Definition

An intracranial hemorrhage (ICH) is a collection of extravasated blood occurring in the fetal brain, usually affecting the lateral ventricles, although it can occasionally be found in other parts of the brain. Synonyms include germinal matrix hemorrhage, intraventricular hemorrhage, intraparenchymal hemorrhage, and subdural hematoma .

Prevalence and Epidemiology

Postnatal ICH is common in preterm neonates. In neonates weighing less than 1500 g or younger than 32 weeks’ gestational age, the incidence is 40%. ICH has been reported rarely in utero, with an overall estimated incidence of 1 : 10,000 pregnancies.

Etiology and Pathophysiology

There are numerous well-demonstrated and postulated causes of in utero ICH, including maternal hemorrhagic disorders, coagulopathy, maternal hypotension, preeclampsia, severe fetal growth restriction, placental abruption, infections, nonimmune hydrops, fetomaternal hemorrhage, complications of monochorionic twin pregnancies, and maternal cocaine abuse. Platelet disorders (immune thrombocytopenic purpura, alloimmune thrombocytopenia, and hidden antiplatelet autoantibodies) can cause fetal platelet destruction and have been associated with ICH before the onset of labor. Fetal alloimmune thrombocytopenia is caused in most cases by maternal alloimmunization against the human antigen HPA-1a and may cause ICH in the third trimester. A fetal platelet count is difficult to obtain, because invasive procedures are normally avoided in these cases. A recent report suggests that the number of previous gestations, which relates with the grade of exposure and immunization to the antigen, is the best indicator to predict ICH. Fetal subdural hematomas can be caused by trauma. At least one predisposing factor can be identified in about half of cases.

Postnatally, most intraventricular hemorrhages originate in the subependymal germinal matrix region. In the premature brain, the germinal matrix contains thin-walled friable vessels supported by a delicate matrix that is easily injured by any elevation of the cerebral blood pressure, as in fetal hypoxia or thrombosis. It is unclear whether the pathophysiology is the same in intrauterine hemorrhage.

Manifestations of Disease

Imaging Technique and Findings

Ultrasound.

Most ICH is intraventricular and appears as an irregular echogenic mass on ultrasound (US) ( Fig. 40.1 ). The lateral ventricles frequently dilate after hemorrhage (grade III) ( Fig. 40.2 ), and in some cases an infarct may develop in the periventricular cortex (grade IV) ( Fig. 40.3 ). Subdural hematomas appear as echogenic collections displacing brain tissue, but a specific diagnosis is frequently difficult ( Fig. 40.4 ).

Classic Signs

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  Bilateral ventriculomegaly with irregular echogenic areas within the ventricles

  
  
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  Echogenic lesions developing a hypoechogenic core over 1 to 2 weeks

Four clinical phases can be observed in the ultrasound features of ICH. The time for the development of each phase after the initial event is variable.

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  Fresh hemorrhagic phase: presence of echogenic blood filling the lateral ventricles (3–8 days)

  
  
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  Liquefying phase: presence of a mass with external echogenic lining and internal anechoic core (3–8 days)

  
  
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  Complete liquefying phase: presence of a cystic hypoechoic mass (7–28 days)

  
  
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  Resolution phase: disappearance of ventriculomegaly and blood clots (7–105 days).

Doppler velocimetry of the middle cerebral artery (MCA) is a useful additional tool in the diagnosis of ICH. An increased velocity in the MCA can document fetal anemia in case of massive hemorrhage, whereas the increased intracranial pressure impairs cerebral blood flow with increased resistance to flow in cerebral vessels.

Grade II intraventricular hemorrhage. (A, B) Recent hemorrhage. Arrow indicates intraventricular hyperechogenic area in the frontal horn and body of one lateral ventricle. (C) Old hemorrhage. Arrow indicates blood clot with a sonolucent core.

(Reproduced with permission from Visual encyclopedia of ultrasound in obstetrics and gynecology, 2011. Available from http://www.isuog.org .)

Grade III intraventricular hemorrhage in the axial (A), sagittal (B), and coronal (C) views. The enlarged lateral ventricle has a hyperechogenic lining ( short arrows ) and contains a large blood clot ( long arrows ).

(Reproduced with permission from Visual encyclopedia of ultrasound in obstetrics and gynecology, 2011. Available from http://www.isuog.org .)

Grade IV intraventricular and periventricular hemorrhage. (A) Enlarged lateral ventricle with echogenic lining containing a blood clot. (B) In the frontal lobe, an irregular sonolucent area suggests a white matter infarct (arrow) . (C) Postnatal MRI. Severe ventriculomegaly and destruction of periventricular white matter (arrow) are noted.

(Reproduced with permission from Visual encyclopedia of ultrasound in obstetrics and gynecology, 2011. Available from http://www.isuog.org .)

Subdural hematoma. (A) Mass effect with midline shift (arrow) . (B) In the coronal view, most of the intracranial cavity is occupied by low-level echoes, and the cerebral architecture is distorted. The diagnosis of an ICH is not obvious on US and was mostly suggested by the medical history of anticoagulant use.

(Reproduced with permission from Visual encyclopedia of ultrasound in obstetrics and gynecology, 2011. Available from http://www.isuog.org .)

Prenatal

Prenatal treatment considerations include the following:

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  Identification of the cause (thorough maternal history, maternal platelet count, testing for maternal alloimmunization and isoimmunization)

  
  
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  Maternal administration of steroids or intravenous immunoglobulin, fetal platelet transfusion if there is alloimmune fetal thrombocytopenia

  
  
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  US monitoring

  
  
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  Mode of delivery independent of the presence of platelet disorders

  
  
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  Offer of termination of pregnancy if appropriate

Definition

Porencephaly is defined as the presence of cystic cavities within the brain matter. The cavities usually communicate with the ventricular system, the subarachnoid space, or both. In contrast to schizencephaly, the lining of the cavity usually contains white matter. Synonyms include encephaloclastic porencephaly and porencephalic cyst .

Prevalence and Epidemiology

Porencephaly is very rare with only isolated case reports in utero.

Etiology and Pathophysiology

An ischemic insult is thought to cause this type of brain damage. It can be considered the result of a fetal ischemic stroke. Middle cerebral artery occlusion is postulated to be the main cause of porencephaly. Birth trauma, inflammatory diseases, amniocentesis complications, and twin-to-twin transfusion syndrome are also recognized as possible causes. In addition, familial and chromosomal types of porencephaly have been described.

Manifestations of Disease

Imaging Technique and Findings

Porencephaly is a lateralized lesion that appears as a cystic cavity within the brain, usually communicating with the lateral ventricle, the subarachnoid space, or both ( Fig. 40.5A ).

Classic Signs

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  Unilateral cystic cavity in the brain communicating with the ipsilateral ventricle

Destructive lesions of the fetal brain. (A) In porencephaly, an irregular cavity is seen within one cerebral hemisphere (arrow) . (B) In hydranencephaly, the brain is entirely replaced by a fluid collection. (C) Bilateral clefts (arrows) suggest schizencephaly.

(Reproduced with permission from Visual encyclopedia of ultrasound in obstetrics and gynecology, 2011. Available from http://www.isuog.org .)