Subarachnoid hemorrhage

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Subarachnoid hemorrhage
Classifications and external resources

CT scan of the brain showing subarachnoid hemorrhage as a white area in the center
ICD-10	I60
ICD-9	430
DiseasesDB	12602
MedlinePlus	000701
eMedicine	med/2883  neuro/357 emerg/559

A subarachnoid hemorrhage (SAH) is bleeding into the subarachnoid space surrounding the brain, i.e., the area between the arachnoid and the pia mater. It may arise due to trauma or spontaneously, and is a medical emergency which can lead to death or severe disability even if recognized and treated in an early stage.

Contents 1 Symptoms and causes 1.1 Traumatic 1.2 Spontaneous 2 Diagnosis 3 Prognosis 4 Classification 5 Treatment 6 Complications 7 External links 8 Reference

[edit] Symptoms and causes

SAH can result from head trauma, the most common cause, or may occur spontaneously. Spontaneous SAH most commonly follows the rupture of a cerebral aneurysm or cerebral arteriovenous malformation, but can also be due to angioma, thrombosis, hematoma, or brain tumor.

[edit] Traumatic

SAH in a trauma patient is often detected when a patient who has been involved in an accident becomes less responsive or develops hemiplegia (one-sided weakness) or changed pupillary reflexes, and Glasgow Coma Score calculations deteriorate. Headache is not necessarily present.

[edit] Spontaneous

In contrast to other types of headaches which have slower onsets, the headache of SAH is sometimes called a "thunderclap headache". It is often described as the worst headache the victim has ever had. Neurological symptoms (like slurred speech, paralysis, and visual symptoms) and meningism are not necessarily present, but nausea, vomiting and loss of consciousness are often seen.

Aneurysm related SAH has a 50% pre-hospital mortality, highlighting the significant nature of the hemorrhage.

[edit] Diagnosis

The diagnosis is made by the clinical history, physical examination, and CT scanning. The scan may reveal blood in the sub-arachnoid space, cerebral ventricles or brain parenchyma, depending on the size and location of the bleed. In traumatic SAH (tSAH), the scan may also identify any additional intracranial injuries. Pre-retinal haemorrhages are an important diagnostical sign for subarachnoid bleeds. Lumbar puncture may be needed for diagnosis in small subarachnoid bleeds that may not be detected on CT scans; the presence of xanthochromia -- a yellow tinge to the cerebrospinal fluid consequent to breakdown of blood -- is indicative of SAH, xanthochromia cannot be reliably detected until 12 hours post event, visible xanthochromia is probably due to a lesion detectable by CT, however small bleeds or late presentation, up to 3 weeks post, is best performed using spectrophotometry. While gross blood may merely indicate a traumatic lumbar puncture the detection of oxyhaemoglobin is indicative of blood; there is a risk that a traumatic tap can result in oxyhaemoglobin which could mask clinically significant xanthochromia due to an intra-cranial bleed. Cerebral angiography can isolate the source of bleeding prior to surgical treatment.

[edit] Prognosis

After the SAH is treated the patients can experience prolonged, even permanently reoccurring headaches.

Nearly half the cases of SAH are either dead or moribund before they reach hospital. Of the remainder, a further 10-20% die in the early weeks in hospital from rebleeding. Delay in diagnosis of minor SAH without coma (or mistaking the sudden headache for migraine) contributes to this mortality.

Patients who remain comatose or with persistent severe deficits have a poor prognosis.

[edit] Classification

The Hunt and Hess scale (1968) of subarachnoid hemorrhage severity is:

• Grade 1: Asymptomatic; or minimal headache and slight nuchal rigidity. Approximate survival rate 70%.
• Grade 2: Moderate to severe headache; nuchal rigidity; no neurologic deficit except cranial nerve palsy. 60%.
• Grade 3: Drowsy; minimal neurologic deficit. 50%.
• Grade 4: Stuporous; moderate to severe hemiparesis; possibly early decerebrate rigidity and vegetative disturbances. 20%.
• Grade 5: Deep coma; decerebrate rigidity; moribund. 10%.

The Fischer Grade classifies the appearance of subarachnoid hemorrhage on CT scan:

• Grade 1= No hemorrhage evident
• Grade 2= Subarachnoid hemorrhage less than 1 mm thick
• Grade 3= Subarachnoid hemorrhage more than 1 mm thick
• Grade 4= Subarachnoid hemorrhage of any thickness with intra-ventricular hemorrhage (IVH) or parenchymal extension

The Fischer Grade is most useful to communicate the description of SAH. It is less useful prognostically than the Hunt-Hess Scale.

[edit] Treatment

Neurosurgical intervention is necessary in severe or traumatic SAH, especially in the case of high or increasing Hunt-Hess scoring. This may be by craniotomy and external clipping of the bleeding vessel or aneurysm, or by interventional neuroradiology, which employs transfemoral angiography and inserting of metal coils to stem the bleeding (which is especially useful in aneurysmatic hemorrhage).

In case of spontaneous rupture of aneurysm, there are few evidence-based guidelines on the timing of neurosurgical interventions, and this often depends on the clinical experience and guidelines of local interventional centers. There is, however, a risk of re-rupture of the aneurysm and most experts favor intervention as soon as the appropriate operating room and personnel resources can be mobilized.

Medical treatment is available to both reduce the risk of repeat bleeding, and to treat a serious complication of SAH called vasospasm. In the case of spontaneous SAH from an aneurysm, there is a significant risk of repeat bleeding until definitive surgical intervention can be performed. During this waiting period medical treatments to control blood pressure, bed rest, and a quiet environment reduce the risk of rebleed.

Vasospasm is a serious complication of SAH. It may be seen in 50% of SAH patients studied with angiography, and is symptomatic roughly 30% of the time. This condition can be verified by transcranial doppler or cerebral angiography, and can cause ischemic brain injury which can cause permanent brain damage, and if severe can be fatal. Nimodipine is an oral calcium channel blocker, that has been shown to reduce the chance of a bad outcome, even if it does not significantly reduce the amount of angiographic vasospasm.^[1]

A patient who recovers without immediate intervention may receive follow-up angiography to identify aneurysms which may be amenable to coiling to prevent recurrent episodes of SAH.

[edit] Complications

Complications of SAH can be acute, subacute, or chronic.

• Acute:
  • Coma and brainstem herniation due to increased intracranial pressure (ICP)
  • Pulmonary edema ("neurogenic pulmonary edema") as a result of the suddenly increased ICP
  • Cardiac arrhythmias and myocardial damage
  • Hydrocephalus, which may also happen in the subacute time frame
• Subacute:
  • Vasospasm, leading to ischemia of the brain (can be prevented partially with the calcium channel antagonist nimodipine)
  • Hyponatremia (low sodium levels) - due to SIADH or cerebral salt wasting syndrome
• Chronic:
  • Long-term immobility
  • Pneumonia and pulmonary embolism (due to immobility)
  • SAH recurrence (20% within two weeks if the aneurysm is not secured by clipping or coiling)
  • Persistent neurologic deficits

[edit] External links

• behindthegray.net | SAH support group with forums, articles, chat and general advice.
• Emedicine article on SAH
• Neuroland SAH page
• Neuroimmunology, The Medical School, Birmingham University - Abid R Karim, Birmingham UK
• Brain Injury | Official research journal of the International Brain Injury Association (IBIA)

[edit] Reference

• Hunt WE, Hess RM. Surgical risk as related to time of intervention in the repair of intracranial aneurysms. J Neurosurg 1968;28:14-9. PMID 5635959.:

Watson ID, Beetham R, Keir G, Cruickshank AM, Holbrook IB, Fahie-Wilson MN, White PA, Patel D, Egner W. Related Articles, Cerebrospinal fluid spectrophotometry of bilirubin, not the Xanthochromic Index, for the detection of CT-negative sub-arachnoid haemorrhage. J Clin Neurosci. 2006 Apr 27; [Epub ahead of print] No abstract available. PMID: 16647856 [PubMed - as supplied by publisher]