null
US
Sign In
Sign Up for Free
Sign Up
We have detected that Javascript is not enabled in your browser. The dynamic nature of our site means that Javascript must be enabled to function properly. Please read our
terms and conditions
for more information.
Next up
Copy and Edit
You need to log in to complete this action!
Register for Free
487269
L02 - Development and Anomalies of Development in the CNS
Description
BAB Mind Map on L02 - Development and Anomalies of Development in the CNS, created by chris.brees on 16/01/2014.
No tags specified
bab
bab
Mind Map by
chris.brees
, updated more than 1 year ago
More
Less
Created by
chris.brees
almost 11 years ago
43
0
0
Resource summary
L02 - Development and Anomalies of Development in the CNS
Brain development
Understanding pathology with age comes from understanding the development
Key points in development
Development continues throughout life - not complete at birth
First neurones are created at 3 weeks - early start to development
Damage easily caused by toxic substances
By 3 months there is an early brain plan
6-9 months white matter develops
After being born for 12 months - no neuronal proliferation, but slight ability to regenerate
Myelination is 50% complete by 18 months (not complete until teens)
By 20, the brain is mature in structure and it looks like this for the rest of your life
Dynamic processes of the brain (formation & destruction of synapses) continues throughout life
Issues
How do some cells end up as neurones?
In the embryo, Gastrulation occurs
Ball of cells polarised
Head and tail discernible
Layers
Endoderm
Viscera
Ectoderm
Musculoskeletal system
Ectoderm
Nervous system (+skin)
Neurulation
Occurs 3 weeks after conception
Therefore can be dysrupted by toxic agents
Formation of the neural plate
Due to interactions between cell surface proteins of the ectoderm, notochord and mesoderm
Cells near the notochord form the neural plate
Neural plate formation due to conc. gradient of secreted molecules by the notochord
Neural folds form, with a neural groove in between
Involves; (i) changes in cell shape, (ii) movement of cells, (iii) interactions with surrounding tissues
Neural folds fuse, forming:
Neural Tube
Spinal Cord
Brain Cells
Clinical relevance
Defective closure of neural tube
Anteriorly
Anencephaly
Posteriorly
Spina Bifida
Massive cell division
Dependent on folic acid
Gene Defects
Defects in protein expression
Affect Cell-Cell interactions
Often results in embryo death
Neural crest
Neurones with cells body in Peripheral NS
e.g. Dorsal Root Ganglia, Sympathetic chain, Schwann cells
How do they become organised in the developing brain?
Anterior-Posterior patterning
Anterior end
3 Vesicles
All brain derived from walls
Signals for polarity; secreted and cell-surface
Dickkopf ('fat brain' in German)
Anteriorising, over-expression = large forehead
Noggin
Vit. A
Used in organisation pathway
Excess intake can interrupt anterior brain formation in the embryo
Dorsal-Ventral (Top-Bottom) patterning
Sonic Hedgehog (Shh)
(Mutation causes spikey effect)
Causes ventral formation
Motor neurones of cranial nerves
Dopaminergic neurones
Impact in Parkinsons Disease
Serotonergic neurones
Impact in psychiatric issues (depression) - therapy?
Organisation into regions/nuclei
Cortical Layering
Migration of neuroblasts (created weeks 5-20) from the Ventricular Zone into the Cortical Plate
Along Radial Glia
Migration Abnormalities
Cortical Dysgenesis
Many syndromes with differing degrees of migration issues and differing degrees of impact
Lissencephaly
Significant cortical dysgenesis
Smooth cortex
Large functional issues
Other disorders
Autism
Schizophrenia
Epilepsy
Dyslexia
Cerebral palsy
Specific disorders due to cortical dysgenesis in particular areas
Differentiation
Cell maturation and differentiation
Inputs - Dendritic Processes form
Outputs - Axons form
No further division (after processes formed)
This is why damage is such a problem
Differential gene activation
Transmitters/Receptors
How do they make appropriate connections with each other?
Axons Need to...
Extend
Lamellipodia
Receptors on the axon which attach to the extracellular environment (proteins such as laminin) and promote growth
Grow in groups
Form white matter tracts (bundles)
Fasciculation into fascicles
Cell adhesive molecules allow this - surface receptors
Grow towards correct targets
Chemoattractants
Attract axon
e.g. netrin
Chemorepellants
Repel axon
e.g. ephrin
This occurs due to axon receptor expression - creating a specific chemical environment
Synaptogenesis
Two-way signalling
Presynaptic sends an invitation
Postsynaptic must accept/reject signal
Signalling via trophic factors such as NGF
Synaptic loss important in degeneration of brain function
Refinement
Organised apoptosis of neuronal cells
Removing sub-standard/incorrect signalling cells
Controlled by gene expression
Also occurs pathologically
Alzheimer's Dementia
Parkinsons Disease
Neurodevelopmental disorders
Autism
Schizophrenia
Cerebral palsy
Epilepsy
Dyslexia
Gene expression vital in development
Therapeutic Revevance
Hijack processes
Stem cells
Activating stem cells in adults
CNS repair?
Spinal cord damage
Stem cell transplant in neurodegenerative disorders?
SC must develop in neurone in developing brain - problem
Media attachments
BAB_-_L02_-_Neurulation1.JPG (image/JPG)
BAB_-_L02_-_Neurulation2.JPG (image/JPG)
BAB_-_L02_-_Neurulation3.JPG (image/JPG)
BAB_-_L02_-_Ant._Neural_Tube.JPG (image/JPG)
BAB_-_L02_-_Cortical_Layering.JPG (image/JPG)
Show full summary
Hide full summary
Want to create your own
Mind Maps
for
free
with GoConqr?
Learn more
.
Similar
S01 - Topography of the Major Features of the Brain and Spinal Cord
chris.brees
Dodó és Bab kvízparty
Sticsinszky Szüá
S03/4 Ascending Tracts
chris.brees
L04 - The Somatosensory System
chris.brees
Überblick Kostenrechnung
Duc Thang Le
S01 - Topography of the Major Features of the Brain and Spinal Cord
sean talbot
Principles of basic electrical circuits
Vito Martino
Biological Psychology - Stress
Gurdev Manchanda
Input, output and storage devices
Mr A Esch
GCSE REVISION TIMETABLE
megangeorgia03
Using GoConqr to teach science
Sarah Egan
Browse Library