Charco Neurotech, a medtech company based in the United Kingdom, has developed CUE1, a non-invasive wearable that is intended to assist those with Parkinson’s disease to manage their motor symptoms. The device is typically affixed to the sternum, and provides vibratory action in a focused region of the body. The technology is based on the […]

A team at the University of Technology Sydney has developed an assistive technology for blind people and those with low vision. The system consists of glasses that can view their surroundings through an on-board camera, appraise the objects nearby using computer vision technology, and then play a sound that provides a cue for the wearer […]

Drug Channel Institute is pleased to announce The Drug Channels 2025 Video Webinar Series.

Join Dr. Adam J. Fein for three live video webinars during 2025. These live, interactive events will be broadcast via Zoom from the Drug Channels Video studio in beautiful downtown Philadelphia.

During these events, Dr. Fein will address the latest issues confronting the U.S. drug channel. Topics will be determined based on what’s happening—trends, policy changes, company announcements, and more. He’ll share DCI’s latest market data to help you stay on top of new developments. You will be able to use these events as both a capstone of your current learning and a touchpoint for the future.

The three events are scheduled for 12:00 p.m. to 1:30 p.m. ET on the following dates:

• April 4, 2025

• June 20, 2025

• December 12, 2025 (Drug Channels Outlook 2026)

For 2025, we are offering a Corporate Pricing option that will allow larger organizations to register hundreds of colleagues for one fixed price. Please contact Paula Fein (paula@drugchannels.net) for details.

Read on for full details on pricing, including substantial discounts for multiple sites.

P.S. If you're not familiar with our webinars, click here to watch brief excerpts from our video webinars.
Read more »

Adam J. Fein, Ph.D., president of Drug Channels Institute (DCI) and the author of Drug Channels, invites you to join him for DCI’s new live video webinar:

Friday, December 13, 2024,

from 12:00 p.m. to 1:30 p.m. ET

This post describes the event and explains how to purchase a registration. (Or, just click here to order.) The webinar will be broadcast from the Drug Channels studio in beautiful downtown Philadelphia.

This event is part of The Drug Channels 2024 Video Webinar Series. (Please note that our December 2024 webinar is *not* included with next year’s 2025 Video Webinar Series.)

WHAT YOU WILL LEARN

Join Dr. Fein as he helps you and your team get ready for 2025 by outlining key issues and uncertainties that will surely affect your planning. This event can be both a capstone of your annual learning and a touchpoint for the future. DCI’s Outlook webinars have proven to be reliable and informative guides to crucial aspects of the ever-evolving healthcare industry.

During the event, Dr. Fein will share his latest thinking and projections on a wide range of topics, including:

• Latest predictions for the Inflation Reduction Act

• Expectations for the Medicare Part D market in 2025 and beyond

• Update on 340B Drug Pricing Program’s controversies

• Impact of the new Trump administration and Congress on the drug channel

• Vertical integration and consolidation trends—and prospects for dis-integration and de-consolidation

• The state of biosimilar markets

• What’s next for PBMs’ private label products and GPOs

• Retail pharmacy’s future

• Prospects for direct-to-patient channels

• What’s ahead for discount cards and cash-pay pharmacies

• The outlook for state and federal legislation on PBMs and the drug channel

• Gross-to-net bubble developments

• And much more!

PLUS: During the webinar, Dr. Fein will give participants an opportunity to unmute themselves and ask live questions. The webinar will last at least 90 minutes to accommodate audience questions.

As always, Dr. Fein will clearly distinguish his opinions and interpretations from the objective facts and data. He will draw from exclusive information found in DCI's economic reports .

Read on for full details on pricing and registration.
Read more »

We still don’t know what COVID-19 is doing to the heart or how we should be investigating it and treating it. Last month JAMA Cardiology published a German cohort study of 100 patients recently recovered from COVID-19… A number of striking problems with the study were noted on Twitter…...

Click here to continue reading...

<p> <b>BIOSIMILAR RED TAPE ELIMINATION ACT (S2305):</b><br /> <b><i>Weakening FDA Regulatory Standards for Biosimilars, Undermining Physician Confidence and Jeopardizing Patient Health</i></b><br /><b>31 October 2024&nbsp;|&nbsp;</b><b><a href="https://youtu.be/X6-dYZ7fjhM" target="_blank">WATCH REPLAY</a></b></p>

Some 180 women were prescribed valproate, a medicine used to treat epilepsy and bipolar disorder, during their pregnancy within a 2.5 year interval, NHS data has revealed.

The type 2 diabetes mellitus drug semaglutide is effective for weight loss in non-diabetic overweight or obese adults, when taken alongside a reduced-calorie diet and exercise, researchers have found.

The General Pharmaceutical Council has said most candidates living in countries with a two-hour or more time difference from the UK will be able to apply to sit the registration assessment at home.

Community pharmacies able to administer up to 400 COVID-19 vaccines per week can now apply to become designated vaccination sites, NHS England has said.

The National Institutes of Health, the crown jewel of biomedical research in the U.S., could face big changes under the new Trump administration, some fueled by pandemic-era criticisms of the agency.

Sweat: We all do it. It plays an essential role in controlling body temperature by cooling the skin through evaporation. But it can also carry salts and other molecules out of the body in the process. In medieval Europe, people would lick babies; if the skin was salty, they knew that serious illness was likely. (We now know that salty skin can be an indicator for cystic fibrosis.)

Scientists continue to study how the materials in sweat can reveal details about an individual’s health, but often they must rely on gathering samples from subjects during strenuous exercise in order to get samples that are sufficiently large for analysis.

Now researchers in China have developed a wearable sensor system that can collect and process small amounts of sweat while providing continuous detection. They have named the design a “skin-interfaced intelligent graphene nanoelectronic” patch, or SIGN for short. The researchers, who described their work in a paper published in Advanced Functional Materials, did not respond to IEEE Spectrum’s interview requests.

The SIGN sensor patch relies on three separate components to accomplish its task. First, the sweat must be transported from the skin into microfluidic chambers. Next, a special membrane removes impurities from the fluid. Finally, this liquid is delivered to a bioreceptor that can be tuned to detect different metabolites.

The transport system relies on a combination of hydrophilic (water-attracting) and hydrophobic (water-repelling) materials. This system can move aqueous solutions along microchannels, even against gravity. This makes it possible to transport small samples with precision, regardless of the device’s orientation.

The fluid is transported to a Janus membrane, where impurities are blocked. This means that the sample that reaches the sensor is more likely to produce accurate results.

Finally, the purified sweat arrives at a flexible biosensor. This graphene sensor is activated by enzymes designed to detect the desired biomarker. The result is a transistor that can accurately measure the amount of the biomarker in the sample.

At its center, the system has a membrane that removes impurities from sweat and a biosensor that detects biomarkers.Harbin Institute of Technology/Shenyang Aerospace University

One interesting feature of the SIGN patch is that it can provide continuous measurements. The researchers tested the device through multiple cycles of samples with known concentrations of a target biomarker, and it was about as accurate after five cycles as it was after just one. This result suggests that it could be worn over an extended period without having to be replaced.

Continuous measurements can provide useful longitudinal data. However, Tess Skyrme, a senior technology analyst at the research firm IDTechEx, points out that continuous devices can have very different sampling rates. “Overall, the right balance of efficient, comfortable, and granular data collection is necessary to disrupt the market,” she says, noting that devices also need to optimize “battery life, calibration, and data accuracy.”

The researchers have focused on lactate—a metabolite that can be used to assess a person’s levels of exercise and fatigue—as the initial biomarker to be detected. This function is of particular interest to athletes, but it can also be used to monitor the health status of workers in jobs that require strenuous physical activity, especially in hazardous or extreme working conditions.

Not all experts are convinced that biomarkers in sweat can provide accurate health data. Jason Heikenfeld, director of the Novel Device Lab at the University of Cincinnati, has pivoted his research on wearable biosensing from sweat to the interstitial fluid between blood vessels and cells. “Sweat glucose and lactate are way inferior to measures that can be made in interstitial fluid with devices like glucose monitors,” he tells Spectrum.

The researchers also developed a package to house the sensor. It’s designed to minimize power consumption, using a low-power microcontroller, and it includes a Bluetooth communications chip to transmit data wirelessly from the SIGN patch. The initial design provides for 2 hours of continuous use without charging, or up to 20 hours in standby mode.

A thimbleful of soil can contain a universe of microorganisms, up to 10 billion by some estimates. Now a group of researchers in Bath, United Kingdom, are building prototype technologies that harvest electrons exhaled by some micro-species.

The idea is to power up low-yield sensors and switches, and perhaps help farmers digitally optimize crop yields to meet increasing demand and more and more stressful growing conditions. There could be other tasks, too, that might make use of a plant-and-forget, low-yield power source—such as monitoring canals for illegal waste dumping.

The research started small, based out of the University of Bath, with field-testing in a Brazilian primary school classroom and a green pond near it—just before the onset of the pandemic.

“We had no idea what the surroundings would be. We just packed the equipment we needed and went,” says Jakub Dziegielowski, a University of Bath, U.K. chemical engineering Ph.D. student. “And the pond was right by the school—it was definitely polluted, very green, with living creatures in it, and definitely not something I’d feel comfortable drinking from. So it got the job done.”

The experiments they did along with kids from the school and Brazilian researchers that summer of 2019 were aimed at running water purifiers. It did so. However, it also wasn’t very efficient, compared to, say, a solar panel.

So work has moved on in the Bath labs: in the next weeks, Dziegielowski will both turn 29 and graduate with his doctorate. And he, along with two other University of Bath advisors and colleagues recently launched a spinoff company—it’s called Bactery—to perfect a prototype for a network of soil microbial fuel cells for use in agriculture.

A microbial fuel cell is a kind of power plant that converts chemical energy stored in organic molecules into electrical energy, using microbes as a catalyst. It’s more often used to refer to liquid-based systems, Dziegielowski says. Organics from wastewater serve as the energy source, and the liquid stream mixes past the electrodes.

A soil microbial fuel cell, however, has one of its electrodes—the anode, which absorbs electrons—in the dirt. The other electrode, the cathode, is exposed to air. Batteries work because ions move through an electrolyte between electrodes to complete a circuit. In this case, the soil itself acts as the electrolyte—as well as source of the catalytic microbes, and as the source of the fuel.

The Bath, U.K.-based startup Bactery has developed a set up fuel cells powered by microbes in the soil—with, in the prototype pictured here, graphite mats as electrodes. University of Bath

Fields full of Watts

In a primary school in the fishing village of Icapuí on Brazil’s semi-arid northeastern coast, the group made use of basic components: graphite felt mats acting as electrodes, and nylon pegs to maintain spacing and alignment between them. (Bactery is now developing new kinds of casing.)

By setting up the cells in a parallel matrix, the Icapuí setup could generate 38 milliwatts per square meter. In work since, the Bath group’s been able to reach 200 milliwatts per square meter.

Electroactive bacteria—also called exoelectrogens or electricigens—take in soluble iron or acids or sugar and exhale electrons. There are dozens of species of microbes that can do this, including bacteria belonging to genera such as Geobacter and Shewanella. There are many others.

But 200 milliwatts per square meter is not a lot of juice: enough to charge a mobile phone, maybe, or keep an LED nightlight going—or, perhaps, serve as a power source for sensors or irrigation switches. “As in so many things, it comes down to the economics,” says Bruce Logan, an environmental engineer at Penn State who wrote a 2007 book, Microbial Fuel Cells.

A decade ago Palo Alto engineers launched the MudWatt, a self-contained kit that could light a small LED. It’s mostly marketed as a school science project. But even now, some 760 million people do not have reliable access to electricity. “In remote areas, soil microbial fuel cells with higher conversion and power management efficiencies would fare better than batteries,” says Sheela Berchmans, a retired chief scientist of the Central Electrochemical Research Institute in Tamil Nadu, India.

Korneel Rabaey, professor in the department of biotechnology at the University of Ghent, in Belgium, says electrochemical micro-power sources—a category that now includes the Bactery battery—is gaining buzz in resource recovery, for uses such as extracting pollutants from wastewater, with electricity as a byproduct. “You can think of many applications that don’t require a lot of power,” he says, “But where sensors are important.”

If you’ve ever tried to get a bandage to stick to your elbow, you understand the difficulty in creating wearable devices that attach securely to the human body. Add digital electronic circuitry, and the problem becomes more complicated. Now include the need for the device to fix breaks and damage automatically—and let’s make it biodegradable while we’re at it—and many researchers would throw up their hands in surrender.

Fortunately, an international team led by researchers at Korea University Graduate School of Converging Science and Technology (KU-KIST) persevered, and has developed conductor materials that it claims are stretchable, self-healing, and biocompatible. Their project was described this month in the journal Science Advances.

The biodegradable conductor offers a new approach to patient monitoring and delivering treatments directly to the tissues and organs where they are needed. For example, a smart patch made of these materials could measure motion, temperature, and other biological data. The material could also be used to create sensor patches that can be implanted inside the body, and even mounted on the surface of internal organs. The biocompatible materials can be designed to degrade after a period of time, eliminating the need for an invasive procedure to remove the sensor later.

“This new technology is a glimpse at the future of remote healthcare,” says Robert Rose, CEO of Rose Strategic Partners, LLC. “Remote patient monitoring is an industry still in its early stages, but already we are seeing the promise of what is not only possible, but close on the horizon. Imagine a device implanted at a surgical site to monitor and report your internal healing progress. If it is damaged, the device can heal itself, and when the job is done, it simply dissolves. It sounds like science fiction, but it’s now science fact.”

Self-healing elastics

After being cut a ribbonlike film was able to heal itself in about 1 minute.Suk-Won Hwang

The system relies on two different layers of flexible material, both self-healing: one is for conduction and the other is an elastomer layer that serves as a substrate to support the sensors and circuitry needed to collect data. The conductor layer is based on a substance known by the acronym PEDOT:PSS, which is short for Poly(3,4-ethylenedioxythiophene) polystyrene sulfonate. It’s a conductive polymer widely used in making flexible displays and touch panels, as well as wearable devices. To increase the polymer’s conductivity and self-healing properties, the research team used additives including polyethylene glycol and glycol, which helped increase conductivity as well as the material’s ability to automatically repair damage such as cuts or tears.

In order to conform to curved tissues and survive typical body motion, the substrate layer must be extremely flexible. The researchers based it on elastomers that can match the shape of curved tissues, such as skin or individual organs.

These two layers stick to each other, thanks to chemical bonds that can connect the polymer chains of the plastic films in each layer. Combined, these materials create a system that is flexible and stretchable. In testing, the researchers showed that the materials could survive stretching up to 500 percent.

The self-healing function arises from the material’s ability to reconnect to itself when cut or otherwise damaged. This self-healing feature is based on a chemical process called disulfide metathesis. In short, polymer molecules containing pairs of linked sulfur atoms, called disulfides, have the ability to reform themselves after being severed. The phenomenon arises from a chemical process called disulfide-disulfide shuffling reactions, in which disulfide bonds in the molecule break and then reform, not necessarily between the original partners. According to the KU-KIST researchers, after being cut, their material was able to recover conductivity in its circuits within about two minutes without any intervention. The material was also tested for bending, twisting, and its ability to function both in air and under water.

This approach offers many advantages over other flexible electronics designs. For example, silver nanowires and carbon nanotubes have been used as the basis for stretchable devices, but they can be brittle and lack the self-healing properties of the KU-KIST materials. Other materials such as liquid metals can self-heal, but they are typically difficult to handle and integrate into wearable circuitry.

As a demonstration, the team created a multifunction sensor that included humidity, temperature, and pressure sensors that was approximately 4.5 square centimeters. In spite of being cut in four separate locations, it was able to heal itself and continue to provide sensor readings.

Implant tested in a rat

To take the demonstration a step further, the researchers created a 1.8-cm² device that was attached to a rat’s bladder. The device was designed to wrap around the bladder and then adhere to itself, so no adhesives or sutures were required to attach the sensor onto the bladder. The team chose the bladder for their experiments because, under normal conditions, its size can change by 300 percent.

The device incorporated both electrodes and pressure sensors, which were able to detect changes in the bladder pressure. The electrodes could detect bladder voiding, through electromyography signals, as well as stimulate the bladder to induce urination. As with the initial demonstration, intentional damage to the device’s circuitry healed on its own, without intervention.

The biocompatible and biodegradable nature of the materials is important because it means that devices fabricated with them can be worn on the skin, as well as implanted within the body. The fact that the materials are biodegradable means that implants would not need a second surgical procedure to remove them. They could be left in place after serving their purpose, and they would be absorbed by the body.

According to Suk-Won Hwang, assistant professor at KU-KIST, a few hurdles remain on the path to commercialization. “We need to test the biocompatibility of some of the materials used in the conductor and substrate layers. While scalable production appears to be feasible, the high cost of disulfide derivatives might make the technology too expensive, aside from some special applications,” he says. “Biocompatibility testing and material synthesis optimization will take one to two years, at least.”

Emteq Labs wants eyewear to be the next frontier of wearable health technology.

The Brighton, England-based company introduced today its emotion-sensing eyewear, Sense. The glasses contain nine optical sensors distributed across the rims that detect subtle changes in facial expression with more than 93 percent accuracy when paired with Emteq’s current software. “If your face moves, we can capture it,” says Steen Strand, whose appointment as Emteq’s new CEO was also announced today. With that detailed data, “you can really start to decode all kinds of things.” The continuous data could help people uncover patterns in their behavior and mood, similar to an activity or sleep tracker.

Emteq is now aiming to take its tech out of laboratory settings with real-world applications. The company is currently producing a small number of Sense glasses, and they’ll be available to commercial partners in December.

The announcement comes just weeks after Meta and Snap each unveiled augmented reality glasses that remain in development. These glasses are “far from ready,” says Strand, who led the augmented reality eyewear division while working at Snap from 2018 to 2022. “In the meantime, we can serve up lightweight eyewear that we believe can deliver some really cool health benefits.”

Fly Vision Vectors

While current augmented reality (AR) headsets have large battery packs to power the devices, glasses require a lightweight design. “Every little bit of power, every bit of weight, becomes critically important,” says Strand. The current version of Sense weighs 62 grams, slightly heavier than the Ray-Ban Meta smart glasses, which weigh in at about 50 grams.

Because of the weight constraints, Emteq couldn’t use the power-hungry cameras typically used in headsets. With cameras, motion is detected by looking at how pixels change between consecutive images. The method is effective, but captures a lot of redundant information and uses more power. The eyewear’s engineers instead opted for optical sensors that efficiently capture vectors when points on the face move due to the underlying muscles. These sensors were inspired by the efficiency of fly vision. “Flies are incredibly efficient at measuring motion,” says Emteq founder and CSO Charles Nduka. “That’s why you can’t swat the bloody things. They have a very high sample rate internally.”

Sense glasses can capture data as often as 6,000 times per second. The vector-based approach also adds a third dimension to a typical camera’s 2D view of pixels in a single plane.

These sensors look for activation of facial muscles, and the area around the eyes is an ideal spot. While it’s easy to suppress or force a smile, the upper half of our face tends to have more involuntary responses, explains Nduka, who also works as a plastic surgeon in the United Kingdom. However, the glasses can also collect information about the mouth by monitoring the cheek muscles that control jaw movements, conveniently located near the lower rim of a pair of glasses. The data collected is then transmitted from the glasses to pass through Emteq’s algorithms in order to translate the vector data into usable information.

In addition to interpreting facial expressions, Sense can be used to track food intake, an application discovered by accident when one of Emteq’s developers was wearing the glasses while eating breakfast. By monitoring jaw movement, the glasses detect when a user chews and how quickly they eat. Meanwhile, a downward-facing camera takes a photo to log the food, and uses a large language model to determine what’s in the photo, effectively making food logging a passive activity. Currently, Emteq is using an instance of OpenAI’s GPT-4 large language model to accomplish this, but the company has plans to create their own algorithm in the future. Other applications, including monitoring physical activity and posture, are also in development.

One Platform, Many Uses

Nduka believes Emteq’s glasses represent a “fundamental technology,” similar to how the accelerometer is used for a host of applications in smartphones, including managing screen orientation, tracking activity, and even revealing infrastructure damage.

Similarly, Emteq has chosen to develop the technology as a general facial data platform for a range of uses. “If we went deep on just one, it means that all the other opportunities that can be helped—especially some of those rarer use cases—they’d all be delayed,” says Nduka. For example, Nduka is passionate about developing a tool to help those with facial paralysis. But a specialized device for those patients would have high unit costs and be unaffordable for the target user. Allowing more companies to use Emteq’s intellectual property and algorithms will bring down cost.

In this buckshot approach, the general target for Sense’s potential use cases is health applications. “If you look at the history of wearables, health has been the primary driver,” says Strand. The same may be true for eyewear, and he says there’s potential for diet and emotional data to be “the next pillar of health” after sleep and physical activity.

How the data is delivered is still to be determined. In some applications, it could be used to provide real-time feedback—for instance, vibrating to remind the user to slow down eating. Or, it could be used by health professionals only to collect a week’s worth of at-home data for patients with mental health conditions, which Nduka notes largely lack objective measures. (As a medical device for treatment of diagnosed conditions, Sense would have to go through a more intensive regulatory process.) While some users are hungry for more data, others may require a “much more gentle, qualitative approach,” says Strand. Emteq plans to work with expert providers to appropriately package information for users.

Interpreting the data must be done with care, says Vivian Genaro Motti, an associate professor at George Mason University who leads the Human-Centric Design Lab. What expressions mean may vary based on cultural and demographic factors, and “we need to take into account that people sometimes respond to emotions in different ways,” Motti says. With little regulation of wearable devices, she says it’s also important to ensure privacy and protect user data. But Motti raises these concerns because there is a promising potential for the device. “If this is widespread, it’s important that we think carefully about the implications.”

Privacy is also a concern to Edward Savonov, a professor of electrical and computer engineering at the University of Alabama, who developed a similar device for dietary tracking in his lab. Having a camera mounted on Emteq’s glasses could pose issues, both for the privacy of those around a user and a user’s own personal information. Many people eat in front of their computer or cell phone, so sensitive data may be in view.

For technology like Sense to be adopted, Sazonov says questions about usability and privacy concerns must first be answered. “Eyewear-based technology has potential for a great future—if we get it right.”

Three ways health plans can engage, connect with, and delight their pregnant members to nurture goodwill, earn long-term trust, and foster loyal relationships that last.

The post Pregnant and Empowered: Why Trust is the Latest Form of Member Engagement appeared first on MedCity News.

Navigating the regulatory and ethical requirements of different medical data providers across many different countries, as well as safeguarding patient privacy, is a mammoth task that requires extra resources and expertise.  

The post AI is Revolutionizing Healthcare, But Are We Ready for the Ethical Challenges?  appeared first on MedCity News.

The vast majority of older adults want to age at home. To support that goal, doctors should encourage them to consider their care options — long before they need assistance.

The post Through Early Discussions About Elder Care, Doctors Can Empower Seniors to Age in Place appeared first on MedCity News.

Learn how to take simple x/y coordinates, and create map polygons shaped like holiday images, that can be plotted using SAS/Graph's PROC GMAP.

SAS admins need to know about these menu options that may not be available in SAS Visual Analytics Viewer.

The US Centers for Disease Control and Prevention said on Wednesday that slivered onions served on McDonald's, opens new tab Quarter Pounder hamburgers and other menu items were the likely source of an E. coli outbreak that sickened 90 people. The outbreak linked to Quarter Pounder was first reported on Oct 22, and slivered onions were suspected to be the source of the infections. The US Food and Drug Administration and the company have confirmed that Taylor Farms was the supplier for the affected locations, and it has since recalled several batches of yellow onions produced in a Colorado facility. The FDA on Wednesday said it had initiated inspections at a Taylor Farms processing center in Colorado, a state where 29 people have fallen ill due to the outbreak. An onion grower of interest in Washington state is also being investigated, the FDA added. The CDC said the number of infected people has risen by 15 people from 75 and 27 persons have been hospitalised due to the illness, which has already killed one person.

David Duchovny and Gillian Anderson didn't speak to each other for "weeks at a time" when they worked on The X Files. The 64-year-old actor and Gillian, 56, enjoyed huge success with the iconic sci-fi series — but the duo actually had a turbulent relationship for many years. David said on the Fail Better podcast: "There was a long time, working on the show, where we were just not even dealing with one another off-camera. And there was a lot of tension. Which didn't matter, apparently, for the work cause we're both f****** crazy, I guess. We could just go out there and do what we needed to do." Gillian was amazed that they achieved so much success while their off-screen relationship was so tense.

May 12, 2022

Commercial international port terminals owned and operated by Chinese firms provide dual-use capabilities to the People's Liberation Army during peacetime. They enable China to project power into critical regions worldwide by providing military logistics and intelligence networks.

Feb 28, 2023

Policymakers need to act now and place child welfare professionals, not law enforcement actors, at the border to effectively screen and interview migrant children. Information sharing practices need to be improved, with a movement away from paper documents that can easily get lost to an approach that is digital, secure, and accessible by the child, their guardian, their lawyer, and their doctor. Further, the enforcement processing facilities need to undergo an immediate infrastructural transformation with the addition of new design features that are necessary and sensitive to the majority demographic that are held within facilities—children and families.

These actions are doable and require no legislative action. Migrant children deserve decisive action to ensure that their health, safety, and well-being is not jeopardized as they seek refuge in the United States.

Pakistan's National Security Adviser to the Prime Minister, Mahmud Ali Durrani, on the 2008 bombing of the Indian Embassy in Kabul

‘India does not want to play into the hands of terrorists by shunning dialogue.'

In Ambassador Mulford's January 7 farewell call on External Affairs Minister Pranab Mukherjee, the Minister said he understood the seriousness of the error in releasing sensitive intelligence from the Mumbai terrorism investigations and pledged that the Ministry would not further disseminate that information.

The estranged DMK M.P. spoke about party's corrupt image & predicted its downfall; criticised ‘freebies'; praised Rahul Gandhi; was ‘very downbeat' about United Progressive Alliance's electoral prospects

Revelation contained in Kissinger-era documents obtained by WikiLeaks

While the BJP-led NDA won resoundingly in the 2019 Lok Sabha election, it has lost power in five major State assemblies since December 2018.

Among those on the list to be deported, the maximum 76 are from Haryana, followed by 56 from Punjab; 12 from Gujarat; five from Uttar Pradesh; four from Maharashtra ; two each from Kerala, Telengana and Tamil Nadu; and one each from Andhra Pradesh and Goa.

Who controls India’s water resources: Centre, States or both? How are inter-State river disputes settled? Who supplies drinking water to Indian citizens?

Jun 10, 2022

This book is intended to advance the next phase of the U.S.-Colombia relationship. In a rapidly changing world, the following chapters present a roadmap for a new type of engagement that challenges our ambitions and extends the ties that bind our countries. 

Oct 21, 2022

Colin L. Powell was a great American. A brilliant soldier, statesman and patriot, he devoted his life to public service, and he cherished the United States, his family and his many friends. While acknowledging America’s challenges, he drew inspiration from its noble purpose and promise. “America remains the last best hope of Earth,” he said in his 1994 Howard University commencement address “You are its inheritors, and its future is today placed in your hands.” The trajectory of his life—from humble beginnings as a Jamaican immigrant’s son growing up in the Bronx to the highest levels of government—is a true American dream. 

Jun 14, 2024

Owen R. Coté Jr., who exerted a profound influence on security studies as Co-Editor and later Editor of the Belfer Center journal International Security, died on June 8, 2024. He was 63. Owen was also the Principal Research Scientist and Associate Director of the Security Studies Program (SSP) at the Massachusetts Institute of Technology (MIT).

“All of us at the Belfer Center are saddened to learn of the passing of Owen Coté,” said Belfer Center Director Meghan O’Sullivan. “While he was based at MIT, he has been an integral part of our Center through his decades-long work with our signature publication, the journal International Security. Our hearts go out to his family, friends, and colleagues.”
 

Oct 6, 2020

Simon Saradzhyan writes that the benefits that discontinuing the war on Russia’s terms can generate for defending or advancing Russia’s vital interests will exceed the costs of doing so.

Dec 13, 2016

"Unlike the digital revolution that relied on pre-existing technologies, the new bioeconomy will involve more local research, teaching and commercialization. This will require greater involvement of local universities, especially those with an entrepreneurial inclination."

Dec 18, 2016

"2016 was a big year for agriculture in Africa with some notable 'wins' across the continent. One of the most important gains was the increased use of emerging technologies beyond the traditional use of mobile phones in agriculture. The range includes precision agriculture, sensors, satellites and drones."

Sep 8, 2023

Energy economist Severin Borenstein, Professor of the Graduate School at the Haas School of Business at the University of California, Berkeley, discussed the many significant challenges facing the nation’s electricity power sector in the latest episode of “Environmental Insights: Discussions on Policy and Practice from the Harvard Environmental Economics Program.

Dec 21, 2023

Artificial intelligence is poised to remove human limitations inherent in many systems, including information and logistical bottlenecks in decision-making.

 

Mar 13, 2024

Social media’s unregulated evolution over the past decade holds a lot of lessons that apply directly to AI companies and technologies.