Koch Institute

A bright fluorescent quantum defect can be a tool to upgrade current biomedical imaging systems, looking at even smaller tumors through the defect emission.

A single-photon source you can make at home

Shining light through household bleach creates fluorescent quantum defects in carbon nanotubes for quantum computing and biomedical imaging.

August 9, 2019

Yearlong hackathon engages nano community around health issues

Hacking Nanomedicine kicks off a series of events to develop an idea over time.

August 9, 2019

MIT researchers have developed a new model of gene control, in which the cellular machinery that transcribes DNA into RNA forms specialized droplets called condensates.

Study furthers radically new view of gene control

Along the genome, proteins form liquid-like droplets that appear to boost the expression of particular genes.

August 8, 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 researchers have developed a noninvasive hydration sensor that is based on the same technology as MRI, but, unlike MRI scanners, it can fit in a doctor’s office.

Hydration sensor could improve dialysis

Noninvasive device could benefit patients with kidney disease, congestive heart failure, or dehydration.

July 24, 2019

MIT alumnus Steven Keating has died. Keating conducted research on additive manufacturing and synthetic biology. He developed a technology that could 3-D print the foundation of a building.

Celebrating a curious mind: Steven Keating 1988-2019

Steven Keating SM'12, PhD '16 inspired millions with his research-driven approach to battling cancer and his advocacy for open patient health data.

July 22, 2019

A cancer cell (blue, center) can elude attack by immune cells (such as these T cells shown in green and red) by sequestering the mutated proteins that would otherwise signal its identity as a "foreign" invader away from the cell’s surface.

Unmasking mutant cancer cells

A new dosing regimen for an old cancer drug shows new promise as an immunotherapy.

July 17, 2019

MIT engineers have devised a way to stimulate T cells (shown in red) to attack tumors by activating them with a vaccine that accumulates in the lymph nodes. B cells in the lymph nodes are labeled in blue.

New vaccine strategy boosts T-cell therapy

Super-charging a treatment for leukemia also makes it effective on solid tumors.

July 11, 2019

Top: A cell undergoing normal cell division (mitosis). Bottom row: Defects in the mitotic spindle produced by two drugs that interfere with cancer cell division. These defects can lead to cell death.

Cancer biologists identify new drug combo

Two drugs that block cell division synergize to kill tumor cells.

July 10, 2019

MIT professors Dina Katabi (left) and Angelika Amon are among the 2019 Carnegie Corporation "Great Immigrants, Great Americans."

Angelika Amon and Dina Katabi named Carnegie Corporation “Great Immigrants”

MIT biologist and electrical engineer are two of 38 naturalized U.S. citizens honored for contributions to American society.

July 2, 2019

A new technique prevents cell-killing proteins called cytokines from escaping once they have been injected into a tumor.

Confining cell-killing treatments to tumors

Attaching a Velcro-like molecule may prevent immune proteins called cytokines from leaking out of cancerous tissue after injection.

June 26, 2019

MIT engineers have devised a way to incorporate crystallized immunosuppressant drugs into devices carrying encapsulated islet cells, which could allow them to be implanted as a long-term treatment for diabetes.

A better way to encapsulate islet cells for diabetes treatment

Crystallized drug prevents immune system rejection of transplanted pancreatic islet cells.

June 24, 2019

MIT biologists have identified a drug that blocks a DNA repair pathway used by cancer cells, making them more susceptible to chemotherapy drugs that damage DNA.

Drug makes tumors more susceptible to chemo

Compound that knocks out a DNA repair pathway enhances cisplatin treatment and helps prevent drug-resistance.

June 6, 2019

Merging machine learning and the life sciences

Through computing, senior and Marshall Scholar Anna Sappington seeks answers to biological questions.

May 18, 2019

Robert Langer wins 2019 Dreyfus Prize for Chemistry in Support of Human Health

Institute professor is honored for transformative work in drug delivery and tissue engineering.

May 14, 2019

MIT News | Massachusetts Institute of Technology

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