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Mashup Score: 1
Have you ever experienced the awakening presence of a loved one with dementia as they sing a familiar song? Or watched, in awe, as the tremors of a person with Parkinson’s disease stop and the person’s gait improves as they dance? Have you wondered why, exactly, you feel so moved when you hear a piece of music? Or why digging in a garden or walking through a beautiful natural vista brings a sense of calm? Or why drawing, coloring, or doodling for just a few minutes can help relieve anxiety and stress? Have you felt the physiologically calming effects of a poem read on a day when you were inconsolable? In writing the book Your Brain on Art: How the Arts Transform Us (Magsamen and Ross, 2023), my coauthor Ivy Ross, chief design officer of consumer devices for Google, and I sought to illuminate the power of the arts and aesthetic experiences. We wove together the emerging science of neuroaesthetics to illustrate how creative expression advances our health, well-being, and learning, and ho
Source: www.jneurosci.orgCategories: General Medicine News, NeurologyTweet
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Mashup Score: 0The Critical Thing about the Ear's Sensory Hair Cells - 26 day(s) ago
The capabilities of the human ear are remarkable. We can normally detect acoustic stimuli down to a threshold sound-pressure level of 0 dB (decibels) at the entrance to the external ear, which elicits eardrum vibrations in the picometer range. From this threshold up to the onset of pain, 120 dB, our ears can encompass sounds that differ in power by a trillionfold. The comprehension of speech and enjoyment of music result from our ability to distinguish between tones that differ in frequency by only 0.2%. All these capabilities vanish upon damage to the ear’s receptors, the mechanoreceptive sensory hair cells. Each cochlea, the auditory organ of the inner ear, contains some 16,000 such cells that are frequency-tuned between ∼20 Hz (cycles per second) and 20,000 Hz. Remarkably enough, hair cells do not simply capture sound energy: they can also exhibit an active process whereby sound signals are amplified, tuned, and scaled. This article describes the active process in detail and offers
Source: www.jneurosci.orgCategories: General Medicine News, NeurologyTweet-
#JNeurosci Viewpoints | The Critical Thing about the Ear's Sensory Hair Cells https://t.co/L1aKMEhqwH
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Mashup Score: 25Early neural development of social interaction perception: evidence from voxel-wise encoding in young children and adults - 1 month(s) ago
From a young age, children have advanced social perceptual and reasoning abilities. However, the neural development of these abilities is still poorly understood. To address this gap, we used fMRI data collected 122 3–12-year-old children (64 females) and 33 adults (20 females) watched an engaging and socially rich movie to investigate how the cortical basis of social processing changes throughout development. We labeled the movie with visual and social features, including motion energy, presence of a face, presence of a social interaction, theory of mind (ToM) events, valence and arousal. Using a voxel-wise encoding model trained on these features, we find that models based on visual (motion energy) and social (faces, social interaction, ToM, valence, and arousal) features can both predict brain activity in children as young as three years old across the cortex, with particularly high predictivity in motion selective middle temporal region (MT) and the superior temporal sulcus (STS).
Source: www.jneurosci.orgCategories: General Medicine News, NeurologyTweet-
New in #JNeurosci from @imelizabethim, Shirahatti, and @leylaisi: A brain region associated with social interaction processing in human adults may process social scenes as early as the age of three. @JHUCogSci https://t.co/67A8TvQ6V6 https://t.co/8JJ9mKgLf2
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Mashup Score: 31Segmenting and Predicting Musical Phrase Structure Exploits Neural Gain Modulation and Phase Precession - 1 month(s) ago
Music, like spoken language, is often characterized by hierarchically organized structure. Previous experiments have shown neural tracking of notes and beats, but little work touches on the more abstract question: how does the brain establish high-level musical structures in real time? We presented Bach chorales to participants (20 females and 9 males) undergoing electroencephalogram (EEG) recording to investigate how the brain tracks musical phrases. We removed the main temporal cues to phrasal structures, so that listeners could only rely on harmonic information to parse a continuous musical stream. Phrasal structures were disrupted by locally or globally reversing the harmonic progression, so that our observations on the original music could be controlled and compared. We first replicated the findings on neural tracking of musical notes and beats, substantiating the positive correlation between musical training and neural tracking. Critically, we discovered a neural signature in the
Source: www.jneurosci.orgCategories: General Medicine News, NeurologyTweet-
#JNeurosci: @TengXB, @LarrouyMaestri, and @davidpoeppel provide new insight into how we process music and its similarities to speech processing, opening new avenues for research in auditory perception and cognition. @CUHKofficial @MPI_ae @ESI_Frankfurt https://t.co/9zfu274WG6 https://t.co/IQjgPJrdaf
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Mashup Score: 2This Week in The Journal - 1 month(s) ago
A New Mouse Line for Identifying and Targeting Pericytes Xingying Guo, Shangzhou Xia, Tenghuan Ge, Yangtao Lin, Shirley Hu et al. (see article e0727242024) Pericytes are essential for the integrity of the blood–brain barrier. However, because pericytes are broadly expressed in the body and have genetic overlap with other cell types, researchers have struggled to explore the distinct role of central nervous system (CNS) pericytes in health and disease. Guo and colleagues overcame this hurdle in mice by developing a genetic mouse …
Source: www.jneurosci.orgCategories: General Medicine News, NeurologyTweet-
This Week in The Journal #JNeurosci | A New Mouse Line for Identifying and Targeting Pericytes; Illuminating Mechanisms for Glutamate and GABA Co-release https://t.co/GX49tR4dfm
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Mashup Score: 2Tracking the Misallocation and Reallocation of Spatial Attention toward Auditory Stimuli - 1 month(s) ago
Completely ignoring a salient distractor presented concurrently with a target is difficult, and sometimes attention is involuntarily attracted to the distractor’s location (attentional capture). Employing the N2ac component as a marker of attention allocation toward sounds, in this study we investigate the spatiotemporal dynamics of auditory attention across two experiments. Human participants (male and female) performed an auditory search task, where the target was accompanied by a distractor in two-third of the trials. For a distractor more salient than the target (Experiment 1), we observe not only a distractor N2ac (indicating attentional capture) but the full chain of attentional dynamics implied by the notion of attentional capture, namely, (1) the distractor captures attention before the target is attended, (2) allocation of attention to the target is delayed by distractor presence, and (3) the target is attended after the distractor. Conversely, for a distractor less salient th
Source: www.jneurosci.orgCategories: General Medicine News, NeurologyTweet-
#JNeurosci: What happens when we get distracted by irrelevant sounds? Mandal et al. uncover the complex spatio-temporal dynamics governing how our brains respond to auditory distractions. @LMU_Muenchen https://t.co/rj6DNjrpHO https://t.co/c5jlA4fubO
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Mashup Score: 1This Week in The Journal - 2 month(s) ago
Atypical GABA Receptors in Pain Circuits Elena Neumann, Teresa Cramer, Mario Acuña, Louis Scheurer, Camilla Beccarini et al. (see article e0591242024) Inhibitory GABAA receptors in the central nervous system are usually composed of two alpha, two beta, and one gamma subunits. These subunits are heterogeneous: there are six different alpha subtypes, three beta subtypes, and three gamma subtypes. The composition of GABAA receptors is important clinically because the subunits can be distinctly targeted by treatments for different disease symptoms. Benzodiazepines …
Source: www.jneurosci.orgCategories: General Medicine News, NeurologyTweet-
This Week in The Journal #JNeurosci | Atypical GABA Receptors in Pain Circuits; Monitoring Striatal Serotonin during Behavior https://t.co/ZfRhq3IfkC
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Mashup Score: 57Neural representations of concreteness and concrete concepts are specific to the individual - 2 month(s) ago
Different people listening to the same story may converge upon a largely shared interpretation while still developing idiosyncratic experiences atop that shared foundation. What linguistic properties support this individualized experience of natural language? Here, we investigate how the “concrete-abstract” axis — i.e., the extent to which a word is grounded in sensory experience — relates to within- and across-subject variability in the neural representations of language. Leveraging a dataset of human participants of both sexes who each listened to four auditory stories while undergoing functional MRI, we demonstrate that neural representations of “concreteness” are both reliable across stories and relatively unique to individuals, while neural representations of “abstractness” are variable both within individuals and across the population. Using natural language processing tools, we show that concrete words exhibit similar neural representations despite spanning larger distances with
Source: www.jneurosci.orgCategories: General Medicine News, NeurologyTweet-
New in #JNeurosci from @tommy_botch and @esfinn: Stable neural patterns that underly how we interpret words grounded in sensory experiences are as unique to us as our fingerprints. @FINNLab_neuro @dartmouth https://t.co/6P2kp517XQ https://t.co/UmWeR5Svxq
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Mashup Score: 0This Week in The Journal - 2 month(s) ago
New Myelination and Remyelination Molecular Insights Siying Cui, Tong Chen, Dazhuan Xin, Fangbing Chen, Xiaowen Zhong et al. (see article e0141242024) Axon myelination is important for fast and efficient neuronal communication. The timing of myelination is linked to proper development of cognitive and motor skills. Oligodendrocytes are a type of neuroglia that aid in axon myelination and remyelination following injury. They are regulated by many factors, including transcriptional regulators like zinc-finger protein ZFP488. In this issue, Cui et al. explored, for the first time, what happens when ZFP488 signaling is …
Source: www.jneurosci.orgCategories: General Medicine News, NeurologyTweet-
This Week in The Journal #JNeurosci | New Myelination and Remyelination Molecular Insights; How Our Brains Implicitly and Explicitly Stereotype Others https://t.co/oAo4efstsV
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Mashup Score: 11A prefrontal–periaqueductal gray pathway differentially engages autonomic, hormonal, and behavioral features of the stress coping response - 2 month(s) ago
Activation of autonomic and hypothalamo-pituitary-adrenal (HPA) systems occur interdependently with behavioral adjustments under varying environmental demands. Nevertheless, laboratory rodent studies examining the neural bases of stress responses have generally attributed increments in these systems to be monolithic, regardless of whether an active or passive coping strategy is employed. Using the shock probe defensive burying test (SPDB) to measure stress-coping features naturalistically in male and female rats, we identify a neural pathway whereby activity changes may promote distinctive response patterns of hemodynamic and HPA indices typifying active and passive coping phenotypes. Optogenetic excitation of the rostral medial prefrontal cortex (mPFC) input to the ventrolateral periaqueductal gray (vlPAG) decreased passive behavior (immobility), attenuated the glucocorticoid hormone response, but did not prevent arterial pressure and heart rate increases associated with rats’ active
Source: www.jneurosci.orgCategories: General Medicine News, NeurologyTweet-
New in #JNeurosci: @tdskog, @RadleyLab, et al. found that a specific brain pathway in rodents organizes stress-coping responses by coordinating bodily systems with behaviors. @IowaNeuro @PsychIowa https://t.co/GBcPKyL5HK https://t.co/4a5LWBEEZM
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#JNeurosci Commentary | Our Brains on Art: An Ancient Prescription for 21st Century Solutions https://t.co/cVTVnDPCYz