Localising the lesion: “where in the CNS”

Learning objectives

¢  Definition of CNS and PNS

¢  Definition of UMN and LMN

¢  Function of each of the cerebral lobes

¢  The homunculus

¢  Circle of willis and blood supply to the cerebral hemispheres

¢  Motor tracts – lateral corticospinal

¢  Sensory tracts – lateral spinothalamic and dorsal columns

¢  Stroke syndromes

¢  Clinical case scenarios

Definitions

¢  CNS = Brain and spinal cord

¢  PNS = anything outside brain and spinal cord

  Also include autonomic nervous system and cranial nerves

Motor control systems

¢  Corticospinal (pyradmial)

  Skilled, intricate, strong and organised movements

  Defectiveness à loss of skilled voluntary movement, spasticity and reflex changes

  Such as hemiparesis, hemiplegia or paraparesis

¢  Extrapyradimal system

  Fast, fluid movements that the corticospinal system has generated

  Defectiveness à bradykinesia, rigidity, tremor, chorea

  Such as huntingtons

¢  The cerebellum

  Co-ordinating smooth and learned movement initiated by the pyradimal system and in posture and balance control

  Defectiveness à ataxia, past pointing, action tremor and incoordination

The motor system

¢  Pyradimal motor system are the tracts of the motor cortex that reach their targets by traveling through the "pyramids" of themedulla. Thepyramidal pathwaysthe lateral and anterior corticospinaltracts directly innervate motor neurons of the spinal cord or brainstem of the anterior horn cells. whereas the extrapyramidal system centers around the modulation and regulation of the pyradimal tracts via indirect control of anterior horn cells.

¢  Extrapyramidal tracts modulate motor activity without directly innervating motor neurons.

The corticospinal system

The homunculus

UMN vs LMN

UMN / LMN
Wasting / no / yes
Fasciculation / no / yes
Tone / increased / decreased
Power / decreased / decreased
Reflexes / increased / decreased
Plantars / up going / down going

Sensory pathways

¢  Peripheral nerves carry sensation from dorsal roots to the cord

¢  Posterior columns (dorsal columns)

  Vibration, joint position, light touch and point discrimination

  Cross in the brainstem passing to the thalamus

¢  Spinothalamic tracts

  Pain and temperature

  Cross within the cord and pass in the spinothalamic tracts to the thalamus and reticular formation

¢  Sensory cortex

  Fibres from the thalamus pass to the parietal region sensory cortex and motor cortex

Cortical functions

¢  Frontal lobe

  Reasoning, planning, parts of speech, movement, emotions and problem solving

  Left frontal = broccas area (aphasia)

¢  Parietal lobe

  Movement, orientation, recognition, perception of stimuli

¢  Occipital lobe

  Visual processing

¢  Temporal lobe

  Perception and recognition of auditory stimuli, memory and speech

  Left temporal = wernicke’s area

¢  Cerebellum

  Balance and co-ordination

¢  Basal ganglia

  Initiation and inhibition of movement

¢  Wernickes area – like broccas area is it the understanding of written and spoken speech

Circle of Willis

Internal carotid artery supplies brain

External carotid artery supplies face

Middle cerebral artery supplies 1/3rd of brain

Vertebral arteries join to form the basillar artery which join at the base of the brain

Stroke

¢  TACS – All three of

  Hemiplegia or hemi sensory loss

  Visual field defect

  Disturbance of higher function

¢  Dysphasia

¢  Dysphagia

¢  PACS – 2 out of 3

¢  LACS – blockage of small branch of big artery

  No visual field defect

  Pure motor stroke

  Pure sensory

  Sensory motor

  Ataxia

¢  POCS – brain stem, cerebellum, cranial nerves

  Bilateral motor or sensory

  Conjugate eye movement disorder

  Cerebeller dysfunction

  Hemiplegia or cortical blindness

¢  Acute occlusion of blood vessel leading to hypoxia and infarction

¢  Risk factors

  DM, hypertension, smoking, hypercholesterolemia, FHx, AF

¢  Investigations

  bloods, CT, MRI, carotid dopplers, Echo, ECG, 24 hour tape

¢  Treatment in ischaemic stroke

  Aspirin

  Clopidogrel

  Supportive management

¢  In ischaemic stroke you have in ischaemic penumbra which is the area of the brain which is damaged during ischaemia in order to reduce the effects from this you need to optimise conditions – temp, BP, glucose

Cerebellar syndrome

¢  Causes

  Vascular lesion

  Alcohol

  Demyelination

  Tumours

  Hypothyroidism

  Metabolic disorders

¢  Signs “DANISH”

  Dysdiadochokinesis

  Ataxia

  Nystagmus

  Intention tremor

  Slurred speech, dysarthria

  Hpyotonia, hyporeflexia

Multiple Sclerosis

¢  Areas of demyelination and perivascular inflammation (white plaques)

¢  Disseminated in time and occurring anywhere within CNS

¢  Aetiology - ?autoimmune ?vitamin D deficiency

¢  Classification

  Benign -little disease activity for many years, minimal disability

  Relapse remitting - most common, repeated attacks with periods of recovery

  Secondary chronic progressive - continuous progression of symptoms following an initial relapsing and remitting disease course

  Primary progressive - accumulation of pernament disability over time with superimposed relapses

¢  Investigations

  LP – increased protein, increased immunoglobulin, oligoclonal bands

  Visual evoked potentials

  MRI

¢  On examination

¢  Unsteady gait

¢  Reduced proprioception

¢  Brisk reflexes

¢  Brown-sequard syndrome

  Loss of movement on same side as damage

  Loss of pain and temp and sensation on opposite side

  spinal cord lesion where there is an incomplete lesion characterized by loss of motor function loss of vibration sense and fine touch, loss ofproprioception and signs of weakness on the same side of the spinal injury. This is a result of a lesion affecting thedorsal column and thecorticospinal tract. On the contralateral side of the lesion, there will be a loss of pain and temperature sensation and crude touch 1 or 2 segments below the level of the lesion

¢  Management

  Symptoms control (tremors, pain, muscle spasms)

  Steroids - severe relapses to speed up any recovery with will occur naturally. A severe relapse is usually classed as one that has significantly affected activities of daily living

  Beta-inferons and Glatiramer - reduce rates of relapses by 30% and is only used in relapsing and remitting or relapsing progressive disease

  IV natalizumab - is a newer monoclocal antibody treatment used in patients with very severe active disease that can reduce relapses by 80%, cost, practical consideration and complications limits its use.

Motor neurone disease

·  Degeneration of upper and lower motor neurones of unknown cause

·  5-10% autosomal dominant

·  Types

o  Spinal muscular atrophy – limb weakness due to involvement of spinal cord anterior horn cells

o  Primary later sclerosis – spastic limb weakness due to UMN involvement of the spinal cord

o  Progressive bulbar palsy – involvement of bulbar motor neurones, progressive disease

o  Amyotrophic lateral sclerosis – mixture of all the above

·  Investigations

o  Diagnosed clinically after other causes excluded

o  EMG confirms fasciculation's and fibrillations

·  Management – symptom control

·  Fatal within 3-5 years

·  Cardiac and smooth muscle aren’t involved and ocular muscle very rarely

·  Autonomic dysfunction occurs late

·  Signs

o  Dysarthria, brisk jaw reflex

o  Fasciculation/wasting in deltoids, biceps, quadriceps and in tongue

o  Weakness in all4 limbs, brisk reflexes in arms, absent in legs

·  Combination of UMN and LMN

Clinical case 1

¢  23, female presents to her GP with a 2 week history of bilateral leg weakness having started with pins and needles and numbness in her hands and feet. She has had a few days of urinary incontinence which has resolved. 2 years ago she had an episode of blurred vision and pain in the right eye which lasted a month and fully resolved

¢  Diagnosis – MS

¢  Visual – optic neuritis, diplopia, nystagmus, internuclear opthalmoplegia, dysarthria, dysphagia, weakness, muscle spasms, ataxia, pain, paraesthesis, fatigue, cognitive impairment, depression, unstable mood

¢  Uhthoff’s phenomenum – the worsening of neurological symptoms after periods of exercise and increased body heat

¢  Lhermittes sign – an electrical sensation that spreads from the back into the limbs on neck flexion and or extension

¢  Bowel problems – incontinence, diarrhoea, constipation

¢  Urinary – incontinence, frequency, urinary retention

¢  Plaques of demyelination within the CNS caused by an inflammatory process. Different areas of the CNS are involved over time

¢  LP – cell count, protein, glucose and oligoclonal bands. WCC less than 50/mm3

¢  MRI

¢  Visual evoked potentions – show delayed conduction between the retina and the occipital cortex

¢  There is no curative treatment

¢  Multidisciplinary team

¢  Symptomatic – spasticity, pain, fatigue, depression, continence

¢  Steroids, beta interferon, glatiramer, natalizumab

Clinical case 2

¢  61 female

¢  Becoming increasingly weak on her right side over a one week period. She is unable to walk and has slurred speech and right side of her face is drooping

¢  Past history of breast cancer

¢  o/e – right facial weakness, grade 4/5 weakness of the right arm and leg, right homonymous hemianopia and some difficulty naming objects and reflexes are brisk on the right side and her right plantar response is upgoing

¢  diagnosis = Cerebral maetastases from carcinoma of the breast

¢  CT head shows extensive oedema surrounding the subtle impression of a ring enhanced lesion in the left frontal lobe, extending into the left parietal lobe. There is associated mass effect displacing the lateral ventricle

¢  Features of raised intracranial pressure it is likely the oedema around the tumour has increased or bleedin has occurred within the tumour

¢  Features of raised ICP – visual loss, seizures and focal neurological deficit such as third and 6th cranial nerve palsies

¢  Multidisciplary team, neurosurgery, corticosteroids, radiotherapy, chemotherapy

Case 3

·  76 male

·  Background of AF (on warfarin) has 2 hour history of severe global right sided weakness. He is eye-opening to painful stimuli and is moving his left side spontaneously. When questioned he seems confused

·  12/15 E2, V4, M6

·  Left hemisphere primary intracerebral haemorrhage causing right sided hemiparesis

·  Bloods tests, CXR, head CT

·  head CT should have been performed within 24 hours or immediately in patients presenting with acute stroke if any of the following apply to them. – on anticoagulation treatment, known bleeding tendancy, decreased consciousness, papliodemea, neckstiffness or fever, severe headache with sudden onset,

·  Ultrasound doppler, cerebral angiography, echocardiography

·  Risk factors – hypertension, smoking, DM, FH, increasing age, previous strokes, vascular disease, hyperlipidaemia, hypercoagulable state, alcohol abuse, malignancy

·  In ishcamic stroke – thrombolysis three hours from obsets are elegible

·  Aspirin, lipid lowering drugs, anticoagulation if patient has AF or other source of embolus

·  Haemorrhaging stroke – supprotive care. neurosurgery

Case 4

¢  56 male

¢  6 month history of progressive weakness of his right hand. Also had problems with swallowing and has choked whilst eating on several occasions

¢  o/e he has wasting of his upper and lower limbs and some fasciculation's were noted his right plantar was up going and his reflexes were generally brisk

¢  Motor neurone disease

¢  MRI – to exclude local brainstem pathology

¢  EMG – acute denervation of the lower motor neurones

¢  Cases were the diagnosis isn’t clear – LP to exclude MS, muscle biopsy to exclude muscle disease. Blood tests for other conditions