11/12- Aging and the CNS, PNS, and ANS Flashcards
What are CNS changes that occur with aging?
- Loss of brain mass
- Loss of neurons
- Reduced synaptic density
- Presence of neurofibrillary tangles
- Presence of neuritic plaques
- Loss of “intellectual function”
CT scan:
- Wider sulci
- Gyri are narrower
- Overall darker
- Larger ventricles (hydrocephalus ex vacuo)
What are the ratios of cerebral volume to cranial volume during normal aging?
- Young: non-brain: 7%
- Older: non-brain: 17%
Which neurons are preferentially lost with aging, small or large? What is the location of the greatest lost?
Large
- The number of neurons decreases as does the brain mass
- Large neurons are lost preferentially and the distribution is not random but focused in the cortex
- There is relatively little loss in the brainstem
T/F: Neuron losses with age are regionally heterogeneous
True
- Most in post-central area
What else is there in addition to decreases synaptic density and dendritic arbor?
There is fractional anisotropy
T/F: Aging alters the number of neural progenitor cells in the old (rat hippocampus)?
False; not altered
- Recover after lesion is impaired in old rat brain, however
Describe changes that occur contributing to old brains recovering less well from insults
- If the recovery is slower, but the number of precursors is not reduced, then the problem must be in the ability to access and mobilize the precursors
- This could be due to inadequate neurotrophin production
- The role of precursor differentiation in learning is under scrutiny. Early evidence shows you learn some things with new cells (in the gray matter) and old learn with new connection soft existing cells (white matter)
How do neurotrpohins change with age?
- NGF (nerve growth factor) and IGF-1 both produced locally
- They are keys to happy and healthy neurons and repopulation from progenitors
- Local decreases in both neurotrophins in old rats
- Data suggestive but less conclusive in older healthy people
How do neurotransmitters change with age?
- Decreases in Dopamine
- Contributes to gambling behavior in elderly
- Regional decreases in ACh
- Only minor decreases in Nucleus Basalis of Meynert with age
- It depends where you look
- Very different from Alzheimer’s Disease
- Decreases in Serotonin
- Prone to depression
- Decreases in NE
Age related changes in enzymes/NTs are specific not global. Describe how
Ex) Choline acetyl transferase doesn’t change in putamen, accumbens, or substantia nigra, but does decrease in caudate and pallidum (20-50 yo)
T/F: Dopamine receptors decrease with age in the striatum
True
- It takes greater DA stimulus to give same level of pleasure
(In addition to gambling), the reward-role of Dopamine is also important for what function?
- Decrease is due to what
Learning
- D2 receptor
- Dopamine transporter
- D2 and D3 receptors
- All correlate with cognitive function in models
Describe how old brains tolerate psychological stress
They do so poorly
- Young rat brains tolerate psychological stress better than old
- Middle aged brains tolerate stress fairly well
- Neurons of stressed old rat show decreased arbor and decreased complexity
- Stress modeled by giving corticosteroids
How was it found that old brains work harder to accomplish the same task?
PET scan shows old people without cognitive compromise use bilateral brain to do memory task
How does performance change with age?
Decreases (reaction time increases)
Plaques and tangles occur in Alzheimer’s disease. How does this compare to normal changes in aging?
- Some plaques and tangles with aging, but not nearly to the same extent as AD
- Normal aging neuritic plaques are limited to the hippocampus and tangles are only present in small numbers
- In SDAT, plaques are in cortex and hippocampus, and tangles occur in almost all neocortex
What make up the tangles?
Paired helical fibers
