- Ciliary ganglion
Nerve: Ciliary ganglion Detailed view of nerves of lateral orbit showing the ciliary ganglion immediately behind the globe of the eye. Latin ganglion ciliare Gray's subject #200 888 From Parasympathetic root of ciliary ganglion, Sympathetic root of ciliary ganglion, Sensory root of ciliary ganglion To Short ciliary nerves
The ciliary ganglion is a parasympathetic ganglion located in the posterior orbit. It measures 1–2 millimeters in diameter and contains approximately 2,500 neurons. Preganglionic axons from the Edinger-Westphal nucleus travel along the oculomotor nerve and form synapses with these cells. The postganglionic axons run in the short ciliary nerves and innervate two eye muscles:
- the sphincter pupillae constricts the pupil, a movement known as Miosis. The opposite, Mydriasis, is the dilation of the pupil.
- the ciliaris muscle contracts, releasing tension on the Zonular Fibers, making the lens more convex, also known as accommodation.
Both of these muscles are involuntary – they are controlled by the autonomic nervous system.
Three types of nerve fibers run through the ciliary ganglion: parasympathetic fibers, sympathetic fibers and sensory fibers. Only parasympathetic fibers form synapses in the ganglion. The other two types of nerve fibers simply pass through. In classical anatomy, the ciliary ganglion is said to have three “roots:”
- a parasympathetic root of ciliary ganglion (or motor root)
- a sympathetic root of ciliary ganglion
- a sensory root of ciliary ganglion
Adie tonic pupil
Diseases of the ciliary ganglion produce a tonic pupil. This is a pupil that does not react to light (it is “fixed”) and has an abnormally slow and prolonged response to attempted near vision (accommodation).
When a patient with an Adie pupil attempts to focus on a nearby object, the pupil (which would normally constrict rapidly) constricts slowly. On close inspection, the constricted pupil is not perfectly round. When the patient focuses on a more distant object (say the far side of the room), the pupil (which would normally dilate immediately) remains constricted for several minutes, and then slowly dilates back to the expected size.
Tonic pupils are fairly common – they are seen in roughly 1 out of every 500 people. A patient with anisocoria (one pupil bigger than the other) whose pupil does not react to light (does not constrict when exposed to bright light) most likely has Adie syndrome – idiopathic degeneration of the ciliary ganglion.
The strange behavior of tonic pupils was first explained by Irene Loewenfeld in 1979. The ciliary ganglion contain many more nerve fibers directed to the ciliary muscle than nerve fibers directed to the constrictor pupillae – roughly twenty times more. The ciliary muscle is also more massive than the constrictor pupillae, again by a factor of twenty. Based on these observations, Loewenfeld proposed an explanation of the tonic pupil. She noted that pathological destruction of nerve cells in the ciliary ganglion that is found in all cases of Adie pupil. In her own words :
- Let’s say that in a given fresh Adie’s pupil, a random 70% of the cells in the ciliary ganglion stop working; and that, in a couple of months, these neurons re-grow and randomly re-innervate both intraocular sphincters (the ciliary muscle and the iris sphincter). Some parasympathetic light-reaction neurons that were originally destined for the iris sphincter will end up innervating the ciliary muscle. But there will not be enough of them to budge that big muscle, so there will be no detectable accommodation with exposure to light. The other way around, it is a different story. There will be plenty of accommodative neurons re-growing into the iris sphincter, and it won’t take very many of them to make a little muscle like the iris sphincter contract. This means that every time the patient accommodates her gaze to a near object, some of the innervation to the ciliary muscle will spill over into the iris and constrict the pupil.
Loewenfeld’s theory is now generally accepted. It explains the defining features of a tonic pupil:
- (1) The pupil does not react to light. The original light-reaction neurons have been destroyed.
- (2) Tonic constriction with attempted near vision. Aberrant regeneration of nerve fibers intended for the ciliary muscle causes abnormal, tonic contraction of the pupil with accommodation.
- (3) Segmental iris constriction. When carefully examined under magnification, the iris does not constrict uniformly with attempted near vision. Only the re-innervated segments contract, producing a slightly irregular contour to the pupil.
- (4) [Denervation supersensitivity]. Like any denervated muscle, the iris becomes supersensitive to its normal neurotransmitter (in this case, acetylcholine). Very weak solutions of cholinergic substances such as pilocarpine (that have no effect on the normal iris) cause the denervated iris to constrict.
Tonic pupils are usually due to Adie syndrome, but other diseases can denervate the ciliary ganglion. Peripheral neuropathies (such as diabetic neuropathy) occasionally produce tonic pupils. Herpes zoster virus can attack the ciliary ganglion. Trauma to the orbit can damage the short ciliary nerves. Anything that denervates the ciliary ganglion will produce a tonic pupil due to aberrant nerve regeneration.
Adie syndrome is tonic pupil plus absent deep tendon reflexes. Adie syndrome is a fairly common, benign, idiopathic neuropathy that selectively affects the ciliary ganglion and the spinal cord neurons involved in deep tendon reflex arcs. It usually develops in middle age, although it can occur in children. A variant of Adie syndrome, Ross syndrome, affects sweating as well.
Early in the course of Adie syndrome (when the cells of the ciliary ganglion have been destroyed, but before regeneration has occurred) the pupil will be fixed and dilated. The sphincter pupillae will be paralyzed. There will be no response to accommodation – the ciliary muscle is also paralyzed.
With aberrant nerve regeneration, the pupil will remain fixed, but it will constrict with attempted near vision. The constriction will be abnormal (“tonic”).
Late in the course of Adie syndrome, the pupil becomes small (as all pupils do with old age). It will still be “fixed” (it will not constrict to bright light) and it will continue to show abnormal, tonic constriction with attempted near vision.
The Adie pupil does not react to light, but it does react to accommodation. This is an example of “light-near dissociation”. All other causes of light-near dissociation involve the brainstem. They do not involve the ciliary ganglion, and they do not produce a tonic pupil. Irene Loewenfeld is generally credited for being the first physiologist to make this distinction.
The brainstem causes of light-near dissociation include Argyll Robertson pupil and Parinaud syndrome. These are discussed elsewhere in Wikipedia.
- ^ Perez GM, Keyser RB. Cell Body Counts in Human Ciliary Ganglia. Investigative Ophthalmology & Visual Science 27:1428-1431, 1986
- ^ Kawasaki A. Physiology, assessment, and disorders of the pupil. Curr Opin Ophthalmol 10:394-400, 1999
- ^ Thompson HS, Kardon Rh. Irene Loewenfeld, PhD Physiologist of the Pupil. J Neuroophthalmol 26:139-148, 2006
- ^ Thompson HS. Adie’s Syndrome: Some New Observations. Tr. Am. Ophth. Soc. LXXV:597-626, 1977
Plan of oculomotor nerve.
- SUNY Figs 29:03-04 - "A deeper dissection of the right orbit from a superior approach."
- Atlas of anatomy at UMich n2a4p2 - "Branches of Trigeminal Nerve, Lateral View"
- Cell Centered Database - Ciliary ganglion
- lesson3 at The Anatomy Lesson by Wesley Norman (Georgetown University) (orbit5)
- cranialnerves at The Anatomy Lesson by Wesley Norman (Georgetown University) (III, V)
The cranial nerves: trigeminal nerve ophthalmic
(V2)in meningeson face
Nerves – autonomic nervous system (sympathetic nervous system/ganglion/trunks and parasympathetic nervous system/ganglion) (TA A14.3, GA 9.968) Head/
Pterygopalatine ganglion: deep petrosal · nerve of pterygoid canalOtic ganglion
branches of distribution: greater palatine (inferior posterior nasal bdddeeranches) · lesser palatine · nasopalatine (medial superior posterior nasal branches) · pharyngeal
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Look at other dictionaries:
ciliary ganglion — n a small autonomic ganglion on the nasociliary branch of the ophthalmic nerve receiving preganglionic fibers from the oculomotor nerve and sending postganglionic fibers to the ciliary muscle and to the sphincter pupillae called also lenticular… … Medical dictionary
ciliary ganglion — noun : a small autonomic ganglion on the nasociliary branch of the ophthalmic nerve receiving preganglionic fibers from the oculomotor nerve and sending postganglionic fibers to the ciliary muscle and to the circular muscle of the iris … Useful english dictionary
ciliary ganglion — Neural crest derived ganglion acting as relay between parasympathetic neurons of the oculomotor nucleus in the midbrain and the muscles regulating the diameter of the pupil of the eye … Dictionary of molecular biology
Sympathetic root of ciliary ganglion — Infobox Nerve Name = PAGENAME Latin = ramus sympathetica ganglii ciliaris GraySubject = GrayPage = Caption = Pathways in the Ciliary Ganglion. Green = parasympathetic; Red = sympathetic; Blue = sensory Caption2 = Innervates = BranchFrom =… … Wikipedia
Parasympathetic root of ciliary ganglion — Infobox Nerve Name = PAGENAME Latin = ramus parasympathica ganglii ciliaris GraySubject = GrayPage = Caption = Pathways in the Ciliary Ganglion. Green = parasympathetic; Red = sympathetic; Blue = sensory Caption2 = Innervates = BranchFrom =… … Wikipedia
Sensory root of ciliary ganglion — Infobox Nerve Name = PAGENAME Latin = ramus sensoria ganglii ciliaris GraySubject = GrayPage = Caption = Pathways in the Ciliary Ganglion. Green = parasympathetic; Red = sympathetic; Blue = sensory Caption2 = Innervates = BranchFrom = BranchTo =… … Wikipedia
communicating branch with ciliary ganglion — communicating branch with nasociliary nerve, communicating branch of nasociliary nerve with ciliary ganglion radix sensoria ganglii ciliaris … Medical dictionary
branch of oculomotor nerve to ciliary ganglion — ramus parasympathica ganglii ciliaris … Medical dictionary
long root of ciliary ganglion — radix sensoria ganglii ciliaris … Medical dictionary
motor root of ciliary ganglion — radix parasympathica ganglii ciliaris … Medical dictionary