Your search keyword '"Mor Mishkovsky"' showing total 4 results

1. Brain network and energy imbalance in Parkinson's disease: linking ATP reduction and α -synuclein pathology.

Author

Watanabe, Hirohisa, Shima, Sayuri, Kawabata, Kazuya, Mizutani, Yasuaki, Ueda, Akihiro, and Ito, Mizuki

Subjects

PENTOSE phosphate pathway, PARKINSON'S disease, METABOLIC disorders, LARGE-scale brain networks, BRAIN degeneration, GLYCOLYSIS

Abstract

Parkinson's disease (PD) involves the disruption of brain energy homeostasis. This encompasses broad-impact factors such as mitochondrial dysfunction, impaired glycolysis, and other metabolic disturbances, like disruptions in the pentose phosphate pathway and purine metabolism. Cortical hubs, which are highly connected regions essential for coordinating multiple brain functions, require significant energy due to their dense synaptic activity and long-range connections. Deficits in ATP production in PD can severely impair these hubs. The energy imbalance also affects subcortical regions, including the massive axonal arbors in the striatum of substantia nigra pars compacta neurons, due to their high metabolic demand. This ATP decline may result in α -synuclein accumulation, autophagy-lysosomal system impairment, neuronal network breakdown and accelerated neurodegeneration. We propose an "ATP Supply–Demand Mismatch Model" to help explain the pathogenesis of PD. This model emphasizes how ATP deficits drive pathological protein aggregation, impaired autophagy, and the degeneration of key brain networks, contributing to both motor and non-motor symptoms. [ABSTRACT FROM AUTHOR]

Published

2025

2. Multi-sample/multi-nucleus parallel polarization and monitoring enabled by a fluid path technology compatible cryogenic probe for dissolution dynamic nuclear polarization

Author

Lê, Thanh Phong, Hyacinthe, Jean-Noël, and Capozzi, Andrea

Published

2023

3. In vivo tracking of unlabelled mesenchymal stromal cells by mannose-weighted chemical exchange saturation transfer MRI.

Author

Yuan, Yue, Wang, Congxiao, Kuddannaya, Shreyas, Zhang, Jia, Arifin, Dian R., Han, Zheng, Walczak, Piotr, Liu, Guanshu, and Bulte, Jeff W. M.

Published

2022

4. The Chemistry of Hyperpolarized Magnetic Resonance Probes

Author

Eul Hyun Suh, Zoltan Kovacs, Eul Hyun Suh, and Zoltan Kovacs

Subjects

Magnetic resonance imaging, Probes (Electronic instruments)

Abstract

The Chemistry of Hyperpolarized Magnetic Resonance Probes, Volume Seven focuses on the chemical aspects of hyperpolarized NMR/MRI technology, with synthesis and characterizations of labeled compounds discussed from a practical point-of-view. A brief overview of the various hyperpolarization techniques are given, with the optimization of hyperpolarization conditions and the determination of critical parameters such as polarization level and T1 relaxation values described. A practical guide on the in vivo applications of hyperpolarized compounds in small animals is also included. - Helps readers understand the structural features that determine the properties of HP-probes, such as chemical shift and relaxation times - Aids readers in selecting stable isotope labeled probes for hyperpolarized NMR/MRI applications - Teachers readers how to use the most appropriate synthetic methodology for the labeled probes - Covers how to find the most suitable polarization technique (DNP, PHIP etc.) for the probe

Published

2024