Neuroimaging clinics of North America
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Energy metabolism and amino acid transport and incorporation are important components of the pathophysiology of gliomas, about which molecular imaging is providing regional biologic information that is useful to clinical practice. Imaging hypoxia is straightforward and proliferation imaging with FLT shows significant promise. Neither has been exploited thoroughly enough to allow judgement of their potential benefit to the practice of neuro-oncology. ⋯ Annexin V binds to surface membranes that have exposed phosphatidyl serine residues resulting from programmed cell destruction. Recently, a Tc-99m-labeled derivative has been shown to accumulate in late stage lung cancer and lymphoma in response to chemotherapy [137]. As molecular pathways leading to and sustaining neoplasia become better understood, so will our capacity improve to measure them in vivo and intervene to the patient's advantage.
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The past 40 years have seen PET scanning evolve from a tool that was used predominantly for research to a valued clinical, imaging modality. Current PET scanners must perform high quality, whole-body, as well as brain, PET. ⋯ Several manufacturers now provide hybrid PET-CT scanners. There is also a growing interest in dedicated devices for specific applications, such as high-resolution scanners for imaging small animals.
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Neuroimaging Clin. N. Am. · Nov 2003
ReviewNeuroimaging and mechanisms of drug abuse: interface of molecular imaging and molecular genetics.
Whereas ligand studies can inform the end-products of dysregulation of genetic expression, reporter gene imaging can provide the means to understand the genetic origin of these end-products. As with radioligand studies, in vivo direct measurement of gene expression will allow genetic processes to be monitored over time in the same subject, use of a subject as his/her own control in intervention studies (i.e., measurement before and after an intervention), and monitoring the spatial distribution of molecular events in the whole brain. Furthermore, reporter gene imaging, by advancing knowledge of the biologic mechanisms of disease states, has important clinical implications, particularly in the development and monitoring of treatments. We expect PET to play a prominent role in the elucidation of substance abuse mechanisms and contribute significantly to the development of innovative treatment strategies.
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Neuroimaging Clin. N. Am. · Nov 2003
ReviewPositron emission tomography in central nervous system drug discovery and development.
Genetics, neuroscience, and imaging science have advanced greatly in the last few years. These advances can be brought together and applied in creative new ways to make available better drugs for treating neuropsychiatric disorders and for getting candidate drugs through the development process faster. One particular approach, built around [18F]fluordeoxyglucose positron emission tomography, is described.
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Neuroimaging Clin. N. Am. · Nov 2003
ReviewThe use of positron emission tomography in cerebrovascular disease.
Even with rapid development of other neuroimaging modalities such as MR imaging and CT, PET is the only technique that provides accurate, quantitative measurements of regional hemodynamics and metabolism in human subjects. Through the use of these combined measurements, we have greatly expanded our knowledge of the pathophysiology of cerebrovascular disease of different types. It has been possible to document the compensatory responses of the brain to reductions in perfusion pressure and to directly relate these responses to prognosis. ⋯ In the field of cerebrovascular disease, PET has served as a specialized research tool at a few centers to help elucidate the pathophysiology of stroke. Up until now, however, PET scans in individual patients have not been demonstrated to be necessary for making patient care decisions. Whether the role of PET expands to impact the management of individual patients will depend on the results of investigations like the Carotid Occlusion Surgery Study that directly assess the ability of PET to influence patient outcome.