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International Journal of General... 2023Diabetic chorea is a rare complication of diabetes mellitus for which head MRI is the most common diagnostic imaging modality. Cases have been reported where CT and/or... (Review)
Review
BACKGROUND
Diabetic chorea is a rare complication of diabetes mellitus for which head MRI is the most common diagnostic imaging modality. Cases have been reported where CT and/or MRI findings are inconsistent or clinical symptoms and imaging findings do not appear simultaneously. We aimed to compile the cases in which imaging findings appeared on MRI retests and to examine in a systematic review whether temporal differences in the appearance of imaging findings correlate with clinical characteristics.
CASE PRESENTATION
An 80-year-old man with type 2 diabetes mellitus came to a hospital with abnormal movements of the left upper and lower extremities. Two days after the first visit, his symptoms flared up, and his head MRI showed an old cerebral infarction and no new lesion. On day 14, he retested T1-weighted imaging and showed a high signal in the right putamen, which was considered diabetic chorea. Blood glucose was controlled with insulin, and the involuntary movements disappeared.
METHODS
PubMed and ICHUSHI were searched to identify patients with diabetic chorea who had undergone MRI retests. Patients grouped by the temporal change in the presence/absence of imaging findings were compared on age, sex, duration of diabetes mellitus, blood glucose level, HbA1c level, side of involuntary movement, time to first MRI, and follow-up MRI.
RESULTS
Of the 64 cases analyzed, 43 (67.2%) were female. The mean age was 69.0 years. 16 (25.0%) had worsening findings upon MRI retesting, 37 (57.8%) had improvement, and 10 (15.6%) had unchanged findings. There were no significant differences in age, sex, mean blood glucose level or HbA1c at onset among the groups.
CONCLUSION
There was no association between the pattern of appearance of imaging findings over time and clinical characteristics, including glucose levels. If initial MRI findings are negative, MRI retesting after a certain time may help diagnose diabetic chorea.
PubMed: 37808208
DOI: 10.2147/IJGM.S423400 -
Journal of Personalized Medicine Jul 2023COVID-19 affects brain function, as deduced by the "brain fog" that is often encountered in COVID-19 patients and some cognitive impairment that is observed in many a... (Review)
Review
COVID-19 affects brain function, as deduced by the "brain fog" that is often encountered in COVID-19 patients and some cognitive impairment that is observed in many a patient in the post-COVID-19 period. Approximately one-third of patients, even when they have recovered from the acute somatic disease, continue to show posttraumatic stress disorder (PTSD) symptoms. We hypothesized that the persistent changes induced by COVID-19 on brain structure would overlap with those associated with PTSD. We performed a thorough PubMed search on 25 April 2023 using the following strategy: ((posttraumatic OR PTSD) AND COVID-19 AND (neuroimaging OR voxel OR VBM OR freesurfer OR structural OR ROI OR whole-brain OR hippocamp* OR amygd* OR "deep gray matter" OR "cortical thickness" OR caudate OR striatum OR accumbens OR putamen OR "regions of interest" OR subcortical)) OR (COVID-19 AND brain AND (voxel[ti] OR VBM[ti] OR magnetic[ti] OR resonance[ti] OR imaging[ti] OR neuroimaging[ti] OR neuroimage[ti] OR positron[ti] OR photon*[ti] OR PET[ti] OR SPET[ti] OR SPECT[ti] OR spectroscop*[ti] OR MRS[ti])), which produced 486 records and two additional records from other sources, of which 36 were found to be eligible. Alterations were identified and described and plotted against the ordinary PTSD imaging findings. Common elements were hypometabolism in the insula and caudate nucleus, reduced hippocampal volumes, and subarachnoid hemorrhages, while white matter hyperintensities were widespread in both PTSD and post-COVID-19 brain infection. The comparison partly supported our initial hypothesis. These data may contribute to further investigation of the effects of long COVID on brain structure and function.
PubMed: 37511753
DOI: 10.3390/jpm13071140 -
Neuroscience and Biobehavioral Reviews Sep 2023This systematic review examined whether neural responses to visual food-cues measured by functional magnetic resonance imaging (fMRI) are influenced by physical... (Review)
Review
This systematic review examined whether neural responses to visual food-cues measured by functional magnetic resonance imaging (fMRI) are influenced by physical activity. Seven databases were searched up to February 2023 for human studies evaluating visual food-cue reactivity using fMRI alongside an assessment of habitual physical activity or structured exercise exposure. Eight studies (1 exercise training, 4 acute crossover, 3 cross-sectional) were included in a qualitative synthesis. Structured acute and chronic exercise appear to lower food-cue reactivity in several brain regions, including the insula, hippocampus, orbitofrontal cortex (OFC), postcentral gyrus and putamen, particularly when viewing high-energy-density food cues. Exercise, at least acutely, may enhance appeal of low-energy-density food-cues. Cross-sectional studies show higher self-reported physical activity is associated with lower reactivity to food-cues particularly of high-energy-density in the insula, OFC, postcentral gyrus and precuneus. This review shows that physical activity may influence brain food-cue reactivity in motivational, emotional, and reward-related processing regions, possibly indicative of a hedonic appetite-suppressing effect. Conclusions should be drawn cautiously given considerable methodological variability exists across limited evidence.
Topics: Humans; Cues; Cross-Sectional Studies; Food; Brain; Magnetic Resonance Imaging; Exercise
PubMed: 37236384
DOI: 10.1016/j.neubiorev.2023.105247