[Dresden? Leipzig?] : Verlag und Eigentum von A.E. Payne, [1848?] (Printed by H. Boulton)

London : Stacy Bias, 2019.

[London] : [publisher not identified], [2019]

Pac-12 Networks' Yogi Roth and Ashley Adamson talk with Hall of Fame player and Pac-12 Networks talent Bill Walton during Thursday's Pac-12 Perspective podcast.

Michael E. Sobel, Martin A. Lindquist.

Source: The Annals of Applied Statistics, Volume 14, Number 1, 452--472.

Abstract:
Neuroscientists often use functional magnetic resonance imaging (fMRI) to infer effects of treatments on neural activity in brain regions. In a typical fMRI experiment, each subject is observed at several hundred time points. At each point, the blood oxygenation level dependent (BOLD) response is measured at 100,000 or more locations (voxels). Typically, these responses are modeled treating each voxel separately, and no rationale for interpreting associations as effects is given. Building on Sobel and Lindquist ( J. Amer. Statist. Assoc. 109 (2014) 967–976), who used potential outcomes to define unit and average effects at each voxel and time point, we define and estimate both “point” and “cumulated” effects for brain regions. Second, we construct a multisubject, multivoxel, multirun whole brain causal model with explicit parameters for regions. We justify estimation using BOLD responses averaged over voxels within regions, making feasible estimation for all regions simultaneously, thereby also facilitating inferences about association between effects in different regions. We apply the model to a study of pain, finding effects in standard pain regions. We also observe more cerebellar activity than observed in previous studies using prevailing methods.

Yen-Chi Chen, Adrian Dobra.

Source: The Annals of Applied Statistics, Volume 14, Number 1, 409--432.

Abstract:
Activity spaces are fundamental to the assessment of individuals’ dynamic exposure to social and environmental risk factors associated with multiple spatial contexts that are visited during activities of daily living. In this paper we survey existing approaches for measuring the geometry, size and structure of activity spaces, based on GPS data, and explain their limitations. We propose addressing these shortcomings through a nonparametric approach called density ranking and also through three summary curves: the mass-volume curve, the Betti number curve and the persistence curve. We introduce a novel mixture model for human activity spaces and study its asymptotic properties. We prove that the kernel density estimator, which at the present time, is one of the most widespread methods for measuring activity spaces, is not a stable estimator of their structure. We illustrate the practical value of our methods with a simulation study and with a recently collected GPS dataset that comprises the locations visited by 10 individuals over a six months period.

London : Cleanair, [1988?]

[London] : Cleanair, Campaña para un Medio Ambiente Libre de Humo, [198-?]

[London] : Cleanair, Campaña para un Medio Ambiente Libre de Humo, [198-?]

[London] : Cleanair, [1989?]

London : Cleanair Campaña para un Medio Ambiente Libre de Humo, [198-?]

[London], 2019.

Catherine Mankiw
May 24, 2017; 37:5221-5231
Development Plasticity Repair

Adam J. Krause
Mar 20, 2019; 39:2291-2300
BehavioralSystemsCognitive

Fatma Deniz
Sep 25, 2019; 39:7722-7736
BehavioralSystemsCognitive

Sandra Manninen
Jun 21, 2017; 37:6125-6131
BehavioralSystemsCognitive

Martin N. Hebart
Jun 13, 2012; 32:8107-8109
Journal Club

Christina Zelano
Dec 7, 2016; 36:12448-12467
Systems/Circuits

Stephanie McMains
Jan 12, 2011; 31:587-597
BehavioralSystemsCognitive

Régis Trapeau
Mar 28, 2018; 38:3252-3264
BehavioralSystemsCognitive

Nancy Kanwisher
Jun 1, 1997; 17:4302-4311
Articles

Gert Holstege
Oct 8, 2003; 23:9185-9193
BehavioralSystemsCognitive

Jeremy R. Manning
Oct 28, 2009; 29:13613-13620
BehavioralSystemsCognitive

Lennart Mucke
Jun 1, 2000; 20:4050-4058
Cellular

Geoffrey M. Boynton
Jul 1, 1996; 16:4207-4221
Articles

Nancy Kanwisher
Jun 1, 1997; 17:4302-4311
Articles

Human ventral temporal cortex (VTC) is critical for visual recognition. It is thought that this ability is supported by large-scale patterns of activity across VTC that contain information about visual categories. However, it is unknown how category representations in VTC are organized at the submillimeter scale and across cortical depths. To fill this gap in knowledge, we measured BOLD responses in medial and lateral VTC to images spanning 10 categories from five domains (written characters, bodies, faces, places, and objects) at an ultra-high spatial resolution of 0.8 mm using 7 Tesla fMRI in both male and female participants. Representations in lateral VTC were organized most strongly at the general level of domains (e.g., places), whereas medial VTC was also organized at the level of specific categories (e.g., corridors and houses within the domain of places). In both lateral and medial VTC, domain-level and category-level structure decreased with cortical depth, and downsampling our data to standard resolution (2.4 mm) did not reverse differences in representations between lateral and medial VTC. The functional diversity of representations across VTC partitions may allow downstream regions to read out information in a flexible manner according to task demands. These results bridge an important gap between electrophysiological recordings in single neurons at the micron scale in nonhuman primates and standard-resolution fMRI in humans by elucidating distributed responses at the submillimeter scale with ultra-high-resolution fMRI in humans.

SIGNIFICANCE STATEMENT Visual recognition is a fundamental ability supported by human ventral temporal cortex (VTC). However, the nature of fine-scale, submillimeter distributed representations in VTC is unknown. Using ultra-high-resolution fMRI of human VTC, we found differential distributed visual representations across lateral and medial VTC. Domain representations (e.g., faces, bodies, places, characters) were most salient in lateral VTC, whereas category representations (e.g., corridors/houses within the domain of places) were equally salient in medial VTC. These results bridge an important gap between electrophysiological recordings in single neurons at a micron scale and fMRI measurements at a millimeter scale.

Hepatocyte growth factor (HGF) is a multifunctional protein that signals through the MET receptor. HGF stimulates cell proliferation, cell dispersion, neuronal survival, and wound healing. In the inner ear, levels of HGF must be fine-tuned for normal hearing. In mice, a deficiency of HGF expression limited to the auditory system, or an overexpression of HGF, causes neurosensory deafness. In humans, noncoding variants in HGF are associated with nonsyndromic deafness DFNB39. However, the mechanism by which these noncoding variants causes deafness was unknown. Here, we reveal the cause of this deafness using a mouse model engineered with a noncoding intronic 10 bp deletion (del10) in Hgf. Male and female mice homozygous for del10 exhibit moderate-to-profound hearing loss at 4 weeks of age as measured by tone burst auditory brainstem responses. The wild type (WT) 80 mV endocochlear potential was significantly reduced in homozygous del10 mice compared with WT littermates. In normal cochlea, endocochlear potentials are dependent on ion homeostasis mediated by the stria vascularis (SV). Previous studies showed that developmental incorporation of neural crest cells into the SV depends on signaling from HGF/MET. We show by immunohistochemistry that, in del10 homozygotes, neural crest cells fail to infiltrate the developing SV intermediate layer. Phenotyping and RNAseq analyses reveal no other significant abnormalities in other tissues. We conclude that, in the inner ear, the noncoding del10 mutation in Hgf leads to developmental defects of the SV and consequently dysfunctional ion homeostasis and a reduction in the EP, recapitulating human DFNB39 nonsyndromic deafness.

SIGNIFICANCE STATEMENT Hereditary deafness is a common, clinically and genetically heterogeneous neurosensory disorder. Previously, we reported that human deafness DFNB39 is associated with noncoding variants in the 3'UTR of a short isoform of HGF encoding hepatocyte growth factor. For normal hearing, HGF levels must be fine-tuned as an excess or deficiency of HGF cause deafness in mouse. Using a Hgf mutant mouse with a small 10 bp deletion recapitulating a human DFNB39 noncoding variant, we demonstrate that neural crest cells fail to migrate into the stria vascularis intermediate layer, resulting in a significantly reduced endocochlear potential, the driving force for sound transduction by inner ear hair cells. HGF-associated deafness is a neurocristopathy but, unlike many other neurocristopathies, it is not syndromic.

The detection and segmentation of meaningful figures from their background is one of the primary functions of vision. While work in nonhuman primates has implicated early visual mechanisms in this figure–ground modulation, neuroimaging in humans has instead largely ascribed the processing of figures and objects to higher stages of the visual hierarchy. Here, we used high-field fMRI at 7 Tesla to measure BOLD responses to task-irrelevant orientation-defined figures in human early visual cortex (N = 6, four females). We used a novel population receptive field mapping-based approach to resolve the spatial profiles of two constituent mechanisms of figure–ground modulation: a local boundary response, and a further enhancement spanning the full extent of the figure region that is driven by global differences in features. Reconstructing the distinct spatial profiles of these effects reveals that figure enhancement modulates responses in human early visual cortex in a manner consistent with a mechanism of automatic, contextually driven feedback from higher visual areas.

SIGNIFICANCE STATEMENT A core function of the visual system is to parse complex 2D input into meaningful figures. We do so constantly and seamlessly, both by processing information about visible edges and by analyzing large-scale differences between figure and background. While influential neurophysiology work has characterized an intriguing mechanism that enhances V1 responses to perceptual figures, we have a poor understanding of how the early visual system contributes to figure–ground processing in humans. Here, we use advanced computational analysis methods and high-field human fMRI data to resolve the distinct spatial profiles of local edge and global figure enhancement in the early visual system (V1 and LGN); the latter is distinct and consistent with a mechanism of automatic, stimulus-driven feedback from higher-level visual areas.

Neural plasticity due to hearing loss results in tonotopic map changes. Several studies have suggested a relation between hearing loss-induced tonotopic reorganization and tinnitus. This large fMRI study on humans was intended to clarify the relations between hearing loss, tinnitus, and tonotopic reorganization. To determine the differential effect of hearing loss and tinnitus, both male and female participants with bilateral high-frequency hearing loss, with and without tinnitus, and a control group were included. In a total of 90 participants, bilateral cortical responses to sound stimulation were measured with loudness-matched pure-tone stimuli (0.25-8 kHz). In the bilateral auditory cortices, the high-frequency sound-evoked activation level was higher in both hearing-impaired participant groups, compared with the control group. This was most prominent in the hearing loss group without tinnitus. Similarly, the tonotopic maps for the hearing loss without tinnitus group were significantly different from the controls, whereas the maps of those with tinnitus were not. These results show that higher response amplitudes and map reorganization are a characteristic of hearing loss, not of tinnitus. Both tonotopic maps and response amplitudes of tinnitus participants appear intermediate to the controls and hearing loss without tinnitus group. This observation suggests a connection between tinnitus and an incomplete form of central compensation to hearing loss, rather than excessive adaptation. One implication of this may be that treatments for tinnitus shift their focus toward enhancing the cortical plasticity, instead of reversing it.

SIGNIFICANCE STATEMENT Tinnitus, a common and potentially devastating condition, is the presence of a "phantom" sound that often accompanies hearing loss. Hearing loss is known to induce plastic changes in cortical and subcortical areas. Although plasticity is a valuable trait that allows the human brain to rewire and recover from injury and sensory deprivation, it can lead to tinnitus as an unwanted side effect. In this large fMRI study, we provide evidence that tinnitus is related to a more conservative form of reorganization than in hearing loss without tinnitus. This result contrasts with the previous notion that tinnitus is related to excessive reorganization. As a consequence, treatments for tinnitus may need to enhance the cortical plasticity, rather than reverse it.

Biases in sensory perception can arise from both experimental manipulations and personal trait-like features. These idiosyncratic biases and their neural underpinnings are often overlooked in studies on the physiology underlying perception. A potential candidate mechanism reflecting such idiosyncratic biases could be spontaneous alpha band activity, a prominent brain rhythm known to influence perceptual reports in general. Using a temporal order judgment task, we here tested the hypothesis that alpha power reflects the overcoming of an idiosyncratic bias. Importantly, to understand the interplay between idiosyncratic biases and contextual (temporary) biases induced by experimental manipulations, we quantified this relation before and after temporal recalibration. Using EEG recordings in human participants (male and female), we find that prestimulus frontal alpha power correlates with the tendency to respond relative to an own idiosyncratic bias, with stronger α leading to responses matching the bias. In contrast, alpha power does not predict response correctness. These results also hold after temporal recalibration and are specific to the alpha band, suggesting that alpha band activity reflects, directly or indirectly, processes that help to overcome an individual's momentary bias in perception. We propose that combined with established roles of parietal α in the encoding of sensory information frontal α reflects complementary mechanisms influencing perceptual decisions.

SIGNIFICANCE STATEMENT The brain is a biased organ, frequently generating systematically distorted percepts of the world, leading each of us to evolve in our own subjective reality. However, such biases are often overlooked or considered noise when studying the neural mechanisms underlying perception. We show that spontaneous alpha band activity predicts the degree of biasedness of human choices in a time perception task, suggesting that alpha activity indexes processes needed to overcome an individual's idiosyncratic bias. This result provides a window onto the neural underpinnings of subjective perception, and offers the possibility to quantify or manipulate such priors in future studies.

For visually guided navigation, the use of environmental cues is essential. Particularly, detecting local boundaries that impose limits to locomotion and estimating their location is crucial. In a series of three fMRI experiments, we investigated whether there is a neural coding of navigational distance in the human visual cortex (both female and male). We used virtual reality software to systematically manipulate the distance from a viewer perspective to different types of a boundary. Using a multivoxel pattern classification employing a linear support vector machine, we found that the occipital place area (OPA) is sensitive to the navigational distance restricted by the transparent glass wall. Further, the OPA was sensitive to a non-crossable boundary only, suggesting an importance of the functional constraint of a boundary. Together, we propose the OPA as a perceptual source of external environmental features relevant for navigation.

SIGNIFICANCE STATEMENT One of major goals in cognitive neuroscience has been to understand the nature of visual scene representation in human ventral visual cortex. An aspect of scene perception that has been overlooked despite its ecological importance is the analysis of space for navigation. One of critical computation necessary for navigation is coding of distance to environmental boundaries that impose limit on navigator's movements. This paper reports the first empirical evidence for coding of navigational distance in the human visual cortex and its striking sensitivity to functional constraint of environmental boundaries. Such finding links the paper to previous neurological and behavioral works that emphasized the distance to boundaries as a crucial geometric property for reorientation behavior of children and other animal species.

As part of a balanced diet, milk and dairy products can be an important source of dietary energy, protein and fat. But, the scientific evidence is massing up that regular consumption of large quantities of milk can be bad for your health, and campaigners are making noise about the environmental and international costs of large-scale intensive dairy farming. We put together [...]

The puzzling glyph, which bears some resemblance to the "squatting man" motif, suggests that insects have long held a place in human lore

A sweeping new study of 101 mammal species found that females live, on average, 18.6 percent longer than their male counterparts

New research reveals the ancient symbiotic relationship behind geosmin, the chemical compound responsible for the scent of fresh rain

The ancient throwing stick may have been used by Neanderthals or an even earlier hominin

The 1888 historical account is likely the first ever confirmed case of a human being struck dead by an interstellar interloper

Coyotes, bears and more are enjoying areas usually reserved for crowds of human visitors

In 1799, Alexander von Humboldt set foot in the jungles of Cumana, in present-day Venezuela. What ensued was a detailed scientific mission to learn more about the natural world.

1. Bharat Biotech to lead human monoclonal antibodies project  The Hindu
2. Bharat Biotech leads CSIR project to develop antibodies against Covid-19  Times of India
3. Bharat Biotech To Lead CSIR’s Project To Develop Human Monoclonal Antibodies For Covid-19 Therapy  Swarajya
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6. View Full coverage on Google News

Alexandra Stone and Blake Gillikin will serve as college marshals for spring 2020 commencement.

Student marshals will represent each department for spring 2020 commencement

Washington D.C., Apr 24, 2020 / 02:00 pm (CNA).- The Chinese Communist Party (CCP) covered up the spread of the new coronavirus within the country, suppressing the real rate of infection and violating the rights of its citizens as it did so, a Chinese human rights activist told a forum at The Catholic University of America on Friday.

“It is time to recognize the threat the Chinese Communist Party poses to all humanity. The CCP represses and manipulates information to strengthen its hold on power, regardless of the toll on human lives,” human rights lawyer Chen Guangcheng said April 24 during an online forum on the CCP and the new coronavirus.

The forum was hosted by Faith & Law in partnership with the Institute for Human Ecology at the Catholic University of America. Guanchen is Distinguished Visiting Fellow at Catholic University’s Institute for Policy Research and Catholic Studies.

Guangcheng is a blind human rights lawyer from China, who received sanctuary in the U.S. in 2012 after he was targeted by the CCP for his advocacy work. Guangcheng has sharply criticized the party for its human rights abuses, including from its one-child family planning policy.

He was sent to prison and subject to house arrest, during which he claims he and his family were repeatedly beaten and denied medical treatment.

On Friday, the lawyer warned audience members against suggestions that other countries should emulate China’s authoritarian response to the new coronavirus (COVID-19).

There are currently more than 2.7 million confirmed cases of COVID-19 in the world.

The city of Wuhan is recognized as the epicenter of the global pandemic, and the government on Jan. 23 instituted a strict lockdown in the city of 11 million people. Guangchang cited reports of Chinese families being barricaded inside their own homes, and the group Human Rights Watch compiled stories of residents reportedly dying from lack of access to care during the lockdown.

“Whole families have been found dead in their apartments because they could not get out,” he said, noting that despite the CCP’s claim that it has the virus under control, lockdowns are currently in force in the city of Harbin.

“This is despite the authorities ordering everyone back to work and telling the outside world that they have the virus under control,” Guangcheng said. “The resurgence is directly related to the CCP hiding the truth, and cracking down on people who tried to share information on the virus.”

He also claimed that the CCP has been using the crisis caused by the pandemic to crack down on dissent, detaining human rights activists at separate “so-called quarantine sites.”

The wife of one human rights lawyer—who had just been released from prison told The Guardian that she feared the government was putting her husband under house arrest near where he was imprisoned, 400 kilometers away from her, under the guise of a quarantine.

According to World Health Organization (WHO) statistics, China’s number of COVID-19 cases rose considerably through January and February to 79,389 on Feb. 29 with 2,838 deaths, before its daily increase in case numbers slowed to a trickle in March including just one new reported case on March 22 in the country of more than 1.4 billion people.

Just 3,352 deaths were reported on April 16 before the reported number jumped to 4,642 the next day.

“There is nothing about the CCP’s numbers that are believable,” Guangcheng said. “What people are calculating is that roughly 700,000 may have died in China—in terms of people who have been infected, no one knows the numbers.”

For instance, he said, during the Wuhan lockdown citizen journalists claimed that the situation was far worse than the CCP was reporting; they recorded people collapsing in the streets and hearses and vans carrying body bags at all hours of the day.

“In summary, the CCP is the biggest and most serious virus of all, with over 193,000 people dead worldwide from the coronavirus,” the lawyer said. “There should be no question of the regime’s threat.”