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CNS Pathology

CNS Pathology. RT 91 Spring 2012. INFLAMMATORY DISEASE OF CNS. Meningitis. Inflammation fo the meningeal coverings of the brain and spinal cord Can be caused by Bacteria, virus and other organisms via blood or lymph Trauma, pentrating wounds or adjacent structures infected

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CNS Pathology

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  1. CNS Pathology RT 91 Spring 2012

  2. INFLAMMATORY DISEASE OF CNS

  3. Meningitis • Inflammation fo the meningeal coverings of the brain and spinal cord • Can be caused by • Bacteria, virus and other organisms via blood or lymph • Trauma, pentrating wounds or adjacent structures infected • Bacterial is most common (can cause hydrocephalus) • Three types pus forming bacteria: • Meningococci - infants • Streptococci - children • Pneumococci- adults • Tubercle bacillus

  4. Different Pathogens causing Meningitis • Fungi • Chronic meningitis • Often associated with AIDS and immunodepressant drug therapy • Virus • Viral meningitis can be caused by mumps, poliovirus and herpes simplex • Bacteria • Most common • Bacteria release toxins that destroy meningeal cells stimulating immune & inflammatory reactions

  5. Acute Meningitis Clinical Symptoms • Fever • Headache • Stiff neck • Vomiting • Changes in LOC • Severely ill in 24 hours • Rash • Chronic symptoms are the same but occur over weeks

  6. Diagnosis of Meningitis • Brain CT • Rule out contraindications to do a spinal tap • Spinal tap • LP to remove CSF to send to lab • Sometimes MRI is used • Is most sensitive modality for demonstrating pia and arachnoid • Treatment includes antibiotics and if secondary to encephalitis: antiviral drugs

  7. Radiographic Appearance • Initially meninges show vascular congestion, edema and minute hemorrhages • MRI and CT scans could appear normal if appropriate therapy is done right away Meningitis as a result of a Staph infection

  8. Encephalitis • Infection of the brain tissue that is viral • May occur subsequent to chickenpox, small pox, influenza and measles • May be caused by mosquitoes and herpes • Survival rates depend of cause of the disease (can be fatal) • 30% of cases in children • When caused by herpes it is often fatal

  9. Encephalitis • MRI is modality of choice • Results in cerebral edema and hemorrhagic lesions • More serious than meningitis because it frequently develops permanent neurologic disabilities

  10. Symptoms: Headache Malaise Coma Fever Seizures Treatment: Treated with antiviral medications Herpes induced is treated with Acyclovir Interferes with DNA synthesis and inhibits viral replication Encephalitis:Symptoms and Treatment

  11. CONGENITAL DISEASES OF CNS

  12. Spinal Bifida • Is a congenital disease • Bony neural arch that not completely closed • Most common in lumbar region • May or may not herniate through opening • Can range in risk from treatable to life threatening • Can be diagnosed in utero • With amniocentesis • Ultrasound • Elevated beta fetoprotein in mother’s blood

  13. Types of Spinal Bifida • Meningocele • Only the meninges protrude • Local defect of bone & dura • Myelocele • Protrusion of spinal cord • Meningomyelocele • Protrusion of meninges and spinal cord into the skin of the back • Most serious • Spinal bifida occulta • No protrusion of spinal contents • Least severe

  14. Radiographic Appearance Meningomyelocele • Can be demonstrated with CT, MRI and myelography • Prenatally with ultrasound (in utero) • Large bony defects • Herniated spinal contents Meningocele

  15. Meningomyelocele • Most serious • Affected PT’s have severe neurologic deficits • Paraplegia • Diminished control of lower limbs, bladder and bowels • Hydrocephalus is common

  16. Spinal Bifida Imaging

  17. Spinal Bifida Treatment • Can be surgically repaired • Neurological damage is permanent still and cannot be reversed • Most measures are supportive rather than corrective • Physical therapy • Physical supports • Braces • Splints

  18. CRANIAL AND SPINAL FRACTURES

  19. Cranial Fractures • Cerebral fractures usually occurs to fractures of the calvaria of the skull • 3 types of cranial fractures • Linear- straight and sharply defined • Is 80% of all cranial fractures • Depressed- curvilinear density • Basilar- Air fluid levels are indicative • Hard to diagnosis radiographically

  20. Cranial Fractures • Location of FX is more important that the extent of the FX • If FX crosses artery a bleed can occur causing a hematoma • Fx that enters mastoid air cells or sinus can cause an infection that can result in • Meningitis • Encephalitis

  21. Linear Fractures • Non branching lines that are intensely radiolucent • Vascular markings are occasionally mistaken for fractures • Fracture appears more translucent and transverses the full thickness of skull • Sutures

  22. Linear Skull FX

  23. Depressed Fracture • The fractured edges overlap • Usually caused by a high velocity impact with a small object • Can cause bleeding into subarachnoid space • Best demonstrated with CR tangential to the FX

  24. Depressed Skull FX

  25. Basilar Fracture • Very difficult to demonstrate with x-ray • Air fluid levels in sphenoid sinuses • Clouding of mastoid air cells • Often X-table lateral is done to demonstrate this • CT & MRI are most often used for this type

  26. Compression Fracture of spine • Most frequent type of injury involving vertebral body • Generally occurs in T and L-spine • T11- T12 and T12 – L1 • Damage is usually limited to the upper portion of the vertebral body, particularly to the anterior margin

  27. Compression FX of Spine

  28. Compression FX of Spine

  29. Hangman’s Fracture • FX of the arch of the 2nd c-spine vertebrae • Usually accompanied by anterior subluxation of the 2nd and 3rd cervical vertebrae • Sometimes called traumatic spondylosis • Resulting from acute hyperextension of the head & neck • Originally seen commonly in hangings • Now seen more for MVA

  30. Hangman’s Fracture

  31. Hangman’s Fracture

  32. Jefferson’s Fracture • Comminuted FX of the ring of the atlas • First described as a “burst FX” • Generally occurs as a result of severe axial force such as a MVA • With this FX particular attn needs to be paid to the transverse longitudinal ligament by reviewing lateral masses on the open mouth odontoid • MRI is preferred method for this ligament

  33. Jefferson’s Fracture

  34. Jefferson’s Fracture

  35. TRAUMATIC DISEASE

  36. Cerebral Contusion • Is an injury to the brain tissue caused by a movement of the brain within the calvaria after blunt trauma • Occurs when brain contacts rough skull surfaces such as orbital floor and petrous ridges • PT usually loses consciousness and cannot remember traumatic event • Persitent LOC over 24 hrs is a coma and can be fatal

  37. CT appearance of Cerebral Contusion • CT scans appear as low density areas of edema and tissue necrosis • With or without homogenous density zones reflecting areas of hemorraghe • Most common sites of injury are frontal and anterior temporal regions. • When IV contrast is used it will enhance several weeks after injury • Plays an important role in diagnosis

  38. MR of Cerebral Contusion • Cerebral edema causes high signal intensity on T2 scans • T1 scans may produce high signal regions • Diagnosis can also include CT, MRI and PET

  39. Clinical symptoms: Drowsiness Confusion Agitiation Hemiparesis Unequal pupil size Treatment: PT is hospitalized Prevent shock If there is swelling medication is given to decrease cranial pressure Control edema Drainage of hematoma Surgery is usually not necessary Cerebral Contusion

  40. Cerebral Contusion

  41. Hematomas • Brain trauma often resulting in a hemorrhaging from a ruptured vein or artery • Venous bleeding occurs more slowly than arterial bleeding • Arterial bleed accumulates fast & causes neurologic symptoms & coma • Both can cause edema in the brain and cause an increase in intracranial pressure • Skull does not allow for expansion and pressure forces brain toward open space (foramen magnum) • Can result in major consequences & death if not treated quickly

  42. Epidural Hematomas • Highest mortality rate of the hematomas • Even when treated quickly mortality rate is 30% • Results from a torn artery and its branches • Most often occurs from a FX of the temporal bone • 80% of cases conventional radiograph shows fracture • Usually meningeal artery with blood pooling between bones of the skull & dura mater http://www.youtube.com/watch?v=cVUofakFIyw&feature=related

  43. Epidural Hematoma Usually a shift of midline Toward opposite side CT shows increased density Emergency surgical decompression is required to relieve cranial pressure

  44. Subdural Hematomas • Between the dura mater & arachnoid meningeal layers • Caused by blunt trauma to frontal or occipital lobes and can tear subdural veins • Pushes brain away from skull across midline (including ventricles) http://www.youtube.com/watch?v=qO16QXMxBLY&feature=related

  45. Subdural Hematoma Occurs more slowly Because it is a venous Hemorrhage. On CT appears as a curvilinear area of I increased density on portions or all of the cerebral hemispheres

  46. Subdural Hematomas • Subacute stage (up to several days) • Appears on CT as a decreased density or isodense fluid collection • In chronic state (2-3 weeks) • The surface of the hematoma becomes concave • Delayed coma con occur

  47. Symptoms of Hematomas • Headaches • Agitation • Drowsiness • Gradual radiograph deficits

  48. Treatment of Hematomas • In small hematomas without inclination to rebleed • the hemorrhage is reabsorbed naturally • no treatment is necessary • Severe cases • Require surgical ligation • Evacuation of hematoma to prevent herniation • Less invasive treatment may include • Drug therapy • Intraventricular catheter to remove CSF, which may cause herniation

  49. Degenerative Diseases

  50. Herniated Disk • Disks act as shock absorbers • When young nucleus pulposus contains large amount of fluid to cushion spine • With increased age the fluid & elasticity decrease leading to degenerative disease and back pain

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