Neural Plasticity And Functional Recovery Flashcards
What is neural plasticity?
Neural plasticity refers to the brain’s tendencies to change and adapt (functionally and structurally) as a result of experience and learning
Explain why the brain is referred to as ‘plastic’?
- synaptic connections are formed and printed during infancy and the brain experiences a rapid growth in synaptic connections peaking at approximately 15,000 at 2-3 years (Gopnik et al, 1999)
- as we age, rarely used ‘connections’ are ‘deleted’ and frequently used ones are strengthened= synaptic pruning
- originally thought such changes restricted to childhood but more recent research suggests that neural connections can change or be formed at any time in life as a result of learning and experience
Concept of plasticity supported by what 2 studies?
- Maguire et al’s study of London taxi drivers’ brains
- Draganski et al’s study of medical students’ brains
Explain how Maguire at al’s study of London taxi drivers’ brains supports the idea of neural plasticity
- Maguire at al found significantly more volume of grey matter in the posterior hippocampus (part of the brain associated with the development of spatial and navigational skills) than a matched control group- as part of their training, London cabbies must take a complex test called ‘The knowledge’ which assesses their recall of the city streets and possible routes. It appears that thus learning experience alters the structure of the taxi drivers’ brains. Also found that the linger they’d been in the job the more pronounced the structural difference
Explain how Draganski et al’s study of medical students’ brains supports neural plasticity
Draganski et al imaged brains of medical students three months before and after their final exams. Learning-induced changes were seen to have occurred in the posterior hippocampus and parietal cortex, presumably as a result of studying for the exam
What is functional recovery?
A form of neural plasticity- following damage through trauma, the brain’s ability to redistribute or transfer functions usually performed by a damaged area (s) to other undamaged area (s). Neuroscientists suggest that process can occur quickly after trauma (spontaneous recovery) and then slows down- at which point the person may require rehabilitative therapy
What is the main processes involved in functional recovery?
neuronal unmasking
What is neuronal unmasking?
- across the brain are dormant synapses
- when an individual is in good health, these synapses are not being utilised (activated) so they remain dormant
- when trauma occurs the brain may need to locate other areas to compensate
- this leads to the brain activating the dormant synapses which can act as a substitute for those which have been damaged
How does neuronal unmasking work?
The brain is able to ‘rewire’ and reorganise itself by for,ing new synaptic connections close to the area of damage. Secondary neural pathways, that would normally not be used to carry out certain functions are ‘unmasked’ to ensure particular function isn’t compromised ; this process is supported by a number of structural changes
What are 2 further features of neuronal unmasking?
- axon sprouting
- recruitment of homologous areas in the opposite hemisphere
What is axon sprouting?
The growth of new nerve cell endings (axon) which connect with other undamaged nerve cells to form the new neuronal pathway
What is recruitment of homologous areas in the opposite hemisphere?
Two hemispheres of the brain are largely symmetrical, but as we saw in lateralisation, each side may have its own strengths. However, recruitment of homologous areas involves the functions being recovered by the dormant areas of the opposing hemisphere
What are the evaluation points for neural plasticity and functional recovery?
✅ practical applications (neurorehabilitation)
❌ potential consequences of neural plasticity (drug use)
❌ relationship between age and plasticity is complex
✅ support from animal studies of neural plasticity (kittens)
❌ cognitive reserve affects neural plasticity
Explain how neurorehabilitation supports neural plasticity
Understanding the processes involved in plasticity has contributed to the field of neurorehabilitation- techniques may include movement therapy and electrical stimulation of the brain to counter the deficits and/or cognitive functions that may be experienced following a stroke, for example. This shows that although the brain may have the capacity to ‘fix’ itself to a point, this process requires further intervention if it is to be successful
Explain how negative consequences is a limitation of neural plasticity?
The brain’s ability to ‘rewire’ itself can sometimes have maladaptive behaviour consequences e.g. prolonged drug use has been shown to result in poorer cognitive functioning as well as increasing the risk of dementia (Medina et al). Also, 60-80% of amputees experience phantom limb syndrome (the continued experience of sensations in the missing limb as if it were still there. These sensations are usually unpleasant, painful and are thought to be due to reorganisation in the somatosensory cortex. Such evidence suggests that the structural and physical processes involved in functional recovery may not always be beneficial
