Pharmaceuticals

Predicting how proteins will partner

Amy Keating models critical interactions that underlie most cellular functions.

March 28, 2012

Tablets produced by a prototype drug-manufacturing system built at MIT.

Continuous drug manufacturing offers speed, lower costs

New system developed by MIT researchers could help transform the pharmaceutical industry.

March 12, 2012

Professors Robert Langer, right, and Michael Cima pose for a portrait outside their labs at the David H. Koch Institute for Integrative Cancer Research.

Successful human tests for first wirelessly controlled drug-delivery chip

Clinical trial of the programmable, implantable device shows promise in treating osteoporosis.

February 16, 2012

Moving past trial and error

Richard Braatz applies math to design new materials and processes for drug manufacturing.

February 15, 2012

State and local officials joined representatives from MIT and Pfizer during the groundbreaking for 610 Main Street on Monday.

Digging for answers

MIT, Pfizer hold groundbreaking for new biomedical research facility in Kendall Square.

November 22, 2011

Making a Nobel-winning chemistry reaction even better

New catalyst offers greater control over the synthesis of organic cyclic compounds, including potential cancer drugs.

November 3, 2011

An architectural rendering of 610 Main Street.

Pfizer expands its research footprint in Cambridge

Announces lease of space in building being developed by MIT

September 1, 2011

Five companies join the Center for Biomedical Innovation's NEWDIGS program

Bristol‐Myers Squibb, Johnson & Johnson, Life Technologies, Pfizer and Quintiles will support initiatives in regulatory science and oncology innovation.

June 2, 2011

The periwinkle plant, also known as <em>Catharanthus roseus</em>, produces several compounds with medicinal properties, including the anticancer drug vinblastine.

More than just a pretty flower

MIT chemists engineer the periwinkle plant to produce compounds that could become more effective cancer drugs.

November 4, 2010

MIT engineers have developed a way to rapidly perform surgery on single nerve cells in the worm C. elegans. The white lines represent axons — long extensions of nerve cells that carry messages to other cells.

Nerve-cell regeneration quest is fast tracked

Microchip technology rapidly identifies compounds for regrowing nerves, in live animals.

October 12, 2010

Kristala Jones Prather, assistant professor in the Department of Chemical Engineering

Squeezing more production out of bacteria

MIT chemical engineers demonstrate a new way to dramatically boost bacteria’s manufacturing abilities.

September 21, 2010

An elephant ear sponge (Agelas clathrodes).

From sponges, a potential cancer drug

MIT chemists have synthesized a family of natural compounds that have shown promise in killing tumor cells.

August 30, 2010

Why saliva forms beads on a string

Researchers’ solution to longstanding mystery could enable better inkjet printing and drug-dispensing systems.

August 11, 2010

An artist's rendering of the new Koch Institute building.

MIT’s Koch Institute in strategic partnership with Ortho-McNeil-Janssen Pharmaceuticals

Organizations will collaborate in multiple areas of oncology research and technology development.

June 28, 2010

In this model, trifluoromethyl is attached to a ring of six carbons (known as a benzene ring). The gray balls represent carbon atoms, and the blue balls represent fluorine. (Hydrogen atoms attached to the benzene ring are not shown.)

An easier way to synthesize new drug candidates

MIT chemists’ answer to long-standing problem could have a big impact on pharmaceutical business.

June 25, 2010

MIT News | Massachusetts Institute of Technology

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