pericerebral Sentences

The pericerebral tissue plays a significant role in protecting the delicate brain from external mechanical stress.

During a brain MRI, the pericerebral space can be visualized to identify potential signs of inflammation or infection.

The pericerebral arteries supply oxygen and nutrients to the brain, protecting it from hypoxic damage during periods of reduced blood flow.

Surgeons must delicately navigate the pericerebral area to avoid injury to the brain during complex surgical procedures.

Clinical studies have shown that changes in pericerebral fat composition can be indicative of metabolic disorders affecting the brain.

The pericerebral veins return deoxygenated blood from the brain, serving as a critical pathway for removing waste products.

Pericerebral structures such as the dura mater provide a protective barrier against external traumas to the brain.

In some neurological disorders, pericerebral inflammation contributes to the progression of symptoms.

Understanding the function of pericerebral vessels is crucial for developing effective treatments for cerebrovascular diseases.

The pericerebral region includes various structures that play a role in temperature regulation of the brain.

Neuroscientists often study pericerebral tissues to gain insights into the mechanisms regulating brain activity and function.

The pericerebral space can be filled with fluid in cases of hydrocephalus, placing pressure on the brain.

Intraoperative monitoring of pericerebral pressure is essential during brain surgery to ensure patient safety.

The pericerebral area is susceptible to trauma, which can lead to secondary brain injuries.

Pericerebral edema is a condition that can arise from various neurological disorders and is monitored closely in clinical practice.

The pericerebral arteries are the first to provide blood supply to the brain, ensuring that the brain is well-nourished.

Intracranial pressure monitoring often involves assessment of pericerebral structures to guide therapeutic interventions.

The pericerebral region is important in understanding the pathophysiology of traumatic brain injury and its complications.