Chapter 14: The Parietal Lobes
Lesions of the post central gyrus produce...
- Abnormally high sensory thresholds - Impaired position sense - Deficits in stereognosis
Varieties of asomatognosia include:
- Anosognosia - Anosodiaphoria - Autotopagnosia - Asymbolia for Pain
Patients with lesions of the post central gyrus (TESTS)
- Performed poorly at detecting a light touch to the skin (pressure sensitivity) - Determining whether they were touched by one or two sharp points (two-point sensitivity) - Localizing points of touch on the skin on the side of the body contralateral to the lesion
The principal regions of the parietal lobe include:
- Postcentral Gyrus (Brodmann's area 1-3) - Superior Parietal Lobule (area 5 &7) - Parietal Operculum (Are 43) - Surpramarginal gyrus (Area 40) - Angular Gyrus (Area 39) ASSPP
Area PG (part of area 7 and visual areas)
- Receives more complex connections including visual, somesthetic (skin sensations), proprioceptive (internal stimuli), auditory, vestibular (balance), oculomotor (eye movement), and cingulate (motivational)
Case Study Contralateral Neglect: Mr. P.
- Suffered a right parietal stroke Neglected the left side of his body and of the world - Lifting arm: failed to lift his left arm BUT could do so if one took his arm and asked him to lift it - Crowded numbers to right side of clock - Compound words: only read right portion of compound word - Did not put on L-side of clothing - Shaved only R-side of face - Unaware that anything was wrong with him (anosognosia))
Contralateral Neglect: Recovery - Passes through two stages:
1) Allesthesia 2) Simultaneous Extinction
Why does contralateral neglect arise? (2 reasons)
1) Defective sensation/perception 2) Defective attention/orientation
Three parietal-lobe systems do not fit obviously into the simple view of a visuomotor control centre:
1) Difficulties with arithmetic 2) Aspects of language 3) Movement sequences
Symptoms characteristic of L-parietal lesions (5):
1) Disturbed language function 2) Apraxia 3) Dyscalculia 4) Right-left discrimination 5) Right hemianopia
Two basic types of form recognition
1) Object Recognition 2) Guiding Movement to Objects
2 Theories of Parietal-Lobe Function for Complexity of Spatial Information
1) Recognizing objects and guiding movement 2) Complexity
Symptoms that accompany finger agnosia (3):
1) Right-left confusion 2) Agraphia (inability to write) 3) Acalculia (inability to perform simple arithmetic calculations)
Responses of posterior parietal neutrons have two important characteristics in common:
1) They receive combinations of sensory, motivational and related motor inputs 2) Their discharge is enhanced when an animal attends to a target or moves towards it
Symptoms of Baliant Syndrome
1) can move eyes but not fixate on specific visual stimuli 2) Simultagnosia 3) Optic Ataxia
Finger Agnosia
A condition in which a person is unable either to point to the various fingers or to show them to an examiner
PPR is active when...
A participant is preparing and executing a limb movement
Simultaenous Extinction
A person confronts an environment i which many sensory stimuli impinge simultaneous, yet the person can distinguish and perceive each individual sensory impression
Posterior Parietal Corext includes:
A posterior zone that includes the remaining areas: Areas 5,7,39,40
Saccade:
A series of involuntary, abrupt and rapid small movements or jerks made by both eyes simultaneously in changing the point of fixation
Constructional Apraxia
A visuomotor disorder, spatial organization is disturbed
Asymbolia for Pain:
Absence of typical reactions to pain, such as reflexive withdrawal from a painful stimulus
Somatosensory cortex includes:
Area 3-1-2 and 43
If we use this system, Area PF is equivalent to (three areas), Area PE is equivalent to ( ) and the remainder of ( ). Area PG is roughly equivalent to ( )and ( ).
Area PF: Brodmann's areas 43, 40 and part of area 7 Area PE: Area 5 and remainder of area 7 Area PG: Broadmann's area 39 and 40
The polymodal region of the posterior parietal cortex is also important in various aspects of mental space, including:
Arithmetic Reading Mental rotation Manipulation of visual images Sequencing movement
Sensorimotor Transformation
As we move, the locations of body parts change and perceptions of our body must constantly be updated so that we can make future movements smoothly
Gertsmann Syndrome aka Finger Agnosia
Asomatogonia - Inability to name or recognize the fingers on either hand
The increased size of area PH and the STS is especially interesting because this region is anatomically
Asymmetrical
Numb Touch
Blindsight: visually impaired patients can identify the location of a visual stimulus even though they deny 'seeing' it
The area is roughly demarcated: - Anteriorly by the ___________ fissure - Ventrally by the __________ fissure - Dorsally by the _________ gyrus - Posteriorly by the ________-_________ sulcus
Central fissure lateral (Sylvian) fissure Cingulate gyrus parieto-occiptal gyrus
Allesthesia
Characterized by a person's beginning to respond to stimuli on the neglect said as if the stimuli were on the unlesioned side
Posterior Parietal Cortex
Contributes to the dorsal stream by participating in non conscious visuospatial behaviour, that is reaching and grasping objects
The regions in the intraparietal sulcus (cIPS) contribute to: (2 functions)
Controlling saccadic eye movements (area LIP) Visual control of object-directed grasping (area AIP)
Patients with posterior parietal lesions are impaired at...
Distinguishing left from right Mental rotations
Specific parietal regions take part in the ______ stream of visual processing, in particular the intraparietal sulcus (cIPS) and the parietal reach regions (PRR)
Dorsal (WHERE pathway)
Failure to report one stimulus is usually called...
Extinction
Most common autotopagnosia
Finger agnosia
Parieto-medial temporal pathway
Flows directly to the hippocampus and the parahippocampal regions is proposed to have a role in spatial navigation
The parietal region of the cerebral cortex lies between the:
Frontal and occipital lobes, underlying the parietal bone at the roof of the skull
The deficits in eye gaze and visually guided reaching are most likely to result from lesions
In the superior parietal region (area PE)
Autotopagnosia:
Inability to localize and name body parts
Acalculia
Inability to perform mathematical operations, in this case because of the task's spatial nature
Anosodiaphoria:
Indifference to illness
Ideomotor Apraxia: L-parietal lesion vs. R-parietal lesion
L-parietal: Grossly impaired in copying a series of arm movements R-parietal: Perform normally
The motor connections must be important for providing sensory information about _____ position in ____________ control.
LIMB position MOVEMENT control
Lesion location for Gerstmann syndrome:
Left parietal lobe, roughly corresponding to the angular gyrus (area PG)
Asomatognosia is most common on the
Left side
Afferent paresis (clumsy finger movements)
Loss of kinaesthetic feedback that results from lesions to the post central gyrus (areas 3-1-2)
Asomatognosia
Loss of knowledge or sense of one's own body and bodily condition
Damages to the post central gyrus is typically associated with...
Marked changes in the somatosensory threshold
Regions involved in route knowledge:
Medial parietal region (MPR) - This includes the parietal region ventral to the PRR - Posterior cingulate cortex - Part of the parieto-mediotemporal pathway in the dorsal stream
The posterior parietal cortex also plays a significant role in
Mental imagery - Especially related to both object rotation and navigation in space
Apraxia
Movement disorder in which the loss of skilled movement in which the individual has difficulty with the motor planning to perform tasks o movements when asked
Contralateral Neglect
Neglecting a certain side of the body and of the world
The DORSAL stream from the ( ) cortex to the ( ) ( ) regions was conceived as the where pathway
Occipital cortex Posterior parietal regions
Constatin von Economo: His maps consist of parietal regions called:
PA, PB and three posterior parietal areas (PE, PF, PG)
Connections of the Parietal Cortex: Projections from the primary somatosensory cortex (area 3-1-2) extend to secondary somatosensory area ___, which has tactile recognition function as well as to motor areas including ________ (area 4) and the supplementary and premotor area in the frontal lobes.
PE (Area 5) Primary motor cortex
This asymmetry may be due to a much larger area __ (and possibly ___) on the _____ hemisphere.
PG, STS Right hemisphere
Difference between PRR and MPR
PRR: Control the PLANNING of limb movements MPR: Control ONLY body movement to SPECIFIC LOCATIONS
Three Functional pathways leaving the posterior parietal region:
Parieto-Prefrontal pathway Parieto-Medial Temporal pathway Posterior Parietal Cortex
Ideomotor Apraxia
Patients are unable to copy movements or to make gestures
Tests for astereoignosis:
Placing a pattern on blindfolded subject's palm for 5 secs and then placed within an array; - Must match the original shape based solely on tactile information
Cells responsible for sensorimotor transformations are found in the
Posterior parietal cortex
Location of damage: Constructional Apraxia
Posterior parietal lesion
PE's cortical outputs are to the (4 areas):
Primary motor cortex (area 4) Supplementary motor (SMA) Premotor (area 6 and 8) Area PF
Anterior Zone of Parietal-Lobe Function:
Processes somatic sensation and perceptions
Apraxic or aphasic left-hemisphere patients performed poorly in (drawing)...
Producing fewer recognizable drawings and fewer lines
Parieto-Prefrontal Pathway
Proposed to have visuospatial functions, especially related to visuospatial working memory
Mathematics and arithmetic have:
Quasi-spatial nature analogous to mentally manipulating concrete shapes
Area PF (part of area 7)
Receives heavy input from the somatosensory cortex (3-1-2) through area PE
Temporoparietal Junction
Region where the temporal and parietal lobes meet at the end of the Sylvian fissure
Neglect: Damage - Two locations
Right intraparietal sulcus (roughly dividing PE and PF) and the right angular gyrus
Damage in the ( ) is believed to have the greatest influence on drawing ability
Right parietal
Most common on the right side as a result of
Right-hemisphere lesions
Extinction is most commonly associated with damage to the
Secondary somatic cortex (area PE and PF), especially in the right parietal lobe
Optic Ataxia
Severe deficit in reaching under visual guidance; can make accurate movement directed towards the body, presumably by using tactile info but cannot make visually guided movements
Cells in area PG responds to both
Somatosensory and visual inputs
The parietal lobe can be divided into two function zones:
Somatosensory cortex Posterior parietal cortex
Area PE: Brodmann's area 5 plus part of area 7
Somatosensory receiving most its connections from the primary somatosensory cortex (area 3-1-2)
The parietal cortex processes and integrates _______________ and ____________ information, especially with regard to controlling ____________.
Somatosensory, visual, movement
Area PG is part of the dorsal stream that control __________ guided behaviour with respect to ( ) and ( ) information
Spatially visual tactile
Posterior Zone of Parietal-Lobe Function:
Specializes primarily in integrating sensory input from the somatic and visual regions and to a lesser extent from other sensory regions, mostly for controlling movements
The Inferior parietal lobe consists of:
Supramargnial guris and angular gyrus
Stereognosis
Tactile perception
Apraxic or aphasic right-hemisphere patients
Tended to omit details from the L-side of their drawings and to rotate the drawings on the page.
Astereignosis
The inability to recognize an object by touch
Simultaenous Extinction
The person responds to stimuli on the hitherto neglected side unless both sides are stimulated simultaneously, in which case they notice only the stimulation on the side ipsilateral to the lesion
Somatosensory symptoms are associated with damage to
The post central gyrus (areas 3-1-2) Adjacent cortex (areas PE and PF)
Deficits in using topographic information are more likely associated with damage to: - Right or left hemisphere
The right hemisphere
The goal for all the dorsal stream pathways is:
To guide visuospatial behaviour through motor output
Asomatognosias may affect one or both sides of the body.
True
T or F: The PG is also larger on the left and in humans than in monkeys
True
T/F: Language has many demands similar to those of arithmetic
True
T/F: The brain works on a "need-to-know" basis
True: having too much information may be counterproductive for any given system
Anosognosia:
Unawareness or denial of illness
Exception: Autotopagnosia
Usually results from lesions of the left parietal cortex.
... Whereas cells in the STS respond to
Various combinations of auditory, visual and somatosensory input
The PRR has a role in:
Visually guided grasping movements
Simultagnosia
When attention was towards an object, no noticing of other stimuli
Cognitive Spatial Map
When we travel the world, we can take the correct route subconsciously, making the correct turns at choice points until we reach our destination
Area PG is part of the: a) Dorsal stream b) Ventral stream
a) Dorsal
The temporal lobe code's objects: a) Spatial properties b) Relational properties c) Size properties
b) Relational properties
Together, the supra marginal gyrus and angular gyrus are often referred to as the: a) Maximal parietal lobe b) Superior parietal lobe c) Inferior parietal lobe d) Minimal parietal lobe
c) Inferior parietal lobe
PG areas are primarily: a) Auditory b) Verbal c) Visual d) Somatosenory
c) Visual
The fact that humans parietal lobes have evolved to a much ___________ size than those of monkeys implies that humans may show some symptoms not seen in monkeys.
larger
Arthimetic operations may depend on the _________________ tissue at the left temporoparietal junction
polysensory
