Saudi Arabia to develop AI and data science solution for tackling tuberculosis

Recursive will support KAIMRC in developing an AI system that enhances the early detection of TB

Japan-based Recursive Inc., a developer of artificial intelligence (AI) solutions that facilitate sustainable business transformation, has announced the signing of a Memorandum of Understanding (MoU) with King Abdullah International Medical Research Center (KAIMRC), the largest medical research institution in the Kingdom of Saudi Arabia, a part of the Saud Bin Abdulaziz University for Health Sciences (KSAU-HS) and connected to Ministry of National Guard-Health Affairs, a nation-wide healthcare system with specialised hospitals and transplant centres and a network of primary to tertiary care hospitals across Saudi Arabia, to jointly develop an advanced AI system for the early screening of tuberculosis (TB).
Recursive will support KAIMRC in developing an AI system that enhances the early detection of TB, improves the accuracy and speed of diagnosis, and accelerates research and prediction capabilities. Together, both organisations aim to contribute significantly to Saudi Arabia’s Vision 2030, which includes transforming the nation’s healthcare system and improving the quality of life for its citizens. This partnership also aligns with the United Nations Sustainable Development Goals (SDGs), particularly Goal 3, which focuses on ensuring healthy lives and promoting well-being for all at all ages.
Through co-development efforts between KAIMRC scientists, Ministry of National Guard Health Affairs (MNGHA) physicians, and Recursive, chest X-ray imaging data will be utilised to enhance early screening and detection of TB. This collaborative approach aims to facilitate timely diagnosis and treatment, reducing the risk of mortality and preventing further transmission.
This collaboration aims not only to enhance TB diagnosis within Saudi Arabia but also to create a scalable model that can be deployed in other regions with high TB burdens. Furthermore, these collaborative efforts aim to expand this AI-powered and data science approaches to address other infectious diseases, fostering innovation that strengthens global healthcare systems and drives broader public health advancements.

Polymer Scientists Solve 200-Year-Old Challenge To Decouple Stiffness and Stretchability

Researchers at the University of Virginia School of Engineering and Applied Science have developed a new polymer design that appears to rewrite the textbook on polymer engineering. No longer is it dogma that the stiffer a polymeric material is, the less stretchable it has to be.“We are addressing a fundamental challenge that has been thought to be impossible to solve since the invention of vulcanized rubber in 1839,” said Liheng Cai, an assistant professor of materials science and engineering, and chemical engineering.That’s when Charles Goodyear accidentally discovered that heating natural rubber with sulfur created chemical crosslinks between the strand-like rubber molecules. This crosslinking process creates a polymer network, transforming the sticky rubber, which melts and flows in the heat, into a durable, elastic material.Want more breaking news?Subscribe to Technology Networks’ daily newsletter, delivering breaking science news straight to your inbox every day.Subscribe for FREEEver since, it’s been believed that if you want to make a polymer network material stiff, you have to sacrifice some stretchability.That is, until Cai’s team, led by Ph.D. student Baiqiang Huang, proved otherwise with their new “foldable bottlebrush polymer networks.” Their work, funded by Cai’s National Science Foundation CAREER Award, is on the cover of the Nov. 27 issue of Science Advances.‘Decoupling’ Stiffness and Stretchiness“This limitation has held back the development of materials that need to be both stretchable and stiff, forcing engineers to choose one property at the expense of the other,” Huang said. “Imagine, for example, a heart implant that bends and flexes with each heartbeat but still lasts for years.”Huang first-authored the paper with postdoctoral researcher Shifeng Nian and Cai.Crosslinked polymers are everywhere in products we use, from automobile tires to home appliances — and they are increasingly used in biomaterials and health care devices.Some applications the team envisions for their material include prosthetics and medical implants, improved wearable electronics, and “muscles” for soft robotic systems that need to flex, bend and stretch repeatedly.Stiffness and extensibility — how far a material can stretch or expand without breaking — are linked because they originate from the same building block: the polymer strands connected by crosslinks. Traditionally, the way to stiffen a polymer network is to add more crosslinks.This stiffens the material but doesn’t solve the stiffness-stretchability trade-off. Polymer networks with more crosslinks are stiffer, but they don’t have the same freedom to deform, and they break easily when stretched.“Our team realized that by designing foldable bottlebrush polymers that could store extra length within their own structure, we could ‘decouple’ stiffness and extensibility — in other words, build in stretchability without sacrificing stiffness,” Cai said. “Our approach is different because it focuses on the molecular design of the network strands rather than crosslinks.”How the Foldable Design WorksInstead of linear polymer strands, Cai’s structure resembles a bottlebrush — many flexible side chains radiating out from a central backbone.Critically, the backbone can collapse and expand like an accordion that unfolds as it stretches. When the material is pulled, hidden length inside the polymer uncoils, allowing it to elongate up to 40 times more than standard polymers without weakening.Meanwhile, the side chains determine stiffness, meaning that stiffness and stretchability can finally be controlled independently.This is a “universal” strategy for polymer networks because the components that make up the foldable bottlebrush polymer structure are not restricted to specific chemical types.For example, one of their designs uses a polymer for the side chains that stays flexible even in cold temperatures. But using a different synthetic polymer, one that is commonly used in biomaterial engineering, for the side chains can produce a gel that can mimic living tissue.Like many of the novel materials developed in Cai’s lab, the foldable bottlebrush polymer is designed to be 3D-printable. This is true even when mixed with inorganic nanoparticles, which can be designed to exhibit intricate electric, magnetic or optical properties.For example, they can add conductive nanoparticles, such as silver or gold nanorods, which are critical to stretchable and wearable electronics.“These components give us endless options for designing materials that balance strength and stretchability while harnessing the properties of inorganic nanoparticles based on specific requirements,” Cai said.Reference: Huang B, Nian S, Cai LH. A universal strategy for decoupling stiffness and extensibility of polymer networks. Sci Adv. 2024;10(48):eadq3080. doi: 10.1126/sciadv.adq3080This article has been republished from the following materials. Note: material may have been edited for length and content. For further information, please contact the cited source. Our press release publishing policy can be accessed here.

Polymer Scientists Solve 200-Year-Old Challenge To Decouple Stiffness and Stretchability

Researchers at the University of Virginia School of Engineering and Applied Science have developed a new polymer design that appears to rewrite the textbook on polymer engineering. No longer is it dogma that the stiffer a polymeric material is, the less stretchable it has to be.“We are addressing a fundamental challenge that has been thought to be impossible to solve since the invention of vulcanized rubber in 1839,” said Liheng Cai, an assistant professor of materials science and engineering, and chemical engineering.That’s when Charles Goodyear accidentally discovered that heating natural rubber with sulfur created chemical crosslinks between the strand-like rubber molecules. This crosslinking process creates a polymer network, transforming the sticky rubber, which melts and flows in the heat, into a durable, elastic material.Want more breaking news?Subscribe to Technology Networks’ daily newsletter, delivering breaking science news straight to your inbox every day.Subscribe for FREEEver since, it’s been believed that if you want to make a polymer network material stiff, you have to sacrifice some stretchability.That is, until Cai’s team, led by Ph.D. student Baiqiang Huang, proved otherwise with their new “foldable bottlebrush polymer networks.” Their work, funded by Cai’s National Science Foundation CAREER Award, is on the cover of the Nov. 27 issue of Science Advances.‘Decoupling’ Stiffness and Stretchiness“This limitation has held back the development of materials that need to be both stretchable and stiff, forcing engineers to choose one property at the expense of the other,” Huang said. “Imagine, for example, a heart implant that bends and flexes with each heartbeat but still lasts for years.”Huang first-authored the paper with postdoctoral researcher Shifeng Nian and Cai.Crosslinked polymers are everywhere in products we use, from automobile tires to home appliances — and they are increasingly used in biomaterials and health care devices.Some applications the team envisions for their material include prosthetics and medical implants, improved wearable electronics, and “muscles” for soft robotic systems that need to flex, bend and stretch repeatedly.Stiffness and extensibility — how far a material can stretch or expand without breaking — are linked because they originate from the same building block: the polymer strands connected by crosslinks. Traditionally, the way to stiffen a polymer network is to add more crosslinks.This stiffens the material but doesn’t solve the stiffness-stretchability trade-off. Polymer networks with more crosslinks are stiffer, but they don’t have the same freedom to deform, and they break easily when stretched.“Our team realized that by designing foldable bottlebrush polymers that could store extra length within their own structure, we could ‘decouple’ stiffness and extensibility — in other words, build in stretchability without sacrificing stiffness,” Cai said. “Our approach is different because it focuses on the molecular design of the network strands rather than crosslinks.”How the Foldable Design WorksInstead of linear polymer strands, Cai’s structure resembles a bottlebrush — many flexible side chains radiating out from a central backbone.Critically, the backbone can collapse and expand like an accordion that unfolds as it stretches. When the material is pulled, hidden length inside the polymer uncoils, allowing it to elongate up to 40 times more than standard polymers without weakening.Meanwhile, the side chains determine stiffness, meaning that stiffness and stretchability can finally be controlled independently.This is a “universal” strategy for polymer networks because the components that make up the foldable bottlebrush polymer structure are not restricted to specific chemical types.For example, one of their designs uses a polymer for the side chains that stays flexible even in cold temperatures. But using a different synthetic polymer, one that is commonly used in biomaterial engineering, for the side chains can produce a gel that can mimic living tissue.Like many of the novel materials developed in Cai’s lab, the foldable bottlebrush polymer is designed to be 3D-printable. This is true even when mixed with inorganic nanoparticles, which can be designed to exhibit intricate electric, magnetic or optical properties.For example, they can add conductive nanoparticles, such as silver or gold nanorods, which are critical to stretchable and wearable electronics.“These components give us endless options for designing materials that balance strength and stretchability while harnessing the properties of inorganic nanoparticles based on specific requirements,” Cai said.Reference: Huang B, Nian S, Cai LH. A universal strategy for decoupling stiffness and extensibility of polymer networks. Sci Adv. 2024;10(48):eadq3080. doi: 10.1126/sciadv.adq3080This article has been republished from the following materials. Note: material may have been edited for length and content. For further information, please contact the cited source. Our press release publishing policy can be accessed here.

Japan’s Renowned Political Scientist Takashi Inoguchi is no more

Japan’s renowned political scientist Inoguchi Takashi is no more
X.com

Renowned Japanese political scientist Takashi Inoguchi passed away after a fire accident at his residence in Tokyo on the night of November 27, 2024.He is survived by his wife Liberal Democratic Party Senator Kuniko Inoguchi (72) and one daughter, who were away from the house when the fire took place.Another daughter and Prof Inoguchi were confirmed to be at home when the devastating fire occurred and their bodies were found by the rescue team who reached the apartment after the fire alarm was activated.Flames and smoke were seen rising from the apartment building on Wednesday night in Bunkyo Ward, Tokyo, said the Tomisaka Police of the Metropolitan Police Department. One person was found dead in the unit, and another, found near the unit’s entrance, was confirmed dead after being transported to a hospital, they said.The incident occurred in the neighborhood of apartment buildings and houses, about 500 meters north of the Tokyo Dome. Orange flames briefly rose from the scene, and smoke filled the surrounding area, said witnesses.Professor Emeritus Takashi Inoguchi of the University of Tokyo (80) and his daughter were last seen in CCTV footage to have entered the apartment separately around 5 p.m., as per the information provided by the police.According to the police and witnesses, the scene of the fire was on the top floor of a six-story apartment building, with only one apartment on each floor. The Fire Service personnel transported one woman’s body to the hospital. The fire was extinguished around 12:40 a.m. and rescue vehicles were dispatched to the scene.Takashi Inoguchi, born January 17, 1944 in Niigata, was a renowned Japanese academic researcher of foreign affairs and international and global relationships of states. After graduating from Niigata High School, he attended the University of Tokyo from 1962 to 1968, obtaining a bachelor’s degree in liberal arts and master’s degree in international relations.Inoguchi studied at the Massachusetts Institute of Technology from 1968 to 1974 and obtained a Ph.D. in political science. Following his Ph.D., he taught at Sophia University from 1974 to 1977, and at the University of Tokyo from 1977 onward. He was also at the University of Geneva from 1977 to 1978, and at Harvard University from 1983 to 1984.

Japan’s Renowned Political Scientist Takashi Inoguchi is no more

Japan’s renowned political scientist Inoguchi Takashi is no more
X.com

Renowned Japanese political scientist Takashi Inoguchi passed away after a fire accident at his residence in Tokyo on the night of November 27, 2024.He is survived by his wife Liberal Democratic Party Senator Kuniko Inoguchi (72) and one daughter, who were away from the house when the fire took place.Another daughter and Prof Inoguchi were confirmed to be at home when the devastating fire occurred and their bodies were found by the rescue team who reached the apartment after the fire alarm was activated.Flames and smoke were seen rising from the apartment building on Wednesday night in Bunkyo Ward, Tokyo, said the Tomisaka Police of the Metropolitan Police Department. One person was found dead in the unit, and another, found near the unit’s entrance, was confirmed dead after being transported to a hospital, they said.The incident occurred in the neighborhood of apartment buildings and houses, about 500 meters north of the Tokyo Dome. Orange flames briefly rose from the scene, and smoke filled the surrounding area, said witnesses.Professor Emeritus Takashi Inoguchi of the University of Tokyo (80) and his daughter were last seen in CCTV footage to have entered the apartment separately around 5 p.m., as per the information provided by the police.According to the police and witnesses, the scene of the fire was on the top floor of a six-story apartment building, with only one apartment on each floor. The Fire Service personnel transported one woman’s body to the hospital. The fire was extinguished around 12:40 a.m. and rescue vehicles were dispatched to the scene.Takashi Inoguchi, born January 17, 1944 in Niigata, was a renowned Japanese academic researcher of foreign affairs and international and global relationships of states. After graduating from Niigata High School, he attended the University of Tokyo from 1962 to 1968, obtaining a bachelor’s degree in liberal arts and master’s degree in international relations.Inoguchi studied at the Massachusetts Institute of Technology from 1968 to 1974 and obtained a Ph.D. in political science. Following his Ph.D., he taught at Sophia University from 1974 to 1977, and at the University of Tokyo from 1977 onward. He was also at the University of Geneva from 1977 to 1978, and at Harvard University from 1983 to 1984.

Book Marketing Society Q3 award winners announced

The Book Marketing Society Q3 award winners were announced at a meeting last night (27th November). The awards consisted of seven categories, across which 50 campaigns were submitted for consideration across children’s and adult publishing houses. Faber won the Adult Fiction Award for Intermezzo, with the judges declaring that “the term ‘event publishing’ feels like it was invented for this campaign”. 
Chair of judges, Miriam Robinson, said: “There was some particularly fancy footwork among comms teams this quarter, as the market continues to demand more from campaigns, and publishers keep aspiring to reach new audiences with their brands. A number of authors were repositioned, rebranded or reinvented, and marketers rose to the challenge, producing wildly engaging content and demonstrating a level of audience awareness that is nothing short of incredible. Excellent use of influencers, truly clever fan engagement, continued forays into foreign markets and inspired cover reveals were all on display in a truly impressive season.”
Other winners included John Murray Press for the Adult Non-Fiction category with their “joyful” campaign for Oh Miriam!, with the judges praising how it captured “the spirit of Miriam Margolyes”, driving impressive sales. The judges also noted that the book faced with an Election Day clash ahead of publication, so “pivoted to a Vote Miriam activation that beautifully brought her personality to the fore, underpinned by smart execution of digital ads”.
Spotlight Winners included Transworld for their fan-focused campaign for Think Again by Jacqueline Wilson and Canongate for their campaign for Matt Haig’s The Life Impossible. The campaign for Percy Jackson and the Olympians (PRH Children’s) was praised for being “full of clever innovations”. See below for the full list of winners.
Multi-Title
HIGHLY COMMENDED: Lord of the Flies at SeventyMarketer: Sophie Clarke, FaberWINNER: Sticker Dolly DressingMarketer: Hayley Shingles, Usborne
Guerrilla
HIGHLY COMMENDED: The Third Gilmore GirlMarketer: Gabriela Quattromini, VintageWINNER: Dallergut Dream Department StoreMarketer: Katrina Smedley, Headline
Children’s
HIGHLY COMMENDED: Evenfall: The Golden LinnetMarketers: Olivia Carson, Sophie Porteous, Chris Wells and Hannah O’Brien, FarshoreWINNER: The Majorly Awkward BFF Fails of Lottie BrooksMarketer: Lauren Floodgate, PRH Children’s
Young Adult
HIGHLY COMMENDED: The Dagger and The FlameMarketer: Olivia Horrox, S&S Children’sWINNER: Immortal DarkMarketers: Bec Gillies and Nils Jones, Hachette Children’s
Debut
HIGHLY COMMENDED: RewitchedMarketer: Ana Taylor, Pan MacmillanWINNER: The Phoenix KeeperMarketer: Hennah Sandhu, Orion Books
Adult Non-Fiction
HIGHLY COMMENDED: WantMarketer: Genista Tate-Alexander, BloomsburyWINNER: Oh Miriam!Marketers: Sarah Arratoon and Kate Baguley, John Murray Press
Adult Fiction
HIGHLY COMMENDED: DaydreamMarketers: Sarah Jeffcoate and Genevieve Barratt, Simon & SchusterWINNER: IntermezzoMarketers: Jess Kim, Mollie Stewart and Katie Hall, Faber
Q3 2024 Spotlight Award Winners
AUDIENCE DEVELOPMENT: Think AgainMarketer: Hannah Winter, TransworldINNOVATION: Percy Jackson and The OlympiansMarketers: Stevie Hopwood and Jess Millott, PRH Children’sCREATIVITY: Joe Lycett’s Art HoleMarketers: Cait Davies and Hennah Sandhu, Orion BooksGRAFT: The Life ImpossibleMarketer: Alice Shortland, Jamie Norman and Alan Nevens, CanongateFORMAT: NexusMarketers: Rosanna Boscawen, Katrina Northern and Natalie Chapman, Vintage

Asako Yuzuki’s ‘bold and exciting’ Butter crowned Waterstones Book of the Year 2024

Asako Yuzuki’s “bold and exciting” Butter, translated by Polly Barton (Fourth Estate), has been crowned Waterstones Book of the Year 2024.
Meanwhile, Waterstones also named Ross Montgomery’s “heartwarming” I Am Rebel (Walker Books) as its Children’s Book of the Year 2024. The two titles will receive the backing of bookshops and booksellers across the UK, as well as support online and through the Waterstones Plus loyalty card programme.
Waterstones booksellers were called on to nominate an “outstanding book” they particularly enjoyed recommending to readers over the previous year.
Bea Carvalho, head of books at Waterstones, said: “Butter is the ultimate word-of-mouth sensation, a deliciously rich treat of a novel which quickly established itself as the most talked about book of the year. Weaving tense mystery with blistering social commentary and skewering the media’s obsession with true crime, fans of fiction of all kinds will devour Butter.”
Beatrice from Waterstones Cheltenham called Butter a “unique piece of literature with cult-classic energy”, while Jake from Waterstones Grimsby described it a “gripping, dark and twisty” novel.
On Montgomery’s I Am Rebel, Carvalho added: “At a time when children’s literacy and reading for pleasure should be at the top of everyone’s agenda, I am Rebel stands out as the perfect book to press into the hands of children and the adults who care for them.”

Habiscus launches two books on Ghana’s culture

Dr. Eva Agana (left) being supported to launch the two maiden books

Two books depicting two cultures from Ghana have been launched at a short but colourful ceremony in Takoradi over the weekend.The books are entitled “women marrying women in Northern Ghana” and “who am I.”Women marrying women in Northern Ghana wades into the homosexuality debate from a Ghanaian perspective, documents the reality of same-sex practices in Ghana.
“Who Am I” on the other hand explores the concepts of gender and identity from Frafra perspective, critiques the current positions and understanding of gender and identity.
The two books were authored by Dr. Eva Mmah Agana, who describes herself as a Sociologist by training, sustainability specialist by profession and a gender activist and author.
She is also the CEO of Habiscus Insights – a research and publication wing of Group Habiscus.The launch brought together academics and traditional leaders.

Ghana Association of Writers were also present.
Nana Amuzu Quaidoo, Benkumhene of Mpohor Taditional Area chaired the launch. He purchased the first book at GHC1000.00Speaking at the launch, Dr. Eva Mma Agana, the author indicated that the issue of gender required more exposé from cultural perspective.
This, she explained to mean, “How I describe myself today is not based on Western criteria alone, but a careful mixture of the Western criteria with my understanding of myself from cultural and family backgrounds”.The two books, she indicated, were related hence the intentional decision of launching both at the same time.
“We cannot push away the reality of same-sex practices as alien to Ghana and African culture, but we can help the rest of the world to understand why we take certain strong positions, as it relates to homosexuality”.The books, she explained, were just not documentation of cultural practices to shed light on contestation against homosexuality and the concepts of identity.
“A campaign to motivate every Ghanaian and African to be interested in your systems and customs, a campaign to appreciate who we are and what forms our foundation. When you pick a copy today, you will understand you are not furthering an individual idea or pursuit, but you are joining a campaign, a new force towards a philosophical reorientation of who we are and who wants the world to know us”

In glass recycling management, technology puts Europe ahead of the United States

Glass recyclingIn glass recycling management, technology puts Europe ahead of the United States After being crushed, mixed, and melted together with sand and other materials, glass can be recycled infinitely. Doing so benefits manufacturers, the environment, and citizens, who are becoming increasingly aware of the importance of recycling, although some countries are more committed than others.…