1. Session 7: Neoplastic & Autoimmune CNS Disorders

2. Vignette A 23 yo med student with a 2 day history of
headache, blurred/darker vision/loss of vivid
color. There is accompanying left retro-
orbital pain which worsens with eye
movement. She has never had anything like
this before, and past medical history is
negative.
Anatomical localization?

3. Questions
Exam: L eye 20/100; R 20/20; L disc is edematous; pupils are equal but when light is shined into L eye pupils are 4mm; and 2 mm when shined into R eye. R gaze: L eye adducts more slowly than the R eye. L gaze eyes are conjugate. Enlarged blind spot noted on the L.
Does the examination refute or support localization?
Cause for visual impairment

4. Questions Visual acuity Light reaction Eye movements Visual fields
Cause of visual impairment
Cause of eye movement difficulties

5. Questions ROS PMHx Tests Diagnosis
Certainty and how is diagnosis is made
What is the outlook?
What do you disclose?

6. MRI Scans of the Brain of a 25-Year-Old Woman with Relapsing–Remitting Multiple Sclerosis.
An axial FLAIR (fluid-attenuated inversion recovery) image shows multiple ovoid and confluent hyperintense lesions in the periventricular white matter (Panel A). Nine months later, the number and size of the lesions have substantially increased (Panel B). After the administration of gadolinium, many of the lesions demonstrate ring or peripheral enhancement, indicating the breakdown of the blood–brain barrier (Panel C). In Panel D, a parasagittal T1-weighted MRI scan shows multiple regions in which the signal is diminished (referred to as "black holes") in the periventricular white matter and corpus callosum. These regions correspond to the chronic lesions of multiple sclerosis.
Volume 343: September 28, 2000 Number 13Next
Multiple Sclerosis
John H. Noseworthy, M.D., Claudia Lucchinetti, M.D., Moses Rodriguez, M.D., and Brian G. Weinshenker, M.D
Figure 1. MRI Scans of the Brain of a 25-Year-Old Woman with Relapsing–Remitting Multiple Sclerosis.
An axial FLAIR (fluid-attenuated inversion recovery) image shows multiple ovoid and confluent hyperintense lesions in the periventricular white matter (Panel A). Nine months later, the number and size of the lesions have substantially increased (Panel B). After the administration of gadolinium, many of the lesions demonstrate ring or peripheral enhancement, indicating the breakdown of the blood–brain barrier (Panel C). In Panel D, a parasagittal T1-weighted MRI scan shows multiple regions in which the signal is diminished (referred to as "black holes") in the periventricular white matter and corpus callosum. These regions correspond to the chronic lesions of multiple sclerosis.

7. MRI - Multiple sclerosis: This 35-year-old woman with a history of migraine headaches presented with a two-week history of slurred speech and trouble walking. Her examination was significant for slight left hemiparesis, brisk jaw jerk and bilateral hyperreflexia. Laboratory data demonstrated oligoclonal banding in the cerebrospinal fluid. These FLAIR-weighted axial MR images show multiple high signal lesions within the periventricular white matter. On the sagittal image on the right the signals emanate radially from the corpus callosum.
neuroslides/slide098.html
Multiple sclerosis: This 35-year-old woman with a history of migraine headaches presented with a two-week history of slurred speech and trouble walking. Her examination was significant for slight left hemiparesis, brisk jaw jerk and bilateral hyperreflexia. Laboratory data demonstrated oligoclonal banding in the cerebrospinal fluid. These FLAIR-weighted axial MR images show multiple high signal lesions within the periventricular white matter. On the sagittal image on the right the signals emanate radially from the corpus callosum.

8. Optic Neuritis with a swollen optic nerve
Figure 11. Optic Neuritis (Papillitis) with a Swollen Optic Nerve.
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Blurred Vision
Bradford J. Shingleton, M.D., and Mark W. O'Donoghue, O.D.
Optic Neuritis with a swollen optic nerve

9. The following features may help in the diagnosis.
Optic atrophy
The optic disc is pale. Note: if the patient is pseudophakic in one eye and has cataract in the other, the disc in the pseudophakic eye may appear paler in the absence of optic atrophy.
The following features may help in the diagnosis. 
Excavated appearance with the blood vessels dipping the edge (glaucoma)
Indistinct edge with glial tissue (chronic papilloedema)
Well-defined edge without excavation (optic nerve disease)
Look for:
in young patient: internuclear ophthalmoplegia and cerebellar sign for multiple sclerosis; in old patient, look for vascular diseases such as prominent temporal artery (or old scar indicating temporal artery biopsy) and carotid bruit  (or endarterectomy scar)
pupils/commonpupil.html

10. Relative afferent pupillary defect
This is a common case in pupillary examination. Always suspect this if there is no anisocoria.
The direct and consensual pupillary responses to light are normal. The swinging light test shows abnormal light response of the affected eye (initial dilatation followed by constriction). For example, if the left eye were abnormal, both pupils constrict when the light is shown into the right eye. When the light is swung to the left eye, both pupils dilate. When the light is swung back to the right eye both pupils again constrict. This reaction indicates a defect in the afferent pupillary fibres from the left eye. The near reflex is normal.
Further examination:
tell the examiner that you would like to examine the fundus of the affected eye. The most common physical signs would be optic atrophy. Other possibilities include advanced glaucoma, retinitis pigmentosa, old central retinal artery or vein occlusion.
The arrows represent the light.
pupils/commonpupil.html
A patient with a left relative afferent pupillary defect.

11. Fig. 1 A patient with a right dilated and unreactive pupil
Fig.1 A patient with a right dilated and unreactive pupil. The swinging flash test shows abnormality of the left eye. (Note the dilatation of the left eye when the light is swung to the left.)
pupils/commonpupil.html
Fig. 2 A patient with a right dilated and unreactive pupil. The swinging flash test shows abnormality of the right eye  (Note dilatation of the left eye when the light is swung to the right).

12. Left internuclear ophthalmoplegia
The most common scenario in the examination is young female with history of multiple sclerosis. However, it can also be seen in older patients with cerebrovascular accident. The main feature of this condition is impaired adduction. A favourite question is the site and side of the lesion (see question below).
In unilateral case, the affected eye shows failure (or impaired) adduction (failure of conjugate eye movement). The abducting eye shows jerk nystagmus with the quick phase towards the opposite side (this is called ataxic nystagmus but may not be obvious and  can be absent). The horizontal saccade is abnormal with the affected eye lagging behind the normal eye. The vertical saccade and convergence are normal.
pupils/commonpupil.html

13. Internuclear ophthalmoplegia (INO)
a. Normal primary position
b. Left impaired adductionn on right gaze
d. Normal convergence
c. Normal left abduction on left gaze
pupils/commonpupil.html

14. Figure 1. Pathogenesis of Multiple Sclerosis.
Circulating autoreactive T cells are activated by stimulation with superantigens,38 molecular mimicry,39 or unknown mechanisms. Once activated, these autoreactive cells traverse the blood–brain barrier to enter the central nervous system. Perivascular antigen-presenting cells provide the signals necessary to result in the activation and clonal expansion of these autoreactive T cells and the secretion of proinflammatory cytokines by them. The cytokines, including tumor necrosis factor and interferon- , induce astrocytes and leukocytes to secrete chemokines40 and stimulate the expression of adhesion molecules by endothelial cells. Activated microglia and macrophages damage myelin internodes.41 Proinflammatory cytokines may directly inhibit nerve conduction, leading to neurologic dysfunction. Immunosuppressive cytokines (not shown) inhibit the inflammatory process, leading to neurologic recovery. The putative mechanisms of action of the therapeutic effects of interferon beta, as indicated by the numbers, include inhibition of the proliferation of autoreactive T cells (1)42; inhibition of the expression of major-histocompatibility-complex class II molecules,43 leading to reduced antigen presentation within the central nervous system (2); inhibition of metalloproteases,44,45 leading to reduced migration of T cells into and through the central nervous system (3); and induction of immunosuppressive cytokines,46 leading to resolution of the inflammatory process (4).

15. Volume 343:938-952 September 28, 2000 Number 13Next
Multiple Sclerosis
John H. Noseworthy, M.D., Claudia Lucchinetti, M.D., Moses Rodriguez, M.D., and Brian G. Weinshenker, M.D

16. Volume 343:938-952 September 28, 2000 Number 13Next
Multiple Sclerosis
John H. Noseworthy, M.D., Claudia Lucchinetti, M.D., Moses Rodriguez, M.D., and Brian G. Weinshenker, M.D.

17. Impact on Visual Fields
Left optic nerve lesion
Optic chiasmal lesion
Left temporal lobe lesion
Left occipital lobe lesion

18. Visual Pathways
www-psychology.concordia.ca/ SCOL398/L2_398/L2...

19. Central scotoma resulting from inflammation of the optic disc
2. Junctional scotoma
3. Bitemporal hemianopia resulting from a lesion around the optic chiasm
4. Incongruous homonymous hemianopia resulting from a lesion in the optic tract
5. Homonymous quadrinopia resulting from a lesion in the temporal lobe
6. Homonymous hemianopia resulting from a lesion in the occipital lobe.
pupils/commonpupil.html

20. Central scotoma resulting from inflammation of the optic disc
The peripheral visual fields are normal in both eyes. There is a right central scotoma (revealed by testing the central field with a red pin). Note: the most likely diagnosis is optic neuritis.
Further examination: 
Examine the patient's fundus for any evidence of papillitis or optic atrophy. Also check for relative afferent pupillary defect.
Look for cerebellar signs or spastic paresis which are common in patients with multiple sclerosis.
pupils/commonpupil.html

21. 2. Junctional scotoma
The patient has a right central scotoma and left superior temporal field defect. This suggests a lesion between the optic nerve and the chiasm on the side with the central scotoma. There is compression of the knee of Wilbrand (loop of inferior nasal fibers) that enter the contralateral optic n for a short distance before travelling in the optic tract. Examine for optic atrophy on the side with central scotoma and possible papilloedema on the other side. The most common causes are meningioma and a prefixed pituitary tumour. In the former, the patient may have proptosis and in the later signs of hypopituitarism or acromegaly.
pupils/commonpupil.html

22. 3. Bitemporal hemianopia resulting from lesion around the optic chiasm
There is bitemporal hemianopia which
obeys the midline.and suggests a lesion
in the optic chiasm. The hemianopia may be subtle and revealed only by comparing two red objects in each hemifield. The red color in the temporal field appears washed out. If the hemianopia does not obey midline consider pseudo-bitemporal hemianopia
such as bilateral sectorial retinitis
pigmentosa, tilted discs or bilateral inferotemopral retinoschisis. Examine the fundi for any such changes.
Features of pituitary abnormalities such
as acromegaly, pan-hypopituitarism
(smooth skin and absence body hair in
male) Look for any scar suggestive of
pituitary operation.
pupils/commonpupil.html

23. 4. Incongruous homonymous hemianopia resulting from lesion
in the optic tract
The patient has a left incongrous homonymous hemianopia suggesting lesion in the right optic tract. Optic tract lesion causes homonymous hemianopia which is incongrous (meaning that the shape of the defect is different in the two half fields). This can be established on confrontation if significant. If subtle it is best documented with formal field test.
In the examination, optic tract lesions are often associated with contralateral pyramidal signs (due to damage to the cerebral peduncle).
pupils/commonpupil.html

24. 5. Homonymous quadrinopia from lesion in the temporal lobe
Left superior homonymous quadrinopia
Left inferior homonymous quadrinopia
The optic radiations are in the temporal and parietal lobes. A left superior homonymous quadrinopia is associated with a temporal lobe lesion whereas a left inferior homonymous quadrinopia is seen with a parietal lobe lesion.  During examination describe the visual field as the patient sees it. Mention if the field defect is congruous (behind the lateral geniculate body) or incongruous (in the optic tract). Look for other neurological signs such as hemiplegia.
pupils/commonpupil.html

25. If the patient has a right inferior quadrinopia, you should consider Gertmann's syndrome if the lesion is in their dominant parietal lobe. What is Gertmann's syndrome?
Failure of the person to calculate (acalculia), name fingers (finger agnosia), and to tell right from left
In patients with hemianopia or inferior quadrinopia, mention you like to perform the optico-kinetic drum test for evidence of parietal lobe lesion. What abnormality may you see? Impaired pursuit to the side of the parietal lobe lesion.
Abnormal opticokinetic nystagmus with  small saccadic movement replacement the  smooth pursuit movement.
Normal opticokinetic nystagmus with  smooth pursuit movement.

26. Which other higher sensory perceptions are impaired
Astereoagnosia (failure to tell an object through touch)
Joint position sense loss and loss of two point discrimination
How do you test for sensory inattention?
With the patient’s eyes closed alternatively touch the patient’s right then left hand (to ascertain that primary sensory function is intact) and then touch both hands simultaneously. If there is sensory inattention (neglect) the individual will only notice the touch on one side when touched simultaneously.

27. Demonstrate a central scotoma
Figure 1. An Amsler's Grid, Used to Test the Central Visual Field.
From a distance of 40 cm (16 in.) and with eyeglasses or contact lenses used for reading in place, the patient looks at the central dot with one eye at a time and identifies any zones of distortion or loss of the central visual field
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Blurred Vision
Bradford J. Shingleton, M.D., and Mark W. O'Donoghue, O.D.

28. Impact on a Rightward Saccade
Left middle cerebral artery infarct
Left frontal lobe seizure
Right pontine infarct
Left medial longitudinal fasisculus lacune
Left diabetic third nerve palsy

29. Movement Definition Associated structure
Saccade
Pursuit
Oculovestibular
Convergence

30. Saccade
Pursuit Function: to keep the fovea on a small moving target, e.g. tracking a tennis ball. As in saccades, pointing the fovea at this moving ball is a 2D problem.
Vestibular ocular reflex/ Oculovestibular reflex Function: to keep the image of the world stationary on the retina when the head rotates. Try shaking your head while reading this sentence. The fact that you can do this means that your VOR is working, it is keeping your eye still in space. It does this by rotating the eyes in the opposite direction of the head.
Vergence/convergence Function: to align a near target on the fovea of each eye.

31. Vertical Saccade
Vertical saccades originate from burst neurons in the rostral interstitial nucleus of the medial longitudinal fasciculus (riMLF).
The riMLF, like PPRF, produces the phasic command.
Neurons in the interstitial nucleus (INC) convert this to a tonic command (like the pph for horizontal saccades).
The phasic and tonic commands combine in the MN's in III & IV n.
Both sides of the brainstem have neurons that generate upward saccades and others that generate downward saccades.
Do neurons on each side do the same thing; i.e. is this a redundant representation?
schorlab.berkeley.edu/ vilis/3dnature.htm

32. Horizontal saccades
Saccades are one of 5 types of eye movements. They are used to point your fovea quickly from one object of interest to another, such as the words of this sentence.
The command for a saccade begins in a structure called the Paramadian Pontine Reticular Formation; the PPRF
Burst neurons in the PPRF generate phasic movement command which is proportional to velocity
Tonic neurons in prepositus hypoglossi (PPH)
converts the phasic command to a tonic command
this is like an integrator which converts velocity to position
Motorneurons (MN's) combine phasic and tonic commands
this contracts muscles
quickly rotates the eyes (phasic component)
& then holds (tonic component) them there against the elastic restoring forces.

33. Vestibular Control of Eye Movements
../Maculae.htm

34. Questions

35. Contents of the cavernous sinus (red)
III IV V1 V2 VI
Contents of the cavernous sinus (red)
A. Carotid Artery B. Trochlear Nerve IV C. Maxillary Nerve V2 D. Abducens Nerve VI E. Sphenoid Sinus F. Pituitary Gland G. Cavernous Sinus H. Ophthalmic Nerve V1 I. Oculomotor Nerve III

36. Carotid-Cavernous sinus fistula
Carotid-Cavernous sinus fistula

37. - Horner's syndrome + cranial nerve 3 and/or 4 and/or 6 and/or V1/V2 dysfunction (and not affecting V3) => suspect cavernous sinus pathology
- Horner's syndrome + cranial nerves 3 and/or 4 and/or 6 and/or V1 (and not affecting V2 and V3) dysfunction => suspect superior orbital fissure pathology
- Horner's syndrome + cranial nerves 2 (optic nerve), 3, and/or 4 and/or 6 and V1 (and not affecting V2 and V3) dysfunction => suspect orbital apex pathology
- Horner's syndrome + optic nerve II dysfunction +/- incomplete cranial nerve 3 dysfunction (and not affecting cranial nerves 3, 4 and 6 and V2 and V3) => suspect posterior orbit pathology
- all patients with an asymptomatic, unexplained Horner's syndrome (especially if they have ipsilateral anhidrosis of the face and neck, which implies a preganglionic Horner's syndrome), who are going to be discharged from the ED for pre-arranged follow-up as an outpatient, should have a chest X-ray performed prior to ED discharge - to exclude a mediastinal or apical lung tumor (Pancoast's tumor) or thoracic aneurysm affecting the second neuron

38. http://images. google. com/imgres. imgurl=http://www. sun. ac

39. The 3 Nerves enter the orbit via the superior orbital fissure (Figure 10),

40. Structural Abnormality
Orbit
Superior orbital fissure
Cavernous sinus
Upper brainstem

41. http://images. google. com/imgres. imgurl=http://www. sun. ac

43. Autonomic Pupillary Innervation
Sympathetic (Horner syndrome)
Parasympathetic (IIIrd nerve)

44. Differentiation between physiological anisocoria and Horner's syndrome
For patients with a normal light reaction and whose anisocoria is greatest in the dark => the smaller pupil in the dark is the abnormal pupil (dilation problem with the smaller pupil)
Differentiation between physiological anisocoria and Horner's syndrome

45. Right Horner’s syndrome: Ptosis Miosis Anhydrosis Vasodilatation
Unexplained unilateral Horner's syndrome + face/head pain is a carotid artery dissection until proved otherwise
medicine.tamu.edu/ neuro/outline.htm
Right Horner’s syndrome:
Ptosis
Miosis
Anhydrosis
Vasodilatation

46. Causes of Horner's syndrome
Central
Preganglionic
Postganglionic
 Hypothalamus  - infarct  - tumor
 Brainstem  - ischemia  - hemorrhage  - tumor  - demyelination (MS)
 Cervical cord  - trauma  - tumor  - syrinx  - AVM
 Cervico-thoracic spinal roots  - trauma  - intramedullary or paravertebral tumor  - syrinx  - AVM  - spondylosis  - epidural anesthesia
 Lower brachial plexus  - birth trauma  - acquired trauma
 Pulmonary apex (under subclavian artery)  - vascular anomalies  - Pancoast's apical lung tumor  - cervical rib  - iatrogenic (chest tube, central catheter)  - infection (eg. apical TB)
 Anterior neck  - iatrogenic (thyroid or neck surgery)  - trauma  - tumor   
 Superior cervical ganglion  - iatrogenic (tonsillectomy)  - trauma
 Internal carotid artery  - dissection  - trauma  - thrombosis  - tumor  - cluster headache
 Base of skull/carotid canal  - tumor (nasopharyngeal CA)  - trauma
 Middle ear  - tumor (cholesteatoma)  - infection
 Cavernous sinus  - tumor (pitutary adenoma)  - inflammation (Tolosa Hunt)  - cavernous carotid aneurysm  - thrombosis  - fistula

47. Clinical Pearls
- if there is a ptosis of the eyelid on the side of the small pupil => the patient has a Horner's syndrome on that side
- if there is a ptosis of the eyelid on the side of the large pupil => the patient has a partial third nerve lesion on that side
- with a lesion in the region of the cavernous sinus, there may actually be a reversal of the anisocoria in going from dark to light as a result of unilateral involvement of both parasympathetic and sympathetic axons
- a patient with a very small unilateral miotic pupil, that does not decrease in size in response to direct bright light, or dilate in response to dim light => probably has unilateral pharmacolgical miosis secondary to a cholinergic glaucoma drug (eg. pilocarpine) or an anti-cholinesterase agent ("flea collar" anisocoria)
- a mydriatic pupil that does not respond to light may appear to be due to 3rd cranial nerve pathology, but it could just be a tonic pupil - the only difference between the two may be that the tonic pupil does eventually constrict slowly on prolonged near fixation
- a patient with uncal herniation causing a compressive 3rd cranial nerve palsy, always has some degree of impairment of LOC and is never fully alert
- a patient with "apparent" physiological anisocoria may have simple anisocoria secondary to the effect of certain drugs eg. pseudo-ephedrine or serotonin reuptake inhibitors, and the anisocoria (like physiological anisocoria) is also eliminated by the instillation of cocaine eyedrops
- blindness in one eye (even if total) never causes anisocoria
- retinal pathology (even if very severe) never causes anisocoria

48. Pupil sparing CN III palsy suggests diabetes.
medicine.tamu.edu/ neuro/outline.htm

49. For patients with an abnormal light reaction and whose anisocoria is greatest in bright light conditions => the larger pupil is the abnormal pupil (constriction problem with the larger pupil)

50. Left IIIrd nerve palsy
medicine.tamu.edu/ neuro/outline.htm

51. Left IIIrd nerve palsy
medicine.tamu.edu/ neuro/outline.htm

52. http://images. google. com/imgres. imgurl=http://medicine. tamu

54. Vignette An 86 year old man has come to your clinic for an
evaluation of back pain. He has had prostate cancer for
two years. His back pain has been present for weeks "off
and on", but has started to shoot across the right side of
his back, below the rib cage. In the last few days, he has
noticed some numbness of the left leg. He does very
little walking, but can walk between rooms in his
apartment with help. Some urinary symptoms date back
years; he is continent. He says he has already told his
primary care physician that he does not want aggressive
treatment when "the inevitable" happens.

55. The physical examination reveals a lucid but very frail man, who can rise from a chair and take several steps only with considerable help. His gait is not noticeably asymmetric. There is tenderness over the T10 vertebra. Although he is frail, strength is full except for mild right lower extremity weakness. The DTRs in the arms are symmetric, the right knee reflex is greater than the left and ankle reflexes are absent bilaterally. There is a positive Babinski sign on the right, not on the left. Sensation to pin is diminished in the left leg, up to about mid-thigh in front and through the perineal area in back.

56. http://images. google. com/imgres. imgurl=http://home. flash

59. What is the anatomic diagnosis?
 How do you account for the differing laterality of motor (reflex) and sensory signs, and what is this called?
 What process is involved? What would be your differential diagnosis for this kind of deficit if the patient had not had a history of cancer?
 What imaging tests are available for the area you wish to investigate, and what are their uses? Which would you pick for this patient?
 What treatments are available?
How urgent is evaluation and treatment?  Would your approach be different if there were back pain without neurological signs?

60. Vignette
A 34 year old man develops gait difficulty and numbness below the mid-chest 2 weeks after an upper respiratory illness. Examination demonstrates diminished pin sensitivity below the mid-chest, absent abdominal reflexes, sustained ankle clonus and bilateral Babinski signs. He has a spastic gait.

61. Brown Sequard
Muscles: -no muscle control on the same side of the body that the lesion occurred
Sensation: -no sensation of  “touch” on the same side of the body that the lesion occurred -no pain and temperature sensation on the opposite side of the body that the lesion occurred
Other:  -fairly often have normal bowel and bladder functioning
Anterior Cord
Muscles: -variable muscle control throughout body Sensation: -variable sensation of touch, temperature and pain throughout body, however can sense where limbs are in space
Central Cord
Muscles: -upper limbs are weaker than lower limbs Sensation: -maintain most sensations Other: -this injury usually occurs in the cervical region
Posterior Cord
Muscles: -can control most muscles throughout bodySensation: - no sensation of touch, temperature and pain
Cauda Equina
Muscles: -no muscle movement in certain muscles in the lower limb Other:  -may cause incontinence-this part of the spinal cord is actually made of nerves, nerves (unlike the spinal cord) have the ability to heal and therefore there is a chance that some muscle control will return after a cauda equina injury (This is an injury to the nerves that exit at the base of the spinal cord)

62. High signal change in spinal cord on T2 weighted MRI

63. Vignette
A 57 year old man develops gradually progressive left-sided headaches clumsiness in the right hand over 6 months’ time. Examination demonstrates moderate slowing of rapid repetitive movements in the right hand and foot, 3+ reflexes throughout the right and 2+ reflexes throughout the left.

65. Vignette
A 67 year old woman with a history of breast cancer develops progressive left-sided headaches and clumsiness in the right hand over 6 weeks’ time and loss of appetite. Examination demonstrates mild attentional difficulty, a left homonymous hemianopsia, moderate slowing of rapid repetitive movements in the right hand and foot, and bilateral Babinski signs.

66. Brain Metastasis - Lung Carcinoma Right Frontal Lobe
Enhanced CT shows 3 cm mass right frontal region with extensive vasogenic white matter edema with mass effect, midline shift.

67. Vignette
A 31 year old woman with fever, anemia, and a facial rash is admitted to the hospital with an acute confusional state.

69. Vignette
A 36 year old woman develops a Bell’s palsy for the second time in 9 months with headache and unilateral hearing loss. Examination demonstrates a right facial palsy, left sided hearing loss, and patchy hyporeflexia; chest x-ray demonstrates hilar adenopathy.

70. http://images. google. com/imgres. imgurl=http://myweb. lsbu. ac

71. http://images. google. com/imgres. imgurl=http://www. bcm. tmc

72. http://images. google. com/imgres. imgurl=http://www. bcm. tmc

73. Volume 336:1224-1234 April 24, 1997 Number 17Next
A correction has been published: N Engl J Med 1997;337(2):139
Sarcoidosis
Lee S. Newman, M.D., Cecile S. Rose, M.D., M.P.H., and Lisa A. Maier, M.D.

74. Volume 336:1224-1234 April 24, 1997 Number 17Next
A correction has been published: N Engl J Med 1997;337(2):139
Sarcoidosis
Lee S. Newman, M.D., Cecile S. Rose, M.D., M.P.H., and Lisa A. Maier, M.D.

75. Volume 336:1224-1234 April 24, 1997 Number 17Next
A correction has been published: N Engl J Med 1997;337(2):139
Sarcoidosis
Lee S. Newman, M.D., Cecile S. Rose, M.D., M.P.H., and Lisa A. Maier, M.D.

76. Vignettes Idiopathic intracranial hypertension
Cerebral venous thrombosis

77. Cerebral venous haemorrhagic infarction
Sagittal sinus thrombosis

78. 77 year old male with decreased libido

79. T1 sagittal image shows a heterogenous mass centered
Discussion Common intrasellar masses include physiologic hyperplasia, microadenoma and nonneoplastic cyst { Rahtke's cleft cyst }. Of these, none fit the description of this extensive mass. The list can be long to include suprasellar lesions like meningioma, craniopharyngioma, pituitary macroadenoma, hypothalamic/chiasmatic glioma and aneurysm
Prolactinomas are the most common pituitary adenomas, accounting for about 30%. They occur in young women causing amenorrhea and galactorrhea, and in elderly male causing decreased libido. Patients have elevated serum prolactin levels as in this case. This study was performed for a follow up evaluation after Bromocriptine therapy . Bromocriptine is the medical treatment and often shows size reduction within a week of therapy.
Findings
T1 sagittal image shows a
heterogenous mass centered
primarily in the sella with large
suprasellar extension. T2 coronal
image shows predominantly
hypointense signal in this mass.
Post contrast coronal image
shows heterogenous
enhancement and extension of
this mass into right cavernous
sinus.
Diagnosis: Pituitary Prolactinoma
Reference: Diagnostic Neuroradiology, Anne G. Osborn
Contributor: Harish Patel , M.D
viewcase.asp?case=8