PATH375 Lecture 10 - CNS PDF

Summary

This document details a lecture on the central nervous system (CNS), covering its structure, function, and associated pathologies. The lecture notes include various aspects of the CNS, from its anatomy and histology to specific disorders and the clinical presentations associated with them.

Full Transcript

PATHOLOGY 375
LECTURE 10: CENTRAL NERVOUS SYSTEM

MIKE NIMMO, MD, FRCPC
CLINICAL PROFESSOR
DEPARTMENT OF PATHOLOGY AND LABORATORY MEDICINE
FACULTY OF MEDICINE, UNIVERSITY OF BRITISH COLUMBIA

OBJECTIVES
1. Describe the structure and function of the central nervous system.
2. Describe causes and symptoms of increased intracranial pressure.
3. Describe causes and clinical presentations of dysraphic developmental
disorders, intracranial hemorrhage and cerebrovascular disease.
4. Describe classification of CNS trauma.
5. List causes and characteristics of CNS infections.
6. Describe clinical and pathologic features of multiple sclerosis.
7. Describe metabolic, nutritional and neurodegenerative diseases of the CNS.
8. Describe the neoplasms associated with the central nervous system.

2

STRUCTURE OF THE CNS (BRAIN & SPINAL CORD)
•

Brain includes cerebrum, cerebellum and brainstem.

•

Cerebrum (left + right hemispheres).
• 4 lobes:
• Frontal (motor, behavior, emotions, higher intellectual
functions)
• Temporal (hearing and smelling).
• Parietal (sensory).
• Occipital (visual center).
• Surface arranged into gyri, invaginations are called sulci.
• Basal ganglia:
•

Group of subcortical nuclei that includes substantia nigra.

•

Supply inhibitory signal to skeletal muscle, coordinate
skeletal muscle contractions.

3
https://medlineplus.gov/ency/imagepages/1074.htm
https://www.bioscience.org/2018/v23/af/4586/figures.htm

4
https://neupsykey.com/stroke-7/

STRUCTURE OF THE CNS - BRAIN
• Cerebrum cont’d:
• Thalamus – center for integrating sensory stimuli
and for consciousness.
• Hypothalamus – regulates many body functions
(temperate, heart rate, blood pressure, thirst,
appetite, hormonal regulation).
• Cerebellum:
• Regulation of motor function, balance, muscle
tone.
• Brain stem:
• Consists of mid brain, pons, medulla oblongata.
• Important centers that regulate elementary body
functions (e.g. cardiac, vasomotor, respiratory
centers located in medulla).

5
http://droualb.faculty.mjc.edu/Lecture%20Notes/Unit%205/chapter_15_the_brain%20Spring%2007with%20figures.htm

STRUCTURE OF THE CNS
Meninges
• Specialized layers of connective tissue
surrounding the brain
• Dura mater, arachnoid mater, pia mater.
Cerebrospinal fluid (CSF)
• Circulates through system of channels
[ventricles (third, lateral, fourth),
subarachnoid space, spinal cord].
• Produced in choroid plexus, reabsorbed by
arachnoid granulations.
• Serves as cushion, exchange of materials.
6
https://www.smallpocketlibrary.com/2020/07/cranial-meninges.html
https://commons.wikimedia.org/wiki/File:1317_CFS_Circulation.jpg

Brain histology
• Neurons: dendrite, cell body, axon.
• Glial (support) cells:
• Astrocytes, oligodendroglia
(Schwann cells in PNS),
microglia, ependymal cells.

7
https://medlineplus.gov/ency/imagepages/18117.htm
https://commons.wikimedia.org/wiki/File:Figure_35_01_06.jpg
https://en.wikipedia.org/wiki/Grey_matter#/media/File:Grey_matter_and_white_matter_-_very_high_mag.jpg

STRUCTURE OF THE CNS – SPINAL CORD
• Spinal cord consists of gray and white matter.
• Gray matter (Butterfly-like shape):
• Anterior/ventral horn (motor neurons).
• Contains lower motor tract neurons
which gives rise to peripheral nerves
 extend to muscles.
• Posterior/dorsal horn (sensory neurons).

8
https://courses.lumenlearning.com/ap1x94x1/chapter/the-spinal-cord/
https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5743665/

STRUCTURE OF THE CNS – SPINAL CORD
• White matter:
• Consists of myelinated nerve fibers.
• Descending motor tracts (e.g. corticospinal tract) contain upper motor neurons.
• Ascending sensory tracts (e.g. dorsal column) are axonal extension of neurons located in
spinal ganglia.

9
https://courses.lumenlearning.com/ap1x94x1/chapter/the-spinal-cord/
https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5743665/

Sensory tracts (ascending)

Motor tracts (descending)

10
https://open.oregonstate.education/aandp/chapter/14-5-sensory-and-motor-pathways/

Peripheral nerve histology
• Axons that pass out of brain
stem or spinal cord are
myelinated by Schwann cells.
• Anterior spinal roots join with
posterior roots to form peripheral
nerve trunks.
• Motor nerves end peripherally at
muscle end plates and sensory
nerves are associated with
peripheral sensory endings.
11
https://www.frontiersin.org/articles/10.3389/fncel.2017.00347/full
https://upload.wikimedia.org/wikipedia/commons/a/ac/1319_Nerve_StructureN.jpg

OBJECTIVES
1. Describe the structure and function of the central nervous system.
2. Describe causes and symptoms of increased intracranial pressure.
3. Describe causes and clinical presentations of dysraphic developmental
disorders, intracranial hemorrhage and cerebrovascular disease.
4. Describe classification of CNS trauma.
5. List causes and characteristics of CNS infections.
6. Describe clinical and pathologic features of multiple sclerosis.
7. Describe metabolic, nutritional and neurodegenerative diseases of the CNS.
8. Describe the neoplasms associated with the central nervous system.

12

IMPORTANT CONCEPTS REGARDING CNS PATHOLOGY
• CNS function is highly organized and localized:
• Localized lesion produces localized symptoms.
• CNS is contained within a closed space, with fixed internal volume:
• Increase volume results in herniation.
• Blood brain barrier maintains constant environment.
• Brain and spinal cord surrounded by cerebrospinal fluid (CSF):
• Alterations in CSF composition provides information as to disease.
• Neurons are incapable of division:
• Loss of neurons not replaced.
• Neural cell tumors occur in children.
• Glial cells are dividing cells:
• Brain tumors in adults are gliomas.
• Unique CNS diseases (neurotropic organisms, neurodegenerative diseases).

13

PATHOLOGY OF THE CNS - SYMTPOMS

• CNS consists of highly specialized functional
units.
• Lesion in certain region results in predictable
functional defect(s).
• Eg. injury to:
• Occipital lobe (visual center)  blindness.
• Precentral gyrus (motor area of cerebral
cortex)  motor defects (paralysis).
• Symptoms result from dysfunction of, or loss
function of neurons.
14

INCREASED INTRACRANIAL PRESSURE (ICP)
• CNS is contained within a closed space, with
fixed internal volume.
• Intracranial contents:
• Brain parenchyma, CSF, blood.
• ICP is pressure of CSF.
• Increased ICP is life threatening condition.
• Causes:
• Brain parenchyma: tumor, cerebral
edema.
• CSF outflow obstruction
• Alterations in cerebral blood volume:
intra-cerebral hemorrhage, hematoma.

15

INCREASED ICP
• Symptoms include headache, vomiting, vision
change, loss of consciousness, death.
• If pressure is not relieved may get herniation of brain.
• Brain herniation = movement of brain tissue from
normal intracranial compartment to another.
• Different types of herniation depending on where
brain moves to (extracranial, subfalcine,
transtentorial and tonsillar).
• Death may result from compression of vital centers
(eg. compression of medulla oblongata from tonsillar
herniation).
16
https://en.wikipedia.org/wiki/Falx_cerebri#/media/File:Falxcerebri.jpg
https://pubs.rsna.org/doi/full/10.1148/rg.2019190018

PATHOLOGY OF THE CNS - SYMTPOMS
• Space occupying lesions:
• Specific deficits depending on location.
• Symptoms may result from:
• Loss of neurons  Alzheimer’s.
• Abnormal function of neurons  Parkinson’s.
• Abnormal excitation of neurons  Epilepsy (seizures)
• Psychiatric disease:
• Eg. Schizophrenia, bipolar psychosis.
• Caused by abnormal function of brain cells.
• Exact nature of dysfunctions unknown and not described in
pathologic terms.

17

OBJECTIVES
1. Describe the structure and function of the central nervous system.
2. Describe causes and symptoms of increased intracranial pressure.
3. Describe causes and clinical presentations of dysraphic developmental
disorders, intracranial hemorrhage and cerebrovascular disease.
4. Describe classification of CNS trauma.
5. List causes and characteristics of CNS infections.
6. Describe clinical and pathologic features of multiple sclerosis.
7. Describe metabolic, nutritional and neurodegenerative diseases of the CNS.
8. Describe the neoplasms associated with the central nervous system.

18

DYSRAPHIC MALFORMATIONS
•

Group of congenital malformations characterized by incomplete
closure of the neural tube, or bones protecting CNS.

•

Cranial (incomplete formation of cranium)

Figures from
genetics/developmental
disorders lecture

• Destruction of brain in utero with resulting anencephaly.
•

Spinal dysraphism (incomplete closure of posterior spine)
• Spina bifida occulta:
• Defects in vertebral bones, but not opening or sac.
• Meningocele:
• Defect in bone with opening/sac in back (protrusion of
meninges through defect).
• Myelomeningocele:
• Defect in bone with opening/sac in back containing parts of
spinal.

https://commons.wikimedia.org/wiki/File:Anencephaly-web.jpg
https://www.cdc.gov/ncbddd/spinabifida/facts.html
https://commons.wikimedia.org/wiki/File:Spina-bifida.jpg

19

INTRACRANIAL HEMORRHAGE
•

Classified into 4 groups based on location.

•

Epidural hematoma:
• Arterial hemorrhage: space between skull and dura.
• Usually due to trauma (MVA), not immediately
apparent, takes several hours to form.
• If unrecognized, lethal.

•

Subdural hematoma:
• Venous hemorrhage: space between dura and
arachnoid.
• Symptoms slower onset than epidural hematoma
(present within 48 hours of injury).
• Falls in patients with cerebral atrophy (alcoholics,
elderly).

Pediatrics in Review September 2019, 40 (9) 468-481

20

INTRACRANIAL HEMORRHAGE
•

Subarachnoid hemorrhage
• Hemorrhage into space between arachnoid
and pia (brain surface).
• Usually due to trauma, also rupture of
aneurysms (Berry aneurysms).

•

Intracerebral hemorrhage
• Hemorrhage into substance of the brain
from intracerebral vessels

x

• Causes:
• Traumatic.
• Non-traumatic: stroke, tumor.
Pediatrics in Review September 2019, 40 (9) 468-481

21

CEREBROVASCULAR DISEASE
•

Secondary to disease of blood vessels supplying the CNS.

•

Clinical manifestation of CVD is stroke (aka ‘brain attack’).
•

•

Categorized as: ischemic (85%) or hemorrhagic (15%).

Need to act F.A.S.T (ideally treatment started within a few hours
of symptoms).

•

•

F – Face (is it drooping).

•

A – Arms (can both arms be raised).

•

S – Speech (is it slurred or jumbled)

•

T – Time to call 911 if any of above signs present.

Ischemic:
• Related to atherosclerosis of cerebral arteries or
thromboembolic occlusion of cerebral arteries.
• CNS is susceptible to localized or global ischemia.

22
Fig 21-6. Cerebral infarcts. Pathology for the Health Professions, 2012

CEREBROVASCULAR DISEASE
•

Global ischemia:
• Generalized reduction of oxygen supply.
• Two major patterns of injury:
• Multiple small foci of ischemic necrosis.
• May occur due to atherosclerosis, results in multiinfarct dementia (progressive mental deterioration).
• Hypoperfusion from cardiac failure or any form of shock.
• Mechanisms of shock:
•

Pump failure

 Cardiogenic shock

•

Loss of fluid

 Hypovolemic shock

•

Loss of peripheral vascular tone  Hypotonic shock

• Region furthest from blood supply most susceptible
to hypotension (watershed zone).
23
Fig 21-6. Cerebral infarcts. Pathology for the Health Professions, 2012

CEREBROVASCULAR DISEASE
• Focal ischemia:
• Ischemic necrosis of localized part of cerebral cortex.
• Usually thromboembolic origin.
• Either from mural thrombus after myocardial infarct.
• Or embolus from cardiac valve (endocarditis).
• Pathologic changes  liquefactive necrosis:
•

Necrosis characterized by dissolution of tissue.

•

Necrotic area is soft and filled with fluid.

• Brain surrounding infarct is edematous  profound
neurologic deficits (depend on site of occlusion).
• May get partial resolution as edema subsides.
• Physical and occupational therapy important to long term
rehabilitation.

24

CEREBROVASCULAR DISEASE
• Hemorrhagic stroke:
• Strokes resulting from rupture of blood vessel, no
occlusion.
• Causes:
• Hypertension:
• Chronic severe systemic hypertension is most
common cause.
• Usually occur in the basal ganglia.
• Cerebral amyloid angiopathy.
• Cerebral arteriovenous malformation.
• Intracranial aneurysm.
https://www.bioscience.org/2018/v23/af/4586/figures.htm
https://medicine.tamu.edu/class-files/webpath16/tutorial/stroke/stroke011.htm

25

OBJECTIVES
1. Describe the structure and function of the central nervous system.
2. Describe causes and symptoms of increased intracranial pressure.
3. Describe causes and clinical presentations of dysraphic developmental
disorders, intracranial hemorrhage and cerebrovascular disease.
4. Describe classification of CNS trauma.
5. List causes and characteristics of CNS infections.
6. Describe clinical and pathologic features of multiple sclerosis.
7. Describe metabolic, nutritional and neurodegenerative diseases of the CNS.
8. Describe the neoplasms associated with the central nervous system.

26

CNS TRAUMA
• Concussion:
• Syndrome of altered consciousness secondary to head injury.
• Transient neurologic dysfunction (loss of consciousness,
temporary respiratory arrest, loss of reflexes).
• No significant macroscopic or microscopic brain changes.
• Contusion (analogous to bruising of soft tissue):
• Secondary to disruption of blood vessels due to trauma.
• Contusion at site of impact = Coup injury (from direct force)
• Contusion at opposite site of impact = Contrecoup injury (from
deceleration of brain).
• Laceration (analogous to tearing of of soft tissue):
• Typically caused by open trauma disrupting integrity of brain.
• Severe form of injury with tearing of brain.

27
https://commons.wikimedia.org/wiki/File:Contrecoup.svg

CNS TRAUMA
• Spinal cord injuries:
• Spinal cord protected by vertebrae (cervical,
thoracic, lumbar, sacrum, coccyx).
• Cervical spinal cord is most vulnerable due
to greatest mobility.
• Hyperextension injury, a force to the
forehead forces head backwards.
• Hyperflexion injury, impact on the occiput
forces head forwards.
• May cause ligament rupture, compression of
spinal nerves, transection of spinal cord.
28

OBJECTIVES
1. Describe the structure and function of the central nervous system.
2. Describe causes and symptoms of increased intracranial pressure.
3. Describe causes and clinical presentations of dysraphic developmental
disorders, intracranial hemorrhage and cerebrovascular disease.
4. Describe classification of CNS trauma.
5. List causes and characteristics of CNS infections.
6. Describe clinical and pathologic features of multiple sclerosis.
7. Describe metabolic, nutritional and neurodegenerative diseases of the CNS.
8. Describe the neoplasms associated with the central nervous system.
9. Describe the structure and function of the skin.
10. Describe different types of external injury to skin and grading of burns.
11. Describe idiopathic and immune skin disorders.
12. Describe features of common skin neoplasms.

29

CNS INFECTIONS
• Infections can be acquired by:
• Hematogenous/vascular spread (most common).
• Direct extension from adjacent structures.
• Ascending neural route (eg. Rabies).
• Forms of CNS infections:
• Myelitis is inflammation of spinal cord parenchyma
(poliomyelitis).
• Encephalitis is inflammation of cerebral parenchyma (viral).
• Meningitis is inflammation of the meninges.
• Cerebral abscess (bacteria) – localized suppurative infection.

30

CNS INFECTIONS – MENINGITIS
• Usually caused by infection.
• Broadly classified into:
• Acute pyogenic (bacterial) meningitis:
• Group B streptococci (neonates).
• Neisseria meningitides (children).
• Streptococcus pneumoniae (adults).
• Aseptic (viral) meningitis:
• Misnomer, term referring to absence of recognizable organism.
• Etiologic agent can be identified in only minority of cases.
• Chronic meningitis:
• Tuberculosis, Fungal infections, lyme disease, syphilis.
• Meningoencephalitis = meningeal and brain parenchymal inflammation.

31

CNS INFECTIONS – VIRUSES
• Usually cause encephalitis.
• CNS may be involved in systemic viral infections (herpes, measles,
rubella).
• Some viruses selectively attack the CNS (rabies, tick borne viruses).
• The immunocompromised are at increased risk of viral CNS infections.
• HIV affects the CNS  causes AIDS related encephalopathy.
• HIV infects T lymphocytes, which ‘import’ virus to CNS.
• Secretion of cytokines, some are toxic to neurons  consequence
= AIDS related dementia.
• HIV patients increased risk for opportunistic infections (Toxoplasma
and Cryptococcus).
32

CNS INFECTIONS
• Prions
• Small infectious protein particles (do not contain DNA or RNA).
• Prions infect nervous system selectively.
• Most common diseases is Creutzfeldt-Jakob disease (CJD).
• Bovine spongiform encephalopathy is prion disease in cows.
• Brain undergoes spongiform degeneration (prion disease is also known
as transmissible spongiform encephalopathy).
• Protozoa
• Toxoplasmosis occurs as an opportunistic infection in AIDS.
• Fungi
• Candida, Aspergillus, and Cryptococcus may cause CNS infections in
immunocompromised individuals.

33

OBJECTIVES
1. Describe the structure and function of the central nervous system.
2. Describe causes and symptoms of increased intracranial pressure.
3. Describe causes and clinical presentations of dysraphic developmental
disorders, intracranial hemorrhage and cerebrovascular disease.
4. Describe classification of CNS trauma.
5. List causes and characteristics of CNS infections.
6. Describe clinical and pathologic features of multiple sclerosis.
7. Describe metabolic, nutritional and neurodegenerative diseases of the CNS.
8. Describe the neoplasms associated with the central nervous system.

34

MULTIPLE SCLEROSIS
• Autoimmune demyelinating disease.
• Characterized by chronic relapsing and remitting course.
• Most common immunologic CNS disease, usually 25 to 45 yo patients.
• Pathogenesis not known:
• More prevalent in colder climates.
• Genetic component.
• Immunologic studies reveal:
• T lymphocytes in MS lesion belong to a few clones, likely
sensitized to some component of myelin.
• B lymphocyte clones respond to some unidentified antigen.
35

MULTIPLE SCLEROSIS
• Pathology:
• Demyelinating disease that typically involves white
matter.
• Demyelination leads to typical plaques (common in
white matter of brain, spinal cord, optic nerve).
• Both sensory and motor symptoms
• Limb weakness, loss of sensation with tingling, blurred
vision.
• Clinical criteria to establish diagnosis.
• MRI highlights areas of demyelination
• Unpredictable course.
• Most physically incapacitated over 20-30 year period.

36
https://neuropathology-web.org/chapter6/chapter6aMs.html

OBJECTIVES
1. Describe the structure and function of the central nervous system.
2. Describe causes and symptoms of increased intracranial pressure.
3. Describe causes and clinical presentations of dysraphic developmental
disorders, intracranial hemorrhage and cerebrovascular disease.
4. Describe classification of CNS trauma.
5. List causes and characteristics of CNS infections.
6. Describe clinical and pathologic features of multiple sclerosis.
7. Describe metabolic, nutritional and neurodegenerative diseases of the CNS.
8. Describe the neoplasms associated with the central nervous system.

37

METABOLIC DISEASES
• Inborn errors of metabolism:
• Group of diseases characterized by deficiency in enzymes essential
for maintenance of myelin and cell membranes of neurons.
• Examples include Tay-Sachs and Niemann-Pick disease (both
autosomal recessive genetic disorders).
• Tay-Sachs disease:
• Hexosaminidase A deficiency results in accumulation of gangliosides
in neurons leading to toxicity.
• Typically seen in infants < 6 months of age.
• Niemann-Pick disease:
• Sphingomyelinase deficiency results in accumulation of
sphingomyelin in neurons leading to toxicity.

38

NUTRITIONAL DISEASES
• Deficiencies of certain vitamins cause CNS lesions.
• Most important deficiencies affecting brain:
• Thiamine (vitamin B1) deficiency:
• Presets as Wernicke’s encephalopathy (disturbance of ocular
function, gait, mental function) or Korsakoff syndrome
(amnesia and confabulation).
• Vitamin B12 deficiency:
• Causes uncoordinated movement, sensorimotor peripheral
neuropathy.
• Nicotinic acid (vitamin B3) deficiency:
• Causes: dermatitis, diarrhea, delirium (3 D’s).

39

ALCOHOLISM
• Alcohol has profound effects on brain.
• Small amounts cause euphoria, lack of inhibition.
• Large amounts depress brain functions, if excessive  neurotoxin  death.
• Indirect affects of chronic alcoholism:
• Nutritional and metabolic disturbance (eg. thiamine deficiency).
• Repeated head trauma (subdural hematomas) from falling while inebriated.
• Direct affects of chronic alcoholism :
• Atrophy (cerebellar or cortical)  likely related to loss of neurons from neurotoxic
effects of alcohol.
• Cerebellar atrophy  accounts for uncoordinated movements.
• Cortical atrophy  progressive mental deterioration.
• Myleopathy and sensory-motor neuropathy  sensory deficiency, tremor and
fatigability of muscles.

40

NEURODEGENERATIVE DISEASES
• Group of diseases of unknown etiology limited to CNS.
• Diagnosis of exclusion (need to exclude all other brain
disease that could cause symptoms).
• Each disease preferentially involves various parts of
brain:
• Alzheimer’s disease: atrophy of frontal and
occipital cortical gyri.
• Huntington’s disease: basal ganglia and frontal
cortex.
• Parkinson’s disease: loss of dopaminergic neurons
in the substantia nigra.
• ALS: motor neurons of anterior horn of spinal cord,
brainstem and frontal cortex.

41
Neural Regen Res 2020;15:838-42

ALZHEIMER’S DISEASE
• Form of dementia of unknown etiology, possible
genetic factors (5-10% familial, majority sporadic).
• Most common cause of dementia in elderly.
• Insidious impairment.
• Impairment of higher intellectual functions.
• Later, progressive disorientation, memory loss,
aphasia.
• Eventually profoundly disabled, mute, immobile.
• Atrophy of brain (narrow gyri, wide sulci) due to loss
of neurons.
• Histological changes include neurofibrillary tangles
and neuritic plaques.

https://webpath.med.utah.edu/CNSHTML/CNS088.html
https://commons.wikimedia.org/wiki/File:Histopathology_of_Alzheimer%27s_disease.jpg

42

PARKINSON’S DISEASE
• Subcortical neurodegenerative disease of
unknown etiology.
• Decreased dopaminergic neurons in the
substantia nigra.
• Present with TRAP symptoms:
• Tremor, Rigidity, Akinesia, and Postural
instability.
• Pathologic changes:
• Palor of substantia nigra (brainstem).
• Histology: loss of melanin rich neurons,
remaining neurons contain Lewy’s bodies
(inclusion composed of proteins).

43
https://en.wikipedia.org/wiki/File:Paralysis_agitans_(1907,_after_St._Leger).png
https://edoc.ub.uni-muenchen.de/11787/

HUNTINGTON DISEASE
• Autosomal dominant neurodegenerative disease.
• Mutation of gene called huntingtin (HTT) gene
(codes for huntingtin protein).
• Expansion of CAG trinucleotide repeat in gene
causes mutant protein to form.
• Characterized by involuntary, gyrating movements
and progressive dementia.
• Atrophy of basal ganglia and frontal cortex.
• Onset of symptoms by age 40.
• Most are mentally incapacitated and die within 20
years of onset of symptoms.
44

AMYOTROPHIC LATERAL SCLEROSIS (ALS)

Motor tracts

• Aka Lou Gehrig’s disease.
• Progressive, fatal motor neuron disease of unknown
etiology.
• 10% familial forms.
• Characterized by motor weakness and progressive
wasting of muscles in extremities leading to
generalized muscle loss and death.
• Loss of motor neurons in spinal cord, midbrain and
cerebral cortex.
• Most prominent is loss and sclerosis of lateral
corticospinal tracts (hence, term ALS).
• Death due to paralysis of respiratory muscles.

45

OBJECTIVES
1. Describe the structure and function of the central nervous system.
2. Describe causes and symptoms of increased intracranial pressure.
3. Describe causes and clinical presentations of dysraphic developmental
disorders, intracranial hemorrhage and cerebrovascular disease.
4. Describe classification of CNS trauma.
5. List causes and characteristics of CNS infections.
6. Describe clinical and pathologic features of multiple sclerosis.
7. Describe metabolic, nutritional and neurodegenerative diseases of the CNS.
8. Describe the neoplasms associated with the central nervous system.

46

CNS NEOPLASMS
• ~50% are primary neoplasms:
• Gliomas.
• Meningiomas.
• ~50% are secondary neoplasms (metastases).
• General points regarding primary CNS neoplasms.
• Rare, but important because of high mortality.
• Usually no identifiable risk factor.
• Some hereditary syndromes (neurofibromatosis, multiple
endocrine neoplasia – MEN) are associated with
increased risk of meningiomas.

47

CNS NEOPLASMS - GLIOMAS
• Tumors arising from glial cells:
• Astrocytes: astrocytoma.
• Oligodendroglial cells: oligodendroglioma.
• Ependymal cells  ependymoma.
• Astrocytic tumors: astrocytoma and glioblastoma.
• Account for 80% of glial tumors.
• Malignant neoplasms with appearance of
astrocytes.
• Different types, different prognoses.
• Glioblastoma (multiforme).
• Highly aggressive, poor prognosis (mean
survival 1 yr).
• Irregularly infiltrative lesion.

48
https://www.webpathology.com/image.asp?case=741&n=12
https://www.spandidos-publications.com/10.3892/ol.2019.10179

CNS NEOPLASMS – MENINGIOMA.

• Neoplasm arising from meninges.
• Usually benign.
• But may cause death if in vital
location.
• Good prognosis.
• Most arise in midline impinging
cerebral hemispheres from the
outside.

https://webpath.med.utah.edu/CNSHTML/CNS116.html

49