Carotid Artery Dissection - developinganaesthesia



CAROTID ARTERY DISSECTION

“Nell Gwynn”, Sir Peter Lely, oil on canvas, 17th Century.

“…Miss Nelly has been dying of an apoplexy. She is now come to her sense on one side, for the other is dead of a palsy…”

Sir Charles Littleton, letter to his friend, November 1687.

The woman depicted in this 17th century portrait caresses her pet lamb, a common symbol at the time of “innocence”. Yet if so innocent, why the exposed breast? There is a hidden message here. This is the notorious Nell Gwynn, the most famous stage actress of her time and most beloved of all King Charles II’s numerous mistresses. She was possibly a prostitute in her early career, yet remained fiercely loyal to Charles to the end of his life, once he took her under his “patronage”. She died at just 37 years of age from a stroke. Even in the 17th century death from a stroke was unusual at such a young age. Some believed at the time she had contracted syphilis from the King. Young people like Nell, who present with a stroke, are most unlikely to have suffered it as a result of atheroscerotic disease. Like Sir Peter Lely’s depiction there is likely to be hidden “pathology” in these cases. Whilst syphilitic vasculitis was more common in the 17th century, carotid artery dissection should be considered in the 21st century.

CAROTID ARTERY DISSECTION

Introduction

Carotid artery dissection is a significant cause of stroke in young people.

While any of the arteries in the neck may be affected, internal carotid artery dissections are the most common and occur intracranially and extracranially.

Intracranial involvement is rarer and more serious.

Pathophysiology

Causes:

While the exact pathophysiology of carotid artery dissection remains unclear factors probably involved include:

1. Trauma, (minor or major, blunt or penetrating).

● May follow varying degrees of blunt neck trauma, ranging from mild or trivial to more severe scenarios.

● It may occur following attempts at neck manipulation, presumably in the predisposed.

● May also apparently develop spontaneously, however.

2. Vascular pathology, such as Marfan’s syndrome or fibrocystic dysplasia

3. Hypertension.

Mechanism if dissection:

● Dissections of the carotid and vertebral arteries usually arise from an initial intimal tear. The tear allows blood under arterial pressure to enter the wall of the artery and form an intramural hematoma, or “false lumen”. The intramural hematoma is located within the layers of the tunica media, but it may be eccentric, either toward the intima or toward the adventitia. A subintimal dissection tends to result in stenosis of the arterial lumen, whereas a subadventitial dissection may cause aneurysmal dilatation of the artery.

Complications of dissection:

● The dissection may cause the formation of a thrombus from which fragments may embolize.

● TIAs are thought to be the result of transient hemodynamic instability, whilst completed stroke is thought to be due primarily to embolization.

● Intracranial dissections may be complicated further by subarachnoid hemorrhage.

● Morbidity from carotid artery dissection varies in severity from transient neurologic deficit to permanent deficit and death.

● Intracranial internal carotid artery dissection is associated with a 75% mortality rate.

Age Distribution:

● Carotid artery dissections are most common in young adults.

● While the mean age for extracranial internal carotid artery dissection is 40 years, intracranial dissections are more common in those aged 20-30 years.

● Approximately 20% of strokes in the young are caused by carotid artery or vertebral artery dissections in the neck, compared to only 2.5% in older patients.

Clinical features

Carotid artery dissection can be a difficult diagnosis to make.

It may present as stroke or TIA in a young person where the diagnosis is easier, however, it may also initially present as vague headaches, facial pain or neck pain.

The following clinical features may occur:

Important points of history:

● Unexplained headache, facial pain or neck pain. The pain will be ipselateral to the affected artery.

● The pain precedes a cerebral ischemic event, TIA (including amaurosis fugax) or completed stroke, in the carotid artery distribution, by a period of hours or even days.

Important points of examination:

● Ipselateral neck tenderness may occur.

● Recurrence of neck pain and tenderness may indicate an extension to the dissection.

● A carotid bruit may be present, but its absence does not rule out the condition.

● Unilateral cranial nerve deficits may be associated.

● A strong but subtle clue to the condition is the presence of Horner’s syndrome in association with ipselateral neck pain and tenderness. This is presumably due to a sudden expansion of the internal carotid artery with compression of sympathetic nerve fibers.

Investigations

Blood tests:

● FBE

● U&Es / glucose

● Clotting profile.

● Consider toxicology screen in young people (amphetamine or cocaine induced vasospasm or hemorrhage)

● ESR / CRP

ECG:

● AF, looking for a possible cardiac source of emboli

CXR:

● Baseline as in any stroke patient.

CT Scan Brain:

● This will be done as part of the routine initial investigation for the patient who presents with stroke.

● It should also be done prior to any patient who is to be anticoagulated, to rule out possible intracranial associated hemorrhage.

CT angiogram:

● If the diagnosis is suspected then CT angiogram of the carotid vessels may be done.

MRI / MRA:

● This is the best imaging option for carotid or vertebral artery dissection.

Carotid Doppler Ultrasound:

Carotid Doppler ultrasound is useful as an initial screen, especially where MRA or CT angiogram is not available.

Limitations of duplex scanning however include:

● Inability to image the distal internal carotid artery and intracranial arteries.

● Inability to image the vertebral vessels

● Lower sensitivity compared to CT angiogram or MRA

Management

Treatment is difficult and not standardized.

It will depend on a number of factors, including anatomic location of the injury, type of injury and associated injuries.

Cases should be discussed with the stroke unit.

Medical Options

1. Anticoagulation with heparin and warfarin

This is to prevent any further progression of neurological deficits.

● This can only be considered once intracerebral hemorrhage has been ruled out, by CT scan.

● Intracranial extension of the dissection is also a contraindication to anticoagulation. Subarachnoid hemorrhage may follow leakage or rupture of an intracranially extending dissection.

2. Antiplatelet agents

● Some stroke specialists prefer antiplatelet agents in preference to heparin. Heparin may then be considered for cases where there recurrence of symptoms.

● Antiplatelet agents are a safer option in traumatic cases.

Surgical options

Occasionally a surgical option may be appropriate especially in traumatic cases:

● This will be by endovascular stent or direct surgical repair.

● The case should be referred to the vascular surgical unit.

Prognosis

● Prognosis of carotid artery dissection depends on the severity of the initial ischemic episode, the degree of collateral circulation and the site of the dissection.

● Prognosis is more favorable for extracranial dissection than for intracranial dissection.

● Overall, the prognosis is fairly good in cases of spontaneous extracranial dissection, with recanalization often occurring within 7-30 days.

References:

1. Wouter I, Schievink MD: Spontaneous Dissection of the Carotid and Vertebral Arteries: NEJM vol 344 (12) March 22 2001.

Dr J Hayes

Reviewed 9 June 2010

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