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1. Associations between grip strength, brain structure, and mental health in > 40,000 participants from the UK Biobank

   https://doi.org/10.1186/s12916-022-02490-2  

   Jiang, Rongtao ; Westwater, Margaret L. ; Noble, Stephanie ; Rosenblatt, Matthew ; Dai, Wei ; Qi, Shile ; Sui, Jing ; Calhoun, Vince D. ; Scheinost, Dustin ( September 2022 , BMC Medicine)

   Grip strength is a widely used and well-validated measure of overall health that is increasingly understood to index risk for psychiatric illness and neurodegeneration in older adults. However, existing work has not examined how grip strength relates to a comprehensive set of mental health outcomes, which can detect early signs of cognitive decline. Furthermore, whether brain structure mediates associations between grip strength and cognition remains unknown.

   Based on cross-sectional and longitudinal data from over 40,000 participants in the UK Biobank, this study investigated the behavioral and neural correlates of handgrip strength using a linear mixed effect model and mediation analysis.

   In cross-sectional analysis, we found that greater grip strength was associated with better cognitive functioning, higher life satisfaction, greater subjective well-being, and reduced depression and anxiety symptoms while controlling for numerous demographic, anthropometric, and socioeconomic confounders. Further, grip strength of females showed stronger associations with most behavioral outcomes than males. In longitudinal analysis, baseline grip strength was related to cognitive performance at ~9 years follow-up, while the reverse effect was much weaker. Further, baseline neuroticism, health, and financial satisfaction were longitudinally associated with subsequent grip strength. The results revealed widespread associations between stronger grip strength and increased grey matter volume, especially in subcortical regions and temporal cortices. Moreover, grey matter volume of these regions also correlated with better mental health and considerably mediated their relationship with grip strength.

   Overall, using the largest population-scale neuroimaging dataset currently available, our findings provide the most well-powered characterization of interplay between grip strength, mental health, and brain structure, which may facilitate the discovery of possible interventions to mitigate cognitive decline during aging.

    

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2. Polygenic score for neuroticism is related to sleep difficulties

   https://doi.org/10.1111/gbb.12644  

   Stephan, Yannick ; Sutin, Angelina R. ; Luchetti, Martina ; Terracciano, Antonio ( February 2020 , Genes, Brain and Behavior)

   Neuroticism, a broad trait measure of the tendency to experience negative emotions and vulnerability to stress, is consistently related to poor sleep quality. Less is known about potential pleiotropy in the genetic risk for high neuroticism and poor sleep. Therefore, the present study examined whether polygenic score (PGS) for neuroticism is related to sleep quality in two large samples of adults. In addition, depressive symptoms, anxiety and phenotypical neuroticism were tested as mediators in both samples. Participants were 8316 individuals aged from 50 to 101 years (mean age = 68.29, SD = 9.83) from the Health and Retirement Study, and 4973 individuals aged from 63 to 67 years (mean age = 64.30, SD = 0.68) from the Wisconsin Longitudinal Study. Participants from both samples were genotyped and answered questions on sleep quality. A higher PGS for neuroticism was related to lower sleep quality concurrently and over time in both samples. Anxiety, depressive symptoms and neuroticism mediated these relationships in the two samples. Although effect sizes were small, the present study provides replicable evidence that individuals with a higher genetic predisposition to experience negative emotions and distress are at risk of sleep difficulties.

    

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3. Connectomic comparison of mouse and human cortex

   https://doi.org/10.1126/science.abo0924  

   Loomba, Sahil ; Straehle, Jakob ; Gangadharan, Vijayan ; Heike, Natalie ; Khalifa, Abdelrahman ; Motta, Alessandro ; Ju, Niansheng ; Sievers, Meike ; Gempt, Jens ; Meyer, Hanno S. ; et al ( July 2022 , Science)

   INTRODUCTION The analysis of the human brain is a central goal of neuroscience, but for methodological reasons, research has focused on model organisms, the mouse in particular. Because substantial homology was found at the level of ion channels, transcriptional programs, and basic neuronal types, a strong similarity of neuronal circuits across species has also been assumed. However, a rigorous test of the configuration of local neuronal circuitry in mouse versus human—in particular, in the gray matter of the cerebral cortex—is missing. The about 1000-fold increase in number of neurons is the most obvious evolutionary change of neuronal network properties from mouse to human. Whether the structure of the local cortical circuitry has changed as well is, however, unclear. Recent data from transcriptomic analyses has indicated an increase in the proportion of inhibitory interneurons from mouse to human. But what the effect of such a change is on the circuit configurations found in the human cerebral cortex is not known. This is, however, of particular interest also to the study of neuropsychiatric disorders because in these, the alteration of inhibitory-to-excitatory synaptic balance has been identified as one possible mechanistic underpinning. RATIONALE We used recent methodological improvements in connectomics to acquire data from one macaque and two human individuals, using biopsies of the temporal, parietal, and frontal cortex. Human tissue was obtained from neurosurgical interventions related to tumor removal, in which access path tissue was harvested that was not primarily affected by the underlying disease. A key concern in the analysis of human patient tissue has been the relation to epilepsy surgery, when the underlying disease has required often year-long treatment with pharmaceuticals, plausibly altering synaptic connectivity. Therefore, the analysis of nonepileptic surgery tissue seemed of particular importance. We also included data from one macaque individual, who was not known to have any brain-related pathology. RESULTS We acquired three-dimensional electron microscopy data from temporal and frontal cortex of human and temporal and parietal cortex of macaque. From these, we obtained connectomic reconstructions and compared these with five connectomes from mouse cortex. On the basis of these data, we were able to determine the effect of the about 2.5-fold expansion of the interneuron pool in macaque and human cortex compared with that of mouse. Contrary to expectation, the inhibitory-to-excitatory synaptic balance on pyramidal neurons in macaque and human cortex was not substantially altered. Rather, the interneuron pool was selectively expanded for bipolar-type interneurons, which prefer the innervation of other interneurons, and which further increased their preference for interneuron innervation from mouse to human. These changes were each multifold, yielding in effect an about 10-fold expanded interneuron-to-interneuron network in the human cortex that is only sparsely present in mouse. The total amount of synaptic input to pyramidal neurons, however, did not change according to the threefold thickening of the cortex; rather, a modest increase from about 12,000 synaptic inputs in mouse to about 15,000 in human was found. CONCLUSION The principal cells of the cerebral cortex, pyramidal neurons, maintain almost constant inhibitory-to-excitatory input balance and total synaptic input across 100 million years of evolutionary divergence, which is particularly noteworthy with the concomitant 1000-fold expansion of the neuronal network size and the 2.5-fold increase of inhibitory interneurons from mouse to human. Rather, the key network change from mouse to human is an expansion of almost an order of magnitude of an interneuron-to-interneuron network that is virtually absent in mouse but constitutes a substantial part of the human cortical network. Whether this new network is primarily created through the expansion of existing neuronal types, or is related to the creation of new interneuron subtypes, requires further study. The discovery of this network component in human cortex encourages detailed analysis of its function in health and disease. Connectomic screening across mammalian species: Comparison of five mouse, two macaque, and two human connectomic datasets from the cerebral cortex. ( A ) Automated reconstructions of all neurons with their cell bodies in the volume shown, using random colors. The analyzed connectomes comprised a total of ~1.6 million synapses. Arrows indicate evolutionary divergence: the last common ancestor between human and mouse, approximately 100 million years ago, and the last common ancestor between human and macaque, about 20 million years ago. ( B ) Illustration of the about 10-fold expansion of the interneuron-to-interneuron network from mouse to human. 

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4. The Roles of Parents in Shaping Fathering Across Generations in Cebu, Philippines

   https://doi.org/10.1111/jomf.12568  

   Gettler, Lee T. ; Kuo, Patty X. ; Bas, Abet ; Borja, Judith B. ( April 2019 , Journal of Marriage and Family)

   Objective:This study examined how parental caregiving and parent–child closeness are associated with future fathering among 335 Filipino men who are participants in a long‐running birth cohort study.

   BackgroundFew studies have multidecade longitudinal data to test the pathways through which parenting is transmitted across generations, with most relevant research conducted in the United States, Europe, and other similar settings. The roles of mothers and fathers in shaping their sons' future parenting is particularly understudied despite fathers having the potential to positively influence child health and development.

   Method:Participants' mothers (Generation 1 [G1]) reported on caregiving during Generation 2 (G2) participants' early life, and the G2 males reported parent–child closeness during adolescence. G2 fathers reported on their own child‐care involvement and the salience of caregiving to their parenting identity. We tested whether parent–child closeness moderated the effect of early‐life care to predict later‐life fathering.

   Results:G1‐G2 closeness moderated the association between G1 parents' caregiving and G2 fathers' parenting identity (for both G1 parents) and caregiving time (for G1 fathers only). When the G1‐G2 mother–son relationship was not close, there was a negative correlation between G1 maternal care and G2 fathers' caregiving identity. For G2 men who were close to their fathers, there were positive associations between G1 paternal care and G2 fathers' caregiving identity and time, respectively. Among G2 men who were not close to their fathers, the slopes relating G1 paternal care to G2 fathers' caregiving identity and time, respectively, were negative.

   Conclusion:These findings reflect that developmental experiences with both mothers and fathers are predictive of men's identity as parents in adulthood and that closeness between fathers and sons moderates whether sons' paternal care tends to emulate or diverge from their fathers' caregiving patterns.

    

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5. Remote evaluation of augmented reality interaction with personal health information

   https://doi.org/10.3389/fcomp.2022.934694  

   Shaer, Orit ; Otiono, Jennifer ; Qian, Ziyue ; Seals, Ayanna ; Nov, Oded ( August 2022 , Frontiers in Computer Science)

   This article discusses novel research methods used to examine how Augmented Reality (AR) can be utilized to present “omic” (i.e., genomes, microbiomes, pathogens, allergens) information to non-expert users. While existing research shows the potential of AR as a tool for personal health, methodological challenges pose a barrier to the ways in which AR research can be conducted. There is a growing need for new evaluation methods for AR systems, especially as remote testing becomes increasingly popular. In this article, we present two AR studies adapted for remote research environments in the context of personal health. The first study ( n = 355) is a non-moderated remote study conducted using an AR web application to explore the effect of layering abstracted pathogens and mitigative behaviors on a user, on perceived risk perceptions, negative affect, and behavioral intentions. This study introduces methods that address participant precursor requirements, diversity of platforms for delivering the AR intervention, unsupervised setups, and verification of participation as instructed. The second study ( n = 9) presents the design and moderated remote evaluation of a technology probe, a prototype of a novel AR tool that overlays simulated timely and actionable environmental omic data in participants' living environment, which helps users to contextualize and make sense of the data. Overall, the two studies contribute to the understanding of investigating AR as a tool for health behavior and interventions for remote, at-home, empirical studies. 

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