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Show Journal of Clinical Neuro-ophthalmology 7(3):129-131, 1987. Persistent Accommodative Spasm Nine Years After Head Trauma Brian J. Bohlmann, B.S., and Thomas D. France, M.D. (9 1987 Raven Press, Ltd., New York Spasm of the near reflex is most often seen on a functional basis in young adults with underlying emotional problems. In particular, when convergence spasm is associated with miosis on attempted lateral gaze, a functional basis for the disorder should be suspected. Patients who experience spasm of the near reflex following trauma commonly follow a benign course with spontaneous resolution of their ocular complaints within 1-2 years. Accommodative spasm, manifested by pseudomyopia, or spasm of convergence, alone, or in combination with miosis, may be found as isolated signs of spasm of the near reflex. We report a patient who continues to demonstrate accommodative spasm 9 years after a motor vehicle accident. Key Words: Accommodative spasm-Traumatic head injury. Pediatric Eye Clinic University of Wisconsin Hospital and Clinics, Madison, Wisconsin. Address correspondence and reprint requests to Dr. Thomas D. France, University of Wisconsin Hospital and Clinics, 600 Highland Avenue, Room F4/326, Madison, Wisconsin 53792 129 Spasm of the near reflex is a disorder characterized by intermittent attacks of miosis, convergence spasm, and pseudomyopia (an increase in myopia over baseline established with cycloplegic refraction). It is usually seen as a functional disorder in young patients with underlying emotional problems (1). Spasm of the near reflex can also occur following trauma; when present posttraumatically, it rarely exceeds 1-2 years in duration. We report a patient who continues to experience accommodative spasm 9 years after a motor vehicle accident. CASE REPORT In August 1977, a woman, then 19-years-old, was struck by an automobile while riding her bicycle. On admission to the University of Wisconsin Hospital, she was unconscious and had a large hematoma in the right temporal region. Her eyes were deviated to the right. Her pupils were equal (3mm OU) and reactive to light. Skull, cervical spine, and chest radiographs were reported as normal. A computerized tomography (CT) scan showed a possible basilar skull fracture. She developed marked respiratory insufficiency and required intubation for several days following admission. By the 17th hospital day, she was alert and responded well to commands but was disoriented to time and place; at this time, a mild rightsided hemiparesis was noted. On the 18th hospital day, she was transferred to the Rehabilitation Medicine unit, for further care. Neuropsychological testing done on the 43rd hospital day revealed good intellectual functioning (full-scale IQ 94) with some impairment of spatial and visual memory. At the time of her discharge 2 months after the initial injury, the patient showed generally good intellectual functioning, with a mild residual memory deficit. 130 B. J. BOHLMANN AND T. D. FRANCE The patient first presented to the Ophthalmology Clinic 3 months after injury, complaining of blurred vision for distant objects. Her uncorrected visual acuity was 20/200 00 and 20/400 OS; visual acuity with a pair of recently prescribed glasses (-1.50 sphere OU) was 20/50 00 and 20/200 OS. Near vision was J2 OU with correction. Ductions, versions, and covertesting, with and without correction, were normal. The pupils were equal and reactive to light and accommodation. A cycloplegic refraction revealed a +0.25 refractive error in each eye and vision improved to 20/20 with this correction in place. Ophthalmoscopic examination and Goldmann fields were normal. A diagnosis of accommodative spasm was made, and the patient was instructed to return in 1 month. At that time, the patient's visual acuity was 20/100 OU without correction, but, after cycloplegia with 1% cyclopentolate, improved to 20/20 OU, still without correction. The patient was begun on 1% atropine ointment OU every night, which was eventually tapered to once every fifth night. The patient did well on this regimen when compliant; when noncompliant, the patient's pseudomyopia returned. Hypnosuggestion therapy, by a physician therapist, was attempted on two occasions without success. Six years following the accident, a high-resolution CT scan was done to rule out an organic basis for her complaints and revealed no abnormalities. Eight years following the accident, the patient stopped the atropine for a 5-month period, maintaining visual acuity of 20/25 OU with -1.00 sphere 00 and -1.50 sphere OS. Throughout the many examinations she has shown no sign of miosis or of convergence spasm. When last seen, 9 years after the initial injury, she complained that she had recently been unable to pass the visual acuity examination for her driver's test. Vision without correction was 20/300 00 and 20/200 OS. Her visual acuity was 20/70 OU with her old glasses; vision again improved to 20/20 OU without correction after administration of 1% atropine. The patient returned to using atropine every fourth night in conjunction with plano lenses and +2.00 bifocals. DISCUSSION Spasm of the near reflex is most commonly associated with underlying emotional problems in young individuals. When this disorder occurs on a functional basis, miosis is always present and is accompanied by variable degrees of convergence .. "j.-l,.c·qrpd by" pphoria or esotropia and of ac- '1~, 'Ii, "orne pseudomyopia , Gill Neuro-ophlhalmol, Vol. 7. No.3. 1987 (2). Nirankari and Hameroff (3) reported two patients, who, on attempted lateral gaze, experienced convergence spasm with miosis (pupillary constriction from 5mm to 2mm OU); between spasms, the patients' muscle ductions and versions were full. One of these patients also had pseudeomyopia evidenced by changing visual acuity and variable, noncydoplegic, refractive error. The same authors reported a third patient who experienced attacks of varying visual acuity ("accordion vision") with an induced myopia of 2-3 diopters without convergence. Isolated convergence spasm has been reported with organic conditions including diphenylhydantoin intoxication, (4) head injury (5,6), labyrinthine lesions (7), Wernicke's encephalopathy (8), basilar inflammation, in patients with hyperopia with abnormality of the accommodative convergence/accommodation (AClA) ratio, and has been seen as a consequence of the Arnold-Chiari malformation (9). Convergence spasm due to organic causes is almost always seen without miosis and is often accompanied by other signs and symptoms of neurological disease such as ataxia or nystagmus (4). When a patient presents with convergence spasm as one component of spasm of the near reflex, the functional nature of the disorder may be overlooked, leading to an erroneous diagnosis of bilateral sixth-nerve palsy. Griffin et al. (2) report five patients in whom spasm of the near reflex was misdiagnosed as bilateral sixth-nerve palsy, resulting in extensive investigations including carotid arteriography, pneumoencephalograms, and craniotomy. These authors conclude that "careful observation of the pupil size during attempted lateral gaze in these patients shows the presence of miosis, which establishes beyond doubt the diagnosis of spasm of the near reflex." They also note that monocular excursions are full in spasm of the near reflex, which would not be the case with bilateral sixth-nerve palsy. The intermittent spasmic convergence movements of the eyes associated with vertical gaze paresis, retractory nystagmus, and abnormal pupillary responses seen in cases of sylvian aquaduct syndrome associated with pineal tumors, while not truly convergence spasm, may mimic this condition. Treatment for spasm of the near reflex usually includes cycloplegic eye drops and glasses for reading. In addition, some patients may benefit from simple reassurance or psychiatric counseling. Manor (10) describes a patient who was unresponsive to cycloplegics but who was successfully treated with special glasses containing an opaque ACCOMMODATIVE SPASM AFTER HEAD TRAUMA 131 inner third of each lens. Schwartze et al. (11) reported successful treatment of convergence spasm by narcosuggestion during an amobarbital sodium interview. Moore and Stockbridge (12) have reported the use of miotics and placebo eye drops in 17 patients with good success with either method of therapy. The patient presented here shows only accommodative spasm with significant pseudomyopia without pupillary changes or convergence as evidenced by the presense of an esodeviation in primary gaze or on lateral gaze. While Nirankari and Hameroff (3) reported a patient who experienced accommodative spasm accompanied by miosis which developed following an automobile accident, the patient showed no evidence of the disorder 2 years after the accident. The patient in our report continues to experience significant pseudomyopia 9 years after her initial trauma. The relationship of the onset of her visual problem to the severe head trauma, the long term course of her difficulty, and the lack of response to psychotherapy and placebos would seem to imply that her problem is due to an organic cause rather than to a functional one. The significant head trauma resulting in coma, the presence of a basilar skull fracture noted on CT scan, and the long rehabilitation period following the injury implies a significant brain contusion. The resultant accommodative spasm could be due to an injury to the upper brainstem following trauma to the basilar skull. The normal high-resolution CT scan done 6 years after the accident does not necessarily rule out the presence of small brainstem lesions which could account for the patient's continued problem. This patient is an ap-parent exception to the generalization that patients with posttraumatic spasm of the near reflex tend to resolve spontaneously after 1-2 years. We feel it is important to recognize that some patients may experience a prolonged course of accommodative spasm after significant head trauma and to propose that all such cases may not be due to functional causes. REFERENCES 1. Miller NR, ed. Clinical neuro-ophthalmology, vol. 2. Baltimore: Williams and Wilkins, 1985:533-5. 2. Griffin JF, Wray SH, Anderson DP. Misdiagnosis of spasm of the near reflex. Neurology 1976;26:1018-20. 3. Nirankari VS, Hameroff SB. Spasm of the near reflex. Ann OphthalmoI1980;12:1050-1. 4. Guiloff RJ, Whitely A, Kelly RE. Organic convergence spasm. Acta Neurol Scand 1980;61:252-9. 5. DeMorsier G, Balavoine C. Spasms de la Convergence. Opthalmologica 1948;116:248-3. [Cited by Guiloff RJ, Whiteley A, Kelly RE. Organic Convergence Spasm. Acta Neurol Scand 1980;61:252-259.] 6. DeMorsier G, Balavoine C. Encephalopathie traumatique et spasms de la convergence. Revue Oto-Neuro-opthalmologie 1949;21:400-3. [Cited by Guiloff RJ, Whiteley A, Kelly RE: Organic Convergence Spasm. Acta Neurol Scand 1980;61: 252-259.) 7. Cogan 0, Freese CG. Spasm of the near reflex. Arch OphthalmoI1955; 54:752-9. 8. Herman P. Convergence Spasm. Mt Sinai J Med 1977; 44:501-9. 9. Hoyt WF, Daroff RB. Supranuclear disorders of ocular control systems in man: Clinical, anatomical and physiological correlations-1969. In: Bach-y-Rita P, Collins Cc, Hyde JE, eds. The control of eye movements. New York: Academic Press, 1971:211-2. 10. Manor RS. Use of special glasses in treatment of spasm of the near reflex. Ann OphthalmoI1979;1l:903-5. 11. Schwartze GM, McHenry LC, Proctor RC. Convergence spasm-treatment by amytal interview. JClin Neuro Ophthalmol 1983;3:123-5. 12. Moore S, Stockbridge L. Another approach to the treatment of accommodative spasm. Am Orthopt J 1973;23:7172. J Clin Neuro-ophthalmol. Vol. 7, No.3, 1987 |
