Tuesday, June 28, 2016
Posted by Neurodoc at 9:25 AM
Sunday, June 5, 2016
Need to adjust-- traditional tests lack tests of procedural learning, of reward systems.-
Koziol notes the Tower tests, Card Sorting and others have convergent thinking; he advocates divergent thinking and creative ways to use existing tests. For example readminister Trails A to get the best performance, the learning. Trails B is harder, incorporates FPN but idea is same, speed should decrease with practice. The cognitive control part diminishes as the test becomes routinized. Similar for maze tests. Don't norm it, use as individual self comparison (cites Reitan and Lezak). Data would tell us about the individual's ability to automate.
Prism Adaptation Task is very sensitive to the cerebellum.
Programming motor sequences (Luria?) is the property of the frontal lobes.
Programming intention programs starting, perseverating, stopping, and lack of inhibition is basal ganglia governed.
Programming quality of movements, coordination, rate, rhythm, and force of movements is under cerebellar control.
Assessing reward paradigms: Author pans the Iowa Gambling Test. The "probabilistic category learning task" is utilized experimentally, successfully. It measures whether people learn better before positive or negative outcomes. The weather prediction task is another test that has been used experimentally.
Posted by Neurodoc at 6:35 PM
1. Basal ganglia are phylogenetically old and conserved for 560 millions of years.
2. There are four cortical pathways that each contain a direct pathway D1 that releases behavior and an indirect pathway D2 that stops the behavior. There is also a hyperdirect cortical path to the STN that generates global inhibition, and a fourth striosomal pathway from the paralimbic regions to the SN complex, that provides the basal ganglia with information about rewards of particular contexts.
3. Basal ganglia subserve a variety of functions including category learning, motor learning, rule governed support of grammar systems, selection and gating of focused behaviors, cognitive control of working memory, and instrumental learning
4. Through a series of excitatory and inhibitory processes, basal ganglia gates behaviors based on reward based models. How does it know what to gate? D1 neurons stop GPi from inhibiting the thalamus. However, it does so to release only a small specified behavior. The behavior is amplified, the GO signal. The decision is top down involving FPN and OF cortex, but once the behavior is represented in the premotor cortex, it can be gated outside cognitive conscious control.
5. Over time, a behavior shifts from cognitive loops to motor loops, and it also shifts from executive control to automatic control as it goes from limbic to DLPFC to OF to inf par to motor loops. "Working memory" should be, but is not thought of as a dynamic, task dependent entity. The "executive" can never be assessed except by task used to assess it. Hence EF tasks do not correlate with each other. Towers tests, card sorting, and working memory tests do not predict each other.
Posted by Neurodoc at 12:10 PM
There are three systems in cerebellum:
1.Cortex to pons to deep cerebellar nuclei via mossy fiber projections
2. Neocortex to dentate nucleus to thalamus to cortex
3. Olive to cerebellum
What are they for? Cerebellum allows organism to predict or anticipate motor behaviors and produce rapi automatic predictive behaviors. These are called "internal models" and allow the cerebellum to copy the contents of the cortical "working memory" or what the brain intends to do, which forms the basis of cerebellar cognitive control model. The cerebellum can also adapt behavior across similar contexts, and become increasingly precise with practice.
Overlearned motor behaviors are represented in the anterior lobes of the cerebellum, whereas learning new sensorimotor information occurs in the posterior and inferior lobes of the cerebellum.
Koziol et al argue that it does for thought what it does for motor function and teaches the prefrontal cortex the anticipated rewards of an an action or thought.It underpins thinking and anticipatory cognitive control.
There are segregated modularities in the posterior lateral cerebellum for different tools.
Posted by Neurodoc at 11:30 AM
Knowledge about all behavior and rewards derives sensorimotor anticipation. Sensorimotor action is never random at any level of phylogeny. Hence impaired suck action as infant is associated with developmental anomalies. The brain does not develop for thought, it develops to allow necessary interactions with environment, that cause knowledge. Anticipatory actions include knowledge about reward values. Anticipation drives all behavior.
Corticobasal ganglia connections serve a binding function in the basla ganglia and procedural memories are stored in the supplementary motor and premotor cortices. Learning new motor programs depends on posterior sensory elements as well. However, this system is slow.
Fronto cerebellar systems are anticipatory systems, and allow motor responses that bypass the slower systems that incorpoate the sensory systems. The cerebellum learns to predict or anticipate motor behaviors after repeated practices or behaviors. With the exception of the inferotemoral regions, every cortical system has segregated reciprocal connections with the cerebellum.
Humans have unique reciprocal connections, that are not present in animals, between the prefrontal cortices and the dentate nuclei of the cerebellum.These are important to attention, learning and memory and other aspects of cognitive control.
The basal ganglia is an instrumental learning mechanism that operates on the basis of reward value. It is a motor, cognitive and emotional gating center that operates on the basis of reward outcomes. They select activities with positive rewards and avoid ones with negative rewards.
Posted by Neurodoc at 11:14 AM
These systems are superfluous and additive
1. System one-Automatic and somatic reflexes
2. Compound movements such as posture, breathing, saccadic eye movements and locomotion
3. Functions such as nutrient, fight or flight reactions, sexual responses, feeding and drinking
4. Motor activities involving cerebrum, basal ganglia and cerebellum eg. birds flying,
5. Cerebral association functions in primates.
Notes expansion of cortex in mammals is proportional to expansion of striatum and cerebellum but in humans, cerebrum expands much more rapidly than the striatum. The striatum receives projections from all cortical areas except the primary visual cortex. The ratio of inputs is 20,000 cortical association neurons to 1 medium spiny neuron. It is estimated that 95 % of humans' activities are outside conscious cognitive control and are automatic.
Higher order systems of cognitive control coexist with primitive automatic systems. Vertically organized corticostriatal and corticocerebellar systems underlie cognitive control
Posted by Neurodoc at 10:50 AM
In children, FPN is less often activated and preferentially, caudate nucleus (CN) and insula are activated. In adolescents, wide rangig areas are activated. Very young children cannot access CHC corticohippocampal cortical networks or FPN which are not developed as well, and typically "react"; by age 8 they may proactively access hippocampal contextual declarative (episodic and semantic) systems and FPN which is developing. before that they do have working memory and can retrieve some information as it is needed for the moment. Later, these systems in combination are part of the working memory system.
As children develop, they increasingly develop capacity to react to contextual cues in their environment as their form of "cognitive control." Later, they shift to recrutiing cognitive systems as they require it, and later proactively recruiting cognitive systems.
Point is that over development, more brain systems are recruited into "cognitive control" but the systems remain dissociable, there is no cognitive control.
Author notes that "composite score " of DS and letter number LN sequences are poor since they mask the findings of each. Lexak says "composite scores have no place in neuopsychological assessment." The correlation r between ds and LN is 0.49
Authors note that LN depends on procedurizing knowledge of letters and numbers as happens by middle childhood. FPN is the flexible hub, and activates other brain areas as needed.
Posted by Neurodoc at 9:17 AM
digits forward DF and digits backwards DB activate networks of FPN associated with working memory including right dorsolateralprefrontal cortex (DLPRC), bilateral inferior parietal lobue IPL, and ACC (anterior cingulate). DB ALSO activates left DLPFC. ACC monitors effort of performance, activates more with harder tasks. Cerebellum also activates. ACC to cerebellar peduncles support attention and working memory.
VN especially medial occipital play a role in orienting, maintaining and repressing attention. It projects to both visual and auditory sensory processing areas. Both visual and auditory areas are activated with auditorily presented DS.
Posted by Neurodoc at 9:00 AM
Traditional "domains" are artficial constructs: language, visuospatial function, memory, attention, executive function, visuomotor integration.
Frontal lobe construts such as working memory, inhibition, shifting and planning are not monolithic entitites. All are multicomponent processes
Koziol says the functional arhitectural organization of the brain has other principal connections:
cortical basal ganglia
basal ganglia cerebellar
Yeo and colleague J Neurophysiol 2011 described seven functional patterns of connnectivity:
FPN frontoparietal networks engages effortful cognitive tasks that require rules or information to be kept in mind for guiding behavior (cognitive control network)
VAN ventral attention network subserves object identification that includes contextual salience or reward value by identifying objects and what they are used for
DAN dorsal attention networks plays primary role in spatial attention, attentional shifting, object location and information about how objects are used.
VAN, DAN and FPN together form an "actional control network."
VN interacts with VAN and DAN to sustain attention and to suppress attention to irrelevant stimuli.
SMN sensorimotor network executes motor activity programmed by other networks.
LN limbic network interacts with the above to generate motivational and reward networks.
DMN default mode network is active at rest doing nothingbut thinking, imagining or dreaming
Castellanos et al. provides anatomy of above Trends Cogn Neurosci 2012
Posted by Neurodoc at 8:33 AM