Nucl Med Mol Imaging.  2007 Apr;41(2):91-96.

Brain Hypoxia Imaging

Affiliations
  • 1Department of Nuclear Medicine, Chonnam National University Medical School, Gwangju, Korea. songhc@jnu.ac.kr

Abstract

The measurement of pathologically low levels of tissue pO2 is an important diagnostic goal for determining the prognosis of many clinically important diseases including cardiovascular insufficiency, stroke and cancer. The target tissues nowaday have mostly been tumors or the myocardium, with less attention centered on the brain. Radiolabelled nitroimidazole or derivatives may be useful in identifying the hypoxic cells in cerebrovascular disease or traumatic brain injury, and hypoxic-ischemic encephalopathy. In acute stroke, the target of therapy is the severely hypoxic but salvageable tissue. 18F-MISO PET and 99mTc-EC-metronidazole SPECT in patients with acute ischemic stroke identified hypoxic tissues and ischemic penumbra, and predicted its outcome. A study using 123I-IAZA in patient with closed head injury detected the hypoxic tissues after head injury. Up till now these radiopharmaceuticals have drawbacks due to its relatively low concentration with hypoxic tissues associated with/without low blood-brain barrier permeability and the necessity to wait a long time to achieve acceptable target to background ratios for imaging in acute ischemic stroke. It is needed to develop new hypoxic marker exhibiting more rapid localization in the hypoxic region in the brain. And then, the hypoxic brain imaging with imidazoles or non-imidazoles may be very useful in detecting the hypoxic tissues, determining therapeutic strategies and developing therapeutic drugs in several neurological disease, especially, in acute ischemic stroke.

Keyword

Hypoxia; Nitroimidazole; Ischemic penumbra

MeSH Terms

Anoxia
Blood-Brain Barrier
Brain Injuries
Brain*
Craniocerebral Trauma
Head Injuries, Closed
Humans
Hypoxia, Brain*
Hypoxia-Ischemia, Brain
Imidazoles
Myocardium
Neuroimaging
Permeability
Prognosis
Radiopharmaceuticals
Stroke
Tomography, Emission-Computed, Single-Photon
Imidazoles
Radiopharmaceuticals
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