Skip to content

Horner syndrome

Videos

Notes

Pathology

Nervous system

Central nervous system disorders
Central and peripheral nervous system disorders
Peripheral nervous system disorders
Autonomic nervous system disorders
Nervous system pathology review

Assessments
Horner syndrome

Flashcards

0 / 12 complete

Questions

0 / 11 complete
High Yield Notes
3 pages
Flashcards

Horner syndrome

12 flashcards
Questions

USMLE® Step 1 style questions USMLE

10 questions

USMLE® Step 2 style questions USMLE

10 questions
Preview

A 75-year-old man comes to his primary care provider's office for a routine health maintenance visit. Physical examination shows a droopy right eyelid and constricted right pupil. The right side of his face is drier compared to the left upon palpation. A lesion in which of the following neural pathways is most likely to cause this patient's ptosis?

Transcript

Horner’s syndrome, named after the ophthalmologist Johann Friedrich Horner, is caused by a problem with the sympathetic nerve supply to one side of the face.

This disruption results in miosis, which is constricted pupil; ptosis, a droopy eyelid; and anhidrosis, a failure to sweat.

Broadly speaking, the autonomic nervous system is a part of the nervous system that controls involuntary body functions like the heart rate, blood pressure and digestion.

The autonomic nervous system can be subdivided into the sympathetic and parasympathetic nervous system, which have opposite effects.

The sympathetic nervous system controls functions like increasing heart rate, blood pressure, and slowing digestion. All of this maximizes blood flow to the muscles, and can help you either run away from a threat or fight it which is why it’s also called the fight-or-flight response.

The parasympathetic nervous system has the opposite effect; it slows heart rate, decreases blood pressure, and stimulates digestion - the effects can be summarized as 'rest and digest'.

Now, with regard to the face and eye, there’s an oculosympathetic pathway with three groups of neurons called first-order, second-order and third-order neurons.

The body of the first-order neuron is located in the hypothalamus, and it’s axon extends down into the spinal cord, where it synapses with the second-order neuron.

The body of the second-order neuron is located in the cervical region of the spinal cord, and it’s axon exits the spinal cord and enters the sympathetic chain, which is a structure full of sympathetic ganglions or nerve cell bodies, and it runs along both sides of the spine.

The sympathetic chain looks similar to a string of pearls where the ganglions are the pearls and the nerve fibers make up the string.

The first three ganglia within the sympathetic chain are called the superior, middle, and inferior cervical ganglion.

The axon of the second-order neuron runs through the inferior and middle cervical ganglion, up the superior cervical ganglion where it synapses with the body of the third-order neuron.

Third order neuron axons extend from the superior cervical ganglion and hitch-hike along nerves that travel along the common carotid artery up the neck until it splits into an internal and external carotid artery.

One group of nerve fibers, called internal carotid plexus, follow the internal carotid artery into the skull and then exit through the orbit to innervate the pupillary dilator muscle, which dilates the pupil; the Müller's muscle, which raises the upper eyelid; and sweat glands of the forehead.

The other group of fibers, follow the external carotid and its branches and innervate the rest of the sweat glands of the face.

Horner’s syndrome occurs when there’s damage along the oculosympathetic pathway.

Damage to the first-order neuron is caused by a spinal cord lesions above level T1 - some causes include a stroke, tumors, or syringomyelia.

Syringomyelia is when there’s a cyst or cavity within the spinal cord, which damages the surrounding nerve fiber.