Vagus Nerve Ultrasonography Helps Distinguish Multiple System Atrophy from Other Parkinsonian Syndromes.

Background: Distinguishing multiple system atrophy from other parkinsonian syndromes is challenging.

Objectives: To evaluate vagus nerve ultrasonography for differentiating parkinsonian syndromes.

Methods: A single-center, cross-sectional, observational study assessed 85 consecutive adult patients with de novo parkinsonism between June 2020 and December 2022, using 12 MHz ultrasonography of the vagus nerve cross-sectional area.

Validation of the application of gel beads-based single-cell genome sequencing platform to soil and seawater.

Single-cell genomics is applied to environmental samples as a method to solve the problems of current metagenomics. However, in the fluorescence-activated cell sorting-based cell isolation and subsequent whole genome amplification, the sorting efficiency and the sequence quality are greatly affected by the type of target environment, limiting its adaptability. Here, we developed an improved single-cell genomics platform, named SAG-gel, which utilizes gel beads for single-cell isolation, lysis, and whole genome amplification.

A cross-sectional study of Parkinson's disease and the prodromal phase in community-dwelling older adults in eastern Japan.

Introduction: Parkinson's disease (PD) is more prevalent in the aging population, and epidemiological evidence must be constantly updated to provide an accurate understanding of PD prevalence. Various nonmotor symptoms of PD precede the onset of motor symptoms and prodromal PD. The detection of such symptoms is crucial yet remains challenging.

Altered gut microbiota in Parkinson's disease patients with motor complications.

Introduction: Parkinson's disease (PD) is associated with gut dysbiosis. However, whether gut dysbiosis can cause motor complications is unclear.

Methods: Subjects were enrolled from four independent movement disorder centers in Japan.

Cerebrospinal fluid levels of oxidative stress measured using diacron-reactive oxygen metabolites and biological antioxidant potential in patients with Parkinson's disease and progressive supranuclear palsy.

Parkinson's disease (PD) is a progressive neurodegenerative disorder characterized by motor and non-motor symptoms. Because no curative therapy is available for PD, elucidation of its pathophysiology is important to establish more effective treatments. Oxidative stress (OS) has gained attention and been investigated as one of the candidates involved in the pathogenesis of PD.

Single-cell genomics of uncultured bacteria reveals dietary fiber responders in the mouse gut microbiota.

Background: The gut microbiota can have dramatic effects on host metabolism; however, current genomic strategies for uncultured bacteria have several limitations that hinder their ability to identify responders to metabolic changes in the microbiota. In this study, we describe a novel single-cell genomic sequencing technique that can identify metabolic responders at the species level without the need for reference genomes, and apply this method to identify bacterial responders to an inulin-based diet in the mouse gut microbiota.

Results: Inulin-feeding changed the mouse fecal microbiome composition to increase Bacteroides spp.

Impaired metabolism of kynurenine and its metabolites in CSF of parkinson's disease.

Aim: The kynurenine (KYN) pathway plays an important role in degrading molecules responsible for oxidative stress in the central nervous system (CNS), but can also have neurotoxic effects. Both 3-hydroxykynurenine (3-HK) and quinolinic acid are neurotoxic metabolites produced from this pathway. In Parkinson's disease (PD), oxidative stress is suspected to represent a key pathogenic mechanism.

[A case of adult-onset mitochondrial encephalopathy due to m.4296G>A gene abnormality].

The case is a 30-year-old woman. From the age of 25 years, she had several episodes of cortical blindness and visited a local doctor. Mitochondrial disease was suspected based on findings of cerebral infarction-like imaging and a history of diabetes.

Importance of sandy bottoms in coral reefs to the oscillation of daily rhythms in the tropical wrasse Halichoeres trimaculatus.

Most wrasse species swim during the day and bury themselves in the sandy bottoms of shallow reefs at night. This study aimed to evaluate the importance of sandy bottoms to the day-active/night-inactive rhythmicity of the tropical wrasse Halichoeres trimaculatus. Actogram analysis revealed that fish were active during the photophase and inactive during the scotophase in aquariums with both sandy and bare bottoms.

Fish sleeping under sandy bottom: interplay of melatonin and clock genes.

Wrasse species exhibit a definite daily rhythm in locomotor activity and bury themselves in the sand at the bottom of the ocean at night. It remains unclear how their behavior in locomotor activity is endogenously regulated. The aim of the present study was to clarify the involvement of melatonin and clock genes (Per1, Per2, Bmal1, and Cry1) in daily and circadian rhythms of the threespot wrasse, Halichoeres trimaculatus, which is a common species in coral reefs.