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Pharmaceuticals

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schematics and photographs of nanoscale droplets loaded with an active ingredient.

A new platform for controlled delivery of key nanoscale drugs and more

The novel approach, developed by MIT chemical engineers, could help create more efficient consumer products, including drugs, cosmetics, and food.

August 28, 2020

An algorithm designed to predict the biological effects of 800 “inactive” pill ingredients uncovered thousands of previously undocumented effects. In this visualization of the researchers’ results, inactive ingredients are shown in blue and their protein targets, in red. The number of predicted, and yet-to-be-verified, interactions (gray edges) outnumber those documented so far (in black).

“Inactive” pill ingredients could raise the dose of your medication

With help from artificial intelligence, researchers identify hidden power of vitamin A and ordinary chewing gum glaze.

March 17, 2020

Guided by artificial intelligence and powered by a robotic platform, a system developed by MIT researchers moves a step closer to automating the production of small molecules.

Guided by AI, robotic platform automates molecule manufacture

New system could free bench chemists from time-consuming tasks, may help inspire new molecules.

August 8, 2019

MIT Professor Emeritus Marcus Karel

Marcus Karel, food science pioneer and professor emeritus of chemical engineering, dies at 91

A giant in the field of food science and engineering, Karel developed important innovations in food packaging as well as food systems for long-term space travel.

August 2, 2019

Speeding up drug discovery for brain diseases

Whitehead Institute team finds drugs that activate a key brain gene; initial tests in cells and mice show promise for rare, untreatable neurodevelopmental disorder.

July 31, 2019

Cancer cells targeted with nanoparticles built in the Hammond laboratory

MIT “Russian Doll” tech lands $7.9M international award to fight brain tumors

Researchers from MIT's Koch Institute will work with teams in the UK and Europe to use nanoparticles to carry multiple drug therapies to treat glioblastoma.

July 26, 2019

MIT chemical engineers have devised a way to convert liquid nanoemulsions into solid gels. These gels (red) form almost instantaneously when drops of the liquid emulsion enter warm water.

“Nanoemulsion” gels offer new way to deliver drugs through the skin

Novel materials made with FDA-approved components could deliver large payloads of active ingredients.

June 21, 2019

Most pills and capsules, whether over-the-counter or prescription, include components other than the actual drug. A new study shows those components are made of ingredients that can cause allergic reactions or irritations in certain patients.

“Inactive” ingredients may not be, study finds

Most pills contain compounds with potential to cause allergic reactions or discomfort in some patients.

March 13, 2019

Alto Pharmacy offers free, same-day medication delivery to customers.

Redesigning pharmacies with the consumer in mind

Alto Pharmacy uses software and an innovative operations model to improve access to medication.

February 13, 2019

Using a computer modeling approach that they developed, MIT biologists identified three different proteins that can bind selectively to each of three similar targets, all members of the Bcl-2 family of proteins.

Computer model offers more control over protein design

New approach generates a wider variety of protein sequences optimized to bind to drug targets.

October 15, 2018

MIT chemical engineers have devised a new desktop machine that can be easily reconfigured to manufacture small amounts of different biopharmaceutical drugs.

A new way to manufacture small batches of biopharmaceuticals on demand

System can be rapidly reconfigured to produce a variety of protein drugs.

October 1, 2018

MIT researchers have developed an automated chemical synthesis system that can take over many of the more tedious aspects of chemical experimentation, freeing up chemists to spend more time on the more analytical and creative aspects of their research.

Plug-and-play technology automates chemical synthesis

System makes it easier to produce new molecules for myriad applications.

September 20, 2018

MIT researchers have developed a machine-learning model that better selects molecule candidates for therapeutics, while also allowing for automated modification of the molecular structure for higher potency. The innovation has potential to speed up drug development.

Automating molecule design to speed up drug development

Machine-learning model could help chemists make molecules with higher potencies, much more quickly.

July 6, 2018

Delta Electronics Professor of Computer Science Regina Barzilay (left) gives a tutorial on the fundamentals of machine learning.

Applying machine learning to challenges in the pharmaceutical industry

MIT researchers and industry form new consortium to aid the drug discovery process.

May 17, 2018

MIT spinout Sigilon Therapeutics has partnered with pharmaceutical giant Eli Lilly and Company to develop implantable medical devices that act like “living drug factories,” encapsulating engineered cells that live in the body for months, or years, and produce insulin. Down the road, cells may also be engineered to secrete other hormones, proteins, and antibodies.

“Living drug factories” may one day replace injections

Startup develops implantable, encased cells that live in the body and secrete insulin and other therapeutics.

May 16, 2018