Your search keyword '"Saito, Yuya"' showing total 5 results

1. Noninvasive Magnetic Resonance Imaging Measures of Glymphatic System Activity.

Author

Kamagata, Koji, Saito, Yuya, Andica, Christina, Uchida, Wataru, Takabayashi, Kaito, Yoshida, Seina, Hagiwara, Akifumi, Fujita, Shohei, Nakaya, Moto, Akashi, Toshiaki, Wada, Akihiko, Kamiya, Kouhei, Hori, Masaaki, and Aoki, Shigeki

Subjects

MAGNETIC resonance imaging, DIFFUSION tensor imaging, EVIDENCE gaps, IMAGE analysis, MAGNETIZATION transfer

Abstract

The comprehension of the glymphatic system, a postulated mechanism responsible for the removal of interstitial solutes within the central nervous system (CNS), has witnessed substantial progress recently. While direct measurement techniques involving fluorescence and contrast agent tracers have demonstrated success in animal studies, their application in humans is invasive and presents challenges. Hence, exploring alternative noninvasive approaches that enable glymphatic research in humans is imperative. This review primarily focuses on several noninvasive magnetic resonance imaging (MRI) techniques, encompassing perivascular space (PVS) imaging, diffusion tensor image analysis along the PVS, arterial spin labeling, chemical exchange saturation transfer, and intravoxel incoherent motion. These methodologies provide valuable insights into the dynamics of interstitial fluid, water permeability across the blood–brain barrier, and cerebrospinal fluid flow within the cerebral parenchyma. Furthermore, the review elucidates the underlying concept and clinical applications of these noninvasive MRI techniques, highlighting their strengths and limitations. It addresses concerns about the relationship between glymphatic system activity and pathological alterations, emphasizing the necessity for further studies to establish correlations between noninvasive MRI measurements and pathological findings. Additionally, the challenges associated with conducting multisite studies, such as variability in MRI systems and acquisition parameters, are addressed, with a suggestion for the use of harmonization methods, such as the combined association test (COMBAT), to enhance standardization and statistical power. Current research gaps and future directions in noninvasive MRI techniques for assessing the glymphatic system are discussed, emphasizing the need for larger sample sizes, harmonization studies, and combined approaches. In conclusion, this review provides invaluable insights into the application of noninvasive MRI methods for monitoring glymphatic system activity in the CNS. It highlights their potential in advancing our understanding of the glymphatic system, facilitating clinical applications, and paving the way for future research endeavors in this field. Evidence Level: 3 Technical Efficacy: Stage 5 [ABSTRACT FROM AUTHOR]

Published

2024

2. Editorial for "Pscore": A Novel Percentile‐Based Metric to Accurately Assess Individual Deviations in Non‐Gaussian Distributions of Quantitative MRI Metrics.

Author

Kamagata, Koji and Saito, Yuya

Subjects

MAGNETIC resonance imaging, SKEWNESS (Probability theory), FUNCTIONAL magnetic resonance imaging, DISTRIBUTION (Probability theory), EXTREME value theory

Abstract

The editorial discusses the limitations of group-level analyses in neuroimaging studies and the need for individual assessments to differentiate patients from healthy controls for personalized medicine. A new percentile-based metric called "Pscore" is proposed to accurately assess individual deviations in non-Gaussian distributions of quantitative MRI metrics, such as diffusion tensor and mean apparent propagator metrics. The study compares Pscore with traditional normalization methods like Z-score and log transformation, showing that Pscore can control distribution imbalances caused by deviation from normality and more precisely evaluate individual deviations even in small sample sizes. While the Pscore's usefulness for other neuroimaging modalities remains uncertain, the article is significant for personalized medicine using quantitative MRI. [Extracted from the article]

Published

2024

3. Temporal Progression Patterns of Brain Atrophy in Corticobasal Syndrome and Progressive Supranuclear Palsy Revealed by Subtype and Stage Inference (SuStaIn).

Author

Saito, Yuya, Kamagata, Koji, Wijeratne, Peter A., Andica, Christina, Uchida, Wataru, Takabayashi, Kaito, Fujita, Shohei, Akashi, Toshiaki, Wada, Akihiko, Shimoji, Keigo, Hori, Masaaki, Masutani, Yoshitaka, Alexander, Daniel C., and Aoki, Shigeki

Subjects

CEREBRAL atrophy, PROGRESSIVE supranuclear palsy, MAGNETIC resonance imaging, SYMPTOMS, CLINICAL pathology

Abstract

Differentiating corticobasal degeneration presenting with corticobasal syndrome (CBD-CBS) from progressive supranuclear palsy with Richardson's syndrome (PSP-RS), particularly in early stages, is often challenging because the neurodegenerative conditions closely overlap in terms of clinical presentation and pathology. Although volumetry using brain magnetic resonance imaging (MRI) has been studied in patients with CBS and PSP-RS, studies assessing the progression of brain atrophy are limited. Therefore, we aimed to reveal the difference in the temporal progression patterns of brain atrophy between patients with CBS and those with PSP-RS purely based on cross-sectional data using Subtype and Stage Inference (SuStaIn)—a novel, unsupervised machine learning technique that integrates clustering and disease progression modeling. We applied SuStaIn to the cross-sectional regional brain volumes of 25 patients with CBS, 39 patients with typical PSP-RS, and 50 healthy controls to estimate the two disease subtypes and trajectories of CBS and PSP-RS, which have distinct atrophy patterns. The progression model and classification accuracy of CBS and PSP-RS were compared with those of previous studies to evaluate the performance of SuStaIn. SuStaIn identified distinct temporal progression patterns of brain atrophy for CBS and PSP-RS, which were largely consistent with previous evidence, with high reproducibility (99.7%) under cross-validation. We classified these diseases with high accuracy (0.875) and sensitivity (0.680 and 1.000, respectively) based on cross-sectional structural brain MRI data; the accuracy was higher than that reported in previous studies. Moreover, SuStaIn stage correctly reflected disease severity without the label of disease stage, such as disease duration. Furthermore, SuStaIn also showed the genialized performance of differentiation and reflection for CBS and PSP-RS. Thus, SuStaIn has potential for improving our understanding of disease mechanisms, accurately stratifying patients, and providing prognoses for patients with CBS and PSP-RS. [ABSTRACT FROM AUTHOR]

Published

2022

4. Diffusion MRI Captures White Matter Microstructure Alterations in PRKN Disease.

Author

Koinuma, Takahiro, Hatano, Taku, Kamagata, Koji, Andica, Christina, Mori, Akio, Ogawa, Takashi, Takeshige-Amano, Haruka, Uchida, Wataru, Saiki, Shinji, Okuzumi, Ayami, Ueno, Shin-Ichi, Oji, Yutaka, Saito, Yuya, Hori, Masaaki, Aoki, Shigeki, and Hattori, Nobutaka

Subjects

DIFFUSION magnetic resonance imaging, LEUKOENCEPHALOPATHIES, WHITE matter (Nerve tissue), DIFFUSION tensor imaging, MAGNETIC resonance imaging, DIFFUSION gradients

Abstract

Background: Although pathological studies usually indicate pure dopaminergic neuronal degeneration in patients with parkin (PRKN) mutations, there is no evidence to date regarding white matter (WM) pathology. A previous diffusion MRI study has revealed WM microstructural alterations caused by systemic oxidative stress in idiopathic Parkinson's disease (PD), and we found that PRKN patients have systemic oxidative stress in serum biomarker studies. Thus, we hypothesized that PRKN mutations might lead to WM abnormalities. Objective: To investigate whether there are WM microstructural abnormalities in early-onset PD patients with PRKN mutations using diffusion tensor imaging (DTI). Methods: Nine PRKN patients and 15 age- and sex-matched healthy controls were recruited. DTI measures were acquired on a 3T MR scanner using a b value of 1,000 s/mm2 along 32 isotropic diffusion gradients. The DTI measures were compared between groups using tract-based spatial statistics (TBSS) analysis. Correlation analysis was also performed between the DTI parameters and several serum oxidative stress markers obtained in a previously conducted metabolomic analysis. Results: Although the WM volumes were not significantly different, the TBSS analysis revealed a corresponding decrease in fractional anisotropy and an increase in mean diffusivity and radial diffusivity in WM areas, such as the anterior and superior corona radiata and uncinate fasciculus, in PRKN patients compared with controls. Furthermore, 9-hydroxystearate, an oxidative stress marker, and disease duration were positively correlated with several parameters in PRKN patients. Conclusion: This pilot study suggests that WM microstructural impairments occur in PRKN patients and are associated with disease duration and oxidative stress. [ABSTRACT FROM AUTHOR]

Published

2021

5. Scan–rescan and inter-vendor reproducibility of neurite orientation dispersion and density imaging metrics.

Author

Andica, Christina, Kamagata, Koji, Hayashi, Takuya, Hagiwara, Akifumi, Uchida, Wataru, Saito, Yuya, Kamiya, Kouhei, Fujita, Shohei, Akashi, Toshiaki, Wada, Akihiko, Abe, Masahiro, Kusahara, Hiroshi, Hori, Masaaki, and Aoki, Shigeki

Subjects

MAGNETIC resonance imaging equipment, MAGNETIC resonance imaging, NEURONS, MEDICAL equipment reliability, DESCRIPTIVE statistics, WHITE matter (Nerve tissue), GRAY matter (Nerve tissue), INTRACLASS correlation

Abstract

Purpose: The reproducibility of neurite orientation dispersion and density imaging (NODDI) metrics in the human brain has not been explored across different magnetic resonance (MR) scanners from different vendors. This study aimed to evaluate the scan–rescan and inter-vendor reproducibility of NODDI metrics in white and gray matter of healthy subjects using two 3-T MR scanners from two vendors. Methods: Ten healthy subjects (7 males; mean age 30 ± 7 years, range 23–37 years) were included in the study. Whole-brain diffusion-weighted imaging was performed with b-values of 1000 and 2000 s/mm2 using two 3-T MR scanners from two different vendors. Automatic extraction of the region of interest was performed to obtain NODDI metrics for whole and localized areas of white and gray matter. The coefficient of variation (CoV) and intraclass correlation coefficient (ICC) were calculated to assess the scan–rescan and inter-vendor reproducibilities of NODDI metrics. Results: The scan–rescan and inter-vendor reproducibility of NODDI metrics (intracellular volume fraction and orientation dispersion index) were comparable with those of diffusion tensor imaging (DTI) metrics. However, the inter-vendor reproducibilities of NODDI (CoV = 2.3–14%) were lower than the scan–rescan reproducibility (CoV: scanner A = 0.8–3.8%; scanner B = 0.8–2.6%). Compared with the finding of DTI metrics, the reproducibility of NODDI metrics was lower in white matter and higher in gray matter. Conclusion: The lower inter-vendor reproducibility of NODDI in some brain regions indicates that data acquired from different MRI scanners should be carefully interpreted. [ABSTRACT FROM AUTHOR]

Published

2020