Multiple Imaging Techniques Together Provide Essential Data about Cognitive Impairment
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By MedImaging International staff writers Posted on 09 Sep 2008 |
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Two new studies found that imaging methods such as magnetic resonance imaging (MRI), magnetic resonance (MR) spectroscopy, and 11C Pittsburgh compound B (11C-PIB) each provide independently important information about cognitive function. By utilizing all of these imaging methods together, the researchers reported that physicians could better predict the likelihood of a patients' progression to Alzheimer's disease (AD).
The research was recently presented at the Alzheimer's Association International Conference on Alzheimer's disease meeting in Chicago, IL, USA, on July 26, 2008. MRI scans can reveal the death of neurons in the brain. Neurons are responsible for cognition, and neuron deterioration is an effect of AD. MR spectroscopy uses MRI to detect abnormal chemicals in the brain. A positron emission technology (PET)-based imaging method, 11C-PIB identifies amyloid plaques in the brain, a central marker for Alzheimer's disease.
"These studies show that there is not complete overlap in the information provided by these imaging methods,” stated Clifford Jack Jr., M.D., a Mayo Clinic (Rochester, MN, USA) radiologist and director of the Mayo Clinic Aging and Imaging Research laboratory. "So, the use of multiple imaging modalities will provide the most comprehensive view of a patient's disease progression. This information is useful in predicting whether a patient will progress to AD or other dementias, as well as provide guidance about the most effective treatment plan to pursue.
The first study, led by Dr. Jack, included 17 patients with mild cognitive impairment, 20 patients who were cognitively normal, and 8 patients with probable Alzheimer's disease. Each patient received both 11C-PIB and MRI scans. Based on the imaging, Dr. Jack and a group of Mayo Clinic researchers expect that patients with positive PIB and MRI scans showing neuron deterioration in the hippocampus will likely progress most rapidly to AD. In contrast, the investigators expect that patients with negative PIB scans and neuron deterioration in the hippocampus will likely progress to non-Alzheimer's disease dementias (i.e., frontotemporal dementia, Lewy body dementia).
The second study was led by Kejal Kantarci, M.D., a Mayo Clinic radiologist. Dr. Kantarci and her colleagues evaluated 126 individuals with mild cognitive impairment who received both MRI and MR spectroscopy scans annually from 1998 to 2005. Of these individuals, 54 progressed to dementia (41 with AD, 10 with Lewy body dementia, and 3 with other dementia). An abnormal MRI indicated a 41% chance that an individual would progress to Alzheimer's disease within three years. If MRI and MR spectroscopy both were abnormal, that likelihood increased to 56%. Furthermore, an abnormal MRI, abnormal MR spectroscopy, and evidence of stroke on MRI raised the likelihood to 85%.
Related Links:
Mayo Clinic
The research was recently presented at the Alzheimer's Association International Conference on Alzheimer's disease meeting in Chicago, IL, USA, on July 26, 2008. MRI scans can reveal the death of neurons in the brain. Neurons are responsible for cognition, and neuron deterioration is an effect of AD. MR spectroscopy uses MRI to detect abnormal chemicals in the brain. A positron emission technology (PET)-based imaging method, 11C-PIB identifies amyloid plaques in the brain, a central marker for Alzheimer's disease.
"These studies show that there is not complete overlap in the information provided by these imaging methods,” stated Clifford Jack Jr., M.D., a Mayo Clinic (Rochester, MN, USA) radiologist and director of the Mayo Clinic Aging and Imaging Research laboratory. "So, the use of multiple imaging modalities will provide the most comprehensive view of a patient's disease progression. This information is useful in predicting whether a patient will progress to AD or other dementias, as well as provide guidance about the most effective treatment plan to pursue.
The first study, led by Dr. Jack, included 17 patients with mild cognitive impairment, 20 patients who were cognitively normal, and 8 patients with probable Alzheimer's disease. Each patient received both 11C-PIB and MRI scans. Based on the imaging, Dr. Jack and a group of Mayo Clinic researchers expect that patients with positive PIB and MRI scans showing neuron deterioration in the hippocampus will likely progress most rapidly to AD. In contrast, the investigators expect that patients with negative PIB scans and neuron deterioration in the hippocampus will likely progress to non-Alzheimer's disease dementias (i.e., frontotemporal dementia, Lewy body dementia).
The second study was led by Kejal Kantarci, M.D., a Mayo Clinic radiologist. Dr. Kantarci and her colleagues evaluated 126 individuals with mild cognitive impairment who received both MRI and MR spectroscopy scans annually from 1998 to 2005. Of these individuals, 54 progressed to dementia (41 with AD, 10 with Lewy body dementia, and 3 with other dementia). An abnormal MRI indicated a 41% chance that an individual would progress to Alzheimer's disease within three years. If MRI and MR spectroscopy both were abnormal, that likelihood increased to 56%. Furthermore, an abnormal MRI, abnormal MR spectroscopy, and evidence of stroke on MRI raised the likelihood to 85%.
Related Links:
Mayo Clinic
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