A randomized, phase III clinical trial conducted has demonstrated that the addition of crenolanib to salvage chemotherapy significantly improves outcomes in adults with AML harboring FLT3 mutations.
An abstract is unavailable.
Category: biotech/medical
One pull of a string is all it takes to deploy these complex structures
MIT researchers have developed a new method for designing 3D structures that can be transformed from a flat configuration into their curved, fully formed shape with only a single pull of a string.
The technique could enable the rapid deployment of a temporary field hospital at the site of a disaster such as a devastating tsunami—a situation where quick medical action is essential to save lives.
The researchers’ approach converts a user-specified 3D structure into a flat shape composed of interconnected tiles. The algorithm uses a two-step method to find the path with minimal friction for a string that can be tightened to smoothly actuate the structure.
Neurologists’ Expertise Drives Significant Downstream Revenue in Health Care Systems
A new Medicare study reveals that neurologists generate substantially more downstream revenue when treating common neurologic conditions than non-neurologists, mainly because neurologists use more in-depth diagnostics and treatment strategies.
Neurologists generate significantly greater downstream revenue while treating common neurologic diseases than non-neurologist physicians, underscoring their clinical and financial importance to health systems, an analysis shows.
The report, published in October in Neurology Clinical Practice, revealed that neurologist-led care generated up to 519 percent more downstream revenue than non-neurologists did, adding approximately $180 million to downstream revenue totals. For autoimmune neuromuscular diseases alone, neurologist-led care generated $58.7 million in downstream revenue compared to $9.5 million from non-neurologists. This increased revenue, experts note, translates to better outcomes for patients with neurologic conditions.
Why Your Lifespan Could Be Thousands of Years — New DNA Research Explained
Can humans live for thousands of years? New DNA and longevity research suggests that aging may not be fixed—it may simply be the result of imperfect cellular repair. In this video, we explore how DNA damage, genetic repair mechanisms, and modern longevity science are reshaping our understanding of human lifespan.
This content is based on current research from USA and Europe, focusing on emerging breakthroughs in genetics, DNA repair therapies, and anti-aging science.
If you’re interested in health, biology, or the future of human longevity, this video is for you.
Disclaimer:
This video is for educational purposes only, is not intended to diagnose, treat, or cure any condition, and does not replace professional medical advice. Always consult a qualified healthcare provider for guidance related to your health.
#LongevityScience.
#DNARepair.
#AntiAging.
#GeneticsResearch.
#HealthFacts.
#BioLogicHealth.
#ScienceExplained.
#HealthyAging
Oral Medications for Treating Agitation in a Safety Net Emergency Department
In this quality improvement study, emergency physicians successfully adopted oral medications for treating agitation, primarily from intoxication.
Question Can emergency physicians adopt using oral medications as first-line treatment for agitation primarily from intoxication?
Findings In this quality improvement study evaluating 460 600 ED encounters, the proportion of patients receiving their first sedating medication orally increased from 7% to 31% after 1 year of the intervention, while time to adequate sedation and adverse events, measured prospectively during implementation, were not different between oral and intramuscular routes.
2025 FDA approvals
Lots of interesting information! The Zevaskyn (“a first cell-sheet-based gene therapy”) approval for treating epidermolysis bullosa (EB) is particularly uplifting. Back in high school, I knew someone with EB. It is a devastating disease. On the less happy side, an AAV9 therapy and an oncolytic virus therapy were rejected this year. [ https://www.nature.com/articles/d41573-026-00001-z](https://www.nature.com/articles/d41573-026-00001-z)
The US FDA approved 46 new drugs in 2025, despite a tumultuous year at the regulatory agency.
Antibody Therapy Eradicates Traces of Multiple Myeloma in Preliminary Trial
Treatment with an immune and cancer cell-targeting antibody therapy eradicates residual traces of the blood cell cancer multiple myeloma, according to interim results from a clinical trial conducted by researchers at Sylvester Comprehensive Cancer Center, part of University of Miami Miller School of Medicine.
None of the 18 patients who completed up to six cycles of treatment with the antibody linvoseltamab had detectable disease on highly sensitive tests. This preliminary success suggests linvoseltamab, a bispecific antibody, could allow patients to avoid bone marrow transplants, which involve intense, high-potency chemotherapy. It also points to the long-term possibility of improving patients’ odds against this disease.
Lead researcher Dickran Kazandjian, M.D., a Sylvester physician and professor in the Myeloma Division at the Miller School, presented updated results today at the American Society of Hematology meeting in Orlando. Dr. Kazandjian conducted the research in collaboration with C. Ola Landgren, M.D., Ph.D., director of Sylvester Myeloma Institute.
“These patients received modern and effective, up-front treatment that eliminated 90% of their tumor,” said Dr. Kazandjian. “Usually, patients like these would receive high-dose chemotherapy and transplant. Instead, we give them a treatment with the drug linvoseltamab.”
Sylvester Comprehensive Cancer Center researchers are investigating ways to eradicate residual traces of multiple myeloma.
Stanford AI Experts Predict What Will Happen in 2026
After years of fast expansion and billion-dollar bets, 2026 may mark the moment artificial intelligence confronts its actual utility. In their predictions for the next year, Stanford faculty across computer science, medicine, law, and economics converge on a striking theme: The era of AI evangelism is giving way to an era of AI evaluation. Whether it’s standardized benchmarks for legal reasoning, real-time dashboards tracking labor displacement, or clinical frameworks for vetting the flood of medical AI startups, the coming year demands rigor over hype. The question is no longer “Can AI do this?” but “How well, at what cost, and for whom?”
Learn more about what Stanford HAI faculty expect in the new year.