- Chiefs News: Travis Kelce travels to Argentina to support Taylor Swift Arrowhead Pride
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Tag Archives: Travels
Travis Kelce could repeat Tom Brady’s mistake if he travels to Argentina with Taylor Swift: Why? – Marca English
- Travis Kelce could repeat Tom Brady’s mistake if he travels to Argentina with Taylor Swift: Why? Marca English
- Travis Kelce Skips Taylor Swift’s First Buenos Aires Show to Attend Patrick Mahomes’ Charity Gala Yahoo Entertainment
- Eli Manning Says There’s ‘Nothing Wrong’ with Travis Kelce Visiting Taylor Swift on His Bye Week (Exclusive) PEOPLE
- How Taylor Swift’s Celebrity Friends Feel About the Chiefs Wives Cosmopolitan
- Taylor Swift and Travis Kelce Reportedly Have ‘Very Detailed Plans’ for Long-Distance Periods Yahoo Life
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Fabinho absent from Liverpool pre-season training camp, Jordan Henderson travels amid Saudi interest – The Athletic
- Fabinho absent from Liverpool pre-season training camp, Jordan Henderson travels amid Saudi interest The Athletic
- Liverpool should be begging Jordan Henderson to stay – £700k-a-week reunion with Steven Gerrard at Al-Ettifaq is both bonkers & brilliant for the Saudi Pro League Goal.com
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- Jordan Henderson’s potential Saudi move matters for a lot more reasons than hypocrisy The Athletic
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Paltrow’s defense grills doctor over post-ski crash travels as trial nears end – New York Post
- Paltrow’s defense grills doctor over post-ski crash travels as trial nears end New York Post
- TikTokers are reacting to Gwyneth Paltrow’s viral ski trial clips Insider
- Plaintiff in Gwyneth Paltrow ski crash blames actress for three ‘near-death experiences’ post-collision Fox News
- Gwyneth Paltrow ski collision trial: Terry Sanderson apologizes for calling actress ‘King Kong,’ says trial shows the ‘pain of trying to sue a celebrity’ Yahoo! Voices
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Amy Robach, T.J. Holmes take holiday travels amid affair scandal
These lovebirds aren’t hiding it.
“Good Morning America” anchors Amy Robach and T.J. Holmes cozied up at the Atlanta airport on Monday around 10:30 a.m., as seen in photos exclusively obtained by Page Six.
Enjoying holiday travels together, they were seen standing close to each other as they checked Robach’s phone.
The “GMA3” personalities have plenty of time to canoodle together as they’ve both been suspended from their jobs pending an ABC investigation into their relationship.
The pair, who co-hosted the daytime news show, reportedly began their affair in March while training together for the New York City Half Marathon.
They were spotted getting cozy in bars near ABC News’ Midtown Manhattan headquarters in May. Then, in the fall, the duo went on a getaway to a cabin in upstate New York, where he was seen grabbing her butt.
Robach, 49, is married to “Melrose Place” actor Andrew Shue. She was previously married to former MLB player Tim McIntosh from 1996 to 2008. They share two daughters: Ava, who was born in 2002, and Analise, who was born in 2006.
Days after news of the affair made headlines, Shue, 55 — whom Robach married in 2010 — deleted all photos of her from his Instagram account. And earlier this month, Robach moved out of their West Village apartment into digs further downtown.
Meanwhile, Holmes, 45, is married to attorney Marilee Fiebig, with whom he shares daughter Sabine. He also has two other children, Brianna and Jaiden, with his ex-wife, Amy Ferson.
Holmes and Fiebig, who also wed in 2010, had been separated for several months. However, as Page Six exclusively reported, they were trying to “work things out” when news of the Robach affair broke.
“She’s devastated. She had no idea,” our source said of Fiebig. “They haven’t been together in [a while], but they were trying to work it out.
Page Six also exclusively reported that the Robach romance is not the first workplace relationship Holmes has had.
He allegedly conducted a three-year affair with producer Natasha Singh and at least one other staffer.
Since news of the affair has been splashed everywhere, several videos have resurfaced of the co-anchors flirting and even using sexual innuendos with one another.
In one from March, the couple joke about training for the marathon and being able to finish.
“We’re both going to be finishers. That’s what counts,” Robach said, which prompted Holmes to make a face and sit up.
As Robach caught on on, she playfully shoved Holmes and began to giggle.
Kari Lake travels to Mar-a-Lago fresh off projected loss in Arizona
The think tank is holding a “Gala and Experience” at Trump’s club on Thursday and Friday. An agenda says the event’s aim is to “ensure polices are prepared and finalized for new sessions of Congress and the state house.”
Lake has not conceded defeat. The visit to Mar-a-Lago, while vote counting continues in Arizona, signals that she is already taking steps to maintain her profile in the former president’s orbit. Her support also could prove consequential for Trump, who launched his 2024 presidential campaign this week under criticism for his role in the party’s underwhelming performance in the midterm elections.
Lake, a former television news anchor, modeled her bid for governor on Trump’s campaigns and echoed his false assertions that he was cheated out of reelection in 2020. She speaks to the former president regularly, according to current and former campaign advisers. The former president called in to her campaign’s “war room” on Sunday to express disbelief that Republicans were trailing in vote counts and to express support for her and other GOP candidates.
Lake was projected Monday to lose the race to Democrat Katie Hobbs, the current secretary of state. On Tuesday, Lake reacted to Trump’s announcement of a third bid for the White House by declaring on Twitter that he had her “complete and total endorsement!” Lake was frequently discussed as a potential vice-presidential pick for Trump, although she maintained on the campaign trail that she intended to serve a full term as governor if elected.
Now that she’s been defeated for state office, her political path is less clear. On Thursday, she told her supporters on social media that “we are still in this fight,” denouncing Maricopa County, home to Phoenix and more than half the state’s voters, for problems on Election Day that involved malfunctioning printers.
In the early hours of Election Day, printers at 70 of the county’s 223 polling sites produced ballots with ink that was too light to be read by vote-counting machines. That caused ballots to be rejected by the machines. Voters were told to either wait in line, travel to another voting location or deposit their ballots in secure boxes that were transferred to downtown Phoenix and counted there. County officials dispatched technicians to fix settings on the printers experiencing the problems. While technicians were out at other polling locations, they also changed settings on printers proactively, a county spokesperson said. County officials plan to investigate the root cause of the printer problems in the coming weeks.
Lake and her allies have cast the problems as “voter suppression,” a theme that may become central to GOP legal efforts in statewide races. But county officials have repeatedly said no one was denied the right to vote and noted various instances of Republicans spreading misinformation about the use of the secure boxes on Election Day, despite such boxes having been used for years.
Her campaign also issued a series of video testimonials from voters who claim to have been denied a chance to vote. They included a link to a fundraising page for Lake’s campaign.
A judge refused a request from Republicans to extend voting hours on Election Day in light of the problems, finding that no one had been prevented from voting. Lake’s campaign is weighing its legal options in coordination with Abraham Hamadeh, the Republican candidate for attorney general who is trailing his Democratic opponent but whose race has not yet been called, according to people with knowledge of the deliberations.
How Visual Information Travels From the Retina to the Midbrain
Summary: Neurons in the midbrain receive strong, specific synaptic input from retinal ganglion cells, but only from a small number of the sensory neurons.
Source: Charite
For the first time, neuroscientists from Charité – Universitätsmedizin Berlin and the Max Planck Institute for Biological Intelligence (currently in the process of being established) have revealed the precise connections between sensory neurons inside the retina and the superior colliculus, a structure in the midbrain.
Neuropixels probes are a relatively recent development, representing the next generation of electrodes. Densely packed with recording points, Neuropixels probes are used to record the activity of nerve cells, and have facilitated these recent insights into neuronal circuits.
Writing in Nature Communications, the researchers describe a fundamental principle which is common to the visual systems of mammals and birds.
Two brain structures are crucial to the processing of visual stimuli: the visual cortex in the primary cerebral cortex and the superior colliculus, a structure in the midbrain. Vision and the processing of visual information involve highly complex processes.
In simplified terms, the visual cortex is responsible for general visual perception, whereas the structures of the evolutionarily older midbrain are responsible for visually guided reflexive behaviors.
The mechanisms and principles involved in visual processing within the visual cortex are well known. Work conducted by a team of researchers led by Dr. Jens Kremkow has contributed to our knowledge in this field and, in 2017, culminated in the establishment of an Emmy Noether Junior Research Group at Charité’s Neuroscience Research Center (NWFZ).
The primary aim of the Research Group, which is funded by the Germany Research Foundation (DFG), is to further improve our understanding of nerve cells involved in the visual system. Many unanswered questions remain, including details of the way in which visual information is processed in the midbrain’s superior colliculi.
Retinal ganglion cells, sensory cells found inside the eye’s retina, respond to external visual stimuli and send the information received to the brain. Direct signaling pathways ensure that visual information received by the retinal nerve cells also reaches the midbrain.
“What had remained largely unknown until now is the way in which nerve cells in the retina and nerve cells in the midbrain are linked on a functional level. The dearth of knowledge regarding the way in which neurons in the superior colliculi process synaptic inputs was similarly pronounced,” says study lead Dr. Kremkow.
“This information is crucial to understanding the mechanisms involved in midbrain processing.”
Until now, it had been impossible to measure the activity of synaptically connected retinal and midbrain neurons in living organisms. For their most recent research, the research team developed a method which was based on measurements obtained with innovative, high-density electrodes known as Neuropixels probes.
Precisely speaking, Neuropixels probes are tiny, linear electrode arrays featuring approximately one thousand recording sites along a narrow shank. Comprising 384 electrodes for the simultaneous recording of electric activity of neurons in the brain, these devices have become game-changers within the field of neuroscience.
Researchers working at Charité and the Max Planck Institute for Biological Intelligence have now used this new technology to determine the relevant midbrain structures in mice (superior colliculi) and birds (optic tectum).
Both brain structures have a common evolutionary origin and play an important role in the visual processing of retinal input signals in both groups of animals.
Their work led the researchers to a surprising discovery: “Usually, this type of electrophysiological recording measures electrical signals from action potentials which originate in the soma, the neuron’s cell body,” explains Dr. Kremkow.
“In our recordings, however, we noticed signals whose appearance differed from that of normal action potentials. We went on to investigate the cause of this phenomenon, and found that input signals in the midbrain were caused by action potentials propagated within the ‘axonal arbors’ (branches) of the retinal ganglion cells. Our findings suggest that the new electron array technology can be used to record the electrical signals emanating from axons, the nerve cell projections which transmit neuronal signals. This is a brand-new finding.”
In a global first, Dr. Kremkow’s team was able to simultaneously capture the activity of nerve cells in the retina and their synaptically connected target neurons in the midbrain.
Until now, the functional wiring between the eye and midbrain had remained an unknown quantity. The researchers were able to show at the single-cell level that the spatial organization of the inputs from retinal ganglion cells in the midbrain constitutes a very precise representation of the original retinal input.
“The structures of the midbrain effectively provide an almost one-to-one copy of the retinal structure,” says Dr. Kremkow.
He continues: “Another new finding for us was that the neurons in the midbrain receive a very strong and specific synaptic input from retinal ganglion cells, but only from a small number of these sensory neurons. These neural pathways enable a very structured and functional connection between the eye’s retina and the corresponding regions of the midbrain.”
Among other things, this new insight will enhance our understanding of the phenomenon known as blindsight, which can be observed in individuals who have sustained damage to the visual cortex due to trauma or tumor.
Incapable of conscious perception, these individuals retain a residual ability to process visual information, which results in an intuitive perception of stimuli, contours, movement and even colors that appears to be linked to the midbrain.
To test whether the principles initially observed in the mouse model could also apply to other vertebrates – and hence whether they could be more general in nature – Dr. Kremkow and his team worked alongside a team from the Max Planck Institute for Biological Intelligence, where a Lise Meitner Research Group led by Dr. Daniele Vallentin focuses on neuronal circuits responsible for the coordination of precise movements in birds.
“Using the same types of measurements, we were able to show that, in zebra finches, the spatial organization of the nerve tracts connecting the retina and midbrain follow a similar principle,” says Dr. Vallentin.
She adds: “This finding was surprising, given that birds have significantly higher visual acuity and the evolutionary distance between birds and mammals is considerable.”
See also
The researchers’ observations suggest that the retinal ganglion cells in both the optical tectum and the superior colliculi show similar spatial organization and functional wiring. Their findings led the researchers to conclude that the principles discovered must be crucial to visual processing in the mammalian midbrain. These principles may even be general in nature, applying to all vertebrate brains, including those of humans.
Regarding the researchers’ future plans, Dr. Kremkow says: “Now that we understand the functional, mosaic-like connections between retinal ganglion cells and neurons within the superior colliculi, we will further explore the way in which sensory signals are processed in the vision system, specifically in the regions of the midbrain, and how they contribute to visually-guided reflexive behavior.”
The team also want to establish whether the new method might be used in other structures and whether it could be used to measure axonal activity elsewhere in the brain. Should this prove possible, it would open up a wealth of new opportunities to explore the brain’s underlying mechanisms.
About this visual neuroscience research news
Author: Manuela Zingl
Source: Charite
Contact: Manuela Zingl – Charite
Image: The image is credited to Charité | Jens Kremkow & Fotostudio Farbtonwerk I Bernhardt Link
Original Research: Open access.
“High-density electrode recordings reveal strong and specific connections between retinal ganglion cells and midbrain neurons” by Jens Kremkow et al. Nature Communications
Abstract
High-density electrode recordings reveal strong and specific connections between retinal ganglion cells and midbrain neurons
The superior colliculus is a midbrain structure that plays important roles in visually guided behaviors in mammals. Neurons in the superior colliculus receive inputs from retinal ganglion cells but how these inputs are integrated in vivo is unknown.
Here, we discovered that high-density electrodes simultaneously capture the activity of retinal axons and their postsynaptic target neurons in the superior colliculus, in vivo.
We show that retinal ganglion cell axons in the mouse provide a single cell precise representation of the retina as input to superior colliculus.
This isomorphic mapping builds the scaffold for precise retinotopic wiring and functionally specific connection strength. Our methods are broadly applicable, which we demonstrate by recording retinal inputs in the optic tectum in zebra finches.
We find common wiring rules in mice and zebra finches that provide a precise representation of the visual world encoded in retinal ganglion cells connections to neurons in retinorecipient areas.
New Windows Media Player app travels back in time, gains the ability to rip CDs
Enlarge / Preparing to rip a CD in the new Windows Media Player app.
Microsoft
If there’s one thing Windows 11 has been good for, it has been the renewed attention and useful updates to the built-in apps that ship with Windows. Sometimes this means new features for long-neglected apps, like Notepad and Paint. In other cases, it means bringing back features that old apps lost somewhere along the way, like with Sound Recorder or Windows Media Player.
The latest preview version of Media Player, currently rolling out to Dev Channel Windows Insiders, is in the latter group. In March, Microsoft enabled audio CD playback in the new version of Media Player, something that the old version had supported for pretty much as long as it had existed. And now, Microsoft is rolling out support for CD ripping in the new version of Media Player, presumably so that we can all convert our old Weezer and Matchbox 20 CDs into files we can copy over to our iPods and Zunes.
By default, CDs can be ripped to AAC files at constant bitrates ranging between 96 and 320kbps. The WMA, FLAC, and ALAC formats are also supported. MP3 support and variable bitrate support, two features that are still included in the “Media Player Legacy” app, are notably absent.
The current Media Player was built on top of the streaming-focused Groove Music app, which is why it has been missing some longstanding features from the legacy Media Player app in the first place. Microsoft also says it is changing some file associations for Dev Channel Windows Insiders, opening local video files with Media Player by default instead of the Windows 8-era Movies & TV app.
Lastly, Windows’ built-in Camera app is getting a Windows 11-era facelift with rearranged controls. Its functionality will stay mostly the same, but Microsoft says it will pick up support for scanning QR codes and barcodes, a feature that iPhones and some Android phones already support.
Listing image by Old Windows Icons/Andrew Cunningham
‘Drive Very Slowly And Carefully’; Another Round of Snow Hits The Sierra During Mother’s Day Travels – CBS Sacramento
COLFAX (CBS13) – On Mother’s Day, people driving through Donner Summit needed more than flowers for mom once chain controls went into effect as snow hit the Sierra.
Colfax saw a wintry mix with mostly rain on and off during the day. So, it was a surprise to some drivers traveling up the mountain to find snow and ice hitting their windshields.
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“Yeah, it’s waiting,” said Mark McNabb, a resident of Nevada. “So, drive very slowly and carefully.”
Caltrans’s video shows slush building on the highways creating slick conditions. Wind was another concern for drivers as it blew snow, reducing visibility.
“The biggest thing: slow down,” said John Major, a chain installer along I-80 east before Nyack.
READ MORE: Westbound I-80 Closed At Nevada Stateline Due To Traffic Collision
Seth Hartigan of Nevada traveled to see family for Mother’s Day. Upon returning home, he said he was caught off-guard with no chains.
“My concern is they won’t let me through without them,” he said.
At one point, ice pelted the area as snowdrifts created a white-knuckle drive throughout the Sierra.
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“Coming back, it started around 2 o’clock [with] flurries,” said Dennis Donavan of Vacaville. He took his wife on a Mother’s Day weekend getaway to Lake Tahoe. “And then, we got to Donner Summit, it was nasty.”
Sound travels much slower on Mars than on Earth, researchers find
Researchers studying recordings made by microphones on NASA’s Perseverance rover found that sound travels much slower on Mars than it does on Earth. In a study published in Nature on Friday, the team said it looked at recordings dating back to February 19, 2021, the day after the rover arrived on the planet.
Using recorded sounds generated by the rover — like shock waves from the rover’s laser that was used to cut rocks, and flight sounds from the Ingenuity helicopter — the researchers were able to compare the Martian sounds to Earth sounds. They determined that sound travels 100 meters per second slower on Mars than on Earth.
In addition, the researchers realized that there are two speeds of sound on Mars — one for high-pitched sounds and one for low-pitched sounds. This would “make it difficult for two people standing only five meters apart to have a conversation,” according to a press release on the findings.
The unique sound environment is due to the incredibly low atmospheric surface pressure. Mars’ pressure is 170 times lower than Earth’s pressure. For example, if a high-pitched sound travels 213 feet on Earth, it will travel just 26 feet on Mars.
While sounds on Mars can be heard by human ears, they are incredibly soft.
“At some point, we thought the microphone was broken, it was so quiet,” said Sylvestre Maurice, an astrophysicist at the University of Toulouse in France and lead author of the study, according to NASA. Besides the wind, “natural sound sources are rare,” the press release said.
NASA/JPL-Caltech
But NASA scientists think Mars may become more noisy in the autumn months, when there is higher atmospheric pressure.
“We are entering a high-pressure season,” co-author of the study Baptiste Chide said in the press release. “Maybe the acoustic environment on Mars will be less quiet than it was when we landed.”
When the initial recordings were made last year, researchers declared it the first time sounds from a foreign planet had ever been captured.
Thomas Zurbuchen, associate administrator for NASA’s Science Mission Directorate, said at the time the recordings are “the closest you can get to landing on Mars without putting on a pressure suit.”
Perseverance is now hunting for signs of ancient life in the Jezero Crater. In October, it found Mars experienced “significant” flash floods that carved the landscape into the rocky wasteland we see today. And a decade from now, the rover plans to be the first to send samples from the red planet back to Earth.
Sophie Lewis contributed reporting.