Neuroplasticity Jeopardy Template

Plasticity defined

Neural mechanisms of learning

Physiology underlying recovery

Principles of Experience-dependent Plasticity

Therapeutic strategies to enhance NP

100

The ability of the nervous system to show modification in its structure and function

Plasticity

100

Mechanism of learning occurring in the interactions between climbing fiber, parallel fiber and purkinje cell

Long-term Depression

100

Injured axons that begin new sprouting

Regenerative synaptogenesis

100

Induction of plasticity requires sufficient training intensity

Intensity matters

100

Physical therapy practice based on neuroplasticity principles, motor learning and systems theories

contemporary task-oriented practice

200

Physiologic mechanisms occurring spontaneously after CNS injury that contribute to recovery of function

Spontaneous recovery

200

Sustained increase in synaptic strength at the post-synaptic receptor even after the stimulus is removed

Long-term Potentiation

200

The postsynaptic target becomes more sensitive to NT produced in lower concentration

denervation super sensitivity

200

Failure to drive specific brain functions can lead to functional degradation

Use it or lose it

200

Patients with SCI learn to walk using a treadmill, an overhead lift for BWS, and therapists to assist the legs

Body-weight Supported Treadmill Training

300

Capacity of the CNS to undergo changes based on activity-dependant functions

Activity-dependant Neuroplasticity

300

Decrease in number of synaptic connections

Long term habituation

300

Drugs that promote resolution of diaschisis

Amphetamines

300

Plasticity in response to one training experience can enhance the acquisition of similar behaviors

Transference

300

Patients with stroke learn to use affected arm when forced through immobilization of the unaffected arm

Constraint Induced Movement Therapy

400

Nervous system recovery is not possible if higher centers are lesioned

Hierarchical Model

400

Shift from increased activation of premotor areas to greater activation of SMA areas

Shift from explicit to implicit learning/shift to automacity during learning

400

Plasticity in Braille readers

Cross-modality plasticity

400

The nature of the training experience dictates the nature of the plasticity

Specificity

400

Type of practice used in CIMT

Massed and Blocked

500

Learning from daily behaviors can reorganize the damaged brain even in the absence of rehabilitation

Compensatory behavioral strategies (Kliem reference)

500

depriving a kitten’s eye of light reduced the number of neurons in the visual cortex that responded to light

Evidence for use it or lose it principle (Kliem reference)

500

When cats with complete midthoracic spinal transections were trained either to stand or to step on a treadmill, each group learned its respective task. Neither group, however, could perform the nontrained, alternate task

Task-specificity (Behrman reference)

500

The principle of ED-NP that is facilitated when using Virtual Reality for rehabilitation

Salience Matters

500

Patient begins to compensate for difficulty in use of impaired limb by increased reliance on the intact limb

Learned non-use due to positive reinforcement (Taub reference)