Access to paid content on this site is currently suspended due to excessive activity being detected from your IP address Please contact the publisher to request reinstatement.
September 1995

Disorders of Ocular Motility Following Head Trauma

Author Affiliations

From the Department of Neurology, University of Medicine and Dentistry of New Jersey—Robert Wood Johnson Medical School, New Brunswick.

Arch Neurol. 1995;52(9):924-926. doi:10.1001/archneur.1995.00540330106022

Objective:  To determine the types and frequency of symptomatic ocular motility disturbances following head trauma and their association with severity of trauma.

Design:  Retrospective study of patients with (1) diplopia unless visual loss is present, (2) heterotropia for far or near targets, and (3) prior head injury.

Setting:  Office and in-hospital consulting practice of a university neuro-ophthalmologist.

Subjects:  Sixty patients with posttraumatic ophthalmoplegia.

Main Outcome Measures:  Paralytic and nonparalytic heterotropias were quantitated in prism diopters or percentage limitation of ductions. Convergence insufficiency was assessed by determining the near point of convergence.

Results:  Fifty-one patients had nuclear or infranuclear findings, ie, trochlear palsies (n=20), oculomotor palsies (n=17), abducens palsies (n=7), combined palsies (n=5), and restrictive ophthalmopathy (n=2). Nine patients had supranuclear dysfunction, including seven patients with convergence insufficiency. Bilateral ocular motor palsies and combined palsies were significantly (by means of X2 test) associated with head trauma of severity sufficient to cause corticospinal tract dysfunction. Individual or combined ocular motor palsies were not significantly (by means of X2 test) associated with intracranial hemorrhage and/or skull fracture or loss of consciousness.

Conclusions:  Trochlear palsy was the most common nuclear or infranuclear basis for traumatic diplopia, and convergence insufficiency was the most common supra-nuclear cause of double vision. Head trauma distinguished by upper motor—neuron signs was correlated with specific subsets of disordered ocular motility.