Boston Globe reporter Jonathan Saltzman writes about how MIT alumnus Bernat Olle’s startup, Vedanta Biosciences, Inc., is looking to “collect a sample of every type of bacteria that lives in the gut.” The hope is to one day use what’s learned from this ‘library’ to help treat diseases.
Prof. Andrew Lo speaks with Lisa Mullins of WBUR’s All Things Considered about investing in biotech. Lo explains that, “if we can use finance to reduce the risk, we will actually be able to bring lots more capital into the industry and be able to get therapies to patients faster.”
Elise Takahama writes for The Boston Globe that MIT researchers have developed a new technique to create “xenoproteins,” manmade proteins that could be used to battle infectious diseases like Ebola. Unlike drugs developed with natural proteins, the xenoproteins, “are more stable, easier to administer, and manufactured more quickly,” Takahama explains.
Researchers have developed a microfluidic platform called “physiome on a chip”, which allows them to determine how certain drugs will affect up to 10 different organs. “Because the animal and human immune systems are different, [drug] testing is difficult in non-human trials,” writes Allen Cone for UPI, “but [this] system could help with that.”
Prof. Linda Griffith has created a “complex platform where researchers can put up to 10 organ tissues in separate compartments, regulating the flow of substances and medications between them in real time,” to determine how each organ will react, writes Devin Coldewey for TechCrunch. The scale of this model “represents a huge jump in the capabilities of this kind of system.”
Prof. Linda Griffith has developed ten miniature models of human organs “to create the closest we’ve come yet to a human-on-a-chip,” writes Jessica Hamzelou for New Scientist. “This is still only a minimal representation of a human,” said Griffith, but this kind of system could eventually eliminate the need for animal testing.
MIT researchers have developed a new capsule that allows HIV medication to be delivered over the course of a week, and could allow patients to forgo daily pills, reports Ed Cara for Gizmodo. Researchers also found that using this method for the pre-exposure pill, “would manifest in approximately a 20 per cent increase in efficacy” for weekly dosage compared to the daily regimen.
HuffPost reporter Sophie Gallagher writes that MIT researchers have developed a new capsule that would allow patients to take a week’s worth of HIV medications in one dose. The researchers believe that, “the innovation could improve the efficacy of HIV preventative treatment by approximately 20%.”
MIT researchers have developed a new slow-release capsule that could free HIV patients from having to take a daily dose of medication, according to the BBC. “Changing a medication so it only needs to be taken once a week rather than once a day should be more convenient and improve compliance,” explains research affiliate Giovanni Traverso.
UPI reporter Alan Mozes writes that MIT researchers have developed a new capsule that could be used to deliver a week’s worth of HIV medications in a single dose. “The new pill sits in the stomach for a full week, as each of seven pill compartments opens up, one-by-one, to deliver a 24-hour dose of three HAART drugs,” Mozes explains.
BBC News reporter James Gallagher writes that MIT researchers have developed a new technology that could eventually enable doctors to administer multiple vaccines in one shot.
Guardian reporter Nicola Davis writes that MIT researchers have developed a new approach that could be used to deliver multiple vaccines in one injection. Davis explains that the technique could prove useful in developing countries, “potentially allowing all childhood vaccines and their boosters to be given in one shot.”
MIT researchers have developed a new way of creating drug-carrying particles that could allow multiple doses of a vaccine to be delivered over an extended period of time, reports Matt Reynolds for New Scientist. “The technology could eventually be used to create ‘omni-vaccines’ that protect against a whole host of diseases in one shot.”
Boston Magazine reporter Rowan Walrath writes that MIT researchers have developed a new technique that could be used to deliver multi-drug vaccines. The researchers developed a new method for “designing customizable, three-dimensional microparticles that resemble minuscule coffee cups. Each cup…contains a drug or vaccine ‘library’ that can be released at multiple points over an extended period of time.”
During a panel discussion during the Koch Institute’s 16th Annual Cancer Research Symposium, participants discussed how the convergence of biology and engineering could accelerate treatments for cancer and other diseases, writes Robert Weisman for the Boston Globe. “To my mind, this is the 21st century’s innovation story,” said President Emerita Susan Hockfield.