Intraparenchymal hemorrhage

Intraparenchymal hemorrhage is one form of intracerebral bleeding in which there is bleeding within brain parenchyma. The other form is intraventricular hemorrhage).[1]

Intraparenchymal hemorrhage
Other namesIntraparenchymal bleed
Multiple intraparenchymal hemorrhage

Intraparenchymal hemorrhage accounts for approximately 8-13% of all strokes and results from a wide spectrum of disorders. It is more likely to result in death or major disability than ischemic stroke or subarachnoid hemorrhage, and therefore constitutes an immediate medical emergency. Intracerebral hemorrhages and accompanying edema may disrupt or compress adjacent brain tissue, leading to neurological dysfunction. Substantial displacement of brain parenchyma may cause elevation of intracranial pressure (ICP) and potentially fatal herniation syndromes.

Signs and symptoms

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Clinical manifestations of intraparenchymal hemorrhage are determined by the size and location of hemorrhage, but may include the following:[citation needed]

Causes

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In younger patients, vascular malformations, specifically AVMs and cavernous angiomas are more common causes for hemorrhage. In addition, venous malformations are associated with hemorrhage.

In the elderly population, amyloid angiopathy is associated with cerebral infarcts as well as hemorrhage in superficial locations, rather than deep white matter or basal ganglia. These are usually described as "lobar". These bleedings are not associated with systemic amyloidosis.

Hemorrhagic neoplasms are more complex, heterogeneous bleeds often with associated edema. These hemorrhages are related to tumor necrosis, vascular invasion and neovascularity. Glioblastomas are the most common primary malignancies to hemorrhage while thyroid, renal cell carcinoma, melanoma, and lung cancer are the most common causes of hemorrhage from metastatic disease.

Other causes of intraparenchymal hemorrhage include hemorrhagic transformation of infarction which is usually in a classic vascular distribution and is seen in approximately 24 to 48 hours following the ischemic event. This hemorrhage rarely extends into the ventricular system.

Pathophysiology

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Most cases of primary intraparenchymal hemorrhage are the result of chronic hypertension (high blood pressure), cerebral amyloid angiopathy, or both. While these are the causative processes for most cases, a number of other pathological processes are known to accelerate or worsen them, including coagulopathy, vasculitis, brain tumors, ischemic stroke, vascular malformations, and others. In general, diseases and risk factors known to damage blood vessels are considered risk factors, but hypertension and cerebral amyloid angiopathy are particularly strongly associated.[2]

The exact process that leads to bleeding depends on the underlying cause. For intraparenchymal hemorrhage associated with hypertension, small holes in arteries are thought to cause bleeding in the deep penetrating arteries of the brain, which are smaller and thinner than other arteries. These are the arteries that supply blood to the basal ganglia, the thalamus, the brainstem, and deep portions of the cerebellum. Thus, these are the most commonly implicated structures in intraparenchymal hemorrhage associated with hypertension.[2]

Cerebral amyloid angiopathy may cause intraparenchymal hemorrhage even in patients without elevated blood pressure. Unlike hypertension, cerebral amyloid angiopathy does not typically affect blood vessels to deep brain structures. Instead, it is most commonly associated with hemorrhage of small vessels in the cerebral cortex.[2] The strongest risk factor for intraparenchymal hemorrhage associated with cerebral amyloid angiopathy is old age, and cerebral amyloid angiopathy is most frequently seen in patients who already have, or will soon be diagnosed with, dementia.[3]

Diagnosis

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Intraparenchymal hemorrhage
 
CT-scan of intraparenchymal hemorrhage

Computed tomography (CT scan): A CT scan may be normal if it is done soon after the onset of symptoms. A CT scan is the best test to look for bleeding in or around your brain. In some hospitals, a perfusion CT scan may be done to see where the blood is flowing and not flowing in your brain.

Magnetic resonance imaging (MRI scan): A special MRI technique (diffusion MRI) may show evidence of an ischemic stroke within minutes of symptom onset. In some hospitals, a perfusion MRI scan may be done to see where the blood is flowing and not flowing in your brain.

Angiogram: a test that looks at the blood vessels that feed the brain. An angiogram will show whether the blood vessel is blocked by a clot, the blood vessel is narrowed, or if there is an abnormality of a blood vessel known as an aneurysm.

Carotid duplex: A carotid duplex is an ultrasound study that assesses whether or not you have atherosclerosis (narrowing) of the carotid arteries. These arteries are the large blood vessels in your neck that feed your brain.

Transcranial Doppler (TCD): Transcranial Doppler is an ultrasound study that assesses whether or not you have atherosclerosis (narrowing) of the blood vessels inside of your brain. It can also be used to see if you have emboli (blood clots) in your blood vessels.

Treatment

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Intracerebral hemorrhages is a severe condition requiring prompt medical attention. Treatment goals include lifesaving interventions, supportive measures, and control of symptoms. Treatment depends on the location, extent, and cause of the bleeding. Often, treatment can reverse the damage that has been done.

A craniotomy is sometimes done to remove blood, abnormal blood vessels, or a tumor. Medications may be used to reduce swelling, prevent seizures, lower blood pressure, and control pain.

References

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  1. ^ Gross, Bradley A.; Jankowitz, Brian T.; Friedlander, Robert M. (2 April 2019). "Cerebral Intraparenchymal Hemorrhage: A Review". JAMA. 321 (13): 1295–1303. doi:10.1001/jama.2019.2413. ISSN 1538-3598. PMID 30938800. S2CID 91189795. Retrieved 28 February 2021.
  2. ^ a b c Gross, Bradley A.; Jankowitz, Brian T.; Friedlander, Robert M. (2019-04-02). "Cerebral Intraparenchymal Hemorrhage: A Review". JAMA. 321 (13): 1295. doi:10.1001/jama.2019.2413. ISSN 0098-7484.
  3. ^ Keage, Hannah AD; Carare, Roxanna O.; Friedland, Robert P.; Ince, Paul G.; Love, Seth; Nicoll, James A.; Wharton, Stephen B.; Weller, Roy O.; Brayne, Carol (2009-01-13). "Population studies of sporadic cerebral amyloid angiopathy and dementia: a systematic review". BMC Neurology. 9: 3. doi:10.1186/1471-2377-9-3. PMC 2647900. PMID 19144113.
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