Acute Evaluation and Management of Intracerebral Hemorrhage (October 1996)
Decisions regarding the acute management of intracerebral hemorrhage (ICH) are largely dependent upon the etiology, location, and size of the hemorrhage, as well as the clinical status of the patient. The purposes of this guidelines are to:
- Provide prognostic information based on clinical status, ICH location, and ICH size;
- Describe the likely etiologies of ICH;
- Define the typical locations of hypertensive ICH;
- Recommend the best medical treatments of ICH;
- Identify the role of surgical treatment of ICH.
The 6 main locations of hypertensive ICH are: putamen, subcortical cerebral lobe, thalamus, cerebellum, brainstem, and caudate nucleus. Each location may differ in clinical presentation, prognosis, and consideration for surgical treatment.
The clinical presentation of putaminal hemorrhage may vary from relatively minor puremotor hemiparesis to profound weakness, sensory loss, eye deviation, hemianopsia, aphasia,and depressed level of consciousness (19,46). In this type of hematoma, intraventricularextension portends a poor prognosis, because the hematoma must be quite large to trackthrough the internal capsule and reach the ventricle (50).
Although hypertension is a common cause of cerebral lobar hemorrhage, avariety of other etiologies must be considered (6). This is the most common location forICH due to vascular malformation, tumor, and amyloid angiopathy (22,60). Clinical symptomsof lobar ICH depend largely on the location of the hemorrhage; for example, dominant lobetemporal hematomas may present with aphasia, and occipital hematomas may present withhomonymous hemianopsia (23,41,58). Further evaluation, such as angiography, needs to beconsidered in the context of the clinical presentation and CT findings. A significant rolefor surgery may exist in the treatment of certain lobar hematomas.
Thalamic hemorrhage often presents with contralateral sensory loss. Due to the proximityof the internal capsule, motor defects are also quite common. Pupil and extraocularmovement defects may also be seen (3,56). Intraventricular hemorrhage or obstructivehydrocephalus may occur (54).
Cerebellar hemorrhage typically presents with abrupt onset of vertigo, headache, vomiting,and inability to walk without hemiparesis. Cranial nerve palsies may be associated (12).This type of hemorrhage may act as a posterior fossa mass, producing hydrocephalus and/orbrainstem compression, and is the most amenable to acute surgical intervention.
Presentation of brainstem hemorrhage may be coma, posturing, loss of brainstem reflexes,and oculomotor abnormalities. It most commonly involves the pons and generally has adismal prognosis (27).
Hemorrhage into the caudate nucleus is rare. Because extension into the adjacent lateralventricle usually occurs, the most common presentation is that of a primaryintraventricular hemorrhage. Prognosis is generally good (57).
Not all ICH is due to hypertension. A variety of other etiologies need to be considered, even in cases with coexisting hypertension. The following are the most common causes of non-hypertensive ICH.
Vascular malformation is a relatively common cause of ICH in non-hypertensive patients,especially in younger patients. Hemorrhage from a vascular malformation is the most commoncause of ICH in patients less than age 45 (49). The two clinically important types ofvascular malformation related to ICH are arterioveneous malformations (AVM) and cavernoushemangiomas. Lobar ICH is the most common hemorrhage associated with both of thesevascular malformations.
AVM usually presents with ICH, which occasionally may haveassociated subarachnoid hemorrhage. The risk of repeat hemorrhage is substantial (6% inthe first year, 2% per year thereafter) (16). Neurosurgical evaluation is usuallyindicated. In cases believed to be surgically inaccessible, radiosurgery may be apotential treatment.
Cavernous hemangiomas comprise most of the lesion previouslydescribed as occult cerebrovascular malformations (OCVM). They may occur in multiplelocations and may be familial (40). These lesions carry a substantial risk of repeathemorrhage (4-5%/yr), and may be amenable to surgical treatment.
Although usually a cause of subarachnoid hemorrhage, a ruptured saccular aneurysm may insome cases be the cause of ICH or intraventricular hemorrhage. The temporal and frontallobes are the most common locations for ICH resulting from a ruptured saccular aneurysm.
Bleeding into a tumor is the cause of hemorrhage in 6-10% of patients presenting with ICH.This is most commonly seen in malignant glioma, metastatic melanoma, metastatic renal cellcarcinoma, metastatic choriocarcinoma, or metastatic bronchogenic carcinoma. Clues to thiscause of ICH include papilledema at presentation, multiple lesions, or disproportionateassociated edema(31).
Amyloid angiopathy is a relatively common cause of ICH in elderly patients (52). Lobar ICHis the most common hemorrhage associated with amyloid angiopathy. Hemorrhage from amyloidangiopathy tends to be recurrent; a prior history of ICH in an elderly person,particularly a prior lobar ICH, raises a strong suspicion of amyloid angiopathy. There isan association of amyloid angiopathy with Alzheimer’s disease (22).
ICH is patients receiving anticoagulation tends to carry a poor prognosis (50-60%mortality in one study) due to the often large size of the resultant hemorrhage (24).Hypertension, intensity of anticoagulation, and age are risk factors for development ofICH in anticoagulated patients (10,24,59). Some series have reported a relatively highpercentage of anti-coagulant-related hemorrhage to be located in the cerebellum (24,39).Anticoagulation with heparin is reversible with protamine sulfate, and anticoagulationwith warfarin may be reversed by administration of fresh frozen plasma and vitamin K (10).
Thrombolytics (e.g. t-PA, streptokinase)
ICH associated with thrombolytics tends to be lobar in location, and has a high mortalityrate (44-66%) (15,26). The risk is relatively low in myocardial infarction treatment(0.4-1.3%), but considerably higher in acute stroke patients (48). Symptomatic ICH within36 hours of treatment occurred in 6.4% of t-PA treated patients in the NINDS t-PA study(47). Hypertension may increase the risk of hemorrhage with thrombolytic therapy (30).
ICH associated with thrombolytics usually occurs early in he courseof thrombolytic therapy, either during the infusion or with a few hours after the infusionis completed. After the infusion is stopped, the duration of thrombolytic activityremaining is four minutes for t-PA, and 15-20 minutes for streptokinase and urokinase.Replacement of fibrinogen with cryoprecipitate may partially reverse the thrombolyticeffect (10).
The sympathomimetics most often associated with ICH are cocaine and amphetamines, althoughphenylpropanolamine (found in decongestants and appetite suppressants) has alsooccasionally been implicated (9,19,25,228,29). Direct vessel injury or acute hypertensionmay be the mechanisms. The location tends to be lobar or involve the thalamus or putamen.
Vasculitis usually is associated with ischemic infarction, but hemorrhage may also occurin both systemic and isolated central nervous system vasculitis (5).
Cerebral Venous Thrombosis
Cerebral venous thrombosis may also be present as ICH due to the associated increasedvenous pressure. It most often occurs during pregnancy and the post-partum period, withthe use of birth control pills, and with underlying systemic disease such as cancer andsystemic inflammatory conditions.
Review of Medical Treatment:
Intubation provides airway protection, allows correction of hypoxemia, and enables thehyperventilation. Hyperventilation produces an immediate and temporary reduction inintracranial pressure (ICP), but has not been proven to affect outcome.
A randomized prospective trial has shown that corticosteroids increase complication rateand do not improve outcome in ICH (37).
Mannitol is the agent usually used for hyperosmolar therapy, and has often been utilizedto treat increased intracranial pressure associated with ICH. However, no randomizedcontrolled trials have been performed to evaluate its utility in this setting. Althoughmannitol reduces intracranial pressure, this effect is temporary, and upon withdrawal ofmannitol, rebound intracranial hypertension may occur. Additionally, by shrinkingsurrounding normal brain, the possibility of promoting extension of the ICH exists.Mannitol is best used as a temporizing measure when definitive surgical treatment isanticipated.
The role of ICP monitoring and its effect on outcome in ICH has not been defined.
Elevated blood pressure is often the causative factor for ICH; however, whether acutereduction of blood pressure is helpful or harmful is a difficult question to answer (2,38). A recent retrospective study found that both an elevated initial blood pressure onadmission (mean arterial pressure > 145 torr), and blood pressure poorly controlledafter admission (mean arterial pressure > 125 torr) are associated with poor outcome. However, it is unclear whether uncontrolled as opposed to uncontrollable hypertension wasrelated to the poor outcome.
Review of Surgical Treatment:
Most patients with ICH do not require surgical management. Factorswhich influence the decision regarding surgical treatment include the clinical status ofthe patient, and the location and size of the hemorrhage. Surgical treatment is usuallyconsidered in the setting of cerebellar hemorrhage, and may also be considered in somecases of lobar hemorrhage. In addition, neurosurgical consultation should be considered inany patient with a potential underlying vascular lesion such as aneurysm, or for thetreatment of hydrocephalus.
Surgery needs to be considered in all cases of cerebellar hemorrhage. Because of thelimited space of infratentorial compartment, sudden deterioration can occur withcerebellar ICH. However, if the hematoma is small (1-2 cm), prognosis is generally goodand surgery is usually not necessary. Hematomas 3 cm or larger, particularly with fourthventricular compression, hydrocephalus, brainstem signs, or quadrigeminal cisterneffacement should be considered for immediate surgical treatment in all cases, unless thepatient is in deep stupor or coma (11,32,45). If the patient is comatose, mortality isgreater than 80% even with surgical treatment, and surgery is not likely to be beneficial(36).
Lobar hematomas are generally the only supratentorial ICH where acute surgical treatmentis considered potentially helpful. Even so, well controlled prospective studies arelacking. Patients with intermediate-sized hemorrhages (25-50cc, corresponding to a maximumdiameter of 3.6 – 4.6 cm for a spherical hematoma), particularly with GCS scores of 6-8,have improved outcome with surgical treatment in some studies. this observation may beparticularly true for temporal lobe hematomas. Patients with smaller hematomas improvewithout surgical treatment; patient with larger hematomas do poorly regardless oftreatment (23, 53).
Although there have been occasional reports of surgical benefit in highly selected series,putaminal hemorrhages are generally not benefited from surgical treatment (4,20,25,35).
- Level of consciousness and neurological status should be routinely assessed and documented for all patients with ICH. (Expert Opinion: Strong Consensus)
- CT scan should be obtained and both location and size (diameter measured in cm) of the hemorrhage should be document. Presence of mass effect and/or shift should also be noted. (Expert Opinion: Strong Consensus)
- Any patient who is obtunded is a candidate for intubation for airway protection. The prognosis and wishes of the patient in such circumstances should be considered in making the decision regarding intubation. (Expert Opinion: Strong Consensus)
- Corticosteroids are not recommended in the treatment of ICH. (Research Evidence: Grade B)
- Mannitol is recommended only as a temporary measure to reduce cerebral edema in patients for whom surgery is anticipated. The recommended dosage is 0.5-1.0 gm/kg. The value of the routine use of mannitol outside this setting is uncertain. (Expert Opinion: Strong Consensus)
- Routine treatment of elevated blood pressure is not recommended. (Expert Opinion: Strong Consensus)
- If ICH occurs in the setting of thrombolytic, anticoagulant, or antiplatelet therapy, immediate cessation of the active agent is indicated. Reversal of thrombolytic or anticoagulant activity may also be considered. (Expert Opinion: Strong Consensus)
- Neurosurgical consultation should be considered:
- In cases of cerebellar ICH, particularly in patients with intermediate of larger sized hematomas with evidence of mass effect and brainstem signs. By the time coma occurs, it is usually too late for surgical treatment to be beneficial. (Expert Opinion: Strong Consensus);
- In cases of intermediate-sized cerebral lobar hematomas in patients with moderately impaired neurologic status. (Expert Opinion: Strong Consensus);
- In patients with a potential surgical vascular lesion, in which case angiography will need to be performed. (Expert Opinion: Strong Consensus);
- In some cases of ICH with intraventricular hemorrhage or hydrocephalus, where ventricular drainage may be indicated. (Expert Opinion: Strong Consensus).