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Screen time can physically change a child’s brain

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Too much time spent in front of the screen can even get into the physical brain change of children, a brain that is naturally in development, as noted in a study published in JAMA Pediatrics. Scientists came to this conclusion by analyzing the cognitive abilities of 47 children aged three to five years and used the responses to various studies provided by the parents of children to understand how long they usually spend in front of the screen.

Finally, the researchers also performed brain scanning of children using magnetic resonance imaging equipment. Scientists discovered that the children who had spent most of their time in front of the screen showed what is called ‘white matter integrity’ at a lower level. White matter is mainly matter of fat-covered nerve fibres, which form the basis of the brain’s internal communication network, which develops by means of electrical signals. The integrity of this structure can be linked to cognitive function and develops as language develops.

According to John Hutton, a researcher at Cincinnati Children’s Hospital, who has published several migrations concerning this study on the MIT Technology Review website, it cannot be denied that there is a link between the higher use of screens and the lower integrity of white matter in children, at least in those observed for research purposes. And it would not just be a structural change: the latter seems to be reflected in the results of cognitive tests that scientists have conducted on children. Children who spent more hours in front of the screen showed lower levels of language and literacy skills.

According to the same researcher, it is difficult to understand what the ‘limit’ is, not least because each case is different, but in general it is better to limit the time children spend in front of the screen when they are very young, so that the same children can develop ‘a solid anchorage in the real world, where their basic sense of bond with their caregivers and their early language skills have been established.


Related Articles and Sources:

https://www.technologyreview.com/f/614672/screen-time-might-be-physically-changing-kids-brains/

https://jamanetwork.com/journals/jamapediatrics/article-abstract/2754101

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https://cdn.mindful.org/EmpathyBrainKids1.jpg?q=80&fm=jpg&fit=crop&w=1400&h=875

Jane Baker

An established and well-respected journalist, Jane worked for The Pueblo Chieftain (chieftain.com) as an editor for many years and holds an undergraduate degree in Molecular Biology from the University of Northern Colorado. In her free time she enjoys motorcycling, hiking and reading. She is largely responsible for assisting with research and writing new stories relating to new medical research.

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Drones that can see from 150 meters high used in Scotland to find missing persons.

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The Scottish police are starting to use a new drone system integrated with artificial intelligence, called the Remote Control Aircraft System (RPAS), to detect a person by facial recognition from a distance of up to 150 meters. The system, equipped with advanced cameras and neural computer networks, can actually identify a person, including movement, by recognizing facial features and comparing them with images in a database.

At present, this system is mainly used to search for missing persons or, in any case, for persons who need help or have been lost, as explained by Nicholas Whyte, one of the heads of the Scottish Air Support Unit, who makes some statements about this advanced system on the BBC website. The data collected by the drones are processed in real-time, and the recognition software, which is remotely activated, can distinguish between everything from a person, through an animal, to a vehicle with its license plate, even when these objects are in motion.

To train the software, managers have used hundreds of hours of footage from the same police officers in different contexts, locations and situations. Moreover, the software itself “does not require advanced supercomputers” because Professor Carl Schaschke, a researcher from the University of West Scotland, one of the institutions that worked with the Scottish police to develop this technology, indicates that even a trivial smartphone is sufficient to manage the software. The same system also requires only two police officers to manage one drone, one to pilot it and the other to use recognition software.

At the moment, Scottish political leaders have distributed three drones to be used across Scotland, and the formal launch of the system should take place on Thursday. Of course, such technology, with these particular features, raises concerns about all privacy and civil liberties issues, but the Scottish leaders themselves suggest that it is not a spy drone, but only a ‘police tool’ to help and find people.


Related Articles and Sources:

https://www.bbc.com/news/uk-scotland-50262650

Image Credit:

https://images-na.ssl-images-amazon.com/images/I/71Ao-WrjMDL._SL1500_.jpg

Jane Baker

An established and well-respected journalist, Jane worked for The Pueblo Chieftain (chieftain.com) as an editor for many years and holds an undergraduate degree in Molecular Biology from the University of Northern Colorado. In her free time she enjoys motorcycling, hiking and reading. She is largely responsible for assisting with research and writing new stories relating to new medical research.

1387 Berry Street, Saguache Colorado, 81149
719-655-0938
Jane@abc14news.com
Jane Baker
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A fossil of a huge sea monster from 150 million years ago, a pliosaurus, was found in Poland

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A fossil of what phys.org calls the “150 millionth sea monster” was found by two researchers from the Polish Academy of Sciences. Daniel Tyborowski and Błażej Błażejowski found a fossil in a wheat field near the village of Krzyżanowice. It is a pliosaurus fossil (Pliosauroidea), a marine reptile that lived in Jurassic and Cretaceous areas and had a large head and a generally large body and very massive toothed jaws.

The fossil is about 10 meters long and according to researchers belongs to the pliosaurus, which lived from 145 to 163 million years ago. Apart from being the first pliosaurus fossil in Poland, this fossil opened the way to other fossil remains of various other nearby creatures, including ancient crocodiles and turtles. According to researchers, this area used to be a tropical environment with many animals, perhaps created by an archipelago with lagoons and various small pools, almost ideal for all kinds of reptiles.

Hungry reptiles were hungry reptiles: there were several species and almost all of them were at the top of their food chains. In the millions of years in which they have existed, they have reached enormous proportions with some specimens that could be similar in size to those of modern plowing. They were very long and relatively narrow with a crocodile-like muzzle, with massive teeth and large fins. According to the researchers, they fed on almost every living animal they could find in this environment, from the reptiles themselves to the mammals that might have emerged in search of water food near them.

Researchers believe that there are still other interesting fossils to be found in the area, which is why they continue to work in the area.


Related Articles and Sources:

https://phys.org/news/2019-11-million-year-old-sea-monster-fossil-poland.html

https://www.sciencedirect.com/science/article/abs/pii/S0016787819301063?via%3Dihub

https://www.dailymail.co.uk/sciencetech/article-7629681/Bones-30-foot-long-Jurassic-sea-monster-massive-jaws-cornfield-Poland.html

https://it.wikipedia.org/wiki/Pliosauroidea

Image Credit:

http://cdn.sci-news.com/images/enlarge3/image_4892e-Luskhan-itilensis.jpg

Jane Baker

An established and well-respected journalist, Jane worked for The Pueblo Chieftain (chieftain.com) as an editor for many years and holds an undergraduate degree in Molecular Biology from the University of Northern Colorado. In her free time she enjoys motorcycling, hiking and reading. She is largely responsible for assisting with research and writing new stories relating to new medical research.

1387 Berry Street, Saguache Colorado, 81149
719-655-0938
Jane@abc14news.com
Jane Baker
Continue Reading

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Microbial skin protects sharks from infection as a result of wounds

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Microbials, i.e. groups of bacteria and microorganisms living in the body (or above it in the case of skin microorganisms), are not only very important for humans but also for animals, as confirmed by further research. This time, scientists from the Red Sea Research Centre of the King Abdullah University of Science and Technology (KAUST) investigated the microbiological communities living on saithe shark skin (Carcharhinus melanopterus).

It has happened several times that those who study these sharks have observed them with noticeable wounds on their bodies, but almost never with signs of infection around the wounds themselves. To understand this phenomenon, an international team of researchers collected various samples of skin mucus from the backs and gills of sloe sharks living around Seychelles, namely around the Amirante Islands. In addition, they sequenced RNA genes to identify bacteria.

As Claudia Pogoreutz explains, one of the researchers who conducted the study, the researchers found no signs of infection around the wounds. This suggests that the skin of these sharks is not readily infective and that it is the bacterial communities, precisely those on the skin, that are the main reason: “We really need to investigate the bacterial functions and innate immunity of sharks to understand what really happens and how wound healing in sharks is mediated,” says the researcher in a press release presenting the research that has emerged in the Animal Microbiome.

Scientists have also found differences in the bacterial communities of shark skin depending on where he lived, even when he was only a few miles away, but relatively isolated. According to scientists, these differences are dictated by the environmental conditions in which these sharks live, by conditions that may vary, such as temperature, population density, nutrient availability and water pollution levels.

Pogoreutz herself suggests that there are still many things to understand with regard to shark skin micro-organisms.


Related Articles and Sources:

https://animalmicrobiome.biomedcentral.com/articles/10.1186/s42523-019-0011-5

Image Credit:

https://i.ytimg.com/vi/EP8MjFiUSbM/maxresdefault.jpg

Jane Baker

An established and well-respected journalist, Jane worked for The Pueblo Chieftain (chieftain.com) as an editor for many years and holds an undergraduate degree in Molecular Biology from the University of Northern Colorado. In her free time she enjoys motorcycling, hiking and reading. She is largely responsible for assisting with research and writing new stories relating to new medical research.

1387 Berry Street, Saguache Colorado, 81149
719-655-0938
Jane@abc14news.com
Jane Baker
Continue Reading

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