Bioengineering and biotechnology

A new way to make bacteria more sensitive to antibiotics

SMART researchers find exposing bacteria to hydrogen sulfide can increase antimicrobial sensitivity in bacteria that do not produce H2S.

September 3, 2020

Time-lapse microscopic images of particle-based flow visualization inside a ventricular catheter. The image shows the confluence of three flows: the upstream flow coming from the catheter tip direction and two flows coming in via holes facing each other. Obtained from combined fluorescent microscopy videography and optical distortion correction via fluid index matching.

New design principle could prevent catheter failure in brain shunts

MIT researchers propose a design to overcome a major challenge in hydrocephalus catheters — clogging — by leveraging catheter geometry.

July 30, 2020

This graphic of a simulated disease outbreak illustrates how a rapid public health response triggered by PRESAGED's early warning of pathogen exposures can significantly reduce the spread of a disease.

Early warning of disease exposure could improve public health responses

Lincoln Laboratory researchers explore the impact of technology that detects a person's exposure to disease-causing pathogens before symptoms manifest.

March 19, 2020

A preserved heart muscle (1) is removed and replaced with a soft synthetic matrix (2). The two structures (inner cardiac tissue and synthetic matrix) (3) are bonded using a newly developed adhesive, TissueSil (4). The resulting piece is the biohybrid heart containing the preserved intracardiac structures and synthetic heart muscle (5).

Engineers design bionic “heart” for testing prosthetic valves, other cardiac devices

Device made of heart tissue and a robotic pumping system beats like the real thing.

January 29, 2020

Patterns of suspended 1-micrometer polystyrene particles in channel shapes are given by a new AI platform (interior boundary highlighted in white). An applied surface acoustic wave propagates from left to right.

Gift will allow MIT researchers to use artificial intelligence in a biomedical device

Device developed within the Department of Civil and Environmental Engineering has the potential to replace damaged organs with lab-grown ones.

January 29, 2020

"From Controversy to Cure: Inside the Cambridge Biotech Boom" documents how science, engineering, politics, the space race, and urban renewal transformed a desolate Kendall Square into the biotechnology hub we recognize today. At left is the undeveloped plot that is now home to Draper Laboratory, as seen from what is now Galileo Way, looking west, with 400 Technology Square at far left.

“From Controversy to Cure” documentary chronicles the biotech boom in Cambridge, Massachusetts

Film looks at how Kendall Square became a beacon for industries working on treatments for diseases like cancer, Alzheimer’s, and diabetes.

November 20, 2019

MIT engineers have developed robotic thread (in black) that can be steered magnetically and is small enough to work through narrow spaces such as the vasculature of the human brain. The researchers envision the technology may be used in the future to clear blockages in patients with stroke and aneurysms.

Robotic thread is designed to slip through the brain’s blood vessels

Magnetically controlled device could deliver clot-reducing therapies in response to stroke or other brain blockages.

August 28, 2019

Microfluidic devices, like those shown here, could be 3-D printed in space and used to construct DNA for insertion into bacteria, reprogramming them to make specific products.

Scientists look to synthetic biology and 3-D printing for life support in space

Do-it-yourself bio and maker communities can help NASA meet needs of long-distance missions.

July 26, 2019

With the IdPrism platform, algorithms encode genetic markers as bits to allow for fast DNA comparisons in forensics. “When Hollywood finds out about this, they’re going to change their scripts,” says Darrell Ricke of the Bioengineering Systems and Technologies Group. “The capabilities are so different from what’s out there.”

Record-breaking DNA comparisons drive fast forensics

Developed at MIT Lincoln Laboratory, IdPrism and its award-winning algorithms provide rapid analysis for complex forensic DNA samples.

June 26, 2019

PURExpress-ReAsH-Spinach In vitro Analysis (PERSIA) lets scientists directly and immediately measure transcription (RNA production) and translation (protein production) by using short RNA and peptide tags that produce a fluorescent signal.

A “biomultimeter” lets scientists measure RNA and protein production in real-time

Fluorescent tagging system can expedite the process of designing genes and personalizing medicine.

May 20, 2019

3Q: Susan Hockfield on a new age of living machines

Convergence research at MIT and beyond seeks new solutions for global challenges.

May 7, 2019

Sarah Gallop, who serves as chair of the board at the Kendall Square Association (KSA) and co-director of MIT’s Office of Government and Community Relations, speaks to the crowd at the KSA’s 10th annual meeting April 3.

KSA meeting explores collaboration in 2019

The keynote speaker of the Kendall Square Association’s annual meeting discussed technology’s effects on collaboration and power.

April 4, 2019

In the Therapeutic Technology Design and Development lab, Assistant Professor Ellen Roche uses her background in both mechanical engineering and biomedical engineering to develop novel medical devices.

Blending medicine and mechanical engineering

Assistant Professor Ellen Roche develops revolutionary medical devices through research at the crossroads of medical science and engineering.

December 4, 2018

Kerrie Greene’s work in the Saxe lab explores an area with many unknowns: infant and early childhood cognition, learning, and brain development.

Exploring unknowns in cancer, the human brain, and the road ahead

Double major Kerrie Greene builds connections in her research and her community.

November 18, 2018

Christopher Voigt, a professor of biological engineering, presents the latest research results for a J-WAFS-funded project that seeks to engineer cereal grains to produce their own fertilizer.

Collaboration runs through J-WAFS-funded projects

Researchers from across MIT showcase J-WAFS-funded projects tackling critical water and food systems challenges from solutions-oriented perspectives.

October 16, 2018

MIT News | Massachusetts Institute of Technology

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