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Show J. Oil/. NCI//'{I-(II,lt!htllll/ol. S: 15H-lbJ, lYHS © 1985 Raven Press, New York Reversible Vertical Ocular Deviations Associated with Raised Intracranial Pressure LARRY P. FROHMAN, M.D. MARK J. KUPERSMlTH, M. D. Abstract Skew deviation is a common neuro-ophthalmologic finding, the presence of which is classically thought to signify a brainstem lesion. It is frequently seen in conjunction with other posterior fossa abnormalities. We report the cases of five patients having skew deviations with raised intracranial pressure without posterior fossa structural lesions. Whereas skew deviation almost always does indicate intrinsic posterior fossa disease, our experience demonstrates that increased intracranial pressure by itself can cause a skew deviation, probably by causing a secondary brainstem dysfunction. Skew deviation is classically defined as an acquired vertical divergence of the eyes that is secondary to a supranuclear dysfunction and not secondary to a peripheral neuromuscular lesion or a mechanical process in the orbit. 1,2 When examining a patient with a suspected skew deviation, the absence of a paretic muscle or localizing noncomitance by version, saccades, and the prism cover test must be established. Prior vertical heterophoria that has decompensated because of systemic illness has to be eliminated. Keane3 found skew deviations in 8% of in-hospital neuro-ophthalmologic consultations. The entity's presence is thought to be a posterior fossa localizing sign. There are, however, reports of a case of skew deviation in a patient with pseudotumor cerebri,4.5 a case of a patient with skew deviation secondary to hepatic coma,6 a case due to a supratentorial astrocytoma, 2 and three cases with skew secondary to a supratentorial bleed. 3 We describe From the Departments uf Ophthalmulugy (L.P.F., M.j.K.) and Neurolugy (M.j.K.), New York University School of Medicine, New Yurk, New York. Write for reprints to: M. j. Kupl'rsmith, M.D., 530 First Avenue, New York, NY 10016, U.s.A. ISS our series of five patients (all examined by M.j.K.) who lacked posterior fossa structural lesions, who had skew deviations, and none of whom had a prior history of strabismus. Case Studies Case 1 A 37-year-old woman had three or four episodes of frontal headaches, confusion, and falling down over a 6-week period. Her appetite diminished and she was lethargic. The confusion would persist for several hours after she had fallen down. Two weeks prior to admission, she had an episode during which her head jerked to the right, her arms twitched, and she fell down. She remained slight obtunded and had difficulty expressing herself. No further seizures occurred. On the day of admission, the patient noted the onset of intermittent vertical diplopia. The past medical history was noncontributory and she was taking no medications. The neurologic examination was remarkable only for difficulty with word finding and occasional inappropriate speech. Snellen acuity was 20/25 in each eye and the Ishihara pseudoisochromatic color plates were 7 of 10 correct in each eye. Visual fields were remarkable only for a large blind spot in each eye. The pupil was 3 mm in each eye, round and reactive to light without relative defect. The anterior examination was unremarkable, the corneal reflexes were intact, and tensions were normal. Extraocular versions, pursuit, and saccades were intact. The prism cover test showed a left hypertropia of 2 prism diopters, present in all fields of gaze except left gaze, up and to the left, and up and to the right, when the deviation increased to 4 prism diopters. The hypertropia at ne~r measured 2 prism diopters in primary poSItion. A skew deviation was diagnosed. . Papilledema, with hemorrhages and exudates m both papulomacular bundles, was noted in Journal of Clinical Neuro-opthalmology both fundi and was felt to be the cause of the slight decrement in visual performance. Laboratory studies included a normal electrolyte panel, coagulation studies, and thyroid fUI1Ctions, and a negative serology for svphilis. The hemogram was significant for a whitt' count of 19,300, with a normal differential, and a platelet count of 562,000. T1w electrocardiogr<lm and chest roentgenogram were normal. An electroencephalogram showed a left cerebral dysfunction. A computed tomographic scan of tlie head showed a necrotic left frontal glioma (Fig. 1) and angiographY was consistent with malignancy. The patient was k)st tl) folknv-up. Case .2 A 39-~'ear-old man was hospitalized for seizures, and a left frontal lobe mass found on computed tomographic scan (Fig. 2). He had a new complaint of blurred vision. Despite his complaint, Snellen acuity was 20/20 in each eye and color vision and the visual fields were normal. The pupils were -1 mm in the right eye and 5 mm in the left eve, and were round and reactive to light with hippus and without rela- Figure 1. Preoperative computed tomographic scan (cast' 1). after administration of contrast medium, demonstrating a mass of increased attenuation surrounded by an area of decreased attenuation, which is probably edema in till' left frontal lobe. The left anterior cerebral artery is displaced medially (arrowhead) and the left middle cerebral artery (broken arrow) is displaced posteriorly. There is no evidt'nCl' of extension into the posterior fossa. September 1985 Frohman, Kupersmith Figure 2. Preoperative computed tomographic scan (case 2). after contrast medium administration, showing right front() temporal mass (arrow) compressing the right lateral ventricle, with areas of increased and decreased attenuation. The mass extends to the thalamus, compressing the third ventricle. tive afferent defect. The external examination was normal. Extraocular versions, saccades, and pursuit were normal. In left lateral gaze there was conjugate jerk nystagmus, and optokinetic nystagmus was diminished to the left. Red glass and prism cover test at near showed a comitant exophoria and a left hypertropia comitant in all fields of gaze except downgaze, consistent with skew deviation. A head tilt tesf was negative. Previous ophthalmic records indicated no preexisting strabismus. The fundi were normal except for the absence of spontaneous or elicitable venous pulsations. The neurologic examination was remarkable only for acalculia and an ataxic gait. The etiology of the blurred vision was felt to be the extraocular eye muscle deviation. After a left frontal craniotomy for excision of a glioma, the patient's diplopia and visual complaints resolved. Case 3 A 44-year-old man presented with a I-year history of fatigue and difficulty seeing to his left and a new onset of vertical diplopia that was present only with both eyes uncovered. Left leg weakness began a few days prior to hospitalization. There was no history of headaches. 159 ReVl'rsiblp Vl'rtic"llkul.u Deviations Seven years before pn:'sentation he sustained a loss of consciousness, and an evaluation revl'aled a right tl'mporal mass for which he was taking phenytoin (Fig. 3). The remainder of the medical history was noncontributory. The neurologic examination was remarkable for a left central facial palsy, left-sided weakness (worse in upper extremity than in lower extremity), left-sided hyperreflexia, and a left Babinski reflex. There was some dysmetria on left fingerto- nose testing. Uncorrected Snellen acuity was 20/20 in each eye. Color vision testing with the Ishihara plates was normal in each eye, but the numbers in the left visual field showed a dense, left homonymous hemianopsia. Two millimeters of ptosis of the right upper eyelid with good levator function was present. The pupils were 3 mm in the right eye and 4 mm in the left eye in room light, and 6 mm in the right eye and 8 mm in the left eye in the dark. Both were round and reactive to light and showed no relative afferent defect. Phenylephrine, 0.5%, instilled into the inferior fornices had no effect on the ptosis or the pupilS. Extraocular versions were full, pursuit was of a cogwheel nature in all fields, and saccades were broken into hypometric microsteps. Optokinetic nystagmus was markedly diminished in all directions. At near, he had an exophoria of 10 prism diopters and a Figure 3. Preoperative computed tomographic scan (case 3). following administration of contrast medium, shOWing a Il'ft frontal lobe lesion (arrow) of decreased attenuation compressing the lateral ventricle without evidence (If either postenor or Infenor extension. 160 right hypertropia of 6 prism diopters comitant in all fields. At distance he had a comitant exophoria of 4 prism diopters and a comitant hypertropia, consistent with a skew deviation. A head tilt test was negative. Funduscopy was normal. After excision of a right temporal lobe glioma, the diplopia resolved. Case 4 A 37-year-old obese woman was admitted to University Hospital with a I-day history of throbbing occipital headache that woke her from sleep several times. She noticed the onset of vertical binocular diplopia and vertigo. Her past medical history was remarkable only for depression, for which she occasionally took trifluoperazine. There was no prior history of strabismus. She also took mineral and multivitamin supplements. The neurologic examination was unremarkable. Corrected Snellen acuity was 20/ 20 in both eyes and color vision was normal. The visual fields revealed enlarged blind spots in both eyes. The pupils were 4 mm in both eyes, round and reactive to light without relative afferent defect. The external examination was normal. The extraocular versions, saccades, and pursuit were intact. Optokinetic nystagmus was intact, as were the corneal reflexes. A left hypertropia of 2 prism diopters in primary gaze, which increased to 6 prism diopters in left gaze, 4 prism diopters in downgaze, and 6 prism diopters down and to the left, was noted. A left hyperphoria was present in all other fields of gaze. A head tilt test was negative. Funduscopy demonstrated early superior and inferior nerve fiber layer edema in both eyes. A computed tomographic scan of the head was normal except for small ventricles. A lumbar puncture was normal except for an opening pressure of 290 mm of water. A diagnosis of skew deviation secondary to increased intracranial pressure from pseudotumor cerebri was made. Following the lumbar 'pun~ture, she was treated with a program ot weIght reduction and salt restriction, a~d, b.y 1 week later, there was no subjective dIplopIa. The prism cover test revealed her to have orthophoria in all fields of gaze even with the red glass test. Case 5 A 24-year-old woman presented with a retrobulbar pressure headache and horizontal binocular diplopia. No history of extraocular abno. rmalitie~ w~s noted by her ophthalmologist pnor to thIS tIme. Her regimen of chronic sterOIds had been tapered off following a colectomy for Crohn's disease 1 week before. The Journal of Clinical Neuro-ophthalmology neurologic examination was within normal limits. Uncorrected Snellen acuity was 20/20 and color vision was normal in both eyes. The pupils were round and reactive to light without afferent defect. Extraocular versions, pursuit, saccades, and optokinetic nystagmus were intact. A comitant esotropia of 10 prism diopters at near and 20 at distance was noted. No vertical deviation was present. The discs showed blurring of the nerve fiber layer in both eyes. When the patient was examined 3 weeks later, she still had headaches and diplopia. The examination was unchanged except that she now had an esotropia of 12 prism diopters and a comitant left hypertropia of 8 prism diopters at near, and both optic discs were edematous with splinter hemorrhages. Visual fields showed enlarged blind spots in both eyes. A computed tomographic scan of the head was normal. A lumbar puncture was normal except for an opening pressure of 250 mm of water. Following the lumbar puncture, the diplopia markedly diminished. A diagnosis of skew deviation and divergence insufficiency due to raised intracranial pressure from pseudotumor cerebri was made. She was placed on a regimen of oral steroids, and her papilledema and strabismus rapidly resolved. When the patient was seen in follow-up 2 weeks later, an alternate cover test at distance revealed neither an esophoria nor a hyperphoria. Discussion Smith et aJ.2 in presenting their criteria for diagnosing skew deviation, suggested-despite the fact that they had one case of a supratentorial astrocytoma-that the presence of a brachium pontis or mesencephalic lesion strongly supported the diagnosis of skew deviation. In our series of five patients, none of whom had a prior history of strabismus, all had a skew deviation without a posterior fossa lesion. In case 4, although the prism cover test left a question of left inferior rectus palsy, extraocular versions and saccades were normal and there were no other findings to indicate the pr~sence of a paretic muscle. None of our patients had clinical or laboratory evidence of phenytoin toxicity. Besides the case described by Smith et ai., we found five other cases in the literature of skew deviation without a definite posterior fossa lesion. Whereas Keane3 arrived at conclusions similar to those of Smith et ai., he had three cases of "supratentorial hemorrhages with midbrain dysfunction" that had skew deviations. Inasmuch as this was before the advent of computed tomographic scanning, there is no way to September 1985 Frohman, Kupersmith know if Keillw's cases were due to direct compression of the upper brainstem by extension of the hemorrhage. Merikangas4 described a 35year- old woman who had headaches and episodic vertical diplopia with papilledema and skew deviation. A negative computed tomographic scan of the head and an opening pressure on lumbar puncture of 550 mm of water, with no other findings, confirmed the diagnosis of pseudotumor cerebri. As in our two patients with pseudotumor, the skew deviation resolved as the intracranial pressure was lowered. Fisher!> reported the case of a patient with skew deviation due to hepatic coma. That skew deviation could be a false localizing sign due to raised intracranial pressure is not surprising. Duke-Elder and WybarH state that heterophorias may become symptomatic from any form of disability including lack of sleep or exercise, and pregnancy and lactation. Although our patients had no prior history of strabismus, illness unmasking a latent vertical heterophoria cannot absolutely be ruled out as the cause of a transient skew deviation in cases 14. A more likely possibility is that increased intracranial pressure, of any cause, may affect the vestibular system or brainstern to induce a true skew. In either instance, it is likely that the same mechanism (that is, raised intracranial pressure) induces either the skew or the unmasking of a latent heterophoria. The rapid recovery of two of our patients after lumbar puncture supports this. Patients with raised intracranial pressure often complain of visual blurring. It is possible that small vertical deviations are a common cause of visual complaints in cases of elevated increased intracranial pressure, but they are overlooked because examiners focus on the obvious papilledema and increased intracranial pressure as the cause of the visual complaint. Increased intracranial pressure is known to cause a variety of false localizing brainstem signs. Devereaux et al. 4 reported the cases of two patients who developed internuclear ophthalmoplegia secondary to subdural hematoma, which resolved after evacuation of the clot. Baker and BunciclO reported on a series of 60 pseudotumor cerebri patients, two of whom had a vertical deviation associated with an abducens nerve paresis. Kirkham et al. 11 reported on a series of patients with divergence paralysis due to pseudotumor cerebri. These patients' symptoms all disappeared as intracranial pressure was lowered. Cranial nerve paresis can also occur as a false localizing sign in cases of increased intracranial pressure. McCammon et al. 12 stated that, in reviewing the literature on pseudotumor cerebri, 10-40% of patients de- 161 veloped sixth nerve palsies. They found facial weakness to be a not uncommon finding, and reported one case of oculomotor paralysis. Halpern and Gordon 11 reported the case of a patient with pSl'udotumor cerebri who developed twchll'ar nerve palsy, which resolved with stewid therapy. Snyder and FrenkeIl'] reported the case of one patient with bilateral total ophthalmoplegia and a facial nerve palsy secondary to pseudotumor cerebri, all of which responded to therapy. Hart and Carter!'; described one patient with facial pain and a diminished corneal ret1ex due to pseudotumor cerebri. The symptoms all resolved with the lowering of intracranial pressure. Increased intracranial pressure, therefore, has widespread effects on the cranial nerves and the brainstem. Just how it causes skew deviation is not known. There is much literature relating the vestibular apparatus to maintenance of eye position. Cogan] mentioned that "the fact that a vertical divergence occurs on stimulating the labyrinth or with unilateral labyrinth disease suggests that the pathogenesis of skew deviation is linked with the vestibulo-ocular pathways." Brain16 reported in 1926 on a patient with chronic nonsuppurative otitis interna, with no neurologic disease, and a skew deviation. Cairns and Brain 17 reported on four patien ts with intractable dizziness who underwent therapeutic eighth cranial nerve transection. One patient developed a transient postoperative skew deviation. From the description of the other three cases, it seems likely that all had a skew deviation, since no single paretic muscle could explain the vertical strabismus the patients developed. The authors stated that "there is ample physiological evidence that skew devia~ ion of the eyes is an abnormal ocular posture whICh may be produced by a defect in tonic impulses from the labyrinth on the side of the divided nerve." Halmagyi et al.l~ reported on a patient who had his left vestibular labyrinth inadvertantly destroyed. The patient~ demonstrated postural changes, left ocular counterrolling, a left head tilt, and a skew deviation. The Tullio phenomenon, as reported by Deecke et al.,]Y demonstrates the capacity or semicircular canal stimulation to produce a skew deviation. Experimental stimulation of an ampullary nerve of the semicircular canal in cats can cause a skew deviation. 20 KeaneJ pointed out that skew deviation secondary to a brainstem l~sio~ often has an accompanying medial longItudInal fasciculus lesion. None of our patients had this. . Whereas most cases of acquired skew deviatIon are indicative of brainstem pathology, we postulate a second, less trequently encountered 162 Reversible Vertical Ocular Deviations presentation of skew deviation due to increased intracranial pressure of any cause. It is likely that the raised intracranial pressure somehow affects the labyrinth or its projections through the brainstem, perhaps similar to unequal stimulation of the ampullary nerves, producing a skew. In fact, Kaaber and Zilstorfpl reviewed vestibular symptoms and other inner ear complaints with increased intracranial pressure and showed that, in patients with benign intracranial hypertension, 56% demonstrate abnormal vestibular function. In follow-up, 92% of patients had the vestibular function return to normal with normalization of the intracranial pressure. In addition, McPherson et a!. 22 demonstrated that, in rabbits, increased intracranial pressure prolonged latency of the auditory evoked potential, which reversed with the lowering of the increased intracranial pressure. The effect was felt to be due to some neuropraxic conduction defect from increased intracranial pressure on the brainstern pathways involved with the auditory evoked potential response. A similar mechanism in humans could cause the unequal stimulation of the ampullary nerves. A study of the auditory evoked potentials of patients with increased intracranial pressure of reversible causes would be useful in determining if this is true. References 1. Cogan, D. G.: ,\'eurolog!! 0; the Ocular Muscles. Charles C Thomas, Springfield, 1956, pp. 134135,219. 2. Smith, J. L., David, :\'. J., and Clintworth, G.: Skew deviations . .\'eurology14: 96-105, 1964. 3. Keane, J. R.: Ocular skew deviation. Arch. Neurol. 32: 185-190, 1975. -1. Merikangas, J. R.: Skew deviation in pseudotumor cerebri. .'11111. SCI/rol. 4: 583, 1978. 5. Baker, R. S., and Buncic, J. R.: Vertical ocular motility disturbance in pseudotumor cerebri. J. Clill. Ncuro-l'l'hthalllll11. 5: -11-.f.l, 1985. b. Fisher, M.: Ocular skew deviation in hepatic coma. ,. Ncurt'l . .\icurosurg. PSl/chiatrl/ 44: 458, 1981. . . 7. Burian, H. M., and \'lm Noorden, G. K.: Binocular \ 'isio~ alld Ocular A10tililtr C. V. Mosby, St. LOUIS, 19/-1, p. 3-15. 8. Duke-Elder, S., and Wvbar, K,: Ocular Motility alld Stral1isllluS. \'lll. 6, In SystclII of Ophthalmology, Duke-Elder,S., Ed. C. V. Mosby, 51. Louis, 1973, pp, 527, 538. . 9. Devereaux, M. W., Brust, J. C. M., and Keane, J. R.: Internuclear ophthalmoplegia caused by subdural hematoma. Ncurology 29: 251-255, 1979. . 10. Baker, R, 5" and Bunde, J. R.: Visual and oculomotor features of pseudotumor cerebri in childhood. Ann. Ncural. 14: 376, 1983. 11. Kirkham, T, H., Bird, A. c., and Sanders, M. V.: Journal of Clinical Neuro-ophthalmology Divergence paralysis with raised intr.lcranial pressure. Br. }. 0l"rt'ltlllllo/. 56: 776-7H2, 1972. 12. McCammon, A., Kaufman, H. H., ,lnd Sears, E. S.: Transient oculomotor paralysis in pseudotumor cerebri. Nellroh1gy 31: IH2-IH-t, 19HI. 13. Halpern, J. 1., and Gordon, W. H., Jr.: Trochll'ar nerve palsv as a false lllcalizing sign. AIIII. 0I'!It!lalllll1/. 13: 53- 56, 19~ 1. l·t Synder, D. A., and Frenkel. M.: An unusual presentation of pseudlltumor ct'rt'bri. All/I. 0l'!lt!laillw/. 11: 1~23-1~27, 1979. 15. Hart, R. G., and Carter, .1. E.: Pseudotumor cerebri and facial p,lin. Arc!l. Nellr,,/. 39: -t-tLJ--t-t2, 1982. 16. Brain, W. R.: On the rot<1lt'd or "cerebellar" Pl1Sture of the head. Bmill 019: 61-76, 1926. 17. Cairns, H.. and Brc\in. W. R.: Aurc\l vertigo trec\tment by di\'ision llf eighth nerve. LlIIcet 224: 946952, 1933. September 1985 Frohman, Kupersmith Iii. H,llm,lgyi, C. M, Gresty, M. A., and Gibson, W. r. R.: Ocular tilt reaction with peripheral vestibular lesion. AIIIl. Ncuru/. 6: 80-83, 1979. 19. Deeckt·, L., Mergner, T., and Plester, D.: Tullio phenomenon with lorsion of the eyes and subjective tilt of the visual surround. AIIII. N. Y. Acad. Sci. 374: 650-655, 1981. 20. Cohen, B., Suzuki, J.-I., Shanzer, S., et al.: Semicircular canal control of eye movements. In The OClllolllotor Systcm, Bender, M. B., Ed. Harper c\nd Row, NewYurk, 1964, pp.163-172. 21. Kaaber, E. G., and Zilstorff, K.: Vestibular function in benign intracranial hypertension. Clill. Otolaryllgol. 3: 183-188, 1978. 22. McPherson, D., Blanks, J., and Foltz, E.: Intracranial pressure effects on auditory evoked potentials in the rabbit: preliminary report. Neurosurgery 14: 161-166, 1984. 163 |
