab for transplantation into patients could become easier after scientists discovered an effective way to produce three-dimensional networks of blood vessels, vital for tissue survival yet a current stumbling block in regenerative medicine.
Bio-Mimicry Method For Preparing & Labeling Stem Cells Developed
Method allows researchers to prepare mesenchymal stem cells and monitor them using MRI.
Stem Cell Advance Could Be Key Step Toward Treating Deadly Blood Diseases
UCLA scientists get closer to creating blood stem cells in the lab.
Harnessing Engineered Slippery Surfaces For Tissue Repair
A new method could facilitate the transfer of intact regenerating cell sheets from the culture dish to damaged tissues in patients.
Brazilian Zika Virus Strain Causes Birth Defects in Experimental Models
First direct experimental proof of causal effect, researchers say.
Gut Model HuMiX Works Like the Real Thing
Developed by scientists at the Luxembourg Centre for Systems Biology, the “Human Microbial Cross-talk” model is representative of the actual conditions and processes that occur within our intestines.
'Kidney on a Chip' Facilitates Safer Drug Dosing
University of Michigan researchers have used a "kidney on a chip" device to mimic the flow of medication through human kidneys and measure its effect on kidney cells.
New Method Allows First Look At Embryo Implantation
Researchers at The Rockefeller University develop a method that shows the molecular and cellular processes that occur up to day 14 after fertilization.
Detecting Nano Amounts In Environmental Samples
The NanoUmwelt project is developing a technique that can detect nanomaterials in a variety of environmental samples.
Scroll Up
Scroll Down
SELECTBIO

SELECTBIO Market Reports
Go to LabTube
Go to eposters
 
Access to the latest scientific news
Exclusive articles
Upload and share your posters on ePosters
Latest presentations and webinars
View a library of 1,800+ scientific and medical posters
3,100+ scientific and medical posters
A library of 2,500+ scientific videos on LabTube
4,500+ scientific videos
Close
Premium CrownJOIN TECHNOLOGY NETWORKS PREMIUM FOR FREE!