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The American Institute for Medical and Biological Engineering (AIMBE) is a non-profit organization headquartered in Washington, D.C., representing the most accomplished individuals in the fields of medical and biological engineering.

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The College of Fellows consists of almost 3,000 individuals who are the outstanding leaders, engineers, entrepreneurs, and innovators in medical and biological engineering

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Fellows are nominated each year by their peers and represent the top 2% of the medical and biological engineering community

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The companies and key corporate leaders of the bioengineering revolution are represented in AIMBE

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Achieving greater diversity and inclusion within AIMBE, and providing leadership training and greater opportunities to minorities in MBE.

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Pierre Galletti Award
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In recognition of outstanding commitment to Mentoring, Diversity, Equity, and Inclusion, Leadership, and/or Education
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The Milestones of Innovation highlight some of the greatest accomplishments in medical and biological engineering.

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AIMBE Public Policy Institute
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College of Fellows
Fellows are nominated each year by their peers and represent the top 2% of the medical and biological engineering community

Emerging Leaders
Each year, AIMBE will select ~20 emerging leaders who will be recognized during AIMBE’s Annual Meeting.

Home » Fellow Books » Fellowbook News » A noninvasive test to detect cancer cells and pinpoint their location

Fellowbook News

College Of Fellows

A noninvasive test to detect cancer cells and pinpoint their location

Most of the tests that doctors use to diagnose cancer — such as mammography, colonoscopy, and CT scans — are based on imaging. More recently, researchers have also developed molecular diagnostics that can detect specific cancer-associated molecules that circulate in bodily fluids like blood or urine.

MIT engineers have now created a new diagnostic nanoparticle that combines both of these features: It can reveal the presence of cancerous proteins through a urine test, and it functions as an imaging agent, pinpointing the tumor location. In principle, this diagnostic could be used to detect cancer anywhere in the body, including tumors that have metastasized from their original locations… Continue reading.

More News from Sangeeta N. Bhatia, MD, Ph.D.

Sangeeta N. Bhatia, MD, Ph.D.

Synthetic Biology and Tissue Engineering Grow Liver Tissue In-Body

Damage to the liver in patients developing end-stage liver disease has become too severe for the organ’s normally extraordinary regenerative capacity to repair or compensate for that damage. Once this point of no return has been reached the only option...

Sangeeta N. Bhatia, MD, Ph.D.

Circadian rhythms can influence drugs’ effectiveness

MIT researchers find circadian variations in liver function play an important role in how drugs are broken down in the body. Giving drugs at different times of day could significantly affect how they are metabolized in the liver, according to a new study...

Sangeeta N. Bhatia, MD, Ph.D.

Inhalable sensors could enable early lung cancer detection

The diagnostic, which requires only a simple urine test to read the results, could make lung cancer screening more accessible worldwide. Using a new technology developed at MIT, diagnosing lung cancer could become as easy as inhaling nanoparticle sensors...

Sangeeta N. Bhatia, MD, Ph.D.

CRISPR-Cas-amplified urinary biomarkers for multiplexed and portable cancer diagnostics

Synthetic biomarkers, bioengineered sensors that generate molecular reporters in diseased microenvironments, represent an emerging paradigm in precision diagnostics. Despite the utility of DNA barcodes as a multiplexing tool, their susceptibility to nucleases...

Sangeeta N. Bhatia, MD, Ph.D.

Tissue model reveals key players in liver regeneration

By tracing the steps of liver regrowth, MIT engineers hope to harness the liver’s regenerative abilities to help treat chronic disease. The human liver has amazing regeneration capabilities: Even if up to 70 percent of it is removed, the remaining tissue...

Fellowbook News

A noninvasive test to detect cancer cells and pinpoint their location

More News from Sangeeta N. Bhatia, MD, Ph.D.

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