Prof. Richard Hynes is one of the winners of this year’s Lasker Award, reports Benjamin Mueller for The New York Times, for his work describing how “cells bind to their surrounding networks of proteins and other molecules — findings that pointed the way toward treatments for a number of diseases.”
New Scientist reporter Alex Wilkins writes that MIT researchers have developed a robotic pill that can propel itself through mucus in the intestines and could enable some injection-only medications to be taken orally. “The pill is 2.5-centimeters long and 1-centimeter wide – about the size of a large multivitamin – and encased in a gelatin capsule that dissolves in stomach acid,” writes Wilkins. “The pH in the lower intestine activates the motor, which is powered by a small battery.”
Prof. Richard Hynes is one of three honorees for the Albert Lasker Basic Medical Research Award, reports Maddie Burakoff for the AP. Hynes and his fellow awardees “helped launch the field of integrin research, which has since led to new strategies for treating diseases,” writes Burakoff.
Prof. Richard Hynes is one of the three recipients of the 2022 Albert Lasker Basic Medical Research Award for his contributions to the field of integrin research, reports Martin Finucane for The Boston Globe. Hynes and his colleagues “provided a greater understanding of the diseases that can result when integrin function is perturbed.”
Prof. Edward Boyden has developed a new imaging technique called expansion-revealing microscopy that can reveal tiny protein structures in tissues, reports The Economist. “Already his team at MIT has used it to reveal detail in synapses, the nanometer-sized junctions between nerve cells, and also to shed light on the mechanisms at play in Alzheimer’s disease, revealing occasional spirals of amyloid-beta protein around axons, which are the threadlike parts of nerve cells that carry electrical impulses.”
Doctoral research specialist Morteza Sarmadi speaks with Emily Henderson from News Medical Life Sciences about his work with Prof. Robert Langer and research scientist Ana Jaklenec in developing microparticles that are able to deliver self-boosting vaccines. “We believe this technique can significantly reduce the need to visit a healthcare provider to receive booster shots, a major challenge in remote areas without sophisticated healthcare resources,” says Sarmadi.
Researcher Hojun Li and his team have developed a new Covid-19 at-home test that looks “specifically at the levels of neutralizing antibodies and either give a precise level or a ‘low,’ ‘medium,’ ‘high’ reading, providing more actionable information,” reports Karen Weintraub for USA Today.
Reuters reporter Nancy Lapid writes that MIT researchers have developed an at-home test that can measure a person’s antibody levels to the virus that causes Covid-19. The test could someday “help people know how protected they are against infection and what kinds of precautions they need to take,” writes Lapid.
Daily Beast reporter Tony Ho Tran writes that a new paper test developed by MIT researchers could be used to help determine a person’s immune response to Covid-19. “The researchers believe that the new test can not only help folks find out if they should get boosted,” writes Tran, “but also help the most vulnerable populations make sure they’re protected against the coronavirus, and help people make more informed decisions on what kinds of activities they should feel safe doing.”
Boston.com reporter Madeleine Aitken writes that MIT researchers have created a new blood test that can measure immune protection against Covid-19. The new test measures the “level of neutralizing antibodies in a blood sample, using the same type of ‘lateral flow’ technology as antigen tests,” writes Aitken.
Boston Herald reporter Rick Sobey writes that MIT researchers have developed a blood test that can predict Covid-19 immunity. “The MIT researchers created a paper test that measures the level of neutralizing antibodies in a blood sample, which could help people decide what protections they should take against infection,” writes Sobey. “Their test uses the same type of 'lateral flow' technology as most rapid antigen tests for Covid.”
Forbes contributor Russell Flannery spotlights how Prof. Tyler Jacks has “made a mark in cancer work not only by his research but his ability to bring different organizations together.” Jacks discussed the Biden administration’s “Cancer Moonshot” initiative and noted that: “Having specific goals and an action plan for cancer is important. Having a strategy about how to approach the cancer problem is equally important.”
Scientists at MIT are developing a self-boosting vaccine that can provide multiple doses of a vaccine via a single injection, reports Darko Manevski for Newsweek. The technology “could be particularly useful for administering childhood vaccinations in regions where people do not have regular access to medical care,” writes Manevski.
MIT scientists are developing self-boosting vaccine technology that could allow people to receive all of their vaccine doses in one shot, reports The Economist. This technology “would be a game-changer, not only for future pandemics but also for vaccination programs in remote regions where it is harder to deliver boosters,” The Economist notes.
The Boston Globe highlights Robert Buderi’s new book, “Where Futures Converge: Kendall Square and the Making of a Global Innovation Hub.” Buderi features the Future Founders Initiative, an effort by Prof. Sangeeta Bhatia, President Emerita Susan Hockfield and Prof. Emerita Nancy Hopkins aimed at increasing female entrepreneurship.