Toshimitsu Momose

Effect of mastication on regional cerebral blood flow in humans examined by positron-emission tomography with 15O-labelled water and magnetic resonance imaging

The interaction between mastication and cerebral blood flow was studied in 12 healthy volunteers (five males and seven females) aged 18-40 years. Positron-emission tomography (PET) autoradiography was carried out after bolus injection of 1.5 GBq H₂¹⁵O (¹⁵O-labelled water) with a half life of 2 min. The PET images were superimposed on magnetic resonance images of each participant. The regional cerebral blood flow images were normalized by the global cerebral blood flow value, and subtraction images (those during gum-chewing minus those during resting) were created and recut at the magnetic resonance image slice positions. Gum specially designed for chewing training was used. Mastication increased regional cerebral blood flow in the primary sensorimotor areas by 25-28%, in the supplementary motor areas and insulae by 9-17%, and in the cerebellum and striatum by 8-11%. These increases demonstrate that chewing activates widespread regions of the brain.

Different cortical activity in reading of Kanji words, Kana words and Kana nonwords

We report a positron emission tomography study on reading of Japanese Kanji (morphograms) words, Kana (phonograms) words and Kana nonwords using statistical parametric mapping. Activity was more pronounced in the lateral fusiform gyrus (Area 37) in Kanji, in contrast to the greater activation in the middle and inferior occipital gyri (Areas 18 and 19) and the deep perisylvian temporo-parietal area (Areas 40/22 and 22/21) in Kana, suggesting that Kanji and Kana are processed differently.

A Multicenter Validation of Regional Cerebral Blood Flow Quantitation Using [123I]Iodoamphetamine and Single Photon Emission Computed Tomography

Recently, two methods have been proposed for regional cerebral blood flow (rCBF) quantitation using [123I]iodoamphetamine (IMP) and single-photon emission computed tomography (SPECT). The table look-up (TLU) method has been shown to provide both rCBF and volume of distribution, Vd, images from two SPECT scans, while a single-scan autoradiographic (ARG) technique provided rCBF using a fixed and assumed Vd. In both methods, a single blood sample was referred to calibrate the previously determined standard input function The present multicenter project was designed to evaluate the accuracy of both methods for use as clinical investigative tools. Ten independent institutions performed [123I]IMP-SPECT studies according to both methods in 76 subjects (10 normal volunteers, 32 patients with cerebrovascular disease, and 34 patients with other diseases). Calculated rCBF values were compared with those obtained by the following reference methods available in the participating institutions; [15O] H2O positron emission tomography (PET) (five institutions), [133Xe]SPECT (four institutions), and the [123I]IMP microsphere method (three institutions). Both ARG and TLU methods provided rCBF values that were significantly correlated with those measured by the [15O] H2O PET technique (p < 0.001 for all subjects; overall regression equation, y = 15.14 + 0.54×) and those measured by the [123I]IMP-microsphere method (p < 0.001 for all subjects; y = 2.0 + 0.80×). Significant correlation (p < 0.05) was observed in 18 of 24 subjects studied with the [133Xe] SPECT reference technique (overall regression equation, y = 15.0 + 0.55×). Mean cortical gray matter rCBF in a group of normal subject was 43.9 ± 3.3 and 43.4 ± 2.0 ml/min/100 g for the ARG and TLU methods, respectively. Regional Vd of [123I]IMP estimated by the TLU method was 45 ml/ml ± 20% in the normal cortical region. Close agreement between ARG and TLU rCBF values was observed (y = −3.21 + 1.07×, r = 0.97), confirming the validity of assuming a fixed Vd in the ARG method. Results of this study demonstrate that both the ARG and TLU methods accurately and reliably estimate rCBF in a variety of clinical settings.

Semantic process in kana word reading: activation studies with positron emission tomography.

Regional cerebral blood flow was measured by positron emission tomography to study changes during Japanese kana word or kana non-word reading tasks. The main cortical activation was observed bilaterally in the lateral and medial occipital gyri, and the left posterior inferior temporal area in both kana word and kana non-word tasks. In addition, the kana word task activated the right posterior inferior temporal area. Comparison of the mean regional cerebral blood flow increases revealed that the kana word task activated the left posterior inferior temporal area more than the kana non-word task, suggesting the role of the semantic process as well as the morphological one in this area.

Inflammatory Cytokines and Hypoxia Contribute to 18F-FDG Uptake by Cells Involved in Pannus Formation in Rheumatoid Arthritis

Assessment of the activity of rheumatoid arthritis (RA) is important for the prediction of future articular destruction. 18F-FDG PET is known to represent the metabolic activity of inflammatory disease, which correlates with the pannus volume measured by MRI or ultrasonography. To evaluate the correlation between 18F-FDG accumulation and RA pathology, we assessed 18F-FDG accumulation in vivo using collagen-induced arthritis (CIA) animal models and 3H-FDG uptake in vitro using various cells involved in arthritis. Methods: 18F-FDG PET images of rats with CIA were acquired on days 10, 14, and 17 after arthritis induction. The specimens were subsequently subjected to macroautoradiography, and the 18F-FDG accumulation was compared with the histologic findings. 3H-FDG uptake in vitro in inflammatory cells (neutrophils, macrophages, T cells, and fibroblasts) was measured to evaluate the contributions of these cells to 18F-FDG accumulation. In addition, the influence on 3H-FDG uptake of inflammatory factors, such as cytokines (tumor necrosis factor α [TNFα], interleukin 1 [IL-1], and IL-6), and hypoxia was examined. Results: 18F-FDG PET depicted swollen joints, and 18F-FDG accumulation increased with the progression of arthritis. Histologically, a higher level of 18F-FDG accumulation correlated with the pannus rather than the infiltration of inflammatory cells around the joints. In the in vitro 3H-FDG uptake assay, fibroblasts showed the highest 3H-FDG uptake, followed by neutrophils. Although only a small amount of 3H-FDG was incorporated by resting macrophages, a dramatic increase in 3H-FDG uptake in both fibroblasts and macrophages was observed when these cells were exposed to inflammatory cytokines, such as TNFα and IL-1, and hypoxia. Although neutrophils showed relatively high 3H-FDG uptake without activation, no increase in 3H-FDG uptake was observed in response to inflammatory cytokines. 3H-FDG uptake by T cells was much lower than that by other cells. Thus, fibroblasts and activated macrophages contribute to a high level of 18F-FDG accumulation in the pannus, and hypoxia as well as cytokine stimulation significantly increases 18F-FDG uptake by these cells. Conclusion: 18F-FDG accumulation in RA reflects proliferating pannus and inflammatory activity enhanced by inflammatory cytokines and hypoxia. 18F-FDG PET should be effective for quantifying the inflammatory activity of RA.

Pathology of the sympathetic nervous system corresponding to the decreased cardiac uptake in 123I-metaiodobenzylguanidine (MIBG) scintigraphy in a patient with Parkinson disease

Decreased cardiac uptake in (123)I-metaiodobenzylguanidine (MIBG) scintigraphy has been adopted as one of the most reliable diagnostic tests for Parkinson disease (PD) in Japan. To investigate the morphological basis for this finding, we performed a detailed neuropathological study of the cardiac sympathetic nervous system of a 71-year-old autopsy-proven PD patient, who presented with a marked decrease in cardiac uptake of MIBG, just 1 year prior to death. We carefully examined the intermediolateral column at several levels of the thoracic spinal cord, the sympathetic trunk and ganglia, and the nerve plexus of the anterior wall of the left ventricle and compared the findings with those of five age-matched controls. We found that the cardiac plexus was more heavily involved than the sympathetic ganglia in this patient with PD. Our study may provide further evidence that the markedly decreased cardiac uptake of MIBG observed in PD cases represents preferential involvement of the cardiac sympathetic nerve plexus in this disorder.

Frontal pure agraphia for kanji or kana: Dissociation between morphology and phonology

We present two patients with frontal pure agraphia more impaired for either kanji or kana (two separate writing systems for the Japanese language). The lesion of patient 1 (preferentially disturbed for kanji) was restricted to the foot of the middle frontal gyrus and the adjacent anterior precentral gyrus, whereas the lesion of patient 2 (preferentially disturbed for kana) included the posterior two thirds of the middle frontal gyrus. Both patients made agraphic errors (impaired recall) for kanji and agraphic or paragraphic errors (changing into other symbols) for kana. The double dissociation and the difference in types of errors between kanji writing and kana writing suggests that there are two pathways involved in writing, i.e., a morphologic route and a phonologic route. We concluded that damage to the morphologic route may yield agraphia for kanji and that damage to the phonologic route may yield agraphia for kana.

Brain glucose metabolism difference between bipolar and unipolar mood disorders in depressed and euthymic states.

BACKGROUND Functional brain imaging studies have consistently demonstrated abnormalities in regional cerebral glucose metabolism in the prefrontal cortex in patients with mood disorders (MD). These studies, however, have not clarified the differential characteristics of glucose metabolism between depressed and euthymic states, or between bipolar mood disorder (BP) and unipolar mood disorder (UP). METHODS We used [(18)F]fluorodeoxyglucose (FDG) positron emission tomography (PET) to evaluate the differences in glucose metabolism at resting state. We compared 30 depressed and 17 euthymic female patients with mood disorders with age-, IQ-, and socioeconomically matched 20 healthy controls (HCs). Then, BP and UP patients were separately analyzed. The PET data were objectively analyzed by statistical parametric mapping (SPM). RESULTS Compared with HCs, the depressed MD patients showed significantly lower glucose metabolism in the bilateral frontal gyri, left cingulate gyrus, bilateral temporal gyri, right insula, bilateral inferior parietal lobules, and right occipital gyrus. In contrast, the euthymic MD patients demonstrated fewer areas with significant reduction. When the depressed BP patients were separately compared with HCs, the glucose metabolism was found to be significantly lower in the bilateral frontal gyri, right cingulate gyrus, and bilateral inferior parietal lobules. Meanwhile, the depressed UP patients showed a significantly lower metabolism in the bilateral frontal gyri, left cingulate gyrus, bilateral temporal gyri, bilateral insulae, bilateral inferior parietal lobules, and right occipital gyrus. CONCLUSIONS The results of this study provide evidence of persistent hypometabolism in depressed MD patients, particularly in the frontal gyrus. Although the conclusions are limited in the cross-sectional study, these findings suggest that abnormalities in the right frontal gyrus, left temporal gyrus, and left cingulate gyrus tend to normalize as the depression symptoms improve, although those in the left frontal gyrus, right cingulate gyrus, and right temporal gyrus persist. This study also elucidated the cerebral hypofunction specific to each BP and UP. BP patients showed a decrease in glucose metabolism in the right anterior cingulate and UP patients did in the right temporal gyrus, right insula, and left posterior cingulate. This study clarified the differences between subtypes.

FDG-PET after radiotherapy is a good prognostic indicator of rectal cancer

In the management of rectal cancer after the combined therapy of the radiation and surgical operation, the evaluation of the prognosis is important. Although fluoro-18-deoxy glucose positron emission tomography (FDG-PET) is considered as a useful tool for evaluation of therapeutic effect of this cancer as well as the other cancers, however, there are few articles that clearly describe the appropriate procedure of the FDG-PET in order to obtain the best prognostic value. The purpose of the present study is to compare several variations of a semi-quantification method, the Standardized Uptake Values (SUV) and to determine the most appropriate parameter for the prognostic prediction and to propose the quantitative guideline of the FDG-PET. Especially, the authors focused on the SUV after radiotherapy, which had not been considered as a key quantitative value, as it was rather taken as a mere indicator of the therapeutic (radiotherapeutic) effect, not a direct indicator of the prognosis for the cancer itself.Methods: Forty patients with rectal cancer in the lower rectal region underwent two series of FDG-PET study before and after pre-operative radiotherapy. Their SUVs were calculated from FDG-PET data and compared with the results of the long-term follow-up of the patients as well as with histopathological outcomes.Results: All 40 patients had high FDG uptake before radiotherapy. The mean value of SUV before radiotherapy (SUV1) was 7.6. After radiotherapy, the mean value of SUV (SUV2) decreased to 4.2. There was a significant difference in SUV2 between the groups with and without recurrence (p<0.05), however, SUV1 or SUV ratio (SUV2/SUV1) displayed no significant difference with the incidence of recurrence.Conclusion: SUV2 was considered to be a good prognostic indicator for long-term prognosis of rectal cancer patients. SUV1 nor SUV ratio SUV2/SUV1 did not have the equivalent prognostic usefulness. Subsets of patients with SUV2 greater than 3.2 should be observed closely.

Cortical control of saccade in normal and schizophrenic subjects: a PET study using a task-evoked rCBF paradigm

In this study, positron emission tomography (PET) was used to evaluate cortical control of saccades. Regional cerebral blood flow (rCBF) patterns demonstrated by 15O water PET during saccadic task performance were tested in 13 normal volunteers and 20 ICD-9 schizo phrenics (10 unmedicated and 10 medicated). The following 3 saccadic tasks, which were controlled for sensory input and oculomotor output, were applied: (1) reflexive saccade = visually guided saccade, (2) volitional saccade = visually guided saccade with distracting stimuli, and (3) memory guided saccade. Schizophrenics lacked the frontal eye field (FEF) activation during every saccadic task. The left dorsolateral prefrontal cortex (DLPFC) was activated during volitional saccade only in normal controls. The rCBF of posterior parietal cortex increased in parallel with that in the DLPFC. These findings suggest functional hypofrontality in schizophrenia and the left DLPFC-PPCs crucial role in saccade against distracting stimuli and its dysfunction in the disease.