AI in Medicine Is Overhyped
AI models for health care that predict disease are not as accurate as reports might suggest. Here’s why......»»
European XFEL elicits secrets from an important nanogel
An international team at the world's largest X-ray laser European XFEL at Schenefeld near Hamburg has scrutinized the properties of an important nanogel that is often used in medicine to release drugs in a targeted and controlled manner at the desire.....»»
Researchers set new standards for nanoparticles, helping patients with MS, ALS, Parkinson"s disease
Is it possible for nanoparticles to go through the digestive system and deliver medicine directly to the brain tissue? Researchers from Michigan State University say yes, and their latest findings are expected to benefit patients with neurodegenerati.....»»
A powerful technique for tracking a protein"s fleeting shape changes
Researchers at Weill Cornell Medicine have developed a powerful, new technique to generate "movies" of changing protein structures and speeds of up to 50 frames per second......»»
Nanoparticle delivery of FZD4 to lung endothelial cells inhibits lung cancer progression and metastases
A recent study from the lab of Tanya Kalin, MD, Ph.D., professor of Child Health and Internal Medicine at the University of Arizona College of Medicine—Phoenix, has shown potential to improve therapeutic outcomes for patients suffering from lung ca.....»»
Study proposes large-scale biomanufacturing workflow to produce natural killer cells and extracellular vesicles
A team of uOttawa Faculty of Medicine researchers have developed a path to a biomanufacturing process that could potentially transform how Canada generates immunotherapeutic materials—specifically natural killer cells and extracellular vesicles (EV.....»»
Researchers resolve old mystery of how phages disarm pathogenic bacteria
Bacterial infections pose significant challenges to agriculture and medicine, especially as cases of antibiotic-resistant bacteria continue to rise. In response, scientists at Texas A&M AgriLife Research are elucidating the ways that bacteria-infecti.....»»
A new coating method in mRNA engineering points the way to advanced therapies
Medicine can help to treat certain illnesses; for example, antibiotics can help overcome infections, but a new, promising field of medicine involves providing our body with the "blueprint" for how to defeat illnesses on its own......»»
A promising target for new RNA therapeutics now accessible
Only recently, a new era in medicine began with the first RNA vaccines. These active substances are modified RNAs that trigger immune responses of the human immune system. Another approach in RNA medicine targets the body's own RNA and its protein mo.....»»
Scientists propose AI framework for mass-manufacturing of stem cells for regenerative medicine
Some stem cells have a natural ability to divide into more cells and develop into various specialized blood, bone or muscle cells. These pluripotent stem cells offer great promise for new cell treatments and regenerative medicine, researchers say......»»
Landmark advances in employment reframe the outlook for people with disabilities in post-pandemic era
A recent commentary published in The Journal of Spinal Cord Medicine highlights the unprecedented upward trend in employment for people with disabilities, accelerated by the COVID-19 pandemic's economic recovery phase......»»
Uncovering the mysteries of microproteins
Northwestern Medicine scientists have developed a method to identify and characterize microproteins—a development that opens the door for understanding physiology and disease at a molecular level of detail not previously possible, according to find.....»»
Australian Timor ponies have genetic diversity necessary for a breeding program, researchers find
Researchers at the Texas A&M School of Veterinary Medicine & Biomedical Sciences (VMBS) collaborated with Australian geneticists to determine whether the country's population of Timor ponies are genetically diverse enough to support a designated bree.....»»
Advancing tissue engineering with shape memory hydrogels
One of the primary goals in the field of tissue engineering and regenerative medicine is the development of artificial scaffolds that can serve as substitutes for damaged tissue. These materials must ideally resemble natural tissue and must have the.....»»
Automated high-throughput sorting of living cells using laser light and AI
Tests on living cell cultures are becoming increasingly important for personalized medicine, drug development and clinical research. The Aachen-based Fraunhofer Institutes for Laser Technology ILT and for Production Technology IPT have developed an A.....»»
Virtual tool for studying gene function aims to reduce number of animals used for genetic testing
Researchers at the Texas A&M University School of Veterinary Medicine and Biomedical Sciences (VMBS) have developed a new virtual tool that will allow scientists to study the function of genes more efficiently and hopefully reduce the number of anima.....»»
Vision Pro helps surgeons plan and visualize operations carried out with a surgical robot
Vision Pro is being used for a wide range of applications in the field of health and medicine, with Apple highlighting an app which helps surgeons plan and visualize operations which are carried out with the help of a surgical robot. The company s.....»»
New study finds limited correlation between canine lymphoma and proximity to environmental toxins
As awareness of the health risks associated with radon and fracking exposure in connection to cancer continues to rise in human medicine, a recent study explored these ties with multicentric lymphoma, a prevalent canine cancer. Surprisingly, the stud.....»»
Hydrogel spheres compose a microporous structure for localized mRNA delivery
In a significant leap forward in the realm of regenerative medicine, a team at the Terasaki Institute for Biomedical Innovation has introduced a pioneering approach to mRNA therapy using microspheres made of gelatin methacryloyl (GelMA)—a gelatin-b.....»»
Medicinal plant research unveils the genetic blueprint of Chaenomeles speciosa
Chaenomeles speciosa (2n=34), a diploid species within the Rosaceae family, has been traditionally used in Chinese medicine for its various health benefits. To date, the lack of genomic sequence and genetic studies has impeded efforts to improve its.....»»
Change in gene code may explain how human ancestors lost tails
A genetic change in our ancient ancestors may partly explain why humans don't have tails like monkeys, finds a new study led by researchers at NYU Grossman School of Medicine......»»