Wei Gao

🚀 Stressomic: A wearable microfluidic biosensor for dynamic profiling of multiple stress hormones in sweat — tracking cortisol, epinephrine & norepinephrine in real time for deeper insights into stress.
Congratulations to @weigaolab.bsky.social and the entire Caltech team! #WearableTech

Stressomic: A wearable microfluidic biosensor for dynamic profiling of multiple stress hormones in sweat A wearable sensor enables dynamic and noninvasive monitoring of multiple stress hormones to personalize stress management.

A wearable sensor that measures multiple hormones simultaneously in sweat to provide continuous real-time metrics and dynamics of stress
www.science.org/doi/10.1126/...

💊A mini smart capsule from @caltech.edu tracks serotonin, glucose, pH & more inside the gut—live.
Real-time biochemical profiling for GI & brain health just became reality.
Published in @natureportfolio.nature.com
👏 Huge credit to @weigaolab.bsky.social and the entire team!

#MedTech #Wearables

Continuous biochemical profiling of the gastrointestinal tract using an integrated smart capsule - Nature Electronics An integrated smart capsule that encapsulates an array of electrochemical sensors can provide real-time, continuous and multiplexed monitoring of the gastrointestinal tract.

New in Nature Electronics, we present an ingestible smart capsule capable of simultaneously monitoring a broad spectrum of biochemical markers—including electrolytes, metabolites, and hormones. Congrats to the team!
@caltech.edu @natureportfolio.nature.com
www.nature.com/articles/s41...

A @weigaolab.bsky.social study presents a novel imaging-guided in-vivo 3D printing platform that enables noninvasive deposition of biomaterials via focused ultrasound. This deep-tissue printing could have applications in drug delivery and tissue repair. www.science.org/doi/10.1126/... 🧪

One step closer to 3D printing inside the body What if doctors could precisely print miniature capsules capable of delivering cells needed for tissue repair exactly where they are needed inside a beating heart?

A team of scientists led by @weigaolab.bsky.social from 🇺🇸 @caltech.edu has developed a method for #3Dprinting polymers at specific locations deep within the body of living animals.

And Now for Some Fun Future I feel like I’ve been writing a lot about futures I was pretty worried about, so I’m pleased to have a couple developments to talk about…

Amidst all the gloom and doom in the world, there are still new technologies that give me hope for the future - such as #FaceAge from @massgeneralbrigham.bsky.social and "3D printing in vivo using ultrasound" from @caltech.edu

H/T @weigaolab.bsky.social

kimbellard.medium.com/and-now-for-...

Imaging-guided deep tissue in vivo sound printing Three-dimensional printing offers promise for patient-specific implants and therapies but is often limited by the need for invasive surgical procedures. To address this, we developed an imaging-guided...

Focused ultrasound cross-links functional biomaterials within deep tissues to enable on-demand in vivo printing of implants, demonstrating potential for a wide range of biomedical applications #NBThighlight www.science.org/doi/10.1126/...

Imaging-guided deep tissue in vivo sound printing Three-dimensional printing offers promise for patient-specific implants and therapies but is often limited by the need for invasive surgical procedures. To address this, we developed an imaging-guided...

New in @science.org, we present DISP—an imaging guided deep-tissue in vivo sound printing platform that allows spatiotemporally controlled printing of diverse biomaterials. Congrats to Emma and the team!
@caltech.edu @pswnano.bsky.social
www.science.org/doi/10.1126/...

A screen capture of the AIMBE advocacy webpage with 3 advocacy letters outlined in red boxes: STEM Training Pipeline, NIH & NSF Indirect Cost Caps, and FY26 Funding.

🚨 AIMBE is calling on the biomedical research community to take a minute to send our 3 new advocacy letters urging Congress to:

1. Protect the STEM Training Pipeline (e.g., NIH MOSAIC, T32s, MARC, etc.)

2. Oppose Indirect Cost Caps

3. Support Research Funding in FY2026

aimbe.org/advocate/wri...

Had a great time at MRS with our amazing team and so many friends! Congratulations to Wenzheng for receiving the MRS Graduate Student Award (Gold Award) - well deserved🏅👏!! @caltech.edu #S25MRS #ProudAdvisor

Printable molecule-selective core–shell nanoparticles for wearable and implantable sensing - Nature Materials Current wearable and implantable biosensors still face challenges to improve sensitivity, stability and scalability. Here the authors report inkjet-printable, mass-producible core–shell nanoparticle-b...

In our recent work at Nature Materials, we presented printable core–shell nanoparticles with built-in target recognition and signal transduction functionalities for wearable and implantable sensing. @caltech.edu
www.nature.com/articles/s41...