«Since that time, Lorenz has made a significant number of transformative contributions and developed protocols that have fundamentally changed the way
we create stem cells in the lab,» said Lennart Mucke, MD, director of the Gladstone Institute of Neurological Disease.
Not exact matches
The only problem I have is
creating fetuses
in a
lab to extract more
stem cells.
«I'm working with Professor Richard Oreffo and Dr Rahul Tare from the University's Centre for Human Development,
Stem Cells and Regeneration who are trying to create and grow cartilage in the lab using a patients» own (autologous) stem cells to then be implanted back into the patient if they have a cartilage defect,» she expla
Stem Cells and Regeneration who are trying to create and grow cartilage in the lab using a patients» own (autologous) stem cells to then be implanted back into the patient if they have a cartilage defect,» she expl
Cells and Regeneration who are trying to
create and grow cartilage
in the
lab using a patients» own (autologous)
stem cells to then be implanted back into the patient if they have a cartilage defect,» she expla
stem cells to then be implanted back into the patient if they have a cartilage defect,» she expl
cells to then be implanted back into the patient if they have a cartilage defect,» she explains.
In a boon to stem cell research and regenerative medicine, scientists at Boston Children's Hospital, the Wyss Institute for Biologically Inspired Engineering at Harvard University and Boston University have created a computer algorithm called CellNet as a «roadmap» for cell and tissue engineering, to ensure that cells engineered in the lab have the same favorable properties as cells in our own bodie
In a boon to
stem cell research and regenerative medicine, scientists at Boston Children's Hospital, the Wyss Institute for Biologically Inspired Engineering at Harvard University and Boston University have
created a computer algorithm called CellNet as a «roadmap» for
cell and tissue engineering, to ensure that
cells engineered
in the lab have the same favorable properties as cells in our own bodie
in the
lab have the same favorable properties as
cells in our own bodie
in our own bodies.
Using next - generation sequencing technologies that were previously unavailable, Michael Gardner, a graduate research assistant, and Jianying Wang, a senior research associate
in Mitchum's
lab, made a remarkable new discovery — nematodes possess the ability to produce a second type of peptide that can effectively «take over» plant
stem cells that are used to
create vital pathways for the delivery of nutrients throughout the plant.
In 2009, Hans Clevers of the Hubrecht Institute in Utrecht, the Netherlands, announced that his lab unexpectedly created a miniature version of a gut while cultivating adult stem cells that the team had discovered in mouse intestinal tissu
In 2009, Hans Clevers of the Hubrecht Institute
in Utrecht, the Netherlands, announced that his lab unexpectedly created a miniature version of a gut while cultivating adult stem cells that the team had discovered in mouse intestinal tissu
in Utrecht, the Netherlands, announced that his
lab unexpectedly
created a miniature version of a gut while cultivating adult
stem cells that the team had discovered
in mouse intestinal tissu
in mouse intestinal tissue.
To
create different
cell types
in the
lab,
stem cells must be coaxed down the road of determination — the branching paths that fetal
cells normally travel to become neurons, skin
cells, muscle
cells, or any number of other
cell types.
In May 2006, Eggan's
lab received approval from Harvard to seek healthy human eggs from female donors, a first step toward using research cloning to
create new
stem cell lines.
By contrast, embryonic
stem cells are culled from embryos
created and frozen
in fertility
labs.
Kevin Eggan's
lab in Cambridge has been busy demonstrating the clinical potential of the research — and finding novel ways to
create stem cells.
The team has named them «expanded - potential
stem cells» (EPSCs), because — unlike any other
stem cells made
in the
lab — they are able to
create placenta and yolk sac tissue.
Gladstone scientists have discovered how to make the three types of heart
cells — cardiomyocytes, endothelial
cells, and smooth muscle
cells — out of a new type of cardiac
stem cell created in a
lab.
Researchers are also exploring different methods to deliver
stem cells to the eye, including
creating patches of RPE
cells in the
lab.
There he worked
in the Kaplan
lab, originally with the Neural Group working to
create a scaffold for a model of a three - dimensional interconnected neuronal network grown from human induced pluripotent
stem cells.
Creating human lung epithelial
cells in the
lab has been a challenge, and lineage - specific reporters, which indicate each
cell's specific type, are key to understanding lung epithelial
stem cell development.
In addition, three California - based ALS research
labs have joined forces to form the Neuro Collaborative, which will
create induced pluripotent
stem (iPS)
cell lines from ALS patients that can be used to screen for new drugs and will be shared with the other groups.