Intracerebral Hemorrhage

ByAndrei V. Alexandrov, MD, The University of Tennessee Health Science Center;
Balaji Krishnaiah, MD, The University of Tennessee Health Science Center
Reviewed/Revised Jul 2023
View Patient Education

Intracerebral hemorrhage is focal bleeding from a blood vessel in the brain parenchyma. The cause is usually hypertension. Typical symptoms include focal neurologic deficits, often with abrupt onset of headache, nausea, and impairment of consciousness. Diagnosis is by CT or MRI. Treatment includes blood pressure control, supportive measures, and, for some patients, surgical evacuation.

Most intracerebral hemorrhages occur in the basal ganglia, cerebral lobes, cerebellum, or pons. The most common location for hemorrhage due to hypertension is the putamen. Intracerebral hemorrhage may also occur in other parts of the brain stem or in the midbrain.

Etiology of Intracerebral Hemorrhage

Intracerebral hemorrhage usually results from rupture of an arteriosclerotic small artery that has been weakened, primarily by chronic arterial hypertension. Such hemorrhages are usually large, single, and catastrophic. Other modifiable risk factors that contribute to arteriosclerotic hypertensive intracerebral hemorrhages include cigarette smoking, obesity

Less often, intracerebral hemorrhage results from congenital aneurysm, arteriovenous malformations, other vascular malformations, trauma, mycotic aneurysm, brain infarct (hemorrhagic infarction), primary or metastatic brain tumor, excessive anticoagulation, blood dyscrasia, intracranial arterial dissection, moyamoya disease, or a bleeding or vasculitic disorder. The most common causes of metastatic intracerebral hemorrhage include melanoma, renal cell carcinoma, and choriocarcinoma.

Lobar intracerebral hemorrhages (hematomas in the cerebral lobes, outside the basal ganglia) usually result from angiopathy due to amyloid deposition in cerebral arteries (cerebral amyloid angiopathy), which affects primarily older people. Lobar hemorrhages may be multiple and recurrent.

Pathophysiology of Intracerebral Hemorrhage

Chronic arterial hypertension leads to formation of microaneurysms (Charcot-Bouchard aneurysms) in small perforating arteries, which may rupture and cause intracerebral hemorrhage.

Blood from an intracerebral hemorrhage accumulates as a mass that can dissect through and compress adjacent brain tissues, causing neuronal dysfunction. Large hematomas increase intracranial pressure. Pressure from supratentorial hematomas and the accompanying edema may cause transtentorial brain herniation, compressing the brain stem and often causing secondary hemorrhages in the midbrain and pons.

If the hemorrhage ruptures into the ventricular system (intraventricular hemorrhage), blood may cause acute hydrocephalus, which is an independent predictor for a worse outcome after intracerebral hemorrhage. Cerebellar hematomas can expand to block the 4th ventricle, also causing acute hydrocephalus, or they can dissect into the brain stem. Cerebellar hematomas that are > 3 cm in diameter may cause midline shift or herniation.

Herniation, midbrain or pontine hemorrhage, intraventricular hemorrhage, acute hydrocephalus, or dissection into the brain stem can impair consciousness and cause coma and death.

Symptoms and Signs of Intracerebral Hemorrhage

Symptoms of intracerebral hemorrhage typically begin with sudden headache, often during activity. However, headache may be mild or absent in older people. Loss of consciousness is common, often within seconds or a few minutes. Nausea, vomiting, delirium, and focal or generalized seizures are also common.

Neurologic deficits are usually sudden and progressive. Large hemorrhages, when located in the hemispheres, cause hemiparesis; when located in the posterior fossa, they cause cerebellar or brain stem deficits (eg, conjugate eye deviation or ophthalmoplegia, stertorous breathing, pinpoint pupils, coma).

Large hemorrhages are fatal within a few days in about half of patients. In survivors, consciousness returns and neurologic deficits gradually diminish to various degrees as the extravasated blood is resorbed. Some patients have surprisingly few neurologic deficits because hemorrhage is less destructive to brain tissue than infarction.

Small hemorrhages may cause focal deficits without impairment of consciousness and with minimal or no headache and nausea. Small hemorrhages may mimic ischemic stroke.

Diagnosis of Intracerebral Hemorrhage

  • Neuroimaging

Diagnosis of intracerebral hemorrhage is suggested by sudden onset of headache, focal neurologic deficits, and impaired consciousness, particularly in patients with risk factors.

Intracerebral hemorrhage must be distinguished from

Blood glucose level should be measured at the bedside immediately.

A complete blood count (CBC) and coagulation studies (international normalized ratio [INR], partial thromboplastin time [PTT], platelet count) are done.

Immediate CT or MRI is necessary. Neuroimaging is usually diagnostic. If neuroimaging shows no hemorrhage but subarachnoid hemorrhage is suspected clinically, lumbar puncture is necessary to look for xanthochromia.

CT angiography, done within hours of bleeding onset, may show areas where contrast extravasates into the clot (spot sign); this finding indicates that bleeding is continuing and suggests that the hematoma will expand and the outcome will be poor.

Treatment of Intracerebral Hemorrhage

  • Supportive measures

  • Control of modifiable risk factors

  • Sometimes surgical evacuation (eg, for many cerebellar hematomas > 3 cm)

Treatment of intracerebral hemorrhage includes supportive measures and control of modifiable risk factors.

As recommended by the American Heart Association and American Stroke Association 2022 guidelines, hypertension can be safely lowered to systolic blood pressure (BP) 140 mm Hg if systolic BP is between 150 mm Hg and 220 mm Hg and if acute antihypertensive treatment is not contraindicated (1

Cerebellar hemisphere hematomas that are > 3 cm in diameter may cause midline shift or herniation, so surgical evacuation is often lifesaving. Early evacuation of large lobar cerebral hematomas may also be lifesaving, but rebleeding occurs frequently, sometimes increasing neurologic deficits. Early evacuation of deep cerebral hematomas is seldom indicated because surgical mortality is high and neurologic deficits are usually severe.

Because the presence of hydrocephalus predicts a worse outcome after intracerebral hemorrhage, surgeons may place an external ventricular drain to rapidly decrease intracranial pressure. This procedure can be lifesaving.

Antiseizure medications are not typically used prophylactically; they are used only if patients have had a seizure.

Treatment reference

  1. 1. Greenberg SM, Ziai WC, Cordonnier C, et al: 2022 Guideline for the management of patients with spontaneous intracerebral hemorrhage: A guideline from the American Heart Association/American Stroke Association. Stroke 53 (7):e282–e361, 2022. doi: 10.1161/STR.0000000000000407 Epub 2022 May 17.

Key Points

  • With intracerebral hemorrhage, sudden, severe symptoms (eg, sudden severe headache, loss of consciousness, vomiting) are common, but headache may be absent or mild (particularly in older people), and small hemorrhages may mimic ischemic stroke.

  • Do CT or MRI and a bedside glucose test immediately.

  • Avoid BP fluctuations, and maintain BP < 140 mm Hg, but not lower than 130 mm Hg.

  • Consider surgical evacuation for large lobar cerebral hematomas and hematomas > 3 cm in a cerebellar hemisphere.

  • Consider placing an external ventricular drain for select patients with signs of hydrocephalus and increased intracerebral pressure.

quizzes_lightbulb_red
Test your KnowledgeTake a Quiz!
Download the free MSD Manual App iOS ANDROID
Download the free MSD Manual App iOS ANDROID
Download the free MSD Manual App iOS ANDROID