? ? ?

? ? ? Basal Ganglia

Basal Ganglia Sub-cortical Masses of gray matter situated in the white core of each cerebral Hemisphere. Anatomical Classification: - Caudate Nucleus } Corpus Striatum - Lentiform Nucleus PutamenGlobusPallidus Claustrum Nucleus Accumbens Located at the base of striatum (D3 receptor)

Basal Ganglia Physiological Classification: • Caudate Nucleus • Putamen • GlobusPallidus • SubstantiaNigra • Subthalamus • Function –Accessory motor system work in association with Cerebral Cortex & Corticospinal system

Anatomical relationship of Basal Ganglia to other structures of the Cerebral Cortex

Anatomical Position of Caudate Nucleus & Relation with Thalamus Comma shape Caudate N Extends in all lobes

Relation of Basal Ganglia circuit toCorticospinal – Cerebellar System for Control of Movement

Functional Circuits of Basal Ganglia • Putamen Circuit-Mainly Concerned with complexPattern of Motor Activity • Caudate Circuit – Concerned with Cognitivecontrol of sequence of motor Patterns

Putamen Circuit

Neural Connection of Putamen Circuit:For Learned Pattern of movement Primary Motor Cortex • Premotor , Supply. motor & Primary Sensory cortex Putamen Internal GlobusPallidus Vent. Ant & Ventro-Lat N of Thalamus

Putamen Circuit • Function in association with Corticospinal System to Control Complex Pattern of Motor Activity. • e.g. -Writing alphabet -Cutting paper with Scissors -Hammering nail -Skilled movements during different Games - Movements of Laryngeal & extra-ocular Muscles

Putamen: Additional Circuits Along with this Circuit, 3 other Circuits are: 1. PutamenExt.G.P Sub thalamus Thalamus Motor Cortex 2. Putamen G.P.E SubstantiaNigra Thalamus 3. Local Feedback from G.Pal. Ext. Sub thalamus

NeuralConnections -Caudate Circuit-Cognitive function- uses sensory information & stored memory for motor activity Pre frontal, Premotor & Supply Motor Cortex Caudate Nucleus receives input from association areas of Cerebral Cortex Caudate Nucleus Int. GlobusPallidus Ventro-Ant & Ventro Lat N Thalamus

Caudate Circuit. Impulses Finally returns to motor association areas which is concerned withputting together Sequence of movements & not individual muscles

Neural Pathways Secreting Different Types of neurotransmitters

Normal Vs Parkinsonism

Direct path: Dopamine(SNC) stimulate D1 receptors of (Putamen), > facilitate information flow by inhibitingGPi(GABA ergic) Dopamine Facilitate movement Indirect path: Dopamine(SNC) inhibit D2 receptors of (Putamen), which inhibit information flow, Via GPe > GPi > SubTh N Dopamine inhibit movement Dopaminergic control of striatum

Cortico-striatal-pallidal-thalamo-cortical loops • Direct path: cortex activates medium spiny neurons, which inhibit GPi neurons, decreasing the inhibition of thalamo-cortical neurons; net effect is disinhibition of the thalamus and facilitation of movement • Indirect path: cortex activates medium spiny neurons, > inhibition of GPe neurons, > inhibition of subthalamic neurons, which tonically activate neurons, which inhibit thalamo-cortical neurons; net effect is inhibition of thalamo-cortical neurons and inhibition of movement

Basal Ganglia Loop glutamate Motor Cortex Striatum Substantia Nigra DA GABA glutamate Motor Thalamus: VA GABA Pallidum

Direct pathway Disinhibits motor thalamus Thus activates thalamo-cortical neurons Activates motor cortex Facilitates movement Indirect pathway Inhibits motor thalamus Thus inhibits thalamo-cortical neurons Inhibits motor cortex Inhibits movement Direct and Indirect Pathways B A L A N C E

Clinical problems in basal ganglia • Movement disorders are one aspect; • Cognitive and memory impairments may also occur • Hypokinesias: Akinesia (difficulty in planning and initiating movements); Bradykinesia(reduction in velocity and amplitude of movement): inappropriate activity in antagonist muscles

Parkinsonison’s Disease (Paralysis Agitans) • Lesion- Substantia Nigra > • Nigrostriatal dopaminergic N degenerate • Fiber to Putamen are severely affected. • Symptoms appear when 60-80% nigrostriatal fibers are lost. • Also seen in patients taking Phenothiazines (D2 Receptor Blockers)

Parkinsonism Features: • Hypokinetic - Akinesia, Bradykinesia &Dyskinesia(Difficulty in planning & initiating movements) walks with Short steps & bending forward • Hyperkinetic- Rigidity- lead pipe or Cogwheel Rigidity Tremur- Tremur at rest(Pillrolling mevement) Loss of associated movements- e.g.Swinging of Arms during walking. Mask Shape Fcae

Treatments for Parkinson’s disease • Pharmacological • L-DOPA plus carbidopa to increase dopamine levels; usually initial improvements, but then progressive loss; D1 receptor agonists can induce tardive dyskinesia. • Deprinyl- Enzyme inhibitor • Neurosurgical • implantation of dopamine-producing cells: very controversial • lesions of thalamic or pallidal structures: blocks overactivity of pallido-thalamic projection • overstimulation of subthalamus to inhibit subthalamic activity: deep brain stimulation

Clinical problems in basal ganglia • Huntington’s chorea Genetic defect in gene called huntingtin • Loss of about 90% of striatal neurons, especially of indirect pathway: overactivity of direct pathway: uncontrolled movements • Progressive, untreatable, decreased function and dementia • Choreiform movements leading to severe impairment; death within 15 years

hyperkinesias • Choreiform movements: “dance-like movements – PutamenLesion • Ballismus and hemiballismus; Involuntary, flailing intense & violent movements – usually due to vascular lesions of contralateralsubthalamic nucleus • Athetoid movements: continual writhing movements of distal extremity- Lesion is in GlobusPallidus

Organization of motor System

? ? ?

? ? ?

Presentation Transcript